CN117245105B - Turning device of valve body - Google Patents

Abstract

A turning device of a valve body, comprising: the device comprises a conveying mechanism, a turning mechanism, a 180-degree transmission mechanism and a rotating mechanism; the automatic scrap iron cutting machine is characterized in that functions of valve body conveying, turning, 180-degree transmission, rotation and the like are integrated, the valve body is conveyed to a certain position through a conveying mechanism when the automatic scrap iron cutting machine works, the valve body is clamped by the clamp A, the clamp A with the valve body moves towards the clamp B through the action of the electric cylinder A, after the valve body is clamped by the clamp B, the turning mechanism acts to conduct multidirectional cutting operation on the valve body, the 180-degree transmission mechanism acts to rotate the valve body, the other surface is continuously cut, and finally, the rotating mechanism acts to rotate the whole part by 180 degrees, so that the valve body is in a vertical state, and scrap iron in the valve body falls into a scrap collecting box.

Description

Turning device of valve body

Technical Field

The invention relates to the technical field of valve turning, in particular to a turning device of a valve body.

Background

The valve is a device for enabling media in the piping and equipment to flow or stop and controlling the flow of the media, can be used for controlling the flow of various types of fluids such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like, the world economy of the times of financial crisis is gradually restored, the market of the electromechanical products of the Chinese valve is gradually and steadily increased, the international competition degree of the valve industry is more vigorous, and the valve body cast and molded by the valve is required to be cut in the production and processing of the valve, so that two connecting sections of the valve body are more smooth;

the publication number is: the invention patent of CN113231655B provides a turning device for valve production, which aims at the problems that the existing turning device for valve production is complex in operation, valve body clamping is needed in a turning box and automatic scrap iron cleaning is not needed, and the turning device comprises a box body, wherein the inner wall of the bottom of the box body is connected with a mounting plate in a sliding manner, the top of the mounting plate is rotationally connected with a fixed die, and a valve body is arranged in the fixed die.

By researching the turning device for valve production, the patent has no mechanism for automatically conveying the valve body, so that the working efficiency is low;

therefore, the turning device for the valve body is urgently needed to be provided with the conveying mechanism inside, so that a plurality of valve bodies can be conveyed, the valve bodies can be cut at one time, the turning device is suitable for mass production, the production time is saved, and the production efficiency is greatly improved.

Disclosure of Invention

In order to solve the problems, the invention provides a turning device of a valve body, which integrates the functions of valve body conveying, turning, 180-degree transmission, rotation and the like by arranging a conveying mechanism, a turning mechanism, a 180-degree transmission mechanism and a rotation mechanism, when the device works, the valve body is conveyed to a certain position by the conveying mechanism, a clamp A clamps the valve body, the clamp A with the valve body moves towards the clamp B by the action of an electric cylinder A, after the clamp B clamps the valve body, the turning mechanism acts to carry out multidirectional cutting work on the valve body, the 180-degree transmission mechanism acts to rotate the valve body to cut the other surface continuously, and finally, the rotation mechanism acts to rotate the whole part by 180 degrees, so that the valve body is in a vertical state, and scrap iron in the valve body falls into a scrap collecting box.

The technical scheme adopted by the invention is as follows: a turning device of a valve body includes: the device comprises a conveying mechanism, a turning mechanism, a 180-degree transmission mechanism and a rotating mechanism;

