Затрудняетесь с выбором?
Оставьте ваш телефон, и наш специалист перезвонит вам

Артикул: RX7502

Все товары Bosch Rexroth

Pump safety block DBA...2X

Доступно к заказу

Цена по запросу

Получи КП от 5 лучших поставщиков
С указанием цены, наличия, сроков поставки и скидок.
И выбери подходящего.

Description

  • Size 16 … 32
  • Component series 2X
  • Maximum operating pressure 350 bar
  • Maximum flow 400 l/min

Features

  • Zero-pressure start-up and circulation of the pump
  • Intended for direct mounting onto the SAE pressure port of the pump
  • Low circulation pressure due to short distance
  • Low compression volume for soft switching to depressurized circulation
  • Quick pressure build-up
  • Low noise level due to direct flange mounting at the pump
  • CE conformity according to the Low-Voltage Directive 2014/35/EU for electrical voltages >50 VAC or >75VDC
  • Solenoid coil as approved component with UR marking according to UL 906, edition 1982, optional

Product description

General

Pump safety blocks type DBA are pilot-operated pressure relief valves which are integrated into a block and intended to be mounted directly onto SAE pressure ports of pumps.

It is used for limiting (type DBA) the operating pressure.

Pump safety blocks generally consist of valve block (1) and pressure limitation screw-in cartridge valve type DB 20 K (2) (data sheet 25818). Optionally, a pressure switch type HED 8 (3) (data sheet 50061) can be installed on the valve block.

The valve housing is equipped with a port P for hydraulic fluid input and port P1 for hydraulic fluid output. In a branch of the through connection between these two ports, the pressure limitation screw-in cartridge valve can be found. By opening this valve, a connection to port T (tank line) is established.

At the standard model, connection diagram NG6 is covered with the cover plate (4). The pressure in the through connection (P - P1) has an effect on the main control spool (5) of the pressure limitation screw-in cartridge valve.

Via the nozzle bores (6 and 7), the pressure is at the same time applied to the poppet (8). If the pressure in port P exceeds the value set at spring (9), the poppet (8) opens against the spring (9).

Via the nozzle bores (6 and 7), the hydraulic fluid from channel P flows into the spring chamber (10) and is here internally directed via the control line (11) into the tank.

Due to the state of equilibrium at the main control spool (5), hydraulic fluid flows from channel P to channel T, maintaining the set operating pressure.

A pressure gauge connection (12) allows for the control of the operating pressure.

Pump safety block type DBA…D (with pressure switch)

The use of an electrical pressure switch type HED 8 (3) (data sheet 50061) enables activation and deactivation of an electric circuit via the control line (13).

In basic design, the control line (13) is closed with a plug screw (14).

Notice:

The pressure gauge connection M and tank port T are illustrated with an offset of 90°.

Type code

01

02

03

04

05

06

07

08

09

10

11

12

13

14

15

16

17

18

19

DBA

2X

/

K4

01

Pump safety block

DBA

02

Without directional valve

no code

03

Size 16

15 ◇

Size 25

25 ◇

Size 32

30 ◇

04

Without directional valve

no code

Type of connection / SAE flange

1)

05

Standard flange (250 … 350 bar)

F ◇

High-pressure flange (350 bar)

H ◇

Adjustment type for pressure adjustment

2)

06

Rotary knob

1

Sleeve with hexagon and protective cap

2 ◇

Lockable rotary knob with scale

3 3)

Rotary knob with scale

7

07

Without pressure switch

With mounted pressure switch type HED 8 OH… (connector according to DIN EN 175301-803, without mating connector), (data sheet 50061)

D 4)

08

Component series 20 … 29 (20 … 29: unchanged installation and connection dimensions)

2X

Pressure rating

5)

09

Set pressure up to 50 bar

50

Set pressure up to 100 bar

100

Set pressure up to 200 bar

200 ◇

Set pressure up to 250 bar

(only NG32 and standard flange "F")

250

Set pressure up to 315 bar

315

Set pressure up to 350 bar

350

10

Without additional pressure relief valve

no code

11

Standard version

no code ◇

Valve for minimum cracking pressure

U

12

Without directional valve

no code

13

Without manual override

no code

Electrical connection

14

Without mating connector; connector DIN EN 175301-803

K4 4)

