CN112170056A

CN112170056A - A shell surface treatment device for fire hydrant makes

Info

Publication number: CN112170056A
Application number: CN202011059563.XA
Authority: CN
Inventors: 易焕新
Original assignee: Hunan Runhua New Material Co ltd
Current assignee: Hunan Runhua New Material Co ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-01-05

Abstract

The invention discloses a shell surface treatment device for fire hydrant manufacturing, which comprises a supporting mechanism for supporting the device, a feeding mechanism for pumping paint to a paint spraying mechanism and a paint spraying mechanism for spraying the paint on the surface of a fire hydrant, wherein the feeding mechanism is arranged in the supporting mechanism, the paint spraying mechanism is arranged at the upper end of the supporting mechanism, the supporting mechanism is connected with the paint spraying mechanism through a screw, and the feeding mechanism is welded with the supporting mechanism. The automatic spraying device can realize automatic processing through the conveying belt, and can automatically and uniformly spray paint on the surface of the fire hydrant through the rotatable paint spraying mechanism.

Description

A shell surface treatment device for fire hydrant makes

Technical Field

The invention relates to the field of building material manufacturing, in particular to a shell surface treatment device for manufacturing a fire hydrant.

Background

The fire hydrant is a fire-fighting water supply device which is connected with a water supply pipe network and consists of a valve, a water outlet, a shell and the like, is an important water supply device for fighting fire and preventing the spread and expansion of fire, and mainly has the functions of controlling combustible substances, isolating combustion-supporting substances and eliminating ignition sources, and the external paint film of the fire hydrant is smooth, flat, consistent in color and luster, free of defects such as bubbles, flow marks, wrinkles and the like, and free of obvious collision, scratch and the like.

The traditional paint spraying device needs manual paint spraying of workers, is inconvenient for controlling the quality of a paint film, and cannot be used for automatic production, so that the shell surface treatment device for manufacturing the fire hydrant, which can automatically feed and automatically spray paint, is needed.

Disclosure of Invention

The present invention has been made to solve the above problems, and an object of the present invention is to provide a surface treatment device for a fire hydrant.

The invention realizes the purpose through the following technical scheme:

the utility model provides a shell surface treatment device for fire hydrant is made, is including the supporting mechanism that is used for supporting this device, be used for to paint pump sending to the feed mechanism that sprays paint the mechanism, still including being used for spraying paint the mechanism that sprays paint on the fire hydrant surface, be provided with in the supporting mechanism feed mechanism, the upper end of supporting mechanism is provided with the mechanism that sprays paint, the supporting mechanism with the mechanism that sprays paint passes through screwed connection, feed mechanism with the supporting mechanism welding.

Preferably: the supporting mechanism comprises supporting legs, a bottom plate, a flange, a pillar, a control switch, a power distribution cabinet, a conveying belt and a first motor, the bottom plate is arranged between the supporting legs, the power distribution cabinet is arranged at the upper end of the bottom plate, the flanges are arranged at the upper ends of the supporting legs, the conveyer belt is arranged between the flanges, the first motor is arranged at the front ends of the flanges, the upper end of the retaining edge is provided with the pillar, the upper end of the pillar is provided with the control switch, the supporting legs are welded with the bottom plate, the supporting legs are welded with the flanges, the flanges are rotatably connected with the conveying belt, the flange is connected with the first motor through a screw, the first motor is connected with the conveying belt key, the pillar with the flange welding, the pillar with control switch passes through the screw connection, the switch board with the bottom plate passes through the screw connection.

According to the arrangement, the supporting legs are used for supporting the bottom plate and the flanges, the flanges are used for mounting the conveying belt, the first motor is used for driving the conveying belt, the power distribution cabinet is used for providing power for all parts, the supporting columns are used for supporting the control switch, and the control switch is used for controlling the device.

