CN117283058B - Automatic tapping machine for elevator guide rail machining - Google Patents

Abstract

The invention belongs to the technical field of tapping machines, and discloses an automatic tapping machine for processing elevator guide rails, which comprises an operation table, wherein the bottom of the operation table is fixedly connected with a side bearing plate, after the surface of a plate body is cleaned integrally through a first air pipe assembly and a second air pipe assembly, fine waste scraps are adhered to the surface of the plate body and are not cleaned, at the moment, a power supply plate in a handle rod is started by a worker pressing a button piece, then the current in the handle rod is transmitted to the inside of a second electromagnet through a second electric wire, so that the second electromagnet generates magnetism to adsorb one corresponding side of the bottom of the plate body, then the second electromagnet and the plate body are driven to be pulled out from the inside of a U-shaped plate frame by pulling the handle rod by the worker, and when the plate body passes through the inside of the U-shaped plate frame, the bottom of a bottom strip brush piece of a second clamp mechanism cleans the bottom of the plate body, and meanwhile, the top surface of the plate body is cleaned finely by a wiping cotton.

Description

Automatic tapping machine for elevator guide rail machining

Technical Field

The invention belongs to the technical field of tapping machines, and particularly relates to an automatic tapping machine for processing an elevator guide rail.

Background

The automatic tapping machine for processing the elevator guide rail is equipment for forming wire holes on the surface of a strip plate of the elevator guide rail, mainly comprises an operation table, and a punching mechanical arm arranged on one side of the operation table, and is widely used in the part processing industry.

In the use process of the existing automatic tapping machine for processing the elevator guide rail, a worker firstly uses the elevator guide rail lath to prevent the top of an operation table from being fixed by a clamp, and then uses the worker to control a punching mechanical arm to punch the surface of the elevator lath.

The existing automatic tapping machine for elevator guide rail processing can generate waste materials to appear in the process of working the surface of an elevator guide rail slat, then a large amount of waste materials are located on the surface of the slat after punching is finished on the surface of the elevator guide rail slat, at this time, workers need to constantly wipe the surface of the elevator guide rail slat once every punched, the surface of the elevator guide rail slat is clean and regular, but the continuous wiping of the process for the workers can cause a great deal of physical consumption, so that the regular working efficiency of the later elevator guide rail slat is influenced, and the overall processing efficiency is slowed down.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an automatic tapping machine for processing elevator guide rails, which solves the problems that the waste generated after the processing of the elevator guide rail strips is finished needs to be cleaned by a worker for one time, so that the surfaces of the elevator guide rail strips are clean and regular, but the continuous cleaning of the process for the worker can cause a great deal of physical consumption, thereby influencing the regular working efficiency after the processing of the elevator guide rail strips in the later stage and slowing down the overall processing efficiency

In order to achieve the above purpose, the present invention provides the following technical solutions: the automatic tapping machine for processing the elevator guide rail comprises an operation table, wherein the bottom of the operation table is fixedly connected with a side bearing platform plate, the top of the side bearing platform plate is fixedly connected with a tapping mechanical arm, and one side of the tapping mechanical arm is positioned at the top of the operation table;

the top of the operating platform is sequentially provided with a front clamp mechanism, a cleaning mechanism and a U-shaped plate frame from front to back;

the front clamping mechanism and the second clamping mechanism are respectively arranged on two sides of a half area of the front surface of the top of the operating platform, the inner wall of the front clamping mechanism is in triangular distribution and fixedly connected with a first clamping plate, the inner wall of the second clamping mechanism is in triangular distribution and fixedly connected with a second clamping plate, and the front clamping mechanism and the second clamping mechanism are detachably clamped with a plate body through the first clamping plate;

the fan device is slidably connected to one side of the top of the U-shaped plate frame, a power panel is arranged at the top of the fan device, two sides of the power panel are electrically connected with first electric wires, two sides of the inner wall of the cleaning mechanism are fixedly connected with first electromagnetic plates, and one side of each first electric wire penetrates through the inner walls of the two sides of the cleaning mechanism to be electrically connected with the first electromagnetic plates;

the inside of the U-shaped plate frame can be slidably pulled to be connected with a cleaning mechanism, and a second clamp mechanism is arranged inside the cleaning mechanism;

