REFUELING GUN

Abstract

A refueling gun comprises a housing, a valve rod, and a handle. A pump body is provided within the housing, the pump body is connected to an oil intake pipe and an oil outlet pipe, and a first check valve is provided within the oil intake pipe; an end portion of the valve rod located in the pump body is connected to a negative pressure generating assembly comprising a disk, a plurality of limiting members, and a sealing ring; the disk is fixedly connected to the end portion of the valve rod; the sealing ring is sleeved on the periphery of the plurality of limiting members, the sealing ring is slidingly connected to an inner wall of the pump body and is sealingly connected to the inner wall of the pump body; and the handle is rotatably provided on the housing and is connected to the valve rod.

Claims

1. A refueling gun, comprising: a housing, wherein a pump body is provided within the housing, the pump body is connected to an oil intake pipe and an oil outlet pipe, and a first check valve through which oil is delivered into the pump body is provided within the oil intake pipe; a valve rod, wherein the valve rod penetrates into the pump body, an end portion of the valve rod located in the pump body is connected to a negative pressure generating assembly, the negative pressure generating assembly comprises a disk, a plurality of limiting members that are fixed to the same side of the disk and that are distributed circumferentially, and a sealing ring, the disk is fixedly connected to an end portion of the valve rod, the plurality of limiting members and the valve rod are distributed on two sides of an axial direction of the disk, the sealing ring is sleeved on the periphery of the plurality of limiting members, the sealing ring is capable of reciprocating along the limiting member, a sliding direction of the sealing ring is perpendicular to a surface of the disk, the sealing ring is capable of sealingly abutting against the disk after sliding in the direction toward the disk, and the sealing ring is slidingly connected to an inner wall of the pump body and is sealingly connected to the inner wall of the pump body; and a handle, wherein the handle is rotatably provided on the housing and is connected to the valve rod by means of a connecting assembly so as to drive the valve rod to reciprocate within the pump body.

2. The refueling gun according to claim 1, wherein the housing comprises two half housings, the two half housings are detachably spliced and fixed, a grip hole is provided in the housing, and a grip end of the handle is located in the grip hole.

3. The refueling gun according to claim 1, wherein the housing is provided with a locking assembly configured to relatively statically lock the handle on the housing.

4. The refueling gun according to claim 3, wherein the locking assembly comprises an elastic member, a blocking piece, and an abutting block that are disposed in the housing, the blocking piece is fixedly connected to an end portion of the elastic member, the abutting block is fixedly connected to the blocking piece, a grip end of the handle is provided with an abutting groove, and the abutting block abuts against the abutting groove.

5. The refueling gun according to claim 4, wherein a side surface of the abutting block opposite the grip end of the handle is an arcual inclined surface, and the grip end of the handle is slidable along the inclined surface.

6. The refueling gun according to claim 4, wherein the elastic member is of a spring structure.

7. The refueling gun according to claim 2, wherein the grip end of the handle is provided with a plurality of grip grooves.

8. The refueling gun according to claim 2, wherein the connecting assembly comprises a first connecting block, a second connecting block, and a third connecting block, another end of the handle away from the grip end is hinged with the first connecting block, the first connecting block is hinged with the second connecting block, the second connecting block is hinged with the third connecting block, and the third connecting block is hinged with the valve rod.

9. The refueling gun according to claim 1, wherein the limiting member comprises a vertical section perpendicular to the surface of the disk and a horizontally extending section that bends along a free end of the vertical section and horizontally extends in a direction leaving a center of the disk, and the sealing ring sleeves the vertical section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a schematic structural diagram according to an embodiment of the present application.

[0020] FIG. 2 is a schematic structural diagram after removal of a half housing according to the present application.

[0021] FIG. 3 is a schematic diagram of a pump body, a valve rod, a disk, and a sealing ring being assembled according to the present application.

[0022] FIG. 4 is a schematic structural diagram of the prior art.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0023] The technical solution in the present application is further described with reference to the accompanying drawings and embodiments.

[0024] As shown in FIGS. 1 and 3, a refueling gun is provided, including: [0025] a housing, where a pump body 1 is provided within the housing, the pump body 1 is connected to an oil intake pipe 2 and an oil outlet pipe 3, a first check valve 4 through which oil is delivered into the pump body 1 is provided within the oil intake pipe 2, a plurality of spaced protruding rings 30 are circumferentially fixed to an outer wall of the oil outlet pipe 3, and when the oil outlet pipe 3 is inserted into a refueling machine, the protruding rings 30 can prevent the refueling gun from falling off the refueling machine; [0026] a valve rod 5, where the valve rod 5 penetrates into the pump body 1, an end portion of the valve rod 5 located in the pump body 1 is connected to a negative pressure generating assembly, the negative pressure generating assembly includes a disk 6, a plurality of limiting members 7 that are fixed to the same side of the disk 6 and that are distributed circumferentially, and a sealing ring 8, the disk 6 is fixedly connected to an end portion of the valve rod 5, the plurality of limiting members 7 and the valve rod 5 are distributed on two sides of an axial direction of the disk 6, the sealing ring 8 is sleeved on the periphery of the plurality of limiting members 7, the sealing ring 8 is capable of reciprocating along the limiting member 7, a sliding direction of the sealing ring 8 is perpendicular to the surface of the disk 6, the sealing ring 8 is capable of sealingly abutting against the disk 6 after sliding in the direction toward the disk 6, the sealing ring 8 is slidingly connected to an inner wall of the pump body 1 and is sealingly connected to the inner wall of the pump body 1, the limiting member 7 is of a bending rod-shaped structure, the limiting member 7 includes a vertical section 7a perpendicular to a surface of the disk 6 and a horizontally extending section 7b that bends along a free end of the vertical section 7a and horizontally extends in a direction leaving a center of the disk 6, and the sealing ring 8 sleeves the vertical section 7a; and [0027] a handle 9, where the handle 9 is rotatably provided on the housing, the housing is fixed to a fixed shaft 20, the fixed shaft 20 penetrates through the handle 9, the handle 9 is rotatable around the fixed shaft 20, and the handle 9 is connected to the valve rod 5 by means of a connecting assembly so as to drive the valve rod 5 to reciprocate within the pump body 1.