Interface electronics

15

Without electronics

no code

Nozzle fitting

16

Fixed pumps

Lateral channel closed, transverse channel open, pilot oil bore open; (standard for displacement pumps; pure DB-/DBW function)

no code ◇

Variable displacement pumps

Lateral channel closed, transverse channel open, pilot oil bore closed (e.g. for axial piston variable displacement pump type A4VSO140 with DRG controller)

A00

Nozzle Ø0.8 mm in lateral channel, transverse channel open; pilot oil bore closed (standard for control pumps with DFR1 or DFLR controller)

A08 5)

Nozzle Ø1.0 mm in lateral channel, transverse channel open; pilot oil bore closed (for nozzle fitting of the block, refer to the circuit examples)

A10 5)

Seal material (observe compatibility of seals with hydraulic fluid used, see "Technical data")

17

NBR seals

no code ◇

FKM seals

V

Type-examination procedure

18

Without type-examination procedure

no code ◇

Type-examination tested safety valve according to Pressure Equipment Directive 2014/68/EU

E

19

Standard solenoid coil

no code ◇

1)Please observe pressure ratings and connection dimensions.
2)Adjustment type for pressure switch type HED 8 in brackets.
3)H-Key with material no. R900008158 is included in the scope of delivery.
4)Mating connectors, separate order, see "Accessories"
5)If used on variable displacement pumps with DFLR controllers, the nozzle at port X of the pump control must be removed.

Notice:

◊ = Preferred type

Type-examination tested safety valve type DBA…E

(Component series 2X, according to the Pressure Equipment Directive 2014/68/EU)

Size

Type designation

Component marking

Maximum admissible flow qVmax in l/min with pilot oil return

Set response overpressure p in bar

16

TÜV.SV.▢‒1001.14,4.F.G.p

60

100

150

200

250

30 … 60

61 … 110

111 … 210

211 … 315

316 … 350

25

TÜV.SV.▢‒1001.14,4.F.G.p

70

100

150

200

300

30 … 60

61 … 110

111 … 210

211 … 315

316 … 350

32

TÜV.SV.▢‒1001.14,4.F.G.p

70

100

150

200

300

30 … 60

61 … 110

111 … 210

211 … 315

316 … 350

▢ Information is entered at the factory

Type of connection / SAE flange

2

Standard flange (250 bar)

F

High-pressure flange (350 bar)

H

Adjustment type for pressure adjustment

3

Hand wheel (pressure adjustment sealed, unloading or setting of a lower response pressure possible!)

1

With sealed protective cap (no adjustment/unloading possible)

2

4

With mounted pressure switch type HED 8 OH… (without mating connector)

D

Without pressure switch

5

Pressure in the designation is to be entered by the customer, pressure adjustment ≥ 30 ... 350 bar and possible in 5 bar steps.

z. B. 150

2nd/3rd pressure limiting function (see circuit examples)

6

Without additional pressure relief valve

no code

Seal material

7

NBR seals

no code

FKM seals

V

Technical data

general

Size

162532

Earth

with SAE flange

"F""H""F""H""F""H"

Pump safety block

DBA...

kg

5.45.35.46

Pressure switches

HED 8

kg

0.8

Installation position

any

Ambient temperature range

NBR seals

°C

-30 … +80

FKM seals

°C

-15 … +80

Conformity

CE according to Low-Voltage Directive 2014/35/EU checked according to EN 60204-1:2006-01 and DIN VDE 0580, classified as component.

hydraulic

Size

162532

Maximum operating pressure

Port P

bar

350

Maximum counter pressure

Port T

bar

250

Minimum set pressure

flow-dependent, see "characteristic curves"

Maximum set pressure

bar

50
100
200
250
315
350

Maximum flow

l/min

300400

Hydraulic fluid

see table "Hydraulic fluid"

Hydraulic fluid temperature range

NBR seals

°C

-30 … +80

FKM seals

°C

-20 … +80

Viscosity range

mm²/s

10 … 800

Maximum admissible degree of contamination of the hydraulic fluid, cleanliness class according to ISO 4406 (c) 1)

Class 20/18/15
1)The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components.