Preferably: the feeding mechanism comprises support legs, a storage box, an oil delivery pipe, a first oil pump, a second motor, a second oil pump and a third motor, wherein the support legs are arranged at the upper end of the bottom plate, the storage box is arranged at the upper end of the support legs, the oil delivery pipe is arranged at the rear side of the storage box, the first oil pump is arranged on the oil delivery pipe, the second motor is arranged at one end of the first oil pump, the second oil pump is arranged at the upper end of the oil delivery pipe, the third motor is arranged at one end of the second oil pump, the support legs are welded with the bottom plate, the support legs are welded with the storage box, the storage box is connected with the oil delivery pipe through screws, the oil delivery pipe is connected with the first oil pump through screws, the first oil pump is connected with the second motor through screws, and the second oil pump is connected with the oil delivery pipe through screws, the second oil pump with the third motor passes through bolted connection, first oil pump is the gear pump, the second oil pump is high-pressure plunger pump, the second motor with the third motor all is AC motor.

So set up, the stabilizer blade is used for supporting the storage case, the storage case is used for storing paint, defeated oil pipe is used for carrying paint, first oil pump has never been sent paint to near the second oil pump, the second oil pump is used for pressurizeing paint.

Preferably: the paint spraying mechanism comprises a bent pipe, a fourth motor, a guide rail, a manifold, a nozzle, a front baffle, a rear baffle, an upright post and a fire hydrant, the bent pipe is arranged at the lower end of the second oil pump, the fourth motor is arranged at the lower end of the bent pipe, the guide rail is arranged in the fourth motor, the upright post is arranged at the upper end of the guide rail, the manifold is arranged at the lower end of the fourth motor, the nozzle is arranged at one end of the manifold, the fire hydrant is arranged at the front side of the manifold, the front baffle is arranged at the front side of the fire hydrant, the rear baffle is arranged at the rear side of the manifold, the upright post is welded with the flange, the front baffle is connected with the flange through screws, the rear baffle is connected with the flange through screws, the guide rail is connected with the upright post through screws, and the guide rail is connected with the fourth motor in a sliding manner, the bent pipe is connected with the second oil pump in a rotating mode, the bent pipe is connected with the manifold through screws, the fourth motor is connected with the manifold through screws, the nozzle is connected with the manifold through threads, the fourth motor is an annular linear motor, and the nozzle is a high-pressure airless sprayer.

So configured, the bent pipe is used for connecting the second oil pump and the manifold, the manifold is used for installing the nozzle, the nozzle is used for spraying paint on the fire hydrant in an airless spraying mode, the fourth motor is used for rotating the manifold, the guide rail enables the fourth motor to move along the guide rail, and the stand is used for supporting the guide rail.

Preferably: the paint spraying mechanism comprises a bent pipe, a manifold, a nozzle, a fire hydrant, a driving wheel, a driven wheel, a front baffle, a rear baffle, a fifth motor and a support, wherein the upper end of the flange is provided with the support, the upper end of the support is provided with the fifth motor, the lower end of the fifth motor is provided with the driving wheel, one side of the driving wheel is provided with the driven wheel, the bent pipe is arranged in the driven wheel, the lower end of the bent pipe is provided with the manifold, one end of the manifold is provided with the nozzle, the front side of the manifold is provided with the fire hydrant, the front baffle is arranged on the front side of the fire hydrant, the rear side of the manifold is provided with the rear baffle, the support is welded with the flange, the fifth motor is connected with the support through a screw, the driving wheel is connected with the fifth motor key, and the driving wheel is connected with the driven wheel in a meshed manner, the follower with the bent pipe key-type connection, the bent pipe with the second oil pump rotates to be connected, the bent pipe with the manifold passes through screwed connection, the nozzle with the manifold passes through threaded connection, preceding baffle with the flange passes through screwed connection, the backplate with the flange passes through screwed connection, the action wheel with the follower is the lightweight gear, the fifth motor is AC motor, the nozzle is high-pressure airless shower nozzle.

So set up, the fifth motor is used for rotating the action wheel, the follower is used for rotating the bent pipe, the support is used for supporting the fifth motor.