four first air pipes are fixedly connected to one side of the fan device in a straight line, the bottoms of the four first air pipes are fixedly connected with round pipes, the bottoms of the round pipes are fixedly connected with second air pipes, one side of each second air pipe is fixedly connected with the inner wall of the top of the cleaning mechanism, the bottoms of four second air pipes are connected with first air pipe assemblies in a straight line, and the bottoms of four second air pipes are connected with second air pipe assemblies in a straight line;

the number of the second air delivery pipes is four, two of the second air delivery pipes are in a group, and the second air delivery pipes are respectively positioned at the tops of two sides of the plate body;

the bottoms of the first air pipe assembly and the second air pipe assembly are attached to the top of the plate body, the bottom of the second air pipe assembly is located in the area B on one side of the top of the plate body, and the bottom of the first air pipe assembly is located in the area A on one side of the top of the plate body.

Preferably, the surface of the U-shaped plate frame is provided with a strip groove corresponding to the first air pipe, both sides of the round pipe are fixedly connected with T-shaped sliding blocks, the inner wall of the strip groove of the surface of the U-shaped plate frame is provided with a sliding rail groove corresponding to the T-shaped sliding blocks, and the outer surface of the T-shaped sliding blocks is in sliding clamping connection with the inner wall of the sliding rail groove;

the round pipe can slide on the inner wall of the sliding rail groove in the surface groove of the U-shaped plate frame through the T-shaped sliding block, so that the round pipe can drive the first air pipe and the second air pipe to slide in the surface groove of the U-shaped plate frame.

Preferably, the second air pipe is located at the bottom of the second clamp mechanism, and the top of the second air pipe is not in contact with the bottom of the second clamp mechanism;

the surface of the cleaning mechanism is arranged in the area between the U-shaped plate frame and the second clamp mechanism.

Preferably, the inner wall of the first clamping plate is fixedly connected with a first return spring, one side of the first return spring is fixedly connected with the clamping plate, the inner wall of the first clamping plate is elastically connected with the clamping plate through the first return spring, and the first return spring and the clamping plate are located on the surface of the clamping plate body which is distributed vertically on the inner wall of the first clamping plate.

Preferably, the inside of second splint piece is consistent with the inner structure of first splint piece, the inside all fixed connection in the back both sides of second anchor clamps mechanism rubs the material cotton, and the fixed connection strip brush piece between the bottom that is located second splint piece in second anchor clamps mechanism bottom both sides, it is made for flexible material to wipe the material cotton whole.

Preferably, the first air pipe assembly comprises a corrugated pipe fitting, a first arc-shaped pipe, a shaft sleeve fitting and a first air head;

the corrugated pipe fitting sets up in the surface of first tuber pipe subassembly, the bottom one side surface pivot connecting axle external member of first tuber pipe subassembly, the first air head of bottom one side fixed connection of first tuber pipe subassembly, the bottom opposite side surface fixed connection first arced tube of first tuber pipe subassembly.

Preferably, the sleeve member comprises a ball member;

the ball parts are annularly distributed on the surface of the shaft sleeve part;

the whole first arc-shaped pipe is composed of three whole arc-shaped pipes, and the bottom orifice of the first arc-shaped pipe faces one side of the first wind head;

the second air pipe assembly comprises a bottom pipe;

the bottom of the second air pipe assembly is slidably connected with a bottom pipe, and the bottom of the bottom pipe is fixedly connected with a second air head assembly.

Preferably, the second wind head assembly comprises a second arc tube, a third arc tube, a fourth arc tube, a roller and a shaft rod;

the second arc-shaped pipe is arranged at the top of one side of the second air head component and is in a close arrangement in two rows, the third arc-shaped pipe is arranged at one side of the second air head component and is positioned at the bottom of the second arc-shaped pipe and is in a close arrangement in one row, and the fourth arc-shaped pipe is arranged at one side of the second air head component and is positioned at the bottom of the third arc-shaped pipe and is in a close arrangement in one row;

a nozzle is further arranged on one side of the third arc-shaped pipe, and the bottom of the nozzle is in a plane;

the whole of the fourth arc-shaped pipe is arc-shaped, and the whole opening of the fourth arc-shaped pipe is opened towards the bottom of the second wind head component;

