CN215828353U

CN215828353U - Oil gun

Info

Publication number: CN215828353U
Application number: CN202121838455.2U
Authority: CN
Inventors: 朱忠兵; 卢国林
Original assignee: Chongqing Lidong Machinery & Electric Co ltd
Current assignee: Chongqing Lidong Technology Co ltd
Priority date: 2021-08-06
Filing date: 2021-08-06
Publication date: 2022-02-15
Anticipated expiration: 2031-08-06

Abstract

The oil gun is used for solving the technical problem that the third one-way valve arranged on the extrusion disc seriously influences the oil filling time in the prior art. The pump body is respectively connected with an oil inlet pipe and an oil outlet pipe in a conduction manner, and a first one-way valve is arranged in the oil inlet pipe; the end part of the valve rod, which is positioned in the pump body, is connected with a negative pressure generating assembly, the negative pressure generating assembly comprises a disc, a plurality of limiting parts and sealing rings, the limiting parts and the sealing rings are fixed on the same side of the disc and are distributed circumferentially, the disc is fixedly connected with the end part of the valve rod, the sealing rings are sleeved on the peripheries of the limiting parts, the sealing rings can be in sealing butt joint with the disc after sliding towards the direction of the disc, the sealing rings are in sliding connection with the inner wall of the pump body, and the sealing rings are in sealing connection with the inner wall of the pump body; the handle is rotatably arranged on the shell and is connected with the valve rod through the connecting assembly so as to drive the valve rod to slide in the pump body in a reciprocating mode.

Description

Oil gun

Technical Field

The utility model relates to the technical field of oiling, in particular to an oiling gun.

Background

As shown in fig. 4, the core components of the prior art oil gun include a pump shell 23, an input pipe 24 in communication connection with the pump shell 23, an output pipe 25 in communication connection with the pump shell 23, a push rod 26 penetrating the pump shell 23, and a pressing disk 27 fixed at the end of the push rod 26, wherein the pressing disk 27 is in sealing connection with the inner wall of the pump shell 23, the pressing disk 27 can slide back and forth relative to the inner wall of the pump shell 23, a second one-way valve 28 is arranged in the input pipe 24, and a third one-way valve 29 is arranged on the pressing disk 27.

The specific working process is that firstly, the oil body is conveyed from the input pipe 24 to the pump shell 23 only under the unidirectional flow regulation effect of the second one-way valve 28, after the pump shell 23 is filled with the oil body, the push rod 26 pushes the extrusion disk 27, so that the oil body in the pump shell 23 can be extruded into the output pipe 25 and discharged in the moving process of the extrusion disk 27, when the extrusion disk 27 is continuously pushed to be close to the bottom of the pump shell 23, a negative pressure cavity is formed in the pump shell 23 at the moment, the oil body in the input pipe 24 enters the pump shell 23, then the push rod 26 is driven to drive the extrusion disk 27 to move towards the top of the pump shell 23, in the process, most of the oil body in the pump shell 23 is extruded into the output pipe 25 to be discharged along with the movement of the extrusion disk 27, however, a part of the oil body in the pump shell 23 is positioned between the extrusion disk 27 and the top of the pump shell 23, and the part of the oil body continuously moves towards the top of the pump shell 23 along with the extrusion disk 27, at this time, the oil pressure is increased due to the compression of the space, and the oil flows into the lower portion of the pump housing 23 through the third check valve 29, thereby ensuring the normal operation of the whole oil transportation process.

However, the above-mentioned method has an objective defect, the structure of the third check valve 29 in the prior art is generally a diaphragm structure, the durability of the diaphragm structure itself is limited firstly, the diaphragm structure may deform and break after opening and closing for many times, most importantly, the part of the oil body between the top of the pump casing 23 and the extrusion disc 27 only flows to the lower part of the pump casing 23 through the third check valve 29, the flow rate is extremely limited, and a relatively long waiting time is required to wait for the part of the oil body to flow into the lower part of the pump casing 23, so that the method may seriously fill the oil for a limited time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a fuel gun aiming at the defects of the prior art and is used for solving the technical problem that the third one-way valve arranged on a squeezing disc seriously influences the fuel filling time in the prior art.