Compared with the prior art, the invention has the following beneficial effects:

1. automatic processing can be realized through the conveying belt;

2. paint can be automatically and uniformly sprayed on the surface of the fire hydrant by arranging the rotatable paint spraying mechanism.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first schematic view of an embodiment 1 of a device for treating the surface of a casing for fire hydrant manufacture according to the present invention;

fig. 2 is a second schematic view of embodiment 1 of a device for treating the surface of a casing for fire hydrant manufacture according to the present invention;

fig. 3 is a third schematic view of embodiment 1 of the device for treating the surface of the casing for manufacturing the fire hydrant according to the present invention;

fig. 4 is a partially enlarged view of an embodiment 1 of a surface treatment device for a fire hydrant according to the present invention;

fig. 5 is a first schematic view of embodiment 2 of a device for treating the surface of a casing for fire hydrant manufacture according to the present invention;

fig. 6 is a second schematic view of embodiment 2 of a device for treating the surface of a casing for fire hydrant manufacture according to the present invention;

fig. 7 is a third schematic view of embodiment 2 of the device for treating the surface of the casing for manufacturing the fire hydrant according to the present invention;

fig. 8 is a partially enlarged view of embodiment 2 of a surface treatment device for a fire hydrant according to the present invention.

The reference numerals are explained below:

1. a support mechanism; 2. a feeding mechanism; 3. a paint spraying mechanism; 101. a base plate; 102. a support leg; 103. a power distribution cabinet; 104. a pillar; 105. a control switch; 106. blocking edges; 107. a conveyor belt; 108. a first motor; 201. a material storage box; 202. a support leg; 203. an oil delivery pipe; 204. a first oil pump; 205. a second motor; 206. a second oil pump; 207. a third motor; 301. a curved pipe; 302. a fourth motor; 303. a guide rail; 304. a manifold; 305. a nozzle; 306. a front baffle; 307. a tailgate; 308. a support; 309. a fifth motor; 310. a driving wheel; 311. a driven wheel; 312. a column; 313. a fire hydrant is provided.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The invention will be further described with reference to the accompanying drawings in which:

the utility model provides a shell surface treatment device for fire hydrant manufacturing, is including the supporting mechanism 1 that is used for supporting this device, be used for sending the paint pump to the feed mechanism 2 of mechanism 3 that sprays paint, still includes the mechanism 3 that sprays paint that is used for spraying paint on fire hydrant 313 surface, is provided with feed mechanism 2 in the supporting mechanism 1, and the upper end of supporting mechanism 1 is provided with the mechanism 3 that sprays paint, and supporting mechanism 1 passes through bolted connection with the mechanism 3 that sprays paint, and feed mechanism 2 welds with supporting mechanism 1.