Hydraulic fluid

Classification

Suitable sealing materials

Standards

Data sheet

Mineral oils

HL, HLP

NBR, FKM

DIN 51524

90220

Bio-degradable

Insoluble in water

HETG

FKM

ISO 15380

90221

HEES

FKM

Soluble in water

HEPG

FKM

ISO 15380

Flame-resistant

Water-free

HFDU (glycol base)

FKM

ISO 12922

90222

HFDU (ester base)

FKM

HFDR

FKM

Containing water

HFC (Fuchs: Hydrotherm 46M, Renosafe 500;
Petrofer: Ultra Safe 620;
Houghton: Safe 620;
Union: Carbide HP5046)

NBR

ISO 12922

90223

Important information on hydraulic fluids:

  • For more information and data on the use of other hydraulicfluids, please refer to the data sheets above or contact us.
  • There may be limitations regarding the technical valve data (temperature, pressure range, life cycle, maintenance intervals, etc.).
  • The ignition temperature of the hydraulic fluid used must be 50 K higher than the maximum surface temperature.
  • Bio-degradable and flame-resistant – containing water: If components with galvanic zinc coating (e.g. version "J3" or "J5") or parts containing zinc are used, small amounts of dissolved zinc may get into the hydraulic system and cause accelerated aging of the hydraulic fluid. Zinc soap may form as a chemical reaction product, which may clog filters, nozzles and solenoid valves - particularly in connection with local heat input.
  • Flame-resistant – containing water:
    • Due to increased cavitation tendency with HFC hydraulic fluids, the life cycle of the component may be reduced by up to 30% as compared to the use with mineral oil HLP. In order to reduce the cavitation effect, it is recommended - if possible specific to the installation - to back up the return flow pressure in ports T to approx. 20% of the pressure differential at the component.
    • Dependent on the hydraulic fluid used, the maximum ambient and hydraulic fluid temperature must not exceed 50 °C. In order to reduce the heat input into the component, a maximum duty cycle of 50% in continuous operation has to be set for on/off valves (measuring period 300 s). If this is not possible due to the function, an energy-reducing control of these components is recommended, e.g. via a PWM plug-in amplifier.
    • Dependent on the hydraulic fluid used, the maximum ambient and hydraulic fluid temperature must not exceed 50 °C. In order to reduce the heat input into the component, the command value profile is to be adjusted for proportional and high-response valves.

Deviating technical data : Type-examination tested safety valve type DBA…E

(Component series 2X, according to the Pressure Equipment Directive 2014/68/EU)

hydraulic

Maximum flow

See ordering code, safety instructions and characteristic curves "Type-examination tested safety valve"

Hydraulic fluid

Mineral oil (HL, HLP) according to DIN 51524-1 and DIN 51524-2

Hydraulic fluid temperature range (= "TS")

°C

-10 … +80

Viscosity range

mm²/s

12 … 230

(For applications outside these values, please consult us!)

Diagrams/characteristic curves

(measured with HLP46, ϑOil = 40 ±5 °C)

Minimum set pressure and circulation pressure dependent on the flow

Standard version

Minimum set pressure and circulation pressure dependent on the flow

Version “U”

Inlet pressure dependent on the flow

Notices:

  • The characteristic curves apply to an output pressure pT =0 bar in the entire flow range.
  • The characteristic curves were measured with internal pilot oil return.
    Due to the internal pilot oil return, the inlet pressure increases by the output pressure present in port T.

Type-examination tested safety valve type DBA…E

(Component series 2X, according to the Pressure Equipment Directive 2014/68/EU)

Size 16

Maximum admissible flow qVmax dependent on the counter pressure pT in the discharge line

Characteristic curves for intermediate values can be generated by interpolation.

Characteristic curves

Response pressurepA in bar

1

30

2

60

3

65

4

110

5

115

6

210

7

215

8

315

9

320

10

350

pA

Response pressure in bar

pT

Maximum admissible counter pressure in the discharge line in bar (port T) (sum of all possible counter pressures; also see AD2000 data sheet A2)

pT max

10 % x pA (with qV = 0) according to PED 2014/68/EU

qV max

Maximum admissible flow in l/min

Determination of the maximum counter pressure

known:

Flow of the system/accumulator that has to be secured qVmax = 100 l/min

Set response pressure of the safety valve pA = 315 bar

unknown:

pTadmissible

Solution:

see arrows in diagram above

pT admissible (100 l/min; 315 bar) = 15.75 bar

Size 25 and 30

Maximum admissible flow qVmax dependent on the counter pressure pT in the discharge line

Characteristic curves for intermediate values can be generated by interpolation.