A fuel nozzle, comprising:

the oil pump comprises a shell, a first oil inlet pipe and a first oil outlet pipe, wherein a pump body is arranged in the shell and is respectively connected with the oil inlet pipe and the oil outlet pipe in a conduction mode, and a first one-way valve for conveying oil into the pump body is arranged in the oil inlet pipe;

the valve rod penetrates through the pump body, the end part of the valve rod, which is positioned in the pump body, is connected with a negative pressure generating assembly, the negative pressure generating assembly comprises a disc, a plurality of limiting parts and sealing rings, the limiting parts and the sealing rings are fixed on the same side of the disc and are distributed circumferentially, the disc is fixedly connected with the end part of the valve rod, the limiting parts and the valve rod are distributed on two axial sides of the disc, the sealing rings are sleeved on the peripheries of the limiting parts, the sealing rings can slide back and forth along the limiting parts, the sliding direction of the sealing rings is vertical to the disc surface of the disc, the sealing rings can be in sealing butt joint with the disc after sliding towards the direction of the disc, the sealing rings are in sliding connection with the inner wall of the pump body, and the sealing rings are in sealing connection with the inner wall of the pump body;

the handle is rotatably arranged on the shell and is connected with the valve rod through the connecting component so as to drive the valve rod to slide in the pump body in a reciprocating manner.

The working principle is as follows:

the personnel of refueling grip the handle makes the handle rotate to the handle drives the bottom of valve rod orientation pump body and removes under coupling assembling's effect, and disc and sealing ring move towards pump body bottom this moment, and this in-process because there is frictional force between sealing ring and the pump body inner wall, and this frictional force drive sealing ring moves towards the disc relative movement, thereby makes sealing ring and disc butt and both sealing connection, and the sealing ring all the time with the inner wall sealing connection of the pump body, along with disc and sealing ring continue to move towards pump body bottom, will form the negative pressure chamber in the pump body.

And then the oil body positioned in the oil inlet pipe enters the negative pressure cavity of the pump body under the condition that the first one-way valve is opened, and then the first one-way valve is closed.

Later refuel personnel drive handle and rotate towards opposite direction, this moment the handle drives under coupling assembling's effect the valve rod removes towards the top of the pump body, and the valve rod drives disc and sealing ring and removes towards the top of the pump body simultaneously, and this in-process disc and sealing ring will extrude the oil body that is located the pump body and enter into oil pipe and discharge to this in-process is because the oil body that is located between pump body top and the disc is to the pressure crescent of sealing ring, this moment the sealing ring will slide along the direction of keeping away from the disc, this moment the clearance will appear between disc and the sealing ring, and the oil body that is located between pump body top and the disc will flow the lower part of the pump body through this clearance, and this process is accomplished one and is refueled the action, repeats above operation sustainable the operation and refuels the operation.

The utility model has the beneficial effects that:

according to the utility model, when the sealing ring and the disc move towards the bottom of the pump body, the sealing ring and the disc are abutted and are in sealing abutment, so that the sealing ring and the disc continuously move towards the bottom of the pump body to form a negative pressure cavity in the pump body;

as the volume of the oil body between the top of the pump body and the disc is continually compressed as the seal ring and disc move toward the top of the pump body, this portion of the oil body will push the seal ring to slide away from the disc, creating a uniform gap between the disc and the seal ring through which this portion of the oil body will flow uniformly into the lower portion of the pump body.

The one-way valve of traditional diaphragm structure has been replaced to this kind of design to not only more stable, durable in performance, and this kind of design can make the oil body that is located between pump body top and the disc flow in the lower part of the pump body with bigger and even clearance passageway, thereby can improve and refuel efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the present invention with one half shell removed;

FIG. 3 is a schematic view of the assembly of the pump body, valve stem, disk and sealing ring of the present invention;

fig. 4 is a schematic structural diagram of the background art.

Description of reference numerals: the pump body 1, the oil inlet pipe 2, the oil outlet pipe 3, the first check valve 4, the valve rod 5, the disc 6, the limiting piece 7, the sealing ring 8, the handle 9, the half shell 10, the holding hole 11, the elastic piece 12, the baffle 13, the abutting block 14, the abutting groove 15, the holding groove 16, the first connecting block 17, the second connecting block 18, the third connecting block 19, the fixed shaft 20, the threaded cylinder 21, the screw 22, the pump shell 23, the input pipe 24, the output pipe 25, the ejector rod 26, the extrusion disc 27, the second check valve 28, the third check valve 29, the projecting ring 30, the vertical section 7a and the horizontal extension section 7 b.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1 and 3, the fuel gun includes:

the casing is equipped with the pump body 1 in this casing, and this pump body 1 turn-on connection has into oil pipe 2 and goes out oil pipe 3 respectively, it is equipped with the first check valve 4 to the defeated oil in the pump body 1 to advance oil pipe 2 in, go out the fixed a plurality of spaced bulge loops 30 on the 3 circumference outer walls of oil pipe, when inserting the tanker aircraft with going out oil pipe 3 on, bulge loops 30 can prevent that the nozzle from droing from the tanker aircraft.

