CN114042584B - A motor casing drying machine that sprays paint for motor is made - Google Patents

Abstract

The invention discloses a motor shell paint spraying and drying integrated machine for motor manufacturing, and relates to the technical field of motor manufacturing. The invention comprises a feeding assembly; the feeding assembly is provided with a paint spraying assembly; the paint spraying assembly is provided with a material conveying assembly; one side of the material conveying component is provided with a material receiving component; connect the material subassembly facial make-up to be equipped with the stoving subassembly. According to the motor shell mechanical paint spraying and drying device, the plurality of motor shells are sequentially and parallelly conveyed to the paint spraying assembly through the feeding assembly, the single motor shell is conveyed to the material receiving assembly after being sprayed with paint through the paint spraying assembly by the material conveying assembly, and finally drying is completed through the drying assembly, so that mechanical paint spraying and drying operation of the motor shells is realized, the motor shell mechanical paint spraying and drying device is reasonable in structural design and convenient to operate, the paint spraying efficiency and the paint spraying effect of the motor shells are effectively improved, and the motor shell mechanical paint spraying and drying device has a high market application value.

Description

A motor casing drying machine that sprays paint for motor is made

Technical Field

The invention belongs to the technical field of motor manufacturing, and particularly relates to a motor shell paint spraying and drying integrated machine for motor manufacturing.

Background

With the social progress and the continuous development of science and technology, the types of motors are gradually increased, and the application fields of the motors are more and more extensive; the spray painting of the motor shell is an important process in the production of the motor, and the purposes of rust prevention, water prevention and the like of the motor shell are achieved through sneezing of the motor shell.

In the prior art, generally, a spray gun is manually held to spray paint on a motor shell, so that the labor intensity of workers is increased, and the defects of uneven paint spraying, large paint consumption, time and labor waste and the like exist. Therefore, a painting and drying integrated machine for a motor shell used for motor manufacturing is needed to be researched so as to solve the above problems.

Disclosure of Invention

The invention provides a motor shell paint spraying and drying integrated machine for motor manufacturing, and aims to solve the technical problems of high labor intensity, uneven paint spraying, large paint consumption, time and labor waste and the like in the prior art.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a motor shell paint spraying and drying integrated machine for motor manufacturing, which comprises a feeding assembly, a spraying assembly and a drying assembly, wherein the feeding assembly is arranged on the spraying assembly; a paint spraying assembly is arranged on the feeding assembly; the paint spraying assembly is provided with a material conveying assembly; one side of the material conveying component is provided with a material receiving component; a drying component is arranged on the material receiving component; through the feed subassembly is in proper order and the bank of a plurality of motor casings is delivered to the subassembly department that sprays paint, utilizes the fortune material subassembly is delivered to material receiving subassembly department after spraying paint the subassembly with single motor casing, accomplishes the stoving through the stoving subassembly at last.

As a preferred technical scheme of the invention, the feeding assembly comprises a frame; a pair of first belt wheels are rotatably arranged on the rack side by side; the two first pulleys are in transmission connection through a first conveyor belt.

As a preferred technical scheme of the invention, the paint spraying assembly comprises a treatment box with a fixed frame arranged on a rack; the bottom of the treatment box is of an open structure; the treatment box is arranged above the first transmission belt; a feed inlet is formed in one side wall of the treatment box close to a first belt wheel; the top wall of the treatment box is provided with a discharge hole; an annular bulge is horizontally fixed at the upper end of the discharge hole; the periphery of the annular convex is rotatably sleeved with a driving ring; a connecting block is fixed on the driving ring; a guide rod is vertically fixed on the connecting block; the guide rod penetrates through the discharge hole and extends into the treatment box; a lifting strip which is horizontally arranged is sleeved on the guide rod in a sliding manner; the lifting bar is connected with the connecting block through a tension spring; a paint spraying pipe is vertically fixed on the lower surface of the lifting strip; the outer wall of the paint spraying pipe is connected with a plurality of spray heads along the radial direction of the driving ring; the lower end of the paint spraying pipe is connected to the paint supply pump through a paint supply pipe.

