CN116899780B - Atomization spraying device for automobile parts - Google Patents

Abstract

The application relates to the technical field of atomization spraying devices, in particular to an atomization spraying device for automobile parts, which comprises a spraying mechanism, a spraying mechanism and a feeding pipe, wherein the spraying mechanism comprises a pneumatic spray gun, a trigger switch arranged on the pneumatic spray gun, and the feeding pipe arranged on the pneumatic spray gun; the mounting mechanism comprises a sleeve joint piece arranged on the feeding pipe, an elastic clamping piece arranged on the sleeve joint piece, a pushing piece and a plug-in piece which are arranged on the sleeve joint piece in a sliding manner; the storage mechanism comprises a kettle body and a cannula arranged on the kettle body; when the trigger switch is triggered to carry out spraying operation, the trigger switch can lift the pushing piece through the pulling piece, the pushing piece pushes the plug-in piece to slide to prop against the elastic clamping piece, connection in the operation process is guaranteed, falling is avoided, after the trigger switch is triggered to be triggered, when the trigger switch is reset, the elastic clamping piece loses conflict, at the moment, the kettle body can be rapidly separated, and the connection is convenient to detach and install.

Description

Atomization spraying device for automobile parts

Technical Field

The application relates to the technical field of atomization spraying devices, in particular to an atomization spraying device for automobile parts.

Background

When the automobile part is processed, maintained and serviced, the surface of the automobile part is generally required to be sprayed by adopting an atomization spraying device, and the service life and performance of the automobile part are prolonged by spraying corresponding chemicals on the surface of the automobile part.

The spray coating device is of various types, and comprises a pneumatic spray coating gun which is generally composed of a gun body and a kettle body, wherein the gun body and the kettle body are generally installed in a threaded connection mode.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The application has been made in view of the above or the problems in the prior art that the disassembly and the assembly between the kettle body and the gun body are not convenient enough.

Accordingly, an object of the present application is to provide an atomized spray apparatus for automotive parts.

In order to solve the technical problems, the application provides the following technical scheme: the atomization spraying device for the automobile parts comprises a spraying mechanism, a spraying mechanism and a feeding pipe, wherein the spraying mechanism comprises a pneumatic spray gun, a trigger switch arranged on the pneumatic spray gun, and the feeding pipe is arranged on the pneumatic spray gun; the mounting mechanism comprises a sleeve joint piece arranged on the feeding pipe, an elastic clamping piece arranged on the sleeve joint piece, a pushing piece and a plug-in piece which are arranged on the sleeve joint piece in a sliding manner; the storage mechanism comprises a kettle body, a cannula arranged on the kettle body and a clamping groove arranged on the cannula; the pulling piece is used for connecting the trigger switch and the pushing piece; when the trigger switch is pulled, the pushing piece can be pulled by the pulling piece and the plug-in piece is pushed to slide against the elastic clamping piece.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the sleeve joint part comprises a sleeve joint pipe arranged on the feeding pipe, a ring body arranged on the sleeve joint pipe, and a setting groove arranged on the ring body, wherein a communicating cavity is arranged on the sleeve joint pipe; the elastic clamping piece comprises a first arc section and a second arc section which are arranged on the placement groove, and a clamping section which is arranged on the first arc section and the second arc section.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the sleeve joint part also comprises a containing area arranged on the ring body; the pushing piece comprises a push ring and a push rod piece arranged on the push ring; the plug connector comprises a bayonet lock arranged on the accommodating area in a sliding manner and a push groove arranged on the bayonet lock.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the push rod piece comprises a lower straight rod arranged on the push ring, an inclined rod arranged on the lower straight rod and an upper straight rod arranged on the inclined rod.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the accommodating area comprises an upper accommodating groove arranged on the ring body, a lower accommodating groove arranged on the ring body and a containing groove arranged on the ring body; the upper accommodating groove is provided with an upper abutting surface, and the lower accommodating groove is provided with a lower abutting surface.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the pulling piece comprises a connecting rod arranged on the trigger switch, a connecting shaft arranged on the connecting rod, a limiting rod and a pull rod arranged on the connecting shaft; the pushing piece further comprises a connecting arm arranged on the pushing ring and a fixed shaft arranged on the connecting arm; the sleeve joint piece further comprises a limiting plate arranged on the sleeve joint pipe.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the sleeve joint part also comprises a sliding groove arranged on the sleeve joint pipe; the mounting mechanism further comprises an extrusion piece arranged on the sliding groove in a sliding mode, a spring arranged on the extrusion piece, and a sealing piece arranged on the sleeve pipe.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the extrusion piece comprises a push sleeve which is arranged on the sliding groove in a sliding manner, and an extrusion ring which is arranged on the push sleeve; the sealing element comprises a sealing ring arranged on the sleeve pipe, an extrusion cavity arranged on the sealing ring and a recessed ring groove arranged on the extrusion cavity; the storage mechanism further comprises a plug connector arranged on the insertion tube.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the extrusion piece also comprises a movable area arranged on the push sleeve; the sleeve joint piece further comprises a supporting rod arranged on the sliding groove; the installation mechanism further comprises a positioning ball arranged on the movable area.