Example 1

As shown in fig. 1, 2, 3 and 4, the supporting mechanism 1 includes legs 102, a bottom plate 101, flanges 106, pillars 104, a control switch 105, a power distribution cabinet 103, a conveyor belt 107 and a first motor 108, the bottom plate 101 is disposed between the legs 102, the power distribution cabinet 103 is disposed at the upper end of the bottom plate 101, the flanges 106 are disposed at the upper ends of the legs 102, the conveyor belt 107 is disposed between the flanges 106, the first motor 108 is disposed at the front end of the flanges 106, the pillars 104 are disposed at the upper end of the flanges 106, the control switch 105 is disposed at the upper end of the pillars 104, the legs 102 are welded to the bottom plate 101, the legs 102 are welded to the flanges 106, the flanges 106 are rotatably connected to the conveyor belt 107, the flanges 106 are connected to the first motor 108 through screws, the first motor 108 is connected to the conveyor belt 107 through keys, the pillars 104 are welded to the flanges 106, the pillars 104 are connected to the control switch 105 through, the legs 102 are used for supporting the bottom plate 101 and the ribs 106, the ribs 106 are used for mounting the conveyer belt 107, the first motor 108 is used for driving the conveyer belt 107, the power distribution cabinet 103 is used for providing power supply for various components, the pillars 104 are used for supporting the control switch 105, and the control switch 105 is used for controlling the device; the feeding mechanism 2 comprises a supporting leg 202, a storage tank 201, an oil delivery pipe 203, a first oil pump 204, a second motor 205, a second oil pump 206 and a third motor 207, the supporting leg 202 is arranged at the upper end of the base plate 101, the storage tank 201 is arranged at the upper end of the supporting leg 202, the oil delivery pipe 203 is arranged at the rear side of the storage tank 201, the first oil pump 204 is arranged on the oil delivery pipe 203, the second motor 205 is arranged at one end of the first oil pump 204, the second oil pump 206 is arranged at the upper end of the oil delivery pipe 203, the third motor 207 is arranged at one end of the second oil pump 206, the supporting leg 202 is welded with the base plate 101, the supporting leg 202 is welded with the storage tank 201, the storage tank 201 is connected with the oil delivery pipe 203 through screws, the oil delivery pipe 203 is connected with the first oil pump 204 through screws, the first oil pump 204 is connected with the second motor 205 through screws, the second oil pump 206 is connected with the oil, the first oil pump 204 is a gear pump, the second oil pump 206 is a high-pressure plunger pump, the second motor 205 and the third motor 207 are alternating current motors, the support legs 202 are used for supporting the storage tank 201, the storage tank 201 is used for storing paint, the oil pipeline 203 is used for conveying the paint, the first oil pump 204 is used for pumping the paint to the vicinity of the second oil pump 206, and the second oil pump 206 is used for pressurizing the paint; the paint spraying mechanism 3 comprises a curved pipe 301, a fourth motor 302, a guide rail 303, a manifold 304, a nozzle 305, a front baffle 306, a rear baffle 307, a column 312 and a fire hydrant 313, the curved pipe 301 is arranged at the lower end of the second oil pump 206, the fourth motor 302 is arranged at the lower end of the curved pipe 301, the guide rail 303 is arranged in the fourth motor 302, the column 312 is arranged at the upper end of the guide rail 303, the manifold 304 is arranged at the lower end of the fourth motor 302, the nozzle 305 is arranged at one end of the manifold 304, the fire hydrant 313 is arranged at the front side of the manifold 304, the front baffle 306 is arranged at the rear side of the manifold 313, the rear baffle 307 is arranged at the rear side of the manifold 304, the column 312 is welded with the flange 106, the front baffle 306 is connected with the flange 106 through screws, the rear baffle 307 is connected with the flange 106 through screws, the guide rail 303 is connected with the column 312 through screws, the guide rail 303 is connected with the, the curved pipe 301 is connected with the manifold 304 through screws, the fourth motor 302 is connected with the manifold 304 through screws, the nozzle 305 is connected with the manifold 304 through threads, the fourth motor 302 is an annular linear motor, the nozzle 305 is a high-pressure airless sprayer, the curved pipe 301 is used for connecting the second oil pump 206 with the manifold 304, the manifold 304 is used for installing the nozzle 305, the nozzle 305 is used for spraying paint on a fire hydrant 313 in an airless spraying mode, the fourth motor 302 is used for rotating the manifold 304, the guide rail 303 enables the fourth motor 302 to move along the guide rail 303, and the upright 312 is used for supporting the guide rail 303.

The working principle is as follows: when the device is used to place a fire hydrant 313 on a conveyor belt 107, a first motor 108 drives the conveyor belt 107 to send the fire hydrant 313 between a front baffle 306 and a rear baffle 307, then a first oil pump 204 sends paint in a storage tank 201 to a second oil pump 206 through an oil pipeline 203, the second oil pump 206 pressurizes the paint to a nozzle 305 through a curved pipe 301 and a manifold 304, the nozzle 305 atomizes the paint and sprays the paint on the fire hydrant 313, and then a fourth motor 302 slides along a guide rail 303 to rotate the manifold 304 and the nozzle 305 along with the paint, so that the surface of the fire hydrant 313 is coated with a uniform paint film in one circle around the fire hydrant 313.

