For Parker PV040 axial plunger hydraulic pump

SERIES : PV

BRAND : For Rexroth

Model Size :PV040

Displacement : 40cm3/rev

Speed : 2800rpm

Maximum Pressure : 420bar

Nominal Pressure : 350bar

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Product Details
Product Model
FAQ

The Parker PV040 is a robust variable displacement axial piston pump designed for medium-pressure hydraulic applications. It belongs to the reliable PV series, known for quiet operation and durability.

Key Features & Design:
Its core design utilizes an axial piston arrangement with a rotating cylinder block. Pistons reciprocate within the block, driven by a fixed-angle swash plate, creating a smooth, continuous flow. The PV040 designation typically indicates a nominal displacement of 40 cm³/rev (approximately 2.44 in³/rev). It commonly operates at speeds up to 3000 RPM and provides pressures up to 250-280 bar (≈3600-4000 psi) continuous, with higher peaks possible.

Performance & Construction:
Built for efficiency, it incorporates precision-machined components like bronze valve plates and pistons running in hydrostatic bearings, reducing friction and noise. The pump is engineered for excellent suction characteristics, minimizing cavitation risk. Its sturdy construction, including a cast-iron housing, ensures reliable performance in industrial environments.

Typical Applications:
This pump is versatile, commonly used to power machine tools, plastic injection molding machines, presses, and various mobile or industrial machinery requiring a steady hydraulic power source. It is often paired with a relief or directional valve for complete system control.

Summary:
In essence, the Parker PV040 is a compact, efficient, and dependable workhorse pump, delivering consistent hydraulic power for a wide range of medium-duty systems, balancing performance with Parker's hallmark quality and durability.

Specifications

		PV016	PV020	PV023	PV028	PV032	PV040	PV046	PV063	PV080	PV092	PV140	PV180	PV270	PV360
Frame size		1	1	1	1	2	2	2	3	3	3	4	4	5	5
Max. Displacement	[cm³/rev.]	16	20	23	28	32	40	46	63	80	92	140	180	270	360
Output flow at 1500 rpm	[l/min]	24	30	34.5	42	48	60	69	94.5	120	138	270	405	405	540
Nominal pressure pN	[bar]	350	350	350	350	350	350	350	350	350	350	350	350	350	350
Max. pressure pmax at 20% working cycle	[bar]	420	420	420	420	420	420	420	420	420	420	420	420	420	420
Case drain pressure, continuous	[bar]	0.5	0.5	0.5	0.5	0.5	0.5	0.55	0.5	0.5	0.5	0.5	0.5	0.5	0.5
Case drain pressure, max. peak	[bar]	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0	2.0
Min. Inlet pressure, abs.	[bar]	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8
Max. Inlet pressure	[bar]	16	16	16	16	16	16	16	16	16	16	16	16	16	16
Input power at 1500 rpm and 350 bar	[kW]	15.5	19.5	22.5	27.5	31	39	45	61.5	78	89.5	136	175	263	350
Max speed at 1 bar, abs, inlet pressure	[rpm]	3000	3000	3000	3000	2800	2800	2800	2800	2500	2300	2400	2200	1800	1750
Moment of inertia	[kgm²]	0.0017	0.0017	0.0017	0.0017	0.0043	0.0043	0.0043	0.018	0.018	0.018	0.030	0.030	0.098	0.103
Weight	[kg]	19	19	19	19	30	30	30	59	59	59	90	90	172	180