a shaft lever is closely arranged on the front arc slope of the second wind head component in a straight line with the corresponding radian, the shaft lever is fixedly connected with the second wind head component by an arc plate on both sides of the shaft lever, a rolling wheel is arranged on the surface of the shaft lever in a straight line distribution rotating shaft, and the rolling wheel surface is attached to the arc surface of the second wind head component;

the inner wall of the second air pipe assembly is fixedly connected with a sliding bead, a sliding groove is formed in the outer edge of the bottom pipe corresponding to the sliding bead, and the surface of the sliding bead is clamped with the inner sliding of the bottom pipe, so that the second air pipe assembly and the bottom pipe can slide up and down;

the bottom pipe comprises a top ring, the top of the bottom pipe is fixedly connected with the top ring, and the outer surface of the top ring is slidably attached to the inner wall of the second air pipe assembly;

the bottoms of the first air pipe assembly and the second air pipe assembly are all at the same horizontal height;

the whole of the first air pipe assembly and the second air pipe assembly are arranged in a mirror symmetry mode.

Preferably, both sides of the operation panel are provided with side material frames capable of sliding and pulling, one side of the side material frames is a cavity chamber, a blanking port is formed in the cavity chamber card at the top of the operation panel corresponding to the top of the side material frames, and a first electromagnetic plate is correspondingly arranged at the top of the blanking port.

Preferably, a cavity is formed in one half of the back surface of the top of the operating platform, a second material frame capable of being movably pulled is arranged in the cavity of the other side of the top of the operating platform, a handle rod is movably supported at the top of one side of the second material frame, two second electromagnets are fixedly connected to the two sides of the front surface of the handle rod, a sliding rod is fixedly connected to one side of the top of the two second electromagnets, a sliding groove is formed in the inner wall of the U-shaped plate frame corresponding to the sliding rod, and one side of the two sliding rods is in sliding clamping connection with the corresponding sliding groove in the inner wall of the U-shaped plate frame;

the second electromagnet comprises a second return spring;

the second electromagnets are integrally formed by two, and a second return spring is arranged between four corner areas of the two second electromagnets;

the handle rod comprises a button piece and a second electric wire;

the handle is characterized in that a built-in power supply block is arranged in the handle, a button piece is arranged at the top of the handle, the bottom of the handle can regulate and control the work of the built-in power supply block, one side of the built-in power supply block in the handle is electrically connected with a second electric wire, and one side of the second electric wire is electrically connected with a second electromagnet.

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

1. after the surface of the plate body is perforated, a cleaning mechanism is pulled by a worker to be attached to one side of the front clamp mechanism, at the moment, a first air pipe component and a second air pipe component in the cleaning mechanism are respectively positioned on the top surfaces of two sides of the plate body, meanwhile, the second air pipe component is positioned in a region B, the first air pipe component is positioned in a region A, at the moment, the power panel is started by the worker to enable a fan device to work so as to transmit internal gas to the second air pipe through a first air pipe, the power panel is started by the fan device and simultaneously transmits internal current to the inside of the first electromagnetic plate through a first electric wire to generate magnetic attraction, then internal gas of the second air pipe is respectively injected into the first air pipe component and the second air pipe component, in the region B where the second air pipe component is positioned, waste in the region B of the plate body is blown to a middle baffle plate body by a second arc pipe on one side of the second air head component, then the waste is pressurized and blown to the middle baffle of the plate body by a third arc pipe on the bottom of the second air head component, then the waste collides with the baffle to fall to the region A, and then the waste is blown back to the top surface of the plate body through the first arc pipe component, and the electromagnetic force is reduced to clean the surface of the plate body after the first arc pipe is repeatedly punched, and the surface of the plate body is cleaned;

2. after the whole surface of the plate body is cleaned by the first air pipe assembly and the second air pipe assembly, fine waste scraps are still attached to the surface of the plate body and are not cleaned up, at the moment, a button piece is pressed by a worker to start a power panel inside a handle rod, then the current inside the handle rod is transmitted to the inside of a second electromagnet through a second electric wire, so that the second electromagnet generates magnetism to adsorb the corresponding side of the bottom of the plate body, then the second electromagnet and the plate body are driven to be pulled out from the inside of the U-shaped plate frame by the worker to pull the handle rod, when the plate body passes through the inside of the U-shaped plate frame, the bottom of the plate body is cleaned by a bottom strip brush piece of a second clamp mechanism, and meanwhile, the surface of the plate body is cleaned up by wiping cotton, so that the whole surface of the plate body is cleaned up in detail, and scraps are not cleaned up, and the whole plate body can be taken out cleanly and regularly.