Valve rod 5, this valve rod 5 wears to establish in the pump body 1, this valve rod 5 is located the end connection of the pump body 1 and has the negative pressure to take place the subassembly, this negative pressure takes place the subassembly and includes disc 6, fix a plurality of locating parts 7 and sealing ring 8 that just are circumference distribution in same one side of disc 6,

disc

6 and 5 end fixed connection of valve rod, a plurality of locating parts 7 and valve rod 5 distribute in the axial both sides of disc 6, sealing ring 8 cover is established in a plurality of locating parts 7 peripherally, this sealing ring 8 can follow locating part 7 reciprocating sliding, and its slip direction is perpendicular with the quotation of disc 6, this sealing ring 8 can seal the butt with disc 6 after sliding towards the quotation of disc 6 direction, sealing ring 8 and the inner wall sliding connection of the pump body 1 and sealing ring 8 and the inner wall sealing connection of the pump body 1, locating part 7 is the rod-like structure of buckling, this locating part 7 includes the vertical section 7a of perpendicular to the quotation of disc 6 and the horizontal extension that keeps away from disc 6 central direction horizontal extension that turns to the direction after the free end is turned over along vertical section 7a free end And the sealing ring 8 is sleeved outside the vertical section 7 a.

The handle 9 is rotatably arranged on the shell, a fixed shaft 20 is fixed on the shell, the fixed shaft 20 penetrates through the handle 9, the handle 9 can rotate around the fixed shaft 20, and the handle 9 is connected with the valve rod 5 through a connecting assembly so as to drive the valve rod 5 to slide in the pump body 1 in a reciprocating manner.

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, the other end of the handle 9, which is far away from the holding end thereof, is hinged to the first connecting block 17, the first connecting block 17 is hinged to the second connecting block 18, the second connecting block 18 is hinged to the third connecting block 19, and the third connecting block 19 is hinged to the valve rod 5, and the first connecting block 17, the second connecting block 18 and the third connecting block 19 constitute a hinge structure.

As shown in fig. 1 and 2, the casing includes two half shells 10, and two half shells 10 detachably splice fixedly, and one of them half shell 10 is fixed with many inner walls along its border trend and has the internal screw thread section of thick bamboo 21, and another half shell 10 is along its border trend threaded connection many screws 22 that can with a plurality of screw thread section of thick bamboos 21 one-to-one, and a plurality of screws 22 one-to-one threaded connection are in a plurality of screw thread section of thick bamboos 21, be equipped with on the casing and hold hole 11, the end of gripping of handle 9 is located holds hole 11, and this kind of design, refueller can be favorable to overhauing through dismantling the casing and examining the interior part in the casing.

As shown in fig. 1 and fig. 2, the housing is provided with a locking assembly for locking the handle 9 to the housing in a relatively stationary manner, and after refueling, a refueling person can lock the handle 9 to the housing in a relatively stationary manner by means of the locking assembly, so as to prevent the handle 9 from rotating to cause leakage of oil body flowing out during refueling. The locking assembly comprises an elastic part 12, a blocking piece 13 and a butt joint block 14 which are arranged in a shell, the blocking piece 13 is fixedly connected with the end of the elastic part 12, the butt joint block 14 is fixedly connected with the blocking piece 13, a butt joint groove 15 is formed in the holding end of the handle 9, the butt joint block 14 abuts against the butt joint groove 15, the locking assembly is simple in design mode and structure, and the whole locking operation is relatively convenient. The butt joint piece 14 is the curved inclined plane with the opposite side of the end of gripping of handle 9, and the end of gripping of handle 9 can slide along this inclined plane, because the continuous top of elastic component 12 to separation blade 13 and butt joint piece 14 pushes away the effect, butt joint piece 14 probably influences the rotation that the end was gripped to handle 9, establishes a curved inclined plane this moment on butt joint piece 14 side, and the personnel of refueling are at the in-process that rotates handle 9, and the end of gripping of handle 9 will slide along this curved inclined plane to guaranteed that handle 9 can normally rotate, elastic component 12 is spring structure. The holding end of the handle 9 is provided with a plurality of holding grooves 16, fingers of an oiling person are placed in the holding grooves 16, the oiling person can hold the holding grooves more conveniently, and accordingly the oiling person can rotate the handle 9 by applying force more conveniently.

The working principle is as follows:

the personnel that refuel grip the end of gripping of handle 9 makes handle 9 rotate to handle 9 drives valve rod 5 and removes towards the bottom of the pump body 1 under coupling assembling's effect, disc 6 and sealing ring 8 remove towards the 1 bottom of the pump body this moment, and in the process, because there is frictional force between sealing ring 8 and the 1 inner wall of the pump body, this frictional force drive sealing ring 8 moves towards 6 relative movements of disc, thereby makes sealing

ring

8 and 6 butt of disc and both sealing connection, and sealing ring 8 all the time with the inner wall sealing connection of the pump body 1, along with

disc

6 and 8 last move towards the 1 bottom of the pump body, will form the negative pressure chamber in the pump body 1.