Characteristic curves

Response pressurepA in bar

1

30

2

60

3

65

4

110

5

115

6

210

7

215

8

315

9

320

10

350

pA

Response pressure in bar

pT

Maximum admissible counter pressure in the discharge line in bar (port T) (sum of all possible counter pressures; also see AD2000 data sheet A2)

pT max

10 % x pA (with qV = 0) according to PED 2014/68/EU

qV max

Maximum admissible flow in l/min

Symbols/Circuit diagrams

Circuit examples : Fixed pumps (selection)

Dimensions

Dimensions in mm

Required surface quality of the valve contact surface

1

Name plate

2

Cover plate type HSA 06 A001-3X… (data sheet 48042)

3

Port X for variable displacement pump type A10VSO (otherwise closed); G1/4

4

Internal hexagon SW6, tightening torque MA = 30 Nm (For tightening, a manual torque wrench with a tolerance of ≤10% must be used.)

5

Mating connector without circuitry (separate order)

6

Mating connector with circuitry (separate order)

7

Pressure switch type HED 8 OH… (data sheet 50061)

8

Adjustment type "1"

9

Adjustment type "2"

10

Adjustment type "3"

11

Adjustment type "7"

12

Hexagon SW10

13

Space required to remove the key

14

Space required to remove the mating connector

15

Seal ring

24

Hexagon SW30, tightening torque MA = 50 Nm (For tightening, a manual torque wrench with a tolerance ≤ 10 % must be used.)

25

Lock nut SW22, tightening torque MA = 10±5 Nm

28

Valve mounting bores

Standard flanges type DBA…F

NG

L1

L2

L3

B1

B2

B3

B4

B5

B6

H1

H2

H3

H4

H5

H6

ØD1

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

168811722.247.628.5458011010524472260378511
2588115.526.252.428.5458011010524472260378511
32108.5108.530.258.730.5478011010530472060418911.5

High-pressure flanges type DBA…H...

NG

L1

L2

L3

B1

B2

B3

B4

B5

B6

H1

H2

H3

H4

H5

H6

ØD1

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

mm

168811723.850.828.5458011010524472260378511
2584115.527.857.228.5458011010524472260378513
32108.5108.531.866.726529011510530502064418915

Standard flanges type DBA…F… according to ISO 6162-1

Size

Line connections

4 valve mounting screws ISO 4762 - 10.9

(Friction coefficient μtotal = 0.09 … 0.14)

Admissible pressures

P and P1

T

X, M

Material number

Tightening torque MA in Nm

bar

16

SAE 3/4″

G3/4

G1/4

M10 x 95

R913015585

52

350

25

SAE 1″

G1

G1/4

M10 x 95

R913015585

52

315

32

SAE 1 1/4″

G1 1/4

G1/4

M10 x 95

R913015585

52

250

High-pressure flanges type DBA…H… according to ISO 6162-2

Size

Line connections

4 valve mounting screws ISO 4762 - 10.9

(Friction coefficient μtotal = 0.09 … 0.14)

Admissible pressures

P and P1

T

X, M

Material number

Tightening torque MA in Nm

bar

16

SAE 3/4″

G3/4

G1/4

M10 x 95

R913015585

52

350

25

SAE 1″

G1

G1/4

M12 x 105

R913000659

66

350

32

SAE 1 1/4″

G1 1/4

G1/4

M14 x 105

R913000660

113

350

Notices:

  • For reasons of stability, exclusively the specified valve mounting screws may be used.
    Depending on the operating pressure, flange height and thread depth of the pump plate, other screw lengths may be necessary.
  • The specified tightening torques stated are guidelines when using screws with the specified friction coefficients and when using a manual torque wrench (tolerance ± 10%).