Example 2

As shown in fig. 5, 6, 7 and 8, the painting mechanism 3 includes a curved pipe 301, a manifold 304, a nozzle 305, a fire hydrant 313, a driving wheel 310, a driven wheel 311, a front baffle 306, a rear baffle 307, a fifth motor 309 and a bracket 308, the bracket 308 is arranged at the upper end of the baffle 106, the fifth motor 309 is arranged at the upper end of the bracket 308, the driving wheel 310 is arranged at the lower end of the fifth motor 309, the driven wheel 311 is arranged at one side of the driving wheel 310, the curved pipe 301 is arranged in the driven wheel 311, the manifold 304 is arranged at the lower end of the curved pipe 301, the nozzle 305 is arranged at one end of the manifold 304, the fire hydrant 313 is arranged at the front side of the manifold 304, the front baffle 306 is arranged at the front side of the fire hydrant 313, the rear baffle 307 is arranged at the rear side of the manifold 304, the bracket 308 is welded with the baffle 106, the fifth motor 309 is connected with the bracket 308 by a screw, the driving wheel 310 is, the driven wheel 311 is in key connection with the curved pipe 301, the curved pipe 301 is in rotary connection with the second oil pump 206, the curved pipe 301 is in screw connection with the manifold 304, the nozzle 305 is in threaded connection with the manifold 304, the front baffle 306 is in screw connection with the rib 106, the rear baffle 307 is in screw connection with the rib 106, the driving wheel 310 and the driven wheel 311 are light gears, the fifth motor 309 is an alternating current motor, the nozzle 305 is a high-pressure airless sprayer, the fifth motor 309 is used for rotating the driving wheel 310, the driven wheel 311 is used for rotating the curved pipe 301, and the support 308 is used for supporting the fifth motor 309.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. A shell surface treatment device for fire hydrant manufacturing, including supporting mechanism (1) for supporting this device, feed mechanism (2) for pump paint to mechanism of spraying paint (3), characterized by: the fire hydrant structure is characterized by further comprising a paint spraying mechanism (3) used for spraying paint on the surface of the fire hydrant (313), the feeding mechanism (2) is arranged in the supporting mechanism (1), the paint spraying mechanism (3) is arranged at the upper end of the supporting mechanism (1), the supporting mechanism (1) is connected with the paint spraying mechanism (3) through screws, and the feeding mechanism (2) is welded with the supporting mechanism (1);

the supporting mechanism (1) comprises supporting legs (102), a bottom plate (101), flanges (106), pillars (104), a control switch (105), a power distribution cabinet (103), a conveying belt (107) and a first motor (108), wherein the bottom plate (101) is arranged between the supporting legs (102), the power distribution cabinet (103) is arranged at the upper end of the bottom plate (101), the flanges (106) are arranged at the upper ends of the supporting legs (102), the conveying belt (107) is arranged between the flanges (106), the first motor (108) is arranged at the front end of each flange (106), the pillars (104) are arranged at the upper ends of the flanges (106), and the control switch (105) is arranged at the upper end of each pillar (104);

feed mechanism (2) are including stabilizer blade (202), storage case (201), defeated oil pipe (203), first oil pump (204), second motor (205), second oil pump (206), third motor (207), the upper end of bottom plate (101) is provided with stabilizer blade (202), the upper end of stabilizer blade (202) is provided with storage case (201), the rear side of storage case (201) is provided with defeated oil pipe (203), be provided with on defeated oil pipe (203) first oil pump (204), the one end of first oil pump (204) is provided with second motor (205), the upper end of defeated oil pipe (203) is provided with second oil pump (206), the one end of second oil pump (206) is provided with third motor (207).

2. A fire hydrant manufacturing casing surface treating device according to claim 1, wherein: the paint spraying mechanism (3) comprises a curved pipe (301), a fourth motor (302), a guide rail (303), a manifold (304), a nozzle (305), a front baffle (306), a rear baffle (307), a vertical column (312) and a fire hydrant (313), the lower end of the second oil pump (206) is provided with the curved pipe (301), the lower end of the curved pipe (301) is provided with the fourth motor (302), the fourth motor (302) is provided with the guide rail (303), the upper end of the guide rail (303) is provided with the upright post (312), the manifold (304) is arranged at the lower end of the fourth motor (302), the nozzle (305) is arranged at one end of the manifold (304), the fire hydrant (313) is disposed at the front side of the manifold (304), the front baffle (306) is disposed at the front side of the fire hydrant (313), and the rear baffle (307) is disposed at the rear side of the manifold (304).