Then, the oil body in the oil inlet pipe 2 enters the negative pressure cavity of the pump body 1 under the condition that the first one-way valve 4 is opened, and then the first one-way valve 4 is closed.

Then, the refueling personnel drives the handle 9 to rotate in the opposite direction, at the same time, the handle 9 drives the valve rod 5 to move towards the top of the pump body 1 under the action of the connecting assembly, meanwhile, the valve rod 5 drives the disc 6 and the sealing ring 8 to move towards the top of the pump body 1, in the process, the disc 6 and the sealing ring 8 extrude the oil body in the pump body 1 to enter the oil outlet pipe 3 and discharge the oil body, in the process, the pressure of the oil body between the top of the pump body 1 and the disc 6 on the sealing ring 8 is gradually increased, at the same time, the sealing ring 8 slides in the direction far away from the disc 6, at the same time, a gap is formed between the disc 6 and the sealing ring 8, the oil body between the top of the pump body 1 and the disc 6 flows to the lower part of the pump body 1 through the gap, in the process, a refueling action is completed, and the refueling operation is repeated to continuously perform the refueling operation.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. Nozzle, its characterized in that includes:

the oil pump comprises a shell, wherein a pump body (1) is arranged in the shell, the pump body (1) is respectively connected with an oil inlet pipe (2) and an oil outlet pipe (3) in a conduction mode, and a first one-way valve (4) for conveying oil into the pump body (1) is arranged in the oil inlet pipe (2);

the valve rod (5) is arranged in the pump body (1) in a penetrating way, the end part of the valve rod (5) positioned in the pump body (1) is connected with a negative pressure generating assembly, the negative pressure generating assembly comprises a disc (6), a plurality of limiting parts (7) and sealing rings (8), wherein the limiting parts (7) and the sealing rings (8) are fixed on the same side of the disc (6) and are circumferentially distributed, the disc (6) is fixedly connected with the end part of a valve rod (5), the limiting parts (7) and the valve rod (5) are distributed on two axial sides of the disc (6), the sealing rings (8) are sleeved on the peripheries of the limiting parts (7), the sealing ring (8) can slide along the limiting piece (7) in a reciprocating way, and the sliding direction of the sealing ring is vertical to the disc surface of the disc (6), the sealing ring (8) can be in sealing butt joint with the disc (6) after sliding towards the direction of the disc (6), the sealing ring (8) is in sliding connection with the inner wall of the pump body (1), and the sealing ring (8) is in sealing connection with the inner wall of the pump body (1);

the handle (9) is rotatably arranged on the shell, and the handle (9) is connected with the valve rod (5) through a connecting component so as to drive the valve rod (5) to slide in the pump body (1) in a reciprocating manner.

2. The fuel nozzle as claimed in claim 1, wherein: the casing includes two half shells (10), and two half shells (10) detachably splice are fixed, be equipped with on the casing and hold hole (11), the end of holding of handle (9) is located holds hole (11).

3. The fuel nozzle as claimed in claim 1, wherein: the shell is provided with a locking component used for locking the handle (9) on the shell in a relatively static way.

4. The fuel nozzle as claimed in claim 3, wherein: the locking assembly comprises an elastic piece (12), a blocking piece (13) and a butting block (14) which are arranged in a shell, the blocking piece (13) is fixedly connected with the end of the elastic piece (12), the butting block (14) is fixedly connected with the blocking piece (13), a butting groove (15) is formed in the holding end of the handle (9), and the butting block (14) is butted in the butting groove (15).

5. The fuel nozzle as claimed in claim 4, wherein: the side surface of one side of the abutting block (14) opposite to the holding end of the handle (9) is an arc inclined surface, and the holding end of the handle (9) can slide along the inclined surface.

6. The fuel nozzle as claimed in claim 4, wherein: the elastic piece (12) is of a spring structure.

7. The fuel nozzle as claimed in claim 2, wherein: the holding end of the handle (9) is provided with a plurality of holding grooves (16).

8. The fuel nozzle as claimed in claim 2, wherein: coupling assembling includes first connecting block (17), second connecting block (18) and third connecting block (19), it is articulated with first connecting block (17) that handle (9) keep away from its other end that grips the end, and first connecting block (17) are articulated with second connecting block (18), and second connecting block (18) are articulated with third connecting block (19), and third connecting block (19) are articulated with valve rod (5).

9. The fuel nozzle as claimed in claim 1, wherein: the locating part (7) include vertical section (7a) of perpendicular to disc (6) quotation and along vertical section (7a) free end after turning to keep away from disc (6) central direction horizontal extension's horizontal extension section (7b), outside vertical section (7a) was located in sealing ring (8) cover.