Selection Table

PV040 axial piston hydraulic pump

Model Code

PV040L1D3T1NMMC

PV040L1E1T1NKCC

PV040L1E1T1NMMC

PV040L1E1T1NMRC

PV040L1E3T1VMFC

PV040L1K1T1NFWS

PV040L1K1T1NMFC

PV040L1K1T1NMFC4747

PV040L1K1T1NMM1

PV040L1K1T1NMMC

PV040L1K8T1V001

PV040L1L1T1NFWS

PV040L1L1T1NMFC

PV040L1L1T1NMFZ

PV040L9L1T1NMFC

PV040R1D1T1EMLA

PV040R1D1T1N100

PV040R1D1T1NGCC

PV040R1D1T1NML1

PV040R1D1T1NMMC

PV040R1D1T1NMMC4747

PV040R1D1T1VMMC

PV040R1D3A1NMR1

PV040R1D3AYNMCC

PV040R1D3AYNMFC

PV040R1D3AYNMR1

PV040R1D3B1NFDS

PV040R1D3BBNFPV

PV040R1D3BBNMMC

PV040R1D3BBNMMW

PV040R1D3BBNMRZ

PV040R1D3BCNEL1

PV040R1D3T1NDLC

PV040R1D3T1NELC

PV040R1D3T1NMF1

PV040R1D3T1NMFC

PV040R1D3T1NMFC4747

PV040R1D3T1NMMC

PV040R1D3T1NMMW

PV040R1D3T1NMR1

PV040R1D3T1NUPG

PV040R1D3T1NUPP

PV040R1D3T1VMFZ

PV040R1D3T1VMMC

PV040R1D3T1VMMC4747

PV040R1D3T1VMRC

PV040R1D3T1VMRZ

PV040R1D8T1N001

PV040R1E1CDNMR1

PV040R1E1CDWUPR

PV040R1E1T1NGCC

PV040R1E1T1NMFC

PV040R1E1T1NMRC

PV040R1E1T1NUPR

PV040R1E1T1WUPR

PV040R1E3BBNMFC

PV040R1E3BCNMFC

PV040R1E3BCNMMZ

PV040R1E3C1NFR1

PV040R1E3T1NHCC

PV040R1E3T1NHCC4747

PV040R1E3T1NKLC

PV040R1E3T1NMFC

PV040R1E3T1NMMC

PV040R1E3T1NMMC4747

PV040R1E3T1NMRC

PV040R1E3T1VMMC

PV040R1E3T1VMRC

PV040R1K1A1N001

PV040R1K1A1NECC

PV040R1K1A1NFR1

PV040R1K1A1NFRC

PV040R1K1A1NGCC

PV040R1K1A1NHCC

PV040R1K1A1NMR1

PV040R1K1A1WMRC

PV040R1K1A4NFDS

PV040R1K1A4NFRZ

PV040R1K1AYNECC

PV040R1K1AYNHL1

PV040R1K1AYNHLZ

PV040R1K1AYNMFC

PV040R1K1AYNMFZ

PV040R1K1AYNML1

PV040R1K1AYNMM1

PV040R1K1AYNMMC

PV040R1K1AYNMMZ

PV040R1K1AYNMR1

PV040R1K1AYNMRC

PV040R1K1AYNMRD

PV040R1K1AYNMRZ

PV040R1K1AYNUPR

PV040R1K1B1NUPR

PV040R1K1BBN100

PV040R1K1BBNMFC

PV040R1K1BBNMM1

PV040R1K1BBNMMC

PV040R1K1BBNMML

PV040R1K1BBNMRL

PV040R1K1BBVMRC

PV040R1K1BCNMR1

PV040R1K1C1NMRC

PV040R1K1GHNMMC

PV040R1K1J3NFWS

PV040R1K1JHNMMC

PV040R1K1K1N001

PV040R1K1K1VFFC

PV040R1K1KJN100

PV040R1K1KJNGLC

PV040R1K1KJNMMC

PV040R1K1KJNMMC4747

PV040R1K1KJNMR1

PV040R1K1KJNUPR

PV040R1K1S1NFWS

PV040R1K1T1N001

PV040R1K1T1N100

PV040R1K1T1NDC1

PV040R1K1T1NDC14747

PV040R1K1T1NDCC

PV040R1K1T1NDCC4747

PV040R1K1T1NDCK

PV040R1K1T1NDLB

PV040R1K1T1NDLB4747