As a preferred technical scheme of the invention, the feeding assembly is connected with the paint spraying assembly through a first transmission assembly; the first transmission assembly comprises a grooved wheel which is rotationally connected to one end of the other first pulley wheel shaft; one side of the grooved wheel is provided with a matched driving plate; the driving plate is rotatably arranged on the frame; a first bevel gear is fixed on a wheel shaft of the driving drive plate; a second bevel gear is horizontally meshed with the first bevel gear; the second bevel gear is fixed on the lower end of a connecting shaft which is vertically arranged; the connecting shaft is rotatably sleeved with a supporting block; the supporting block is fixed on the side wall of the treatment box; the upper end of the connecting shaft is horizontally provided with a one-way gear corresponding to the driving ring; and a plurality of teeth meshed with the one-way gear are uniformly distributed on the outer side wall of the driving ring.

In a preferred embodiment of the present invention, the material transporting assembly includes a support bar having a reverse-l-shaped structure; the lower end of the supporting rod is fixed on one side wall of the treatment box; a transmission screw nut is inserted into the upper end of the supporting rod in a rotating mode; a matched transmission screw rod is vertically inserted into the transmission screw nut; the lower end of the transmission screw rod penetrates through the upper end part of the supporting rod and is fixed with an installation block; a positioning groove is formed in the circumferential direction of the outer wall of the transmission screw rod; a positioning pin is inserted in the positioning groove in a sliding manner; the positioning pin is horizontally fixed on the supporting rod; the upper surface of the mounting block can abut against one end of the lifting strip; a power telescopic rod is vertically fixed on the lower surface of the mounting block; the output end of the power telescopic rod is fixed with a movable block; four side surfaces of the movable block are rotatably connected with first transmission rods; one end of the first transmission rod is rotatably connected with a sliding sleeve; the sliding sleeve is sleeved on a clamping rod in a sliding manner; one end of the clamping rod is rotatably connected to the mounting block.

As a preferred technical scheme of the invention, the paint spraying assembly is connected with the material conveying assembly through a second transmission assembly; the second transmission assembly comprises a driving motor which is vertically fixed on the outer side wall of the treatment box; an output shaft of the driving motor is vertically connected with a transmission shaft; a transmission gear corresponding to the driving ring is horizontally fixed on the transmission shaft; a plurality of teeth meshed with the transmission gear are uniformly distributed on the outer side wall of the driving ring; a first synchronous belt wheel is horizontally fixed at the upper end of the transmission shaft; the first synchronous belt pulley is in transmission connection with a second synchronous belt pulley through a synchronous belt; the second synchronous belt wheel is fixedly sleeved on the periphery of the transmission screw.

As a preferred technical solution of the present invention, the material receiving assembly includes a pair of side supporting plates arranged side by side; a plurality of bearing rods are connected to the side supporting plates in a sliding manner; the bearing rod is vertically fixed on the rack; a pair of second belt wheels which are arranged side by side are rotatably arranged between the two side supporting plates; the two second belt wheels are in transmission connection through a second conveying belt; the conveying direction of the second conveyor belt is opposite to the conveying direction of the first conveyor belt.

As a preferred technical scheme of the invention, the drying component comprises a fan cover, wherein a fixed frame is arranged between two side supporting plates; the top wall of the fan cover is provided with a plurality of hot air blowers side by side.

As a preferred technical scheme of the invention, the material conveying assembly is connected with the material receiving assembly through a third transmission assembly; the third transmission assembly comprises a pair of second transmission rods which are respectively and rotatably connected to the opposite outer side surfaces of the two side supporting plates; one ends of the two second transmission rods facing the same direction are connected through a horizontally arranged third transmission rod; the third transmission rod is sleeved on the transmission screw rod in a sliding manner; the upper surface of the third transmission rod is connected with the upper end of the supporting rod through a return spring.