As a preferred embodiment of the atomizing and spraying device for automobile parts of the present application, wherein: the movable area comprises a movable cavity arranged on the push sleeve, a positioning arc groove and a sliding arc groove arranged on the movable cavity, an annular positioning groove is arranged on the push sleeve, and the movable area further comprises a slot arranged on the push sleeve.

The atomization spraying device for the automobile parts has the beneficial effects that: according to the application, the insertion pipe is inserted into the sleeve joint part, so that the clamping groove is in clamping connection with the elastic clamping part, when the trigger switch is pulled to carry out spraying operation, the trigger switch can lift the pushing part through the pulling part, the pushing part pushes the inserting part to slide so as to prop against the elastic clamping part, the connection in the operation process is ensured, the falling off is avoided, and after the trigger switch is stopped to be pulled, the elastic clamping part loses the collision when the trigger switch is reset, at the moment, the elastic clamping part is separated from the clamping groove through pulling, so that the kettle body is quickly separated, and the disassembly and the installation are convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is an overall schematic view of an atomization coating apparatus for automobile parts.

Fig. 2 is a schematic diagram of a storage mechanism of the atomizing and spraying device for automobile parts.

Fig. 3 is a schematic diagram of a pusher structure of an atomization spraying device for automobile parts.

Fig. 4 is a schematic structural view of a mounting mechanism of the atomizing and spraying device for automobile parts.

Fig. 5 is a schematic diagram of a socket structure of an atomization spraying device for automobile parts.

Fig. 6 is a schematic view showing a cut-away structure of a ferrule of an atomization coating device for automobile parts.

Fig. 7 is a schematic view of the structure of the extrusion of the atomizing and spraying device for automobile parts.

In the figure:

1. a spraying mechanism;

11. a pneumatic spray gun; 12. a trigger switch; 13. a feed pipe;

2. a mounting mechanism;

21. a socket; 22. an elastic clamping piece; 23. a pushing member; 24. an extrusion; 25. a positioning ball; 26. a seal; 27. a plug-in component; 28. a spring;

211. a ferrule; 212. a ring body; 213. a placement groove; 214. a communication chamber; 215. a slip groove; 216. a receiving area; 217. a supporting rod; 218. a limiting plate;

2161. an upper receiving groove; 2162. a lower accommodating groove; 2163. a storage groove; 2164. a lower abutting surface; 2165. an upper abutting surface;

221. a first arc segment; 222. a clamping section; 223. a second arc segment;

231. a push ring; 232. a pushing rod piece; 233. a connecting arm; 234. a fixed shaft;