PV040R1K1T1NDLC

PV040R1K1T1NDLC4747

PV040R1K1T1NEC1

PV040R1K1T1NECC

PV040R1K1T1NEL1

PV040R1K1T1NEL14747

PV040R1K1T1NELA

PV040R1K1T1NELC

PV040R1K1T1NELW

PV040R1K1T1NELZ

PV040R1K1T1NFDS

PV040R1K1T1NFDV

PV040R1K1T1NFF1

PV040R1K1T1NFFC

PV040R1K1T1NFFP

PV040R1K1T1NFHS

PV040R1K1T1NFPR

PV040R1K1T1NFPS

PV040R1K1T1NFPV

PV040R1K1T1NFR1

PV040R1K1T1NFRC

PV040R1K1T1NFRZ

PV040R1K1T1NFT1

PV040R1K1T1NFWS

PV040R1K1T1NGC1

PV040R1K1T1NGC14747

PV040R1K1T1NGCC

PV040R1K1T1NGCC4747

PV040R1K1T1NGCZ

PV040R1K1T1NGL1

PV040R1K1T1NGL14747

PV040R1K1T1NGLC

PV040R1K1T1NGLC4747

PV040R1K1T1NGLK

PV040R1K1T1NGLW

PV040R1K1T1NGLZ

PV040R1K1T1NHC1

PV040R1K1T1NHCC

PV040R1K1T1NHCW

PV040R1K1T1NHL1

PV040R1K1T1NHLB

PV040R1K1T1NHLC

PV040R1K1T1NHLK

PV040R1K1T1NHLW

PV040R1K1T1NKC1

PV040R1K1T1NKCC

PV040R1K1T1NKCC4747

PV040R1K1T1NKL1

PV040R1K1T1NKLA

PV040R1K1T1NKLC

PV040R1K1T1NKLW

PV040R1K1T1NMCC

PV040R1K1T1NMCC4747

PV040R1K1T1NMF1

PV040R1K1T1NMF14747

PV040R1K1T1NMFB

PV040R1K1T1NMFB4747

PV040R1K1T1NMFC

PV040R1K1T1NMFC4747

PV040R1K1T1NMFK

PV040R1K1T1NMFW

PV040R1K1T1NMFZ

PV040R1K1T1NML1

PV040R1K1T1NMLC

PV040R1K1T1NMLC4747

PV040R1K1T1NMLW

PV040R1K1T1NMM1

PV040R1K1T1NMM14747

PV040R1K1T1NMMC

PV040R1K1T1NMMC4747

PV040R1K1T1NMMK

PV040R1K1T1NMML

PV040R1K1T1NMMW

PV040R1K1T1NMMW4747

PV040R1K1T1NMMZ

PV040R1K1T1NMMZ4747

PV040R1K1T1NMR1

PV040R1K1T1NMR14747

PV040R1K1T1NMRC

PV040R1K1T1NMRC4747

PV040R1K1T1NMRK

PV040R1K1T1NMRZ

PV040R1K1T1NMT1

PV040R1K1T1NSCC

PV040R1K1T1NSL1

PV040R1K1T1NSLC

PV040R1K1T1NUDM

PV040R1K1T1NUPD

PV040R1K1T1NUPG

PV040R1K1T1NUPM

PV040R1K1T1NUPR

PV040R1K1T1V001

PV040R1K1T1VFDS

PV040R1K1T1VFRC

PV040R1K1T1VGCZ

PV040R1K1T1VGCZ4747

PV040R1K1T1VMF1

PV040R1K1T1VMFC

PV040R1K1T1VMM1

PV040R1K1T1VMM14747

PV040R1K1T1VMMC

PV040R1K1T1VMMC4747

PV040R1K1T1VMR1

PV040R1K1T1VMRC

PV040R1K1T1VUPZ

PV040R1K1T1WDC1

PV040R1K1T1WDCC

PV040R1K1T1WELW

PV040R1K1T1WFDS

PV040R1K1T1WFR1

PV040R1K1T1WHLC

PV040R1K1T1WMFC

PV040R1K1T1WMM1

PV040R1K1T1WMMC

PV040R1K1T1WMMC4747

PV040R1K1T1WMMW

PV040R1K1T1WMMW4747

PV040R1K1T1WMR1

PV040R1K1T1WMRC

PV040R1K1T1WMRC4747

PV040R1K1T1WUPR

PV040R1K4T1NFHS

PV040R1K4T1NFR1