The invention has the following beneficial effects:

according to the motor shell mechanical paint spraying and drying device, the plurality of motor shells are sequentially and parallelly conveyed to the paint spraying assembly through the feeding assembly, the single motor shell is conveyed to the material receiving assembly after being sprayed with paint through the paint spraying assembly by the material conveying assembly, and finally drying is completed through the drying assembly, so that mechanical paint spraying and drying operation of the motor shells is realized, the motor shell mechanical paint spraying and drying device is reasonable in structural design and convenient to operate, the paint spraying efficiency and the paint spraying effect of the motor shells are effectively improved, and the motor shell mechanical paint spraying and drying device has a high market application value.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic structural diagram of a painting and drying integrated machine for a motor shell used for motor manufacturing according to the present invention;

FIG. 2 is a front view of the structure of FIG. 1;

FIG. 3 is a schematic view of the connection between the paint spraying assembly, the first transmission assembly and the second transmission assembly according to the present invention;

FIG. 4 is a schematic view of the connection of the paint spraying assembly, the material transporting assembly and the second driving assembly according to the present invention;

FIG. 5 is a front view of the structure of FIG. 4;

fig. 6 is a schematic structural view of the connection between the receiving assembly and the drying assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a feeding component, 2-a paint spraying component, 3-a material conveying component, 4-a material receiving component, 5-a drying component, 6-a first transmission component, 7-a second transmission component, 8-a third transmission component, 101-a frame, 102-a first belt wheel, 103-a first transmission belt, 201-a treatment box, 202-a driving ring, 203-a connecting block, 204-a guide rod, 205-a lifting strip, 206-a tensioning spring, 207-a paint spraying pipe, 208-a paint supplying pipe, 209-a paint supplying pump, 301-a supporting rod, 302-a transmission screw nut, 303-a transmission screw rod, 304-a mounting block, 305-a power telescopic rod, 306-a movable block, 307-a first transmission rod, 308-a sliding sleeve, 309-a clamping rod and 401-a side supporting plate, 402-carrier bar, 403-second belt wheel, 404-second conveyor belt, 501-fan housing, 502-hot air blower, 601-grooved wheel, 602-driving dial, 603-first bevel gear, 604-second bevel gear, 605-connecting shaft, 606-supporting block, 607-one-way gear, 701-driving motor, 702-transmission shaft, 703-transmission gear, 704-first synchronous pulley, 705-second synchronous pulley, 801-second transmission bar, 802-third transmission bar, 803-return spring, 2011-annular projection and 2071-spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-2, the present invention is an integrated machine for painting and drying a motor casing used in motor manufacturing, comprising a feeding assembly 1; the feeding component 1 is provided with a paint spraying component 2; the paint spraying component 2 is provided with a material conveying component 3; one side of the material conveying component 3 is provided with a material receiving component 4; the material receiving component 4 is provided with a drying component 5. During the use, send a plurality of motor casings to the subassembly 2 department that sprays paint in proper order and row through feed subassembly 1, utilize fortune material subassembly 3 to send a single motor casing to receiving material subassembly 4 department after the subassembly 2 that sprays paint, accomplish through drying assembly 5 at last and dry.

As shown in fig. 1-2, the feed assembly 1 includes a frame 101; the frame 101 is of conventional construction in the art; a pair of first pulleys 102 are rotatably arranged on the frame 101 side by side; the two first pulleys 102 are in transmission connection through a first conveyor belt 103. During the use, the staff puts a plurality of motor casings in proper order equidistance side by side on first conveyer belt 103.