the conveying mechanism is arranged on a supporting frame of equipment fixed with the ground, the turning mechanism is fixed on the inner side wall surface of a garbage collection box of the equipment through a bracket on a telescopic bracket, the rotating mechanism is fixed with fixing plates on two sides of the equipment through vertical rods on two sides of a sliding bracket, the 180-degree transmission mechanism is positioned below the rotating mechanism and is fixed with the supporting frame of a gear B through the upper surface of the gear A, the conveying mechanism is provided with three groups, the three groups of conveying mechanisms work simultaneously, each group works under the turning part, the transmission part and the rotating part corresponding to the turning mechanism, the 180-degree transmission mechanism and the rotating mechanism respectively, the device is not interfered with each other, and when the device works, the valve body is conveyed to a certain position through the conveying mechanism, the valve body is clamped by the clamp A, the clamp A with the valve body moves towards the clamp B through the action of the electric cylinder A, after the valve body is clamped by the clamp B, the turning mechanism acts to carry out multidirectional cutting work on the valve body, the 180-degree transmission mechanism acts to rotate the valve body and cut the other surface continuously, and finally, the rotating mechanism acts to rotate 180 degrees on the whole part, so that the valve body is in a vertical state, and scrap iron in the valve body falls into the scrap collecting box.

Further, the conveying mechanism includes: the device comprises a motor A, a conveying belt, an electric cylinder A, a support plate, a clip A and a valve body;

the motor A is fixedly mounted on the equipment supporting frame, the conveying belt is fixedly connected with the shaft of the motor A through a rotating shaft and is placed on the supporting frame, the electric cylinder A is fixed on a vertical panel of a supporting plate, a sliding groove is formed in the supporting plate, the clamp A is fixed at the extending end of a cylinder body of the electric cylinder A and is in sliding connection with the sliding groove on the supporting plate, and the valve body is placed on the conveying belt and waits for the clamp A to clamp.

Further, the turning mechanism includes: the device comprises a motor B, a rotating shaft, a telescopic frame, a circular frame, a motor C, a disc, a motor D, a lead screw A, a sliding block A, a motor E, a lead screw B, a circular shaft, a circular plate, a connecting rod and a blade;

the motor B is fixed on the inner side wall surface of the collecting box, the rotating shaft penetrates through three groups of telescopic frames and is fixed with the motor B shaft, three groups of telescopic frames are arranged, each two groups of telescopic frames are respectively fixed with the lug-shaped frames on the circular frame, the motor C is arranged in the circular frame, the disc is fixed with the motor C shaft and is rotationally connected with the circular frame, the motor D is fixedly arranged at the top of the screw rod A, the novel rotary type rotary cutting machine is characterized in that the screw rod A is fixedly arranged on the disc, the sliding block A is rotationally connected with the screw rod A, the motor E is fixedly arranged on the sliding block A, the screw rod B is rotationally connected with the motor E, the circular shaft is fixed with the screw rod B, the disc is clamped in a circular groove in the middle of the circular shaft and the screw rod B, one end of the connecting rod is clamped on the disc, the other end of the connecting rod is clamped on the blade, and the blade is fixed on the end face of the circular shaft.

Further, the motor B, the motor C, the motor D and the motor E are all stepping motors, and the blade is made of high-speed steel containing tungsten, chromium, vanadium and other elements.

Further, the 180-degree transmission mechanism comprises: the electric cylinder B, the rack A and the gear A;

the electric cylinder B is fixed on a long frame below the sliding frame and is fixed with the rack A through the extending end of the cylinder body, the rack A is arranged below the electric cylinder B, and the gear A is meshed with the rack A.

Further, the rotation mechanism includes: the motor F, the screw rod C, the sliding block B, the sliding groove, the sliding frame, the rack B, the gear B, the clip B and the blower;

the motor F and the screw rod C are respectively fixed on the supporting plates of the fixing plates on two sides of the equipment, the screw rod C is rotationally connected with the motor F, the sliding block B is fixed with the sliding block on the screw rod C and slides in the sliding groove, the sliding groove is arranged on the vertical rods on two sides of the sliding frame and is obliquely arranged, the rack B is in sliding connection with the sliding groove on the sliding frame, the gear B is fixed on the supporting frame of the gear A and meshed with the rack B, the clamp B is fixed on the plate on the shaft of the gear A, and the blower is arranged above the valve body clamped by the clamp B and is fixed on the plate of the rack B.