Information

Admissible pumps

Standard flange "F"

Pump safety block

NG16

NG25

NG32

Port P

Pump type

Data sheet

SAE 3/4"

SAE 1"

SAE 1 1/4"

Variable displacement pump

Type A10VO, series 31

92701

A10VO28

A10VO71

A10VO45

Type A10VO, series 5X

92703

A10VO28

A10VO45

A10VO60

Type A10VSO, series 31

92711

A10VO28

AV10SO18

A10VSO45

A10VSO71

Type A10VSO, series 32

92714

A10VSO71

Internal gear pump

Type PGF3, component series 3X

1)

10213

PGF3-3X/020

PGF3-3X/025

PGF3-3X/032

PGF3-3X/040

Type PGP3, component series 3X

1)

10231

PGP3-3X/032

Vane pump

2)

Type PV7, component series 1X

10515

PV7-1X/63-71

PV7-1X/63-94

1)When using the pump in combination with a SAE flange as pressure connection, the ordering code of the pump contains "..07..".
2)Depending on the drive motor, a distance plate may be required, e.g.
Height = 23 mm, material no. R900058716
or alternatively a 90° plate:
Height = 40 mm, material no. R900241813

High-pressure flange "H"

Pump safety block

NG16

NG25

NG32

Port P

Pump type

Data sheet

SAE 3/4"

SAE 1"

SAE 1 1/4"

Fixed displacement pump

Type A2FO, series 6

91401

A2FO45

A2FO56

A2FO63

A2FO80

A2FO90

A2FO107

A2FO125

A2FO160

A2FO180

A2FO200

A2FO250

Type A4FO, series 1

91455

A4FO71

Type A4FO, series 3

91455

A4FO16

A4FO22

A4FO40

A4FO125

Variable displacement pump

Type A4VSO, series 1

92050

A4VSO40

A4VSO71

Type A4VSO, series 3

92050

A4VSO125

A4VSO180

Type A11VO, series 1

92500

A11VO40

A11VO60

A11VO75

A11VO95

A11VO130 3)

A11VO145 3)

A11VLO130 2)

A11VLO145 2)

Type A10VSO, series 31

Type A10VSO, series 32

92711

92714

A10VSO100

A10VSO140

Type A10VO, series 31

92701

A10VO100

A10VO140

Type A10VO, series 5X

1)​

92703

A10VO85

Type A7VO, series 6

1)​

92202

A7VO28

A7VO55

A7VO80

A7VO107

A7VO160

92203

A7VO250

Adjustable double pump

Type A8VO, series 6X

93010

A8VO55

A8VO80

A8VO107

A8VO140

A8VO200

Internal gear pump

Type PGH4, PGH5, component series 2X

10223

PGH4-2X/020

PGH4-2X/025

PGH4-2X/032

PGH4-2X/040

PGH4-2X/050

PGH5-2X/063

PGH5-2X/080

PGH5-2X/100

PGH5-2X/125

Type PGH4, PGH5, component series 3X

10227

PGH4-3X/020

PGH4-3X/025

PGH4-3X/032

PGH4-3X/040

PGH4-3X/050

PGH5-3X/063

PGH5-3X/080

1)A direct pressure switch attachment opposite of the pressure limitation screw-in cartridge valve type DB 20 K is not possible.
2)With charging pump
3)Without charging pump

Accessories

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z4

Mating connectors for valves with connector “K4”, without circuitry, standard

3P Z4

  • For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector”
  • Mating connectors for valves with one or two solenoids (individual connection)

Mating connectors for valves with connector “K4”, with indicator light

3P Z5L

Mating connectors for valves with connector “K4”, with indicator light

3P Z5L

  • For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector”
  • Mating connectors for valves with one or two solenoids (individual connection)

Mating connectors for valves with connector “K4”, with indicator light and Zener diode suppression circuit

3P Z5L1

Mating connectors for valves with connector “K4”, with indicator light and Zener diode suppression circuit

3P Z5L1

  • For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector”
  • Mating connectors for valves with one or two solenoids (individual connection)

Mating connectors for valves with connector “K4”, with rectifier

3P RZ5

Mating connectors for valves with connector “K4”, with rectifier

3P RZ5

  • For valves with connector “K4” according to EN 175301-803 and ISO 4400, 2-pole + PE, “large cubic connector”
  • Mating connectors for valves with one or two solenoids (individual connection)

Mating connectors for mechanical pressure switches with connector “K14”, without circuitry, standard

4P Z14

Mating connectors for mechanical pressure switches with connector “K14”, without circuitry, standard

4P Z14

  • For mechanical pressure switches with connector “K14”, according to EN 175301-803 and ISO 4400, 3-pole + PE, “large cubic connector”

Mating connectors for mechanical pressure switches with connector “K14”, with indicator lights at connections 2 and 3

4P Z15L

Mating connectors for mechanical pressure switches with connector “K14”, with indicator lights at connections 2 and 3