As shown in fig. 2-5, the painting module 2 includes a processing box 101 fixed on a frame 101; the bottom of the treatment box 101 is of an open structure; the processing box 101 is arranged above the first transmission belt 103; a feed inlet with a square structure is formed in one side wall of the treatment box 101 close to a first belt pulley 102; the top wall of the treatment box 101 is provided with a discharge hole in a circular structure; a horizontally arranged annular protrusion 2011 is coaxially fixed at the upper end of the discharge hole; the outer periphery of the annular projection 2011 is rotatably sleeved with a driving ring 202; a connecting block 203 in an eta-shaped structure is fixed on the driving ring 202; a guide rod 204 is vertically fixed on the connecting block 203; the guide rod 204 passes through the discharge port and extends into the treatment box 101; a lifting strip 205 which is horizontally arranged is slidably sleeved on the guide rod 204; the lifting bar 205 is composed of a conventional electric push rod in the field and a slide block fixed on the tail end of the electric push rod; the slide block is sleeved on the guide rod 204 in a sliding manner; the lifting bar 205 is connected with the connecting block 203 through a tension spring 206; a paint spraying pipe 207 is vertically fixed on the lower surface of the lifting strip 205; the outer wall of the paint spraying pipe 207 is connected with a plurality of spray heads 2071 adopting a structure conventional in the art along the radial direction of the driving ring 202; the lower end of the paint spraying pipe 207 is connected to a paint supply pump 209 through a paint supply pipe 208; the paint supply pump 209 is connected to the paint storage tank. When the paint spraying machine is used, after the material conveying assembly 3 drives the motor shell to move upwards, the lifting strips 205 abut against the mounting blocks 304, paint is sprayed onto the outer surface of the motor shell by using the spray head 2071, and meanwhile, the driving ring 202 drives the spray head 2071 to rotate around the periphery of the motor shell through the connecting block 203, the guide rod 204, the lifting strips 205 and the paint spraying pipe 207, so that full-coverage type paint spraying operation on the motor shell is realized; when the painting of the single motor case is completed, the nozzle 2071 stops the painting while the lifting bar 205 is disengaged from the mounting block 304, and then the nozzle 2071 is restored by the elastic force of the tension spring 206.

As shown in fig. 2-5, the material-carrying assembly 3 includes a support rod 301 having a "" structure; the lower end of the supporting rod 301 is fixed on one side wall of the processing box 201; a transmission screw nut 302 is inserted into the upper end of the support rod 301 in a rotating way; a matched transmission screw rod 303 is vertically inserted into the transmission screw nut 302; the lower end of the transmission screw rod 303 penetrates through the upper end part of the supporting rod 301 and is fixed with a mounting block 304; a positioning groove is formed in the circumferential direction of the outer wall of the transmission screw rod 303; a positioning pin is inserted in the positioning groove in a sliding manner; the positioning pin is horizontally fixed on the supporting rod 301; the upper surface of the mounting block 304 can abut against the output end of the electric push rod; a power telescopic rod 305 is vertically fixed on the lower surface of the mounting block 304; the power telescopic rod 305 adopts a conventional hydraulic cylinder in the field; a movable block 306 is vertically fixed at the output end of the power telescopic rod 305; four side surfaces of the movable block 306 are rotatably connected with first transmission rods 307; one end of the first transmission rod 307 is rotatably connected with a sliding sleeve 308; the sliding sleeve 308 is slidably sleeved on a clamping rod 309; one end of the clamping bar 309 is pivotally connected to the mounting block 304. After the motor shell moves to the position right below the clamping rod 309, the transmission screw rod 303 firstly drives the clamping rod 309 to move to the inside of the motor shell, and then the output end of the power telescopic rod 305 drives the movable block 306 to move upwards, so that the lower end of the clamping rod 309 moves outwards and abuts against the inner wall of the motor shell, and the motor shell is clamped finally; after the motor shell finishes clamping, the transmission screw 303 drives the motor shell to move upwards.

As shown in fig. 2 and fig. 6, the receiving assembly 4 includes a pair of side supporting plates 401 arranged side by side; a plurality of bearing rods 402 are connected on the side plates 401 in a sliding manner; the bearing rod 402 is vertically fixed on the frame 101; a pair of second belt wheels 403 which are arranged side by side are rotatably arranged between the two side supporting plates 401; the two second belt wheels 403 are in transmission connection through a second conveyor belt 404; the conveying direction of the second conveyor belt 404 is opposite to the conveying direction of the first conveyor belt 103; one end of a wheel shaft of a second belt wheel 403 is connected to an output shaft of a rotating motor; the rotating electric machine is fixed to a side plate 401. In use, after the motor housing moves above the second conveyor belt 404, the material conveying assembly 3 releases the motor housing, and then the motor housing vertically falls onto the second conveyor belt 404; the second conveyor 404 then transports the motor housing out through the drying assembly 5.