Further, the vertical rods on two sides of the sliding frame are arranged in the upper and lower perforated plates of the fixing plates on two sides of the equipment, and move along with the sliding block B through the sliding grooves in the middle of the vertical rods, so that the sliding frame is driven to move up and down.

Due to the adoption of the technical scheme, the invention has the following advantages:

1) The device is provided with the conveying mechanism, can simultaneously convey a plurality of valve bodies to be processed, is convenient for subsequent processing and cutting, saves labor, is suitable for mass production, and has high production efficiency;

2) The turning mechanism of the device can cut the inner side and the outer side of the valve body, and is matched with the 180-degree transmission mechanism, so that the other side of the valve body can be cut, the valve body does not need to be manually rotated, and the valve body is cut and formed once, so that the time is saved, and the production efficiency is improved;

3) The rotary mechanism of the device can rotate the valve body after the valve body is machined, so that the valve body is vertically placed, and the blower acts to clean scraps generated by cutting, fall into the collecting box below, are convenient to collect, recycle and prevent the scraps from scratching people.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a conveyor mechanism according to the present invention;

FIGS. 3-5 are schematic diagrams of turning mechanisms of the present invention;

FIG. 6 is a schematic view of a 180 degree drive mechanism of the present invention;

FIGS. 7-9 are schematic diagrams of a rotary mechanism according to the present invention

Reference numerals: 1-a conveying mechanism; 2-a turning mechanism; 3-180 degrees of transmission mechanism; 4-a rotation mechanism; 101-a motor a; 102-a conveyor belt; 103-electric cylinder A; 104-supporting plates; 105-clip a; 106-a valve body; 201-motor B; 202-rotating shaft; 203-a telescopic frame; 204-a circular frame; 205-motor C; 206-a disc; 207-motor D; 208-lead screw a; 209-slider a; 210-motor E; 211-a screw B; 212-a circular shaft; 213-circular plate; 214-a connecting rod; 215-a blade; 301-electric cylinder B; 302-rack a; 303-gear a; 401-motor F; 402-lead screw C; 403-slider B; 404-sliding grooves; 405-a carriage; 406-rack B; 407-gear B; 408-clip B; 409-a blower;

Detailed Description

The technical scheme of the invention is further specifically described below through examples and with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be embodied in many other forms than described herein, and persons skilled in the art will be able to make similar modifications without departing from the spirit of the invention, so that the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "front", "rear", "left", "right", etc., are based on directions or positional relationships shown in the drawings, or directions or positional relationships in which the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present invention.

An embodiment, as shown in fig. 1-9, is a turning device for a valve body, comprising: a conveying mechanism 1, a turning mechanism 2, a 180-degree transmission mechanism 3 and a rotating mechanism 4;

the conveying mechanism 1 is placed on a device supporting frame fixed with the ground, the turning mechanism 2 is fixed on the inner side wall surface of a garbage collection box of the device through a bracket on the telescopic frame 203, the rotating mechanism 4 is fixed with fixing plates on two sides of the device through vertical rods on two sides of the sliding frame 405, the 180-degree transmission mechanism 3 is positioned below the rotating mechanism 4, the upper surface of the gear A303 is fixed with the supporting frame of the gear B407, the conveying mechanism 1 is provided with three groups, the three groups of conveying mechanisms 1 work simultaneously, each group respectively works under turning parts, transmission parts and rotating parts corresponding to the turning mechanism 2, the 180-degree transmission mechanism 3 and the rotating mechanism 4, and do not interfere with each other, when the device works, the valve body 106 is conveyed to a certain position through the conveying mechanism 1, the clamp A105 clamps the valve body 106, the clamp A105 moves towards the clamp B408 through the action of the electric cylinder A103, after the clamp B clamps the valve body 106, the turning mechanism 2 acts to cut the valve body 106 in a multidirectional manner, the 180-degree transmission mechanism 3 acts to cut the valve body 106, and finally the other side of the rotating mechanism 4 acts, and the whole part rotates 180 degrees to enable the waste inside the valve body 106 to fall into the garbage collection box.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 2, the conveying mechanism 1 includes: motor a101, conveyor belt 102, electric cylinder a103, support plate 104, clip a105 and valve body 106;

the motor A101 is fixedly arranged on an equipment support frame, the conveying belt 102 is fixedly connected with the shaft of the motor A101 through a rotating shaft and is placed on the support frame, the electric cylinder A103 is fixed on a vertical panel of the support plate 104, a sliding groove is formed in the support plate 104, the clamp A105 is fixed with the extending end of a cylinder body of the electric cylinder A103 and is in sliding connection with the sliding groove on the support plate 104, and the valve body 106 is placed on the conveying belt 102 and waits for the clamp A105 to clamp;

when the valve body 106 is conveyed to a certain position by the conveying belt 102 through driving of the conveying belt 102, the clamp A105 is driven by the electric cylinder A103 to move on the support plate 104, the clamp A105 is enabled to move to be in contact with the valve body 106, the valve body 106 is clamped by the clamp A105, the electric cylinder A103 is driven again, the clamp A105 is enabled to return to the original position, the motor arranged at the lower end of the support plate 104 starts to work, the electric cylinder A103, the support plate 104 and the clamp A105 rotate 180 degrees, the electric cylinder A103 works again, the clamp A105 with the valve body 106 moves towards the clamp B408, and when the valve body 106 moves to the clamp B408, the clamp A105 loosens the valve body 106 and returns to the original position through the electric cylinder A103.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 3 to 5, the turning mechanism 2 includes: motor B201, rotating shaft 202, expansion bracket 203, circular bracket 204, motor C205, disk 206, motor D207, lead screw a208, slider a209, motor E210, lead screw B211, circular shaft 212, disk 213, connecting rod 214, blade 215;

the motor B201 is fixed on the inner side wall surface of the collecting box, the rotating shaft 202 penetrates through three groups of telescopic frames 203 and is fixed with the motor B201 shaft, three groups of telescopic frames 203 are arranged, each two groups of telescopic frames are respectively fixed with lug-shaped frames on the circular frame 204, the motor C205 is arranged in the circular frame 204, the circular disc 206 is fixed with the motor C205 shaft and is rotationally connected with the circular frame 204, the motor D207 is fixedly arranged on the top of the lead screw A208, the lead screw A208 is fixedly arranged on the circular disc 206, the lead screw A209 is rotationally connected with the lead screw A208, the motor E210 is fixedly arranged on the lead screw A209, the lead screw B211 is rotationally connected with the motor E210, the circular shaft 212 is fixedly connected with the lead screw B211, the circular plate 213 is clamped in a circular groove between the circular shaft 212 and the lead screw B211, one end of the connecting rod 214 is clamped on the circular plate 213, the other end of the connecting rod 214 is clamped on the blade 215, and the blade 215 is fixedly arranged on the end surface of the circular shaft 212;

when the valve body 106 is placed on the rotating shaft 202, the motor B201 drives the rotating shaft 202 to rotate, the plurality of telescopic frames 203 are driven to work, and the telescopic frames 203 are driven to move forwards by the plurality of circular frames 204; the position of the blade 215 is adjusted by driving the lead screw A208 through the motor D207, so that the blade 215 is in contact with the inside of the valve body 106, then the motor C205 drives the disc 206 to rotate so as to drive the integral part to rotate, thereby cutting the inside of the valve body 106, when the periphery of the valve body 106 is to be cut, the lead screw B211 is driven by the motor E210 to rotate, the lead screw B211 is driven by the circular shaft 212 to move, the circular shaft 212 is driven by the circular shaft 213 to move, the circular plate 213 pulls the connecting rod 214, the connecting rod 214 pulls the blade 215, the angle of the blade 215 is changed, the state of the periphery of the valve body 106 is adapted, the position of the blade 215 is adjusted by driving the sliding block A209 through the motor D207, so that the blade 215 is in contact with the periphery of the valve body 106, and the rotation of the disc 206 and the integral part is driven by the motor C205, thereby realizing the periphery of the valve body 106; during the cutting process, the telescopic frame 203 moves with the circular frame 204 and the parts on the circular frame 204, so that the cutting can be assisted, and the screw A208 moves with the sliding block A209, so that the cutting can be assisted.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 6, the 180 degree transmission mechanism 3 includes: cylinder B301, rack a302 and gear a303;

the electric cylinder B301 is fixed on a long frame below the sliding frame 405, and is fixed with the rack A302 through the extending end of the cylinder body, the rack A302 is arranged below the electric cylinder B301, and the gear A303 is meshed with the rack A302;

when one side of the valve body 106 is cut, the rack a302 is driven to move by the electric cylinder B301, the rack a302 rotates 180 degrees with the plurality of gears a303, and the gears a303 rotate 180 degrees with the valve body 106 and the clamp B408 integrally, so that the other side of the valve body 106 faces the turning mechanism to cut.

In an alternative implementation of the embodiment of the present invention, as shown in fig. 7 to 9, the rotation mechanism 4 includes: motor F401, screw C402, slider B403, chute 404, carriage 405, rack B406, gear B407, clip B408, and blower 409;

the two motors F401 and the two screws C402 are respectively fixed on the supporting plates of the fixing plates at two sides of the device, the screws C402 are in rotary connection with the motors F401, the sliding blocks B403 are fixed with the sliding blocks on the screws C402 and slide in the sliding grooves 404, the sliding grooves 404 are arranged on the vertical rods at two sides of the sliding frame 405 and are obliquely arranged, the racks B406 are in sliding connection with the sliding grooves on the sliding frame 405, the gears B407 are fixed on the supporting frame of the gears A303 and meshed with the racks B406, the clamps B408 are fixed on the plates on the shafts of the gears A303, and the blower 409 is above the valve body 106 clamped by the clamps B408 and is fixed on the plates of the racks B406;

after cutting is finished, the screw rod C402 is driven to rotate by the motor F401, the screw rod C402 moves along with the rack A302, so that the rack A302 is separated from the gear A303, meanwhile, the sliding block B403 slides in the sliding groove 404, the sliding groove 404 moves downwards along with the sliding frame 405, the sliding frame 405 moves downwards along with the rack B406, the rack B406 rotates 180 degrees along with the gear B407, the gear B407 rotates 180 degrees along with the integral part, the valve body 106 is in a vertical state, and scrap iron inside the valve body 106 is blown into the scrap collecting box through the operation of the blower 409.

Claims (6)

1. A turning device of a valve body, comprising: the device comprises a conveying mechanism (1), a turning mechanism (2), a 180-degree transmission mechanism (3) and a rotating mechanism (4);

the device comprises a rotary mechanism (4), a clamp A (105), a clamp B (408), a clamp B (106), a clamp B (103) and a clamp B (106), wherein the rotary mechanism (1) is arranged on a device support frame fixed with the ground, the three groups of the rotary mechanism (1) work simultaneously, each group works under a turning part, a transmission part and a rotary part corresponding to the rotary mechanism (4) and the rotary mechanism (2) and the rotary mechanism (3) respectively, the rotary mechanism (4) is not interfered with each other, when the device works, the valve body (106) is conveyed to a certain position through the rotary mechanism (4), the clamp A (105) clamps the valve body (106) and moves towards the clamp B (408) through an electric cylinder A (103), the clamp A (105) moves towards the clamp B (408) and then the clamp B (106) clamps the other side, the rotary mechanism (4) rotates, the valve body (106) is continuously moved, and finally the valve body (106) is driven by the rotary mechanism (4), rotating the whole part by 180 degrees to enable the valve body (106) to be in a vertical state, so that scrap iron in the valve body falls into the scrap collecting box;