2321. a lower straight rod; 2322. a diagonal rod; 2323. a straight rod is arranged on the upper part;

241. pushing the sleeve; 242. a pressing ring; 243. an active area;

2431. a movable cavity; 2432. positioning an arc groove; 2433. a sliding arc groove; 2434. an annular positioning groove; 2435. a slot;

261. a seal ring; 262. an extrusion chamber; 263. a recessed ring groove;

271. a bayonet lock; 272. pushing grooves;

3. a storage mechanism;

31. a kettle body; 32. a cannula; 33. a clamping groove; 34. a plug;

4. a pulling member;

41. a connecting rod; 42. a connecting shaft; 43. a limit rod; 44. and (5) a pull rod.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Embodiment 1, referring to fig. 1 to 7, is a first embodiment of the present application, and provides an atomized spray apparatus for automobile parts, comprising a spray mechanism 1 including a pneumatic spray gun 11, a trigger switch 12 provided on the pneumatic spray gun 11, and a feed pipe 13 provided on the pneumatic spray gun 11; the mounting mechanism 2 comprises a sleeve joint piece 21 arranged on the feeding pipe 13, an elastic clamping piece 22 arranged on the sleeve joint piece 21, a pushing piece 23 and a plug-in piece 27 which are slidably arranged on the sleeve joint piece 21; the storage mechanism 3 comprises a kettle body 31, a cannula 32 arranged on the kettle body 31 and a clamping groove 33 arranged on the cannula 32; a pulling member 4 for connecting the trigger switch 12 and the pushing member 23; in this embodiment, the feeding pipe 13 of the pneumatic spray gun 11 is used as an input port of chemical agent, the trigger switch 12 is used for controlling the spraying operation of the pneumatic spray gun 11, the mounting mechanism 2 is used for connecting and mounting the spraying mechanism 1 and the storage mechanism 3, the socket piece 21 is used for plugging with the insertion pipe 32 on the kettle body 31, the clamping groove 33 can be in clamping connection with the elastic clamping piece 22, the sprayed chemical agent is stored through the kettle body 31, and the pushing piece 23 can be lifted by the pulling piece 4 and the plug piece 27 can be pushed to slide against the elastic clamping piece 22 when the trigger switch 12 is buckled.

During installation, the insertion pipe 32 is inserted into the sleeve joint piece 21 and is connected through the clamping connection between the clamping groove 33 and the elastic clamping piece 22, when the trigger switch 12 is pulled to carry out spraying operation, the trigger switch 12 can lift the pushing piece 23 through the pulling piece 4, the pushing piece 23 pushes the inserting piece 27 to slide to prop against the elastic clamping piece 22, connection in the operation process is guaranteed, falling is avoided, after the trigger switch 12 is stopped to be pulled, when the trigger switch 12 is reset, the elastic clamping piece 22 loses to collide, at the moment, the elastic clamping piece 22 and the clamping groove 33 can be separated through pulling, the kettle body 31 is rapidly separated, and the disassembly and the installation are convenient.

Specifically, the sleeve 21 includes a sleeve 211 disposed on the feed pipe 13, a ring 212 disposed on the sleeve 211, and a mounting groove 213 disposed on the ring 212, where the sleeve 211 is provided with a communication cavity 214; in this embodiment, the ferrule 211 is fixedly disposed on an outer wall of one end of the feed pipe 13, the inner wall of the ferrule 211 far away from one end of the feed pipe 13 is provided with a ring body 212, the ring body 212 and the ferrule 211 are in an integrated structure, an annular mounting groove 213 is formed in an inner surface of the ring body 212, and the communication cavity 214 can communicate the ferrule 211 with the feed pipe 13.