As shown in fig. 2 and fig. 6, the drying assembly 5 includes a fan housing 501 with a fixed frame disposed between two side supporting plates 401; the fan housing 501 is an n-shaped structure; the top wall of the fan housing 501 is provided with a plurality of hot air heaters 502 in parallel; the air outlet direction of the hot air blower 502 is opposite to the second conveyor belt 404. During the use, after the motor casing is driven by second drive belt 404, hot-blast perpendicular motor casing surface with hot-blast air heater 502 to the realization is to the stoving of motor casing.

The second embodiment is as follows:

on the basis of the first embodiment, as shown in fig. 3, the feeding assembly 1 is connected with the painting assembly 2 through a first transmission assembly 6; the primary transmission assembly 6 comprises a sheave 601 rotatably connected to one end of the axle of the other primary pulley 102; one side of the grooved wheel 601 is provided with a matched driving drive plate 602; the driving dial 602 is rotatably mounted on the frame 101; a first bevel gear 603 is fixed on the wheel shaft of the driving dial 602; a second bevel gear 604 is horizontally meshed on the first bevel gear 603; the second bevel gear 604 is fixed to the lower end of a vertically disposed connecting shaft 605; a supporting block 606 is rotatably sleeved on the connecting shaft 605; the support block 606 is fixed to the side wall of the processing tank 201; the upper end of the connecting shaft 605 is horizontally provided with a one-way gear 607 corresponding to the driving ring 202; the one-way gear 607 is composed of a one-way bearing and a common gear, and belongs to the conventional design in the field; the outer side wall of the driving ring 202 is uniformly provided with a plurality of teeth which are meshed with the one-way gear 607. The driving ring 202 drives the one-way gear 607 to rotate when rotating positively, the first transmission belt 103 is driven to move through the connecting shaft 605, the second bevel gear 604, the first bevel gear 603, the driving dial 602 and the grooved pulley 601, and the driving dial 602 and the grooved pulley 601 form an intermittent transmission structure, so that the first transmission belt 103 intermittently drives the motor shell to move until the driving ring 202 stops driving the first transmission belt 103 to move after one motor shell moves to the position right below the transmission screw rod 303, and the transmission screw rod 303 moves downwards when the driving ring 202 rotates positively; when the driving ring 202 rotates in the reverse direction, the one-way gear 607 cannot drive the connecting shaft 605 to rotate.

The third concrete embodiment:

on the basis of the second embodiment, as shown in fig. 2-5, the paint spraying assembly 2 is connected with the material conveying assembly 3 through a second transmission assembly 7; the second transmission assembly 7 comprises a driving motor 701 vertically fixed on the outer side wall of the treatment box 201; an output shaft of the driving motor 701 is vertically connected with a transmission shaft 702; a transmission gear 703 corresponding to the driving ring 202 is horizontally fixed on the transmission shaft 702; a plurality of teeth meshed with the transmission gear 703 are uniformly distributed on the outer side wall of the driving ring 202; a first synchronous pulley 704 is horizontally fixed at the upper end of the transmission shaft 702; the first synchronous pulley 704 is connected with a second synchronous pulley 705 through a synchronous belt transmission; the second synchronous pulley 705 is fixedly sleeved on the outer periphery of the transmission nut 302. When the device is used, when the output shaft of the driving motor 701 rotates forwards, the driving ring 202 is driven to rotate forwards, and meanwhile, the driving screw 302 is driven to move through the transmission shaft 702, the first synchronous belt pulley 704 and the second synchronous belt pulley 705, so that the transmission screw rod 303 is driven to move downwards; when the output shaft of the driving motor 701 rotates reversely, the driving screw 303 is driven to move upwards.

