CN201071857Y - Electrohydraulic mixed power cylinder - Google Patents

Abstract

An electro-hydraulic power oil cylinder belongs to the technical field of electro-mechanics. The oil cylinder comprises a servo motor, a reversible constant delivery pump, a hydraulic operated check valve, a sensor, a hydraulic cylinder and an oil tank, wherein the servo motor is connected with the reversible constant delivery pump through a shaft joint; the reversible constant delivery pump is connected with the hydraulic cylinder; the oil tank is communicated with the oil circuit of the hydraulic cylinder and the sensor is arranged on the hydraulic cylinder. The oil cylinder is characterized in that the oil tank is a concave-structured component with a hollow cavity for containing oil, and the shaft joint which connects the servo motor and the reversible constant delivery pump is arranged in the groove of the concave-structured component. The utility model has a simple mechanical structure, which integrates the mounting pieces of the servo motor, the constant delivery pump and the hydraulic operated check valve and the tank into one, thus forming a compact structure and avoiding the disadvantage of fixing each part with one mounting piece in prior art. The utility model has the advantages of low manufacture cost, light weight, small space occupation and convenient transportation.

Description

A kind of electrohydraulic mixed power cylinder

Technical field

The utility model belongs to the mechanical ﹠ electrical technology field, particularly relates to a kind of electrohydraulic mixed power cylinder.

Background technique

Existing electrohydraulic mixed power cylinder mainly is made up of servomotor, two-way metering pump, Pilot operated check valve, displacement transducer, pressure transducer and oil hydraulic cylinder, pressure transducer is installed on the oil cylinder, and other each parts all need an assembling set to be fixed.Like this entire equipment take up room big, quality is big, cost is high, complicated in mechanical structure.

The model utility content

For solving the deficiency of above-mentioned existing equipment, the purpose of this utility model provides that a kind of mechanical structure is simple, quality is little, the electrohydraulic mixed power cylinder little, that cost is low takes up room.

To achieve these goals, the technical solution of the utility model is as follows:

The utility model comprises servomotor, two-way metering pump, Pilot operated check valve, sensor, oil hydraulic cylinder and fuel tank, wherein servomotor links to each other by coupling with two-way metering pump, two-way metering pump is connected with two chambeies of oil hydraulic cylinder, fuel tank communicates with the oil hydraulic cylinder oil circuit through Pilot operated check valve, sensor is installed on the oil hydraulic cylinder, this fuel tank is the concave structure assembly with hollow cavity, hollow cavity is contained oil, is equipped with the coupling that is used to connect servomotor and two-way metering pump in the groove of concave structure assembly.

Perforate communicates with hollow cavity and is connected with Pilot operated check valve on the concave structure component walls described in the utility model; In the described concave structure assembly ccontaining coupling two ends be separately installed with servomotor and two-way metering pump; Described concave structure assembly is U type, a few font or H type; Described oil hydraulic cylinder and fuel tank are installed on the substrate respectively.

The utlity model has following advantage:

The utility model mechanical structure is simple.Described servomotor, two-way metering pump mix installation by a kind of matrix (as U type, a few font or H type) fuel tank assembly with cavity of design voluntarily, the assembling set of servomotor, the assembling set of metering pump, the assembling set and the fuel tank of Pilot operated check valve are integrated into a part, compact structure has overcome the deficiency that each parts all needs an assembling set to be fixed in the prior art.Because so compact structure, simple is the utility model low cost of manufacture; Quality is little, and it is little to take up room, convenient transportation.

Description of drawings

Fig. 1 is a structure principle chart of the present utility model.

Fig. 2 is a broken section structural representation of the present utility model.

Fig. 3 is the plan view of Fig. 2.

Embodiment

Below in conjunction with drawings and Examples the utility model is done detailed description:

Embodiment 1:

This routine structure such as Fig. 2, shown in Figure 3, comprise servomotor 1, two-way metering pump 2, Pilot operated check valve 3, displacement transducer 4, pressure transducer 6, oil hydraulic cylinder 5 and fuel tank 7, wherein servomotor 1 links to each other by coupling 8 with two-way metering pump 2, the two ends of two-way metering pump 2 are connected with two chambeies of oil hydraulic cylinder 5 respectively, displacement transducer 4 and pressure transducer 6 are installed in respectively on the oil hydraulic cylinder 5, be used for extracting displacement, pressure signal, as shown in Figure 1; This fuel tank 7 is for having the U type construction package of hollow cavity, but hollow cavity oil storage, doing fuel tank uses, be equipped with the coupling 8 that is used to connect servomotor 1 and two-way metering pump 2 in the groove of U type construction package, the two side of U type construction package does not communicate with hollow cavity, as shown in Figure 2, exterior edge face, corresponding coupling place has tapped hole on U type construction package two side, be used for installing two-way metering pump 2 and servomotor 1 respectively, side perforate at U type construction package diapire communicates with hollow cavity, and be connected with two filler openings of Pilot operated check valve 3 respectively, as Fig. 3, shown in Figure 1; Two oil outlets of Pilot operated check valve 3 communicate with two chambeies of oil hydraulic cylinder 5 by pipeline respectively, and the return opening of Pilot operated check valve connects with the pipeline that is connected 5 liang of chambeies of oil hydraulic cylinder respectively, as shown in Figure 1.Oil hydraulic cylinder 5 and fuel tank 7 are installed on the substrate respectively.

This routine working principle is as follows, as shown in Figure 1: by changing the rotating speed of servomotor 1, the output flow of the metering pump 2 that control can two-way rotation, metering pump 2 directly drives oil hydraulic cylinder 5.By changing the forward and reverse running and the output flow of controlling clockwise and anticlockwise, speed and running time two-way metering pump 2 of servomotor 1, thus forward and reverse, the speed of control oil hydraulic cylinder 5 and position.At work, the pressure difference that is produced by 5 liang of chambeies of oil hydraulic cylinder is controlled the forward and reverse of two Pilot operated check valves and is opened, thereby plays the effect that replenishes fluid and oil return, and displacement transducer 4 and two pressure transducers 6 are system's detection devices when carrying out servo feedback control.

Embodiment 2

This routine overall structure is identical with embodiment 1, different is that this fuel tank 7 is for having a few font structure assemblies of hollow cavity, but the hollow cavity oil storage, do fuel tank and use, be equipped with the coupling 8 that is used to connect servomotor 1 and two-way metering pump 2 in the groove of a few font structure assemblies, the two side of a few font structure assemblies does not communicate with hollow cavity, and corresponding coupling place is equipped with two-way metering pump 2 and servomotor 1 respectively on the two side, as shown in Figure 2, perforate communicates with hollow cavity on a few font structure assembly diapires.Oil hydraulic cylinder 5 and fuel tank 7 are installed in respectively on the used machinery equipment.

Its working principle is identical with embodiment 1, as shown in Figure 1.

Embodiment 3

This routine overall structure is identical with embodiment 1, different is that this fuel tank 7 is for having the H type construction package of hollow cavity, but the hollow cavity oil storage, do fuel tank and use, be equipped with the coupling 8 that is used to connect servomotor 1 and two-way metering pump 2 in the groove of H type construction package, the two side of H type construction package does not communicate with hollow cavity, and corresponding coupling place is equipped with two-way metering pump 2 and servomotor 1 respectively on the two side, as shown in Figure 2, perforate communicates with its hollow cavity on H type construction package intermediate connecting wall.Its working principle is identical with enforcement 1, as shown in Figure 1.

Claims (5)

1. electrohydraulic mixed power cylinder, comprise servomotor, two-way metering pump, Pilot operated check valve, sensor, oil hydraulic cylinder and fuel tank, wherein servomotor links to each other by coupling with two-way metering pump, two-way metering pump is connected with two chambeies of oil hydraulic cylinder, fuel tank communicates with the oil hydraulic cylinder oil circuit through Pilot operated check valve, sensor is installed on the oil hydraulic cylinder, it is characterized in that this fuel tank is the concave structure assembly with hollow cavity, hollow cavity is contained oil, is equipped with the coupling that is used to connect servomotor and two-way metering pump in the groove of concave structure assembly.

2. electrohydraulic mixed power cylinder as claimed in claim 1 is characterized in that on the described concave structure component walls that perforate communicates with hollow cavity and is connected with Pilot operated check valve.

3. electrohydraulic mixed power cylinder as claimed in claim 1 or 2, it is characterized in that in the described concave structure assembly ccontaining coupling two ends be separately installed with servomotor and two-way metering pump.

4. electrohydraulic mixed power cylinder as claimed in claim 1 or 2 is characterized in that described concave structure assembly is U type, a few font or H type.

5. electrohydraulic mixed power cylinder as claimed in claim 1 is characterized in that described oil hydraulic cylinder and fuel tank are installed on the substrate respectively.

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