3. A fire hydrant manufacturing casing surface treating device according to claim 2, wherein: stand (312) with flange (106) welding, preceding baffle (306) with flange (106) pass through the screw connection, backplate (307) with flange (106) pass through the screw connection, guide rail (303) with stand (312) pass through the screw connection, guide rail (303) with fourth motor (302) sliding connection, bent pipe (301) with second oil pump (206) rotate to be connected, bent pipe (301) with manifold (304) pass through the screw connection, fourth motor (302) with manifold (304) pass through the screw connection, nozzle (305) with manifold (304) pass through threaded connection.

4. A fire hydrant manufacturing casing surface treating device according to claim 2, wherein: the fourth motor (302) is an annular linear motor and the nozzle (305) is a high pressure airless spray head.

5. A fire hydrant manufacturing casing surface treating device according to claim 1, wherein: the paint spraying mechanism (3) comprises a curved pipe (301), a manifold (304), a nozzle (305), a fire hydrant (313), a driving wheel (310), a driven wheel (311), a front baffle (306), a rear baffle (307), a fifth motor (309) and a support (308), wherein the support (308) is arranged at the upper end of the flange (106), the fifth motor (309) is arranged at the upper end of the support (308), the driving wheel (310) is arranged at the lower end of the fifth motor (309), the driven wheel (311) is arranged on one side of the driving wheel (310), the curved pipe (301) is arranged in the driven wheel (311), the manifold (304) is arranged at the lower end of the curved pipe (301), the nozzle (305) is arranged at one end of the manifold (304), the fire hydrant (313) is arranged on the front side of the manifold (304), the front baffle (306) is arranged on the front side of the fire hydrant (313), the rear side of the manifold (304) is provided with the tailgate (307).

6. A casing surface treatment device for fire hydrant manufacture according to claim 5, wherein: support (308) with flange (106) welding, fifth motor (309) with support (308) passes through screwed connection, action wheel (310) with fifth motor (309) key-type connection, action wheel (310) with driven wheel (311) meshing is connected, driven wheel (311) with bent pipe (301) key-type connection, bent pipe (301) with second oil pump (206) rotates to be connected, bent pipe (301) with manifold (304) passes through screwed connection, nozzle (305) with manifold (304) passes through threaded connection, preceding baffle (306) with flange (106) passes through screwed connection, backplate (307) with flange (106) pass through screwed connection.

7. A casing surface treatment device for fire hydrant manufacture according to claim 5, wherein: the driving wheel (310) and the driven wheel (311) are light gears, the fifth motor (309) is an alternating current motor, and the nozzle (305) is a high-pressure airless sprayer.

8. A fire hydrant manufacturing casing surface treating device according to claim 1, wherein: landing leg (102) with bottom plate (101) welding, landing leg (102) with flange (106) welding, flange (106) with conveyer belt (107) rotate to be connected, flange (106) with first motor (108) pass through the screw connection, first motor (108) with conveyer belt (107) key-type connection, pillar (104) with flange (106) welding, pillar (104) with control switch (105) pass through the screw connection, switch board (103) with bottom plate (101) pass through the screw connection.

9. A fire hydrant manufacturing casing surface treating device according to claim 1, wherein: stabilizer blade (202) with bottom plate (101) welding, stabilizer blade (202) with storage case (201) welding, storage case (201) with defeated oil pipe (203) pass through screwed connection, defeated oil pipe (203) with first oil pump (204) pass through screwed connection, first oil pump (204) with second motor (205) pass through screwed connection, second oil pump (206) with defeated oil pipe (203) pass through screwed connection, second oil pump (206) with third motor (207) pass through screwed connection.

10. A fire hydrant manufacturing casing surface treating device according to claim 1, wherein: the first oil pump (204) is a gear pump, the second oil pump (206) is a high-pressure plunger pump, and the second motor (205) and the third motor (207) are both alternating current motors.