The fourth concrete embodiment:

on the basis of the third embodiment, as shown in fig. 2 and fig. 6, the material transporting assembly 3 is connected with the material receiving assembly 4 through a third transmission assembly 8; the third transmission assembly 8 comprises a pair of second transmission rods 801 which are respectively rotatably connected to the opposite outer side surfaces of the two side supporting plates 401; the ends, facing the same direction, of the two second transmission rods 801 are connected through a horizontally arranged third transmission rod 802; the third transmission rod 802 is slidably sleeved on the transmission screw rod 303; the upper surface of the third driving rod 802 is connected to the upper end of the supporting rod 301 through a return spring 803. During the use, after drive screw 303 drives motor casing upward movement to the top of second conveyer belt 404, installation piece 304 is leaned on with second transmission pole 802 and is leaned on, drives second conveyer belt 404 through second transmission pole 801 and is close to the motion of motor casing, and after motor casing moved to the top of second conveyer belt 404, second conveyer belt 404 stopped being driven to realize the linkage between fortune material subassembly 3 and the material receiving subassembly 4.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A motor casing paint spraying and drying integrated machine for motor manufacturing is characterized by comprising a feeding assembly (1);

the feeding assembly (1) is provided with a paint spraying assembly (2); the paint spraying assembly (2) is provided with a material conveying assembly (3); one side of the material conveying component (3) is provided with a material receiving component (4); a drying component (5) is arranged on the material receiving component (4); a plurality of motor housings are sequentially and parallelly conveyed to a paint spraying assembly (2) through the feeding assembly (1), a single motor housing is sprayed with paint through the paint spraying assembly (2) by utilizing the material conveying assembly (3) and then conveyed to a material receiving assembly (4), and finally drying is completed through the drying assembly (5);

the feeding assembly (1) comprises a frame (101); a pair of first belt wheels (102) are rotatably arranged on the frame (101) side by side; the two first belt wheels (102) are in transmission connection through a first conveyor belt (103);

the paint spraying assembly (2) comprises a treatment box (101) with a fixed frame arranged on the rack (101); the bottom of the treatment box (101) is of an open structure; the treatment box (101) is arranged above the first transmission belt (103); a feed inlet is formed in one side wall of the treatment box (101) close to a first belt wheel (102); the top wall of the treatment box (101) is provided with a discharge hole; an annular protrusion (2011) is horizontally fixed at the upper end of the discharge hole; a driving ring (202) is rotatably sleeved on the periphery of the annular convex (2011); a connecting block (203) is fixed on the driving ring (202); a guide rod (204) is vertically fixed on the connecting block (203); the guide rod (204) penetrates through the discharge hole and extends into the treatment box (101); a lifting strip (205) which is horizontally arranged is sleeved on the guide rod (204) in a sliding manner; the lifting bar (205) is connected with the connecting block (203) through a tension spring (206); a paint spraying pipe (207) is vertically fixed on the lower surface of the lifting strip (205); the outer wall of the paint spraying pipe (207) is connected with a plurality of spray heads (2071) along the radial direction of the driving ring (202); the lower end of the paint spraying pipe (207) is connected to a paint supply pump (209) through a paint supply pipe (208);

the feeding assembly (1) is connected with the paint spraying assembly (2) through a first transmission assembly (6); the first transmission assembly (6) comprises a grooved wheel (601) which is rotationally connected with one end of a wheel shaft of the other first belt wheel (102); one side of the grooved wheel (601) is provided with a matched driving drive plate (602); the driving dial (602) is rotatably arranged on the rack (101); a first bevel gear (603) is fixed on a wheel shaft of the driving dial (602); a second bevel gear (604) is horizontally meshed on the first bevel gear (603); the second bevel gear (604) is fixed on the lower end of a connecting shaft (605) which is vertically arranged; a supporting block (606) is rotatably sleeved on the connecting shaft (605); the supporting block (606) is fixed on the side wall of the treatment box (201); the upper end of the connecting shaft (605) is horizontally provided with a one-way gear (607) corresponding to the driving ring (202); the outer side wall of the driving ring (202) is uniformly provided with a plurality of teeth meshed with the one-way gear (607).