4P Z15L

  • For mechanical pressure switches with connector “K14”, according to EN 175301-803 and ISO 4400, 3-pole + PE, “large cubic connector”

Safety Instructions

Type-examination tested safety valves, version "E"

(Component series 2X, according to the Pressure Equipment Directive 2014/68/EU)

  • Before ordering a type-examination tested safety valve, it must be ensured that at the desired response pressure p, the maximum admissible flow qVmax (= numerical value at the position of letter "G" in the component marking) of the safety valve is higher than the maximum possible flow of the system/accumulator to be secured. In this respect, the applicable regulations must be observed.
  • According to PED 2014/68/EU, the increase in the system pressure due to the flow must not exceed 10% of the set response pressure (see component marking).
  • The maximum admissible flow stated in the component marking qV max (= numerical value instead of the character "G" in the component marking) must not be exceeded.
  • Discharge lines of safety valves must end in a risk-free manner. The accumulation of fluids in the discharge lines must not be possible.
  • If a lead seal at the safety valve is removed, the approval according to the PED becomes void.
  • The requirements of the Pressure Equipment Directive and of data sheet AD2000 A2 must be observed.

Always observe application notes:

  • In the plant, the response pressure specified in the component marking is set with a flow of 11 l/min.
  • The maximum flow stated in the component marking applies for applications without counter pressure in the discharge line (port T).

Notice:

The system pressure increases by the counter pressure in the discharge line (port T) due to the increasing flow. (Observe the data sheet AD 2000 A 2, point 6.3!)

To ensure that this increase in system pressure caused by the flow does not exceed the value of 10% of the set response pressure, the admissible flow has to be reduced dependent on the counter pressure in the discharge line (port T) (see diagrams - Safety instructions, Type-examination tested safety valves).

Ordering codes

Downloads

Pump safety block
Data Sheet | RE25891 | 2021-08-01 | English, United States | PDF | 1.3MB

Product Groups: Pressure relief valves
Type DBA, DBAW, DBAE, DBAEE, DBAEA
Pump safety block
Manual | RE25891-B | 2021-10-01 | English | PDF | 986k

Product Groups: Industrial Hydraulics
Type DBA...2X/...E

Мы предлагаем следующие способы доставки товара:

Самовывоз из пункта выдачи

Самостоятельное получение заказа в пункте выдачи. Дата и время получения заранее согласуется с менеджером магазина.
Отгрузка товара юридическим лицам осуществляется только при наличии печати или правильно оформленной и заполненной доверенности, наличии паспорта получателя.


Курьерская доставка по Москве

Доставка по адресу покупателя или до пункта приема транспортной компании в г. Москве. Дата и время доставки заранее согласуется с менеджером магазина.

Доставка транспортной компанией по России

Доставка транспортной компанией по России до пункта выдачи транспортной компании или до конечного адреса покупателя. 
 

Для расчета коммерческого предложения или получения счета на поставку оборудования и программного обеспечения Bosch Rexroth оставьте заявку в форме ниже или свяжитесь с отделом продаж по телефону +7 495 137-07-02 или электронной почте sale@boschrexroth-russia.ru. Мы гарантируем оперативный ответ на ваш запрос и предоставление наилучших условий от официального поставщика Bosch Rexroth. 

Специалист по решениям Bosch Rexroth:

  • Окажет профессиональную консультацию.
  • Сообщит вашу цену на продукцию.
  • Сообщит информацию об актуальных акциях и скидках.
  • Подскажет ближайшее к вам отделение с наличием нужной продукции.
  • Согласует с вами возможную дату и время доставки.

Запрос цены или КП

Запрос цен, наличия или консультация
Пришлем актуальную информацию по ценам, скидкам, наличию товара на складе и срокам поставки
НовостиВсе новости
Bosh Rexort - аккумуляторы HAD оптимизируют энергосистемы

В мире гидропневматических систем появилась новинка, которая уже привлекла внимание специалистов. Гидропневматические аккумуляторы серии HAD демонстрируют инновационный подход к управлению энергией и стабилизации давления в различных системах, как мобильных, так и стационарных. Высокая эффективно..

23 Августа, 2024
Bosh Rexort представило двухходовой патронный клапан!