Preferably, the elastic clamping member 22 includes a first arc segment 221 and a second arc segment 223 disposed on the mounting groove 213, and a clamping segment 222 disposed on the first arc segment 221 and the second arc segment 223, in this embodiment, the first arc segment 221, the second arc segment 223 and the clamping segment 222 are made of elastic metal, the clamping segment 222 is connected between the first arc segment 221 and the second arc segment 223, the clamping segment 222 is in an arch structure, the first arc segment 221 and the second arc segment 223 are both in a convex shape, when the cannula 32 is inserted into the registration tube 211, the arc surface of the clamping segment 222 can be extruded through the end portion of the cannula 32, so that the first arc segment 221, the second arc segment 223 and the clamping segment 222 deform and shrink into the mounting groove 213, the cannula 32 is inserted, after the cannula 32 is completely inserted, the clamping segment 222 and the clamping groove 33 are aligned, and the clamping segment 222 is self-deformed by the first arc segment 221, the second arc segment 223 and the clamping segment 222 is restored to the inner part of the clamping groove 33, and the connection of the kettle 31 is completed.

Further, the socket 21 further includes a receiving area 216 disposed on the ring body 212; the pushing member 23 includes a push ring 231 and a push rod member 232 disposed on the push ring 231; the plug-in component 27 includes a bayonet lock 271 slidably disposed on the accommodating area 216, and a push groove 272 disposed on the bayonet lock 271, in this embodiment, the push rod 232 may slide inside the accommodating area 216, the push ring 231 is slidably disposed outside the insertion tube 32, the surface of the push ring 231 near the ferrule 211 is fixedly provided with a plurality of push rods 232, the plurality of push rods 232 are distributed circumferentially at equal intervals, each push rod 232 is correspondingly provided with an elastic clamping component 22, the accommodating area 216, the plug-in component 27, the push rods 232 and the elastic clamping components 22 are disposed in one-to-one correspondence, the push groove 272 is disposed at the central position of the bayonet lock 271, and the bayonet lock 271 is slidably disposed on the outer wall of the push rod 232 through the push groove 272.

The push rod 232 includes a lower straight rod 2321 disposed on the push ring 231, and an inclined rod 2322 disposed on the lower straight rod 2321, and further includes an upper straight rod 2323 disposed on the inclined rod 2322, in this embodiment, the inclined rod 2322 is fixedly mounted at one end of the lower straight rod 2321 away from the push ring 231, and the upper straight rod 2323 is fixedly mounted at one end of the inclined rod 2322 away from the push ring 231.

Preferably, the accommodating area 216 includes an upper accommodating groove 2161 formed on the ring body 212, a lower accommodating groove 2162 formed on the ring body 212, and a receiving groove 2163 formed on the ring body 212; in the present embodiment, the upper receiving groove 2161 may receive the diagonal 2322 and the upper straight bar 2323, and the lower receiving groove 2162 may receive the lower straight bar 2321 and the diagonal 2322.

It should be noted that, the upper accommodating groove 2161 is provided with an upper abutting surface 2165, the lower accommodating groove 2162 is provided with a lower abutting surface 2164, in this embodiment, the surfaces of the upper abutting surface 2165 and the inclined rod 2322 far away from the push ring 231 are parallel to each other, and the surfaces of the lower abutting surface 2164 and the inclined rod 2322 near the push ring 231 are parallel to each other.

When the kettle is used, a prepared chemical agent for spraying is added in the kettle body 31, then the insertion pipe 32 is aligned to the ring body 212, the insertion end of the insertion pipe 32 is subjected to rounding treatment, in the insertion process, the end part of the insertion pipe 32 presses the cambered surface of the clamping section 222, so that the first arc section 221, the second arc section 223 and the clamping section 222 deform and shrink into the mounting groove 213 to be inserted by the insertion pipe 32, after the insertion pipe 32 is completely inserted, the clamping section 222 and the clamping groove 33 at the moment are aligned, and the deformation is recovered through the first arc section 221, the second arc section 223 and the clamping section 222, so that the clamping section 222 is clamped into the clamping groove 33, and the connection and the installation of the kettle body 31 are completed.