[0028] As shown in FIG. 2, the connecting assembly includes a first connecting block 17, a second connecting block 18, and a third connecting block 19, another end of the handle 9 away from the grip end is hinged with the first connecting block 17, the first connecting block 17 is hinged with the second connecting block 18, the second connecting block 18 is hinged with the third connecting block 19, the third connecting block 19 is hinged with the valve rod 5, and the first connecting block 17, the second connecting block 18, and the third connecting block 19 forms a hinged structure.

[0029] As shown in FIGS. 1 and 2, the housing includes two half housings 10, where the two half housings 10 are detachably spliced and fixed. One half housing 10 is fixed to, along its edge, a plurality of threaded tubes 21 with a thread on the inner wall, and the other half housing 10 is threadedly connected to, along its edge, a plurality of screws 22 that can be in one-to-one correspondence to the plurality of threaded tubes 21. The plurality of screws 22 are threadedly connected to the plurality of threaded tubes 21 in one-to-one correspondence. The housing is provided with a grip hole 11, and a grip end of the handle 9 is located in the grip hole 11. In this design manner, the refueling personnel can check the parts in the housing by disassembling the housing, facilitating check and repair.

[0030] As shown in FIGS. 1 and 2, the housing is provided with a locking assembly configured to relatively statically lock the handle 9 on the housing. After refueling, the refueling personnel can use the locking assembly to relatively statically lock the handle 9 on the housing, preventing rotation of the handle 9 from causing the oil to leak out during refueling. The locking assembly includes an elastic member 12, a blocking piece 13, and an abutting block 14 that are disposed in the housing, the blocking piece 13 is fixedly connected to an end portion of the elastic member 12, the abutting block 14 is fixedly connected to the blocking piece 13, a grip end of the handle 9 is provided with an abutting groove 15, and the abutting block 14 abuts against the abutting groove 15. This design manner allows for a simple structure of the locking assembly and convenient locking operation. A side surface of the abutting block 14 opposite the grip end of the handle 9 is an arcual inclined surface, and the grip end of the handle 9 is slidable along the inclined surface. Due to the continuous pushing effect of the elastic member 12 on the blocking piece 13 and the abutting block 14, the abutting block 14 may affect the rotation of the grip end of the handle 9. In this case, the side surface of the abutting block 14 is arranged as an arcual inclined surface. In the process of rotating the handle 9 by the refueling personnel, the grip end of the handle 9 slides along the arcual inclined surface, thus ensuring the normal rotation of the handle 9, and the elastic member 12 is of a spring structure. The grip end of the handle 9 is provided with a plurality of grip grooves 16. The fingers of the refueling personnel are placed in the grip groove 16, which is more convenient for the refueling personnel to grip and rotate the handle 9 with a force. The first check valve 4, the second check valve 28, and the third check valve 29 mentioned in the present application are all of the check valve structure in the prior art, and details are not described herein again.

[0031] The operation principle is as follows.

[0032] The refueling personnel grips the grip end of the handle 9 to rotate it, such that under action of the connecting assembly, the handle 9 drives the valve rod 5 to move towards the bottom of the pump body 1. In this case, the disk 6 and the sealing ring 8 move towards the bottom of the pump body 1. In this process, a friction force between the sealing ring 8 and the inner wall of the pump body 1 drives the sealing ring 8 to relatively move towards the disk 6, thus enabling the sealing ring 8 to abut against the disk 6 for sealing connection therebetween. Moreover, as the sealing ring 8 is always sealingly connected to the inner wall of the pump body 1, with the continuous movement of the disk 6 and the sealing ring 8 towards the bottom of the pump body 1, a negative pressure chamber is formed in the pump body 1.

[0033] Then, the oil in the oil intake pipe 2 enters the negative pressure chamber of the pump body 1 in a case of opening the first check valve 4, and then the first check valve 4 is closed.

[0034] Next, the refueling personnel drives the handle 9 to rotate in the opposite direction. In this case, under the action of the connecting assembly, the handle 9 drives the valve rod 5 to move towards the top of the pump body 1. At the same time, the valve rod 5 drives the disk 6 and the sealing ring 8 to move towards the top of the pump body 1. In this process, the disk 6 and the sealing ring 8 squeeze the oil in the pump body 1 to enter the oil outlet pipe 3 for discharging, and the oil located between the top of the pump body 1 and the disk 6 exerts increasing pressure on the sealing ring 8. In this case, the sealing ring 8 slides along a direction leaving the disk 6, and a gap starts to be present between the disk 6 and the sealing ring 8. The oil located between the top portion of the pump body 1 and the disk 6 flows to the lower portion of the pump body 1 through the gap. A refueling action is completed in this process, and the foregoing operation is repeated for continuous refueling operation.

[0035] At last, it is noted that the above embodiments are only used to illustrate the technical solution of the present application rather than to limit it. Although the present application has been described in detail with reference to the preferred embodiments, persons of ordinary skill in the art should understand that modifications or equivalent substitutions can be made to the technical solution of the present application without departing from the spirit and scope of the technical solution of the present application. All such modifications or equivalent substitutions should be included within the scope of the claims of the present application.