Двухходовой патронный клапан с активным управлением LC2A Bosch Rexroth представляет собой прецизионное гидравлическое устройство, разработанное для контроля и регулирования потока рабочей жидкости в системах гидравлики. Этот клапан работает по принципу двухпозиционного управления потоком, обеспечива..

17 Июля, 2024
Bosch Rexroth - надежный партнер для вашего бизнеса в области гидравлики!

Компания Bosch Rexroth предлагает широкий спектр продукции, включая гидронасосы, гидромоторы, гидроклапана, гидроцилиндры, пневмоцилиндры, клапаны, регуляторы, датчики и многое другое. Благодаря высокому качеству продукции и многолетнему опыту работы в отрасли, Bosch Rexroth является предпочтит..

20 Июня, 2024
Как правильно выбрать насос от BOSCH REXROTH?

В мире мобильной и промышленной гидравлики, где надежность и качество стоят на первом месте, насосы Bosch Rexroth выделяются как эталон долговечности и технического совершенства. Эти изделия, зарекомендовавшие себя в России и за её пределами, стали символом немецкого качества и профессионального под..

30 Мая, 2024
Bosch Rexroth – гидравлические шестерённые насосы серии AZPF

Гидравлические шестерённые насосы серии AZPF - это оборудование, которое обеспечивает преобразование механической энергии в гидравлическую с высоким КПД. Они обладают длительным сроком службы благодаря уплотнению зазоров и высокоточной технологии производства. Приводные валы в соответствии с межд..

8 Апреля, 2024
Bosch Rexroth на выставке LogiMAT

На выставке LogiMAT компания Bosch Rexroth представила передовые компоненты, подсистемы и системные решения для автоматизации и оптимизации логистики. Среди предложений компании - практические решения для трансмиссии и рабочих функций промышленных грузовиков и автономных мобильных роботов (AMR), вкл..

22 Марта, 2024
Bosch Rexroth открывает новые возможности в управлении машинами и подключении к IoT

Bosch Rexroth предлагает одну из самых производительных систем ЧПУ на рынке. Компания является лидером в области автоматизации и устанавливают стандарты в этой области. От датчиков и сервоприводов до революционной новой платформы, Bosch Rexroth предлагает широкий спектр решений для автоматизации. ..

16 Февраля, 2024
Bosch Rexroth и TotalEnergies объединяют свои усилия для продвижения альтернативных и экологичных гидравлических жидкостей

Bosch Rexroth и TotalEnergies (французская нефтегазовая компания) 18 декабря 2023 года подписали соглашение сотрудничестве, направленном на разработку, внедрение и маркетинг гидравлических жидкостей на водной основе, с акцентом на экологичность, огнестойкость и производительность. Данный союз отр..

11 Января, 2024
Bosch Rexroth представляет Интеллектуальный функциональный набор для обработки данных Smart Function Kit for Handling

Компания Bosch Rexroth является одним из ведущих мировых производителей и поставщиков технологий и услуг в области промышленной автоматизации. Это производитель рад представить вам свой интеллектуальный функциональный набор для обработки данных. Это инновационное оборудование, с помощью которого п..

4 Декабря, 2023
Бренд Bosch Rexroth представил миру свою разработку - оборудование IndraDrive CDB02 - BASIC для двухосевого блока управления

Bosch Rexroth, являясь ведущим производителем промышленного оборудования, не стоит на месте и разрабатывает новое оборудование. Одним из изобретений этой компании является IndraDrive CDB02 - BASIC. Это двухосевой блок управления, который предназначен для использования в различных промышленных сект..

1 Декабря, 2023
Bosch Rexroth: высокоскоростной асинхронный двигатель 1MB140 

Производитель Bosch Rexroth представил свою разработку - высокоскоростной асинхронный двигатель 1MB140. Этот продукт обладает рядом уникальных характеристик и предназначен для различных применений в промышленности. Основным назначением двигателя 1MB140 является обеспечение высокой скорости вращ..

30 Ноября, 2023
Bosch Rexroth рассказывает о характеристиках электрогидравлических насосов

Bosch Rexroth представляет электрогидравлические насосы, которые объединяют в себе преимущества электрической и гидравлической технологий. Данные насосы могут использоваться в различных отраслях промышленности, включая машиностроении, автомобильной промышленности, энергетике и других. Основная ..

29 Ноября, 2023

Нет отзывов об этом товаре.

Написать отзыв

Рейтинг