2. The paint spraying and drying all-in-one machine for the motor casing for the motor manufacturing as claimed in claim 1, wherein the material conveying assembly (3) comprises a support bar (301) having an l-shaped structure; the lower end of the supporting rod (301) is fixed on one side wall of the processing box (201); a transmission screw nut (302) is inserted into the upper end of the supporting rod (301) in a rotating mode; a matched transmission screw rod (303) is vertically inserted into the transmission screw nut (302); the lower end of the transmission screw rod (303) penetrates through the upper end part of the support rod (301) and is fixed with a mounting block (304); a positioning groove is formed in the circumferential direction of the outer wall of the transmission screw rod (303); a positioning pin is inserted in the positioning groove in a sliding manner; the positioning pin is horizontally fixed on the supporting rod (301); the upper surface of the mounting block (304) can abut against one end of the lifting strip (205); a power telescopic rod (305) is vertically fixed on the lower surface of the mounting block (304); a movable block (306) is fixed at the output end of the power telescopic rod (305); four side surfaces of the movable block (306) are respectively connected with a first transmission rod (307) in a rotating way; one end of the first transmission rod (307) is rotatably connected with a sliding sleeve (308); the sliding sleeve (308) is slidably sleeved on a clamping rod (309); one end of the clamping rod (309) is rotatably connected to the mounting block (304).

3. The motor shell paint spraying and drying all-in-one machine for manufacturing the motor as claimed in claim 2 is characterized in that the paint spraying component (2) is connected with the material conveying component (3) through a second transmission component (7); the second transmission assembly (7) comprises a driving motor (701) which is vertically fixed on the outer side wall of the treatment box (201); an output shaft of the driving motor (701) is vertically connected with a transmission shaft (702); a transmission gear (703) corresponding to the driving ring (202) is horizontally fixed on the transmission shaft (702); a plurality of teeth meshed with the transmission gear (703) are uniformly distributed on the outer side wall of the driving ring (202); a first synchronous pulley (704) is horizontally fixed at the upper end of the transmission shaft (702); the first synchronous pulley (704) is connected with a second synchronous pulley (705) through a synchronous belt transmission; the second synchronous pulley (705) is fixedly sleeved on the periphery of the transmission nut (302).

4. The paint spraying and drying integrated machine for the motor shell for the motor manufacturing is characterized in that the material receiving assembly (4) comprises a pair of side supporting plates (401) which are arranged side by side; a plurality of bearing rods (402) are connected on the side plates (401) in a sliding manner; the bearing rod (402) is vertically fixed on the rack (101); a pair of second belt wheels (403) arranged side by side are rotatably arranged between the two side supporting plates (401); the two second belt wheels (403) are in transmission connection through a second conveyor belt (404); the conveying direction of the second conveyor belt (404) is opposite to the conveying direction of the first conveyor belt (103).

5. The paint spraying and drying integrated machine for the motor shell used for motor manufacturing according to claim 4 is characterized in that the drying component (5) comprises a fan cover (501) with a fixed frame arranged between two side supporting plates (401); the top wall of the fan cover (501) is provided with a plurality of hot air blowers (502) in parallel.

6. The paint spraying and drying all-in-one machine for the motor shell for manufacturing the motor as claimed in claim 4, wherein the material conveying component (3) is connected with the material receiving component (4) through a third transmission component (8); the third transmission assembly (8) comprises a pair of second transmission rods (801) which are respectively connected to the opposite outer side surfaces of the two side supporting plates (401) in a rotating mode; one ends of the two second transmission rods (801) facing the same direction are connected through a third transmission rod (802) arranged horizontally; the third transmission rod (802) is sleeved on the transmission screw rod (303) in a sliding manner; the upper surface of the third transmission rod (802) is connected with the upper end of the support rod (301) through a return spring (803).

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