Drawings

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

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

FIG. 3 is a schematic front view of a front clamp mechanism of the present invention;

FIG. 4 is a schematic view of a first cleat according to the present invention;

FIG. 5 is a schematic cross-sectional view of a cleaning mechanism according to the present invention;

FIG. 6 is a schematic view of a first duct assembly and a second duct assembly according to the present invention;

FIG. 7 is a schematic view of an arrangement of a first duct assembly and a second duct assembly according to the present invention;

FIG. 8 is a schematic view of an arrangement position of a first duct assembly and a second duct assembly according to the present invention;

FIG. 9 is a schematic view of a second wind head assembly according to the present invention;

FIG. 10 is a schematic view of a nozzle of the present invention;

FIG. 11 is a schematic view of a sliding bead according to the present invention;

FIG. 12 is a schematic cross-sectional view of a second air duct assembly according to the present invention;

FIG. 13 is a schematic view of a first duct assembly according to the present invention;

FIG. 14 is a schematic view of a bushing of the present invention;

FIG. 15 is a schematic view of a blanking port according to the present invention;

FIG. 16 is a schematic view of the inside of a U-shaped panel frame of the present invention;

FIG. 17 is a schematic cross-sectional view of a U-shaped plate frame of the present invention;

FIG. 18 is a schematic view of a second clamp mechanism according to the present invention;

FIG. 19 is a schematic view of a second electromagnet according to the present invention;

FIG. 20 is a schematic view of a second material frame according to the present invention;

FIG. 21 is a schematic cross-sectional view of a grip lever of the present invention;

FIG. 22 is a schematic view of a connection of a first air delivery conduit and a second air delivery conduit according to the present invention;

FIG. 23 is a schematic view of a strip brush placement of the present invention.

In the figure: 1. an operation table; 101. a blanking port; 2. a cleaning mechanism; 201. a first electromagnetic plate; 202. a slide rail groove; 3. a plate body; 4. a front clamp mechanism; 5. a U-shaped plate frame; 6. a tapping mechanical arm; 7. a side bearing platen; 8. a first gas pipe; 9. a fan device; 10. a power panel; 11. a first electric wire; 12. a side material frame; 13. a first air duct assembly; 131. corrugated pipe fittings; 132. a first arced tube; 133. a shaft sleeve; 1331. a ball member; 134. a first wind head; 14. a first clip member; 141. a first return spring; 142. a clip member; 15. a second air duct assembly; 151. a bottom tube; 1511. a top ring; 16. a second gas pipe; 17. a second wind head assembly; 171. a second arced tube; 172. a third arced tube; 1721. a nozzle; 173. a fourth arced tube; 174. a roller; 175. a shaft lever; 18. a second clamp mechanism; 19. wiping cotton; 20. a second clip member; 21. a strip brush; 22. a second electromagnet; 221. a second return spring; 23. a round tube; 24. a T-shaped slider; 25. a second material frame; 26. a slide bar; 27. a handle bar; 271. a button member; 272. a second electric wire; 28. and (5) sliding beads.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 23, the invention provides an automatic tapping machine for processing elevator guide rails, which comprises an operation table 1, wherein the bottom of the operation table 1 is fixedly connected with a side bearing platform plate 7, the top of the side bearing platform plate 7 is fixedly connected with a tapping mechanical arm 6, and one side of the tapping mechanical arm 6 is positioned at the top of the operation table 1;

the top of the operating table 1 is provided with a front clamp mechanism 4, a cleaning mechanism 2 and a U-shaped plate frame 5 in sequence from front to back;

the two sides of a half area of the front surface of the top of the operation table 1 are respectively provided with a front clamp mechanism 4 and a second clamp mechanism 18, the inner wall of the front clamp mechanism 4 is in triangular distribution and fixedly connected with a first clamp plate 14, the inner wall of the second clamp mechanism 18 is in triangular distribution and fixedly connected with a second clamp plate 20, and the front clamp mechanism 4 and the second clamp mechanism 18 are detachably clamped with the plate body 3 through the first clamp plate 14;