the turning mechanism (2) comprises: a motor B (201), a rotating shaft (202), a telescopic frame (203), a circular frame (204), a motor C (205), a disc (206), a motor D (207), a lead screw A (208), a sliding block A (209), a motor E (210), a lead screw B (211), a circular shaft (212), a disc (213), a connecting rod (214) and a blade (215);

the utility model provides a motor B (201) is fixed at collecting box inside wall face, pivot (202) runs through three group's expansion brackets (203), and is fixed with motor B (201) axle, expansion brackets (203) have three group, every two are a set of, and every group is fixed with the ear-shaped frame on circular frame (204) respectively, motor C (205) dress is in circular frame (204), disc (206) are fixed with motor C (205) axle, and rotate with circular frame (204) and be connected, motor D (207) fixed mounting is at the top of lead screw A (208), lead screw A (208) fixed mounting is on disc (206), slider A (209) are connected with lead screw A (208) rotation, motor E (210) fixed mounting is on slider A (209), lead screw B (211) are connected with motor E (210) rotation, circular shaft (212) are fixed with lead screw B (211), disc (213) card is in the centre of circular shaft (212) and B (211) rotation, a disc (213) card is on another end face (215) card is on disc (215).

2. A valve body turning device according to claim 1, characterized in that the conveying means (1) comprise: a motor A (101), a conveyor belt (102), an electric cylinder A (103), a support plate (104), a clip A (105) and a valve body (106);

the motor A (101) is fixedly mounted on the equipment supporting frame, the conveying belt (102) is fixedly connected with the shaft of the motor A (101) through a rotating shaft and is placed on the supporting frame, the electric cylinder A (103) is fixed on a vertical plate of the supporting plate (104), a sliding groove is formed in the supporting plate (104), the clamp A (105) is fixed with the extending end of a cylinder body of the electric cylinder A (103) and is in sliding connection with the sliding groove on the supporting plate (104), and the valve body (106) is placed on the conveying belt (102) and waits for the clamp A (105) to clamp.

3. The turning device of a valve body according to claim 1, wherein the motor B (201), the motor C (205), the motor D (207) and the motor E (210) are stepper motors, and the blade (215) is made of high-speed steel containing tungsten, chromium, vanadium and other elements.

4. A valve body turning device according to claim 1, characterized in that the 180 degree transmission (3) comprises: an electric cylinder B (301), a rack A (302) and a gear A (303);

the electric cylinder B (301) is fixed on a long frame below the sliding frame (405), and is fixed with the rack A (302) through the extending end of the cylinder body, the rack A (302) is arranged below the electric cylinder B (301), and the gear A (303) is meshed with the rack A (302).

5. A valve body turning device according to any one of claims 1-4, characterized in that the rotation mechanism (4) comprises: a motor F (401), a screw rod C (402), a sliding block B (403), a sliding groove (404), a sliding frame (405), a rack B (406), a gear B (407), a clip B (408) and a blower (409);

the motor F (401) and the screw rod C (402) are respectively fixed on the supporting plates of the fixing plates on two sides of the device, the screw rod C (402) is rotationally connected with the motor F (401), the sliding block B (403) is fixed with the sliding block on the screw rod C (402) and slides in the sliding groove (404), the sliding groove (404) is arranged on the vertical rods on two sides of the sliding frame (405) and is obliquely arranged, the rack B (406) is in sliding connection with the sliding groove on the sliding frame (405), the gear B (407) is fixed on the supporting frame of the gear A (303) and meshed with the rack B (406), the clamp B (408) is fixed on the plate on the shaft of the gear A (303), and the blower (409) is arranged above the valve body (106) clamped by the clamp B (408) and is fixed on the plate of the rack B (406).

6. The turning device for valve body according to claim 5, wherein the vertical rods on both sides of the sliding frame (405) are placed in the upper and lower perforated plates of the fixed plates on both sides of the device, and move along with the sliding block B (403) through the sliding groove (404) in the middle of the vertical rods, so as to drive the sliding frame to move up and down.