In the initial state, the lower abutting surface 2164 is abutted against the surface of the inclined rod 2322, the surface of the upper straight rod 2323 is abutted against the inner wall of the push groove 272, when spraying operation is carried out, a worker pulls the trigger switch 12, so that the pneumatic spray gun 11 starts working, chemical agents in the can body 31 are atomized and sprayed, in the process of pulling the trigger switch 12, the pulling piece 4 pulls the push ring 231 to rise, when the push ring 231 rises, the push rod 232 rises, the lower straight rod 2321 slides in the lower accommodating groove 2162, the lower abutting surface 2164 is separated from the surface of the inclined rod 2322, the upper straight rod 2323 and the connecting end of the inclined rod 2322 slide in the accommodating groove 2161 upwards from the push groove 272, and after the rising of the inclined rod 2322, the surface of the inclined rod 2323 and the push groove 2322 just lose contact, the edge of the inclined rod 2322 at this moment, the continuous rising of the inclined rod 2322 pushes the clamping pin 271 in the inner wall of the accommodating groove 2163 until the lower straight rod 2321 slides against the surface of the inclined rod 2321, the clamping pin 272 is abutted against the end of the inclined rod 2322, and finally the end of the inclined rod 2322 is prevented from abutting against the end portion 222, and the end portion 222 of the inclined rod 2322 is prevented from abutting against the spray can be deformed, and finally, the end of the inclined rod 2322 is abutted against the end of the inclined rod 2322 is prevented from abutting against the end of the upper end of the inclined rod 2322, and the end of the upper end of the connecting rod 2322.

When the spraying is stopped, the trigger switch 12 is stopped to be pulled, the trigger switch 12 is reset, in the resetting process, the push ring 231 is driven to descend by the pulling piece 4, in the descending process, the clamping pin 271 is pushed by the diagonal rod 2322 again, the clamping pin 271 is stored into the storage groove 2163 to reset, the clamping section 222 at the moment loses conflict and can deform again until the lower conflict surface 2164 is attached to the surface of the diagonal rod 2322, the trigger switch 12 is completely reset, and at the moment, the disassembly can be realized by pulling the kettle body 31.

In summary, in the process of spraying operation, locking of the kettle body 31 can be achieved, and when spraying operation is stopped, the kettle body 31 can be rapidly detached in a drawing mode, so that chemical spraying agent in the kettle body 31 is conveniently supplemented.

Embodiment 2, referring to fig. 1 to 7, is a second embodiment of the present application, and is different from the previous embodiment in that the pulling member 4 includes a connecting rod 41 provided on the trigger switch 12, a connecting shaft 42 provided on the connecting rod 41, and a limit lever 43 and a pull rod 44 provided on the connecting shaft 42; in this embodiment, one end of the connecting rod 41 is rotatably connected with the surface of the trigger switch 12 through a shaft body, and the connection point of the connecting rod is close to the rotating shaft of the trigger switch 12, so that when the trigger switch 12 is pulled, the labor-saving effect can be realized through the lever principle; the other end of the connecting rod 41 is provided with a connecting shaft 42 in a penetrating manner, and two ends of the connecting shaft 42 are respectively and rotatably connected with a limiting rod 43 and a pull rod 44, wherein one end of the limiting rod 43 is rotatably connected with the surface of the pneumatic spray gun 11.

Specifically, the pushing member 23 further includes a connecting arm 233 disposed on the push ring 231, and a fixed shaft 234 disposed on the connecting arm 233; in this embodiment, the outer wall of the fixed shaft 234 is rotatably connected to one end of the pull rod 44, and the connection arm 233 is fixedly provided on the outer wall of the push ring 231, and the connection arm 233 is fixedly connected to the fixed shaft 234.

Further, the socket 21 further includes a limiting plate 218 disposed on the socket 211, in this embodiment, the limiting plate 218 is fixedly disposed on the socket 211, the number of limiting plates 218 is four, every two limiting plates 218 are a group, a connecting arm 233 is slidably disposed between each group of limiting plates 218, and the movement of the connecting arm 233 can be limited by the two limiting plates 218.

The rest of the structure is the same as in embodiment 1.

When the trigger switch 12 is pulled, the trigger switch 12 deflects, and then drives the connecting rod 41 to move, the connecting rod 41 pulls the limiting rod 43 to deflect, and meanwhile, the connecting arm 233 is pulled to rise by the pull rod 44 due to the fact that the moving direction of the connecting arm 233 is limited by the limiting plate 218, so that the push ring 231 is driven to rise, the clamping section 222 is propped against through the rising control bayonet 271 of the push ring 231, and locking of the kettle body 31 is achieved.

In summary, during spraying operation, as long as the pneumatic spray gun 11 is in a spraying state, the kettle body 31 is always in a locking state, so that the connection of the kettle body 31 can be ensured, and the kettle body 31 is prevented from falling off.

Embodiment 3 referring to fig. 1 to 7, which is a third embodiment of the present application, unlike the previous embodiment, the socket 21 further includes a sliding groove 215 provided on the socket tube 211; the mounting mechanism 2 further includes an extrusion piece 24 slidably disposed in the sliding groove 215, and a spring 28 disposed in the extrusion piece 24, and further includes a seal piece 26 disposed in the ferrule 211, in this embodiment, the extrusion piece 24 is capable of sliding in an inner wall of the sliding groove 215, the spring 28 is disposed between the extrusion piece 24 and the sliding groove 215, the extrusion piece 24 is capable of having a tendency to slide out from inside the sliding groove 215 by an elastic force of the spring 28, the seal piece 26 is disposed in the ferrule 211, the seal piece 26 is slidably connected with the extrusion piece 24, and the extrusion piece 24 is capable of compressing the seal piece 26 when compressing the spring 28.

Specifically, the extrusion piece 24 includes a push sleeve 241 slidably disposed on the sliding groove 215, and an extrusion ring 242 disposed on the push sleeve 241; in this embodiment, the pushing sleeve 241 is slidably connected to the sliding groove 215, and the extruding ring 242 is fixedly disposed on the inner wall of the pushing sleeve 241, and the thickness of the outer wall of the extruding ring 242 is greater than that of the inner wall.

Preferably, seal 26 includes a seal ring 261 disposed on ferrule 211, and a compression cavity 262 disposed on seal ring 261, and further includes a recessed annular groove 263 disposed on compression cavity 262; in this embodiment, an annular extrusion cavity 262 is formed inside the seal ring 261, and a concave ring groove 263 is formed on the outer wall of the seal ring 261.

Preferably, the storage mechanism 3 further comprises a plug 34 provided on the cannula 32, in this embodiment, the end of the plug 34 is rounded.

Further, the extrusion 24 also includes an active zone 243 provided on the push sleeve 241; the socket 21 further comprises a support rod 217 arranged on the sliding groove 215; the installation mechanism 2 further includes a positioning ball 25 disposed on the active area 243, in this embodiment, the supporting rods 217 are fixedly disposed on the surface of the sliding groove 215, the supporting rods 217 are provided with a plurality of supporting rods 217, the plurality of supporting rods 217 are distributed circumferentially on the surface of the sliding groove 215 at equal intervals, the number of supporting rods 217 and the number of positioning balls 25 are equal, and the supporting rods 217 and the positioning balls 25 are disposed in a one-to-one correspondence.

Preferably, the movable area 243 includes a movable cavity 2431 disposed on the push sleeve 241, a positioning arc groove 2432 and a sliding arc groove 2433 disposed on the movable cavity 2431, an annular positioning groove 2434 disposed on the push sleeve 241, and a slot 2435 disposed on the push sleeve 241, in this embodiment, the movable cavity 2431 is an annular cavity, a cross section of the movable cavity is rectangular, an inner wall size of the positioning arc groove 2432 is matched with an outer wall size of the positioning ball 25, a diameter of the positioning arc groove 2432 is equal to a diameter of the sliding arc groove 2433, the sliding arc groove 2433 is connected with the positioning arc groove 2432, the annular positioning groove 2434 is provided with a plurality of positioning balls 25 in a one-to-one correspondence manner, the positioning balls 25 can be clamped into the annular positioning groove 2434, the number of the slots 2435 is the same as that of the annular positioning groove 2434, and the slots 2435 are disposed corresponding to the supporting rods 217, and the supporting rods 217 penetrate the slots 2435.

The rest of the structure is the same as in embodiment 2.

In the initial state, when the trigger switch 12 is not pulled, the spring force of the spring 28 can make the surface of the extrusion 24 and the ring 212 collide, at this time, the supporting rod 217 collides with the surface of the positioning ball 25, the positioning ball 25 is attached to the positioning arc groove 2432, and meanwhile, the positioning ball 25 is attached to the surface of the annular positioning groove 2434.

After the trigger switch 12 is pulled, the push ring 231 slides upwards, the push rod piece 232 pushes the sleeve 241, the spring 28 is compressed, the extrusion ring 242 rises, the sealing ring 261 is extruded, the extrusion cavity 262 is flattened by compression, meanwhile, the positioning ball 25 is separated from the support rod 217, the positioning ball 25 is separated from the annular positioning groove 2434 by matching with the obstruction of the recessed annular groove 263 to the positioning ball 25, the positioning ball 25 moves towards the inside of the movable cavity 2431, the positioning ball 25 is separated from the contact of the positioning arc groove 2432, slides into the sliding arc groove 2433 for storage, the recessed annular groove 263 can enable the sealing ring 261 to be further extruded and deformed after the interference of the positioning ball 25 is lost, the sealing ring 261 is further attached to the plug 34 and the sleeve 211 better, the sealing performance is improved, and the situation that leakage does not exist between the kettle body 31 and the feeding pipe 13 in the spraying process is ensured.

When the spraying operation is stopped, the trigger switch 12 is reset, the push sleeve 241 is pushed to reset by the elastic force of the spring 28, due to a certain position difference between the positioning arc groove 2432 and the sliding arc groove 2433, the matched support rod 217 can prop against the positioning ball 25, and the matched push sleeve 241 is matched with the sliding of the push sleeve 241, so that the positioning ball 25 is jacked into the annular positioning groove 2434 again and is kept to be matched with the positioning arc groove 2432, at the moment, the sealing ring 261 is not extruded, and the deformation is recovered, so that the positioning ball 25 is matched with the concave annular groove 263 again, and the sealing ring 261 is positioned.

In summary, the sealing performance of the connection part between the kettle body 31 and the feeding pipe 13 can be ensured during spraying operation, and the leakage is avoided.

It is important to note that the construction and arrangement of the application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present application. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present applications. Therefore, the application is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in order to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the application, or those not associated with practicing the application).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (6)

1. An automobile part is with atomizing spraying device which characterized in that: comprising the steps of (a) a step of,

the spraying mechanism (1) comprises a pneumatic spray gun (11), a trigger switch (12) arranged on the pneumatic spray gun (11) and a feeding pipe (13) arranged on the pneumatic spray gun (11);

the mounting mechanism (2) comprises a sleeve joint piece (21) arranged on the feeding pipe (13), an elastic clamping piece (22) arranged on the sleeve joint piece (21), a pushing piece (23) and a plug-in piece (27) which are slidably arranged on the sleeve joint piece (21);

the storage mechanism (3) comprises a kettle body (31), a cannula (32) arranged on the kettle body (31) and a clamping groove (33) arranged on the cannula (32);

a pulling member (4) for connecting the trigger switch (12) and the pushing member (23);

when the trigger switch (12) is pulled, the pushing piece (23) can be pulled by the pulling piece (4) and the plug-in piece (27) is pushed to slide against the elastic clamping piece (22);

the sleeve joint part (21) comprises a sleeve joint pipe (211) arranged on the feeding pipe (13), a ring body (212) arranged on the sleeve joint pipe (211), and a setting groove (213) arranged on the ring body (212), wherein a communication cavity (214) is arranged on the sleeve joint pipe (211);

the elastic clamping piece (22) comprises a first arc section (221) and a second arc section (223) which are arranged on the mounting groove (213), and a clamping section (222) which is arranged on the first arc section (221) and the second arc section (223);

the socket piece (21) further comprises a containing area (216) arranged on the ring body (212);

the pushing piece (23) comprises a push ring (231) and a push rod piece (232) arranged on the push ring (231);

the plug connector (27) comprises a clamping pin (271) which is slidingly arranged on the accommodating area (216), and a pushing groove (272) which is arranged on the clamping pin (271);

the push rod piece (232) comprises a lower straight rod (2321) arranged on the push ring (231), an inclined rod (2322) arranged on the lower straight rod (2321) and an upper straight rod (2323) arranged on the inclined rod (2322);

the accommodating area (216) comprises an upper accommodating groove (2161) arranged on the ring body (212), a lower accommodating groove (2162) arranged on the ring body (212) and a containing groove (2163) arranged on the ring body (212);

an upper abutting surface (2165) is arranged on the upper accommodating groove (2161), and a lower abutting surface (2164) is arranged on the lower accommodating groove (2162).

2. The atomizing and spraying device for automobile parts according to claim 1, wherein: the pulling piece (4) comprises a connecting rod (41) arranged on the trigger switch (12), a connecting shaft (42) arranged on the connecting rod (41), a limit rod (43) and a pull rod (44) arranged on the connecting shaft (42);

the pushing piece (23) further comprises a connecting arm (233) arranged on the pushing ring (231), and a fixed shaft (234) arranged on the connecting arm (233);

the socket (21) further comprises a limiting plate (218) arranged on the socket tube (211).

3. The atomizing and spraying device for automobile parts according to claim 2, wherein: the sleeve joint piece (21) further comprises a sliding groove (215) arranged on the sleeve joint pipe (211);

the mounting mechanism (2) further comprises an extrusion piece (24) which is slidably arranged on the sliding groove (215), a spring (28) which is arranged on the extrusion piece (24), and a sealing piece (26) which is arranged on the sleeve pipe (211).

4. An atomized spray apparatus for automotive parts according to claim 3, wherein: the extrusion piece (24) comprises a pushing sleeve (241) which is slidably arranged on the sliding groove (215), and an extrusion ring (242) which is arranged on the pushing sleeve (241);

the sealing element (26) comprises a sealing ring (261) arranged on the sleeve pipe (211), an extrusion cavity (262) arranged on the sealing ring (261) and a concave annular groove (263) arranged on the extrusion cavity (262);

the storage mechanism (3) further comprises a plug connector (34) arranged on the insertion tube (32).

5. The atomizing and spraying device for automobile parts according to claim 4, wherein: the extrusion (24) also comprises an active zone (243) arranged on the push sleeve (241);

the sleeve joint piece (21) further comprises a supporting rod (217) arranged on the sliding groove (215);

the mounting mechanism (2) further comprises a positioning ball (25) arranged on the movable area (243).

6. The atomizing and spraying device for automobile parts according to claim 5, wherein: the movable area (243) comprises a movable cavity (2431) arranged on the pushing sleeve (241), a positioning arc groove (2432) and a sliding arc groove (2433) arranged on the movable cavity (2431), an annular positioning groove (2434) arranged on the pushing sleeve (241) and a slot (2435) arranged on the pushing sleeve (241).