PV040R1K4T1NMMC

PV040R1K4T1NMR1

PV040R1K8T1N001

PV040R1K8T1NFWS

PV040R1K8T1NMMC

PV040R1K8T1VMMC

PV040R1L1A1N001

PV040R1L1AYNHCC

PV040R1L1AYNMMC

PV040R1L1AYVUPR

PV040R1L1BBNMRC

PV040R1L1K1NUPM

PV040R1L1KJNMMC

PV040R1L1KJNMR1

PV040R1L1T1N001

PV040R1L1T1NDCC

PV040R1L1T1NELC

PV040R1L1T1NFDS

PV040R1L1T1NGLC

PV040R1L1T1NHCC

PV040R1L1T1NMFB

PV040R1L1T1NMFC

PV040R1L1T1NMFC4747

PV040R1L1T1NMM1

PV040R1L1T1NMMC

PV040R1L1T1NMMW

PV040R1L1T1NMMZ

PV040R1L1T1NMR1

PV040R1L1T1NSC1

PV040R1L1T1WMMC

PV040R1L1T1WUPR

PV040R1L8T1NMRC

PV040R2K1T1N001

PV040R2K1T1NMMK

PV040R2L1T1N001

PV040R4D3T1VUDM

PV040R4D3T1VUDM4747

PV040R4K1T1NUDM

PV040R4K1T1NUDM4747

PV040R4K1T1NUDR

PV040R4K1T1NUDR4747

PV040R4K1T1NUDS

PV040R4K1T1NUDS4747

PV040R9D3AYNMRC

PV040R9D3AYNMRCK

PV040R9D3T1NMMC

PV040R9D3T1VMMC

PV040R9E1AYNMFC

PV040R9E1T1NMFC

PV040R9K1BBVMRC

PV040R9K1JHNMFC

PV040R9K1KJNMFC

PV040R9K1T1NELZ

PV040R9K1T1NFFC

PV040R9K1T1NFWS

PV040R9K1T1NGLC

PV040R9K1T1NHCC

PV040R9K1T1NMM1

PV040R9K1T1NMMC

PV040R9K1T1NMRC

PV040R9K1T1NUPR

PV040R9K1T1WKCC

PV040R9K1T1WMMC

PV040R9L1T1NMFC

PV040R9L1T1NMMZ

Q1:In what types of machinery or applications is the Parker PV040 pump typically used?

A1:The Parker PV040 pump is typically used in a variety of industrial and mobile applications, including machine tools, plastic injection molding machines, presses, and other medium-duty hydraulic systems requiring a reliable power source.

Q2: What makes the Parker PV040 a reliable choice for medium-pressure hydraulic systems?

A2:The PV040 pump is a reliable choice due to its robust construction with a cast-iron housing, durable precision components, smooth continuous flow design, and Parker's proven quality, making it a durable workhorse for demanding industrial environments.

Q3:How to purchase a PV040 hydraulic pump?

A3:You can click on the right sidebar or the contact information in the top bar to contact us to purchase. You can do so via email, form, WeChat, WhatsApp, or other methods.

Q4:What is the price and delivery time of the PV040 hydraulic pump?

A4:The specific price and delivery time will be provided based on the specific model you provide.