one side of the top of the U-shaped plate frame 5 is slidably connected with a fan device 9, a power panel 10 is arranged at the top of the fan device 9, two sides of the power panel 10 are electrically connected with first electric wires 11, two sides of the inner wall of the cleaning mechanism 2 are fixedly connected with first electromagnetic plates 201, and one side of each first electric wire 11 penetrates through the inner walls of two sides of the cleaning mechanism 2 and is electrically connected with the first electromagnetic plates 201;

the inside of the U-shaped plate frame 5 is connected with the cleaning mechanism 2 in a sliding drawing way, and a second clamp mechanism 18 is arranged inside the cleaning mechanism 2;

one side of the fan device 9 is fixedly connected with four first air delivery pipes 8 in a straight line, the bottoms of the four first air delivery pipes 8 are fixedly connected with round pipes 23, the bottoms of the round pipes 23 are fixedly connected with second air delivery pipes 16, one side of each second air delivery pipe 16 is fixedly connected with the inner wall of the top of the cleaning mechanism 2, the bottoms of four second air delivery pipes 16 are connected with first air pipe assemblies 13 in a straight line, and the bottoms of four second air delivery pipes 16 are connected with second air pipe assemblies 15 in a straight line;

the number of the second air delivery pipes 16 is four, two of the second air delivery pipes are in a group, and the second air delivery pipes are respectively positioned at the tops of two sides of the plate body 3;

the bottoms of the first air pipe assembly 13 and the second air pipe assembly 15 are attached to the top of the plate body 3, the bottom of the second air pipe assembly 15 is located in the area B on one side of the top of the plate body 3, and the bottom of the first air pipe assembly 13 is located in the area A on one side of the top of the plate body 3.

When the device is used, a worker pushes the whole plate body 3 to the inside of the second clamp mechanism 18 through the front clamp mechanism 4 for clamping and stabilizing, and then the worker operates the tapping mechanical arm 6 to punch the surface of the plate body 3 in the area between the front clamp mechanism 4 and the second clamp mechanism 18;

after the surface of the plate body 3 is perforated, a worker pulls the cleaning mechanism 2 to be attached to one side of the front clamp mechanism 4, at this time, the first air pipe assembly 13 and the second air pipe assembly 15 in the cleaning mechanism 2 are respectively located on the top surfaces of two sides of the plate body 3, the second air pipe assembly 15 is located in the area B, the first air pipe assembly 13 is located in the area a, at this time, the worker starts the power board 10 to enable the fan device 9 to work to transmit internal gas to the second air pipe 16 through the first air pipe 8, the power board 10 starts the fan device 9 and simultaneously transmits internal current to the inside of the first electromagnetic plate 201 through the first electric wire 11 to generate magnetic attraction, then the internal gas of the second air pipe 16 is respectively injected into the interiors of the first air pipe assembly 13 and the second air pipe assembly 15, in the region B where the second air pipe assembly 15 is located, the second arc-shaped pipe 171 on one side of the second air head assembly 17 blows waste in the region B of the plate body 3 to the middle partition plate of the plate body 3, then the third arc-shaped pipe 172 on the bottom of the second air head assembly 17 blows the waste to the middle baffle of the plate body 3 in a pressurized manner, then the waste collision baffle rebounds and falls back to the region A, then the first arc-shaped pipe 132 on the bottom of the first air pipe assembly 13 on the top of the region A blows the waste to the inner wall of the cleaning mechanism 2, so that the waste is blown to the surface of the first electromagnetic plate 201 for adsorption, the surface of the punching region on the top of the plate body 3 is cleaned up quickly, the physical strength is reduced due to repeated wiping by personnel, and the work efficiency of the plate body 3 is regulated in the later period is affected.

For the above further explanation, the second air delivery pipes 16 are divided into two groups, which are distributed on two sides of the top of the plate body 3 and are closely arranged, so as to better purge waste on the surface of the plate body 3 comprehensively.

It is further described that the top AB areas on both sides of the plate body 3 are divided in mirror symmetry.

As shown in fig. 2 to 23, a strip groove is formed on the surface of the U-shaped plate frame 5 corresponding to the first air pipe 8, two sides of the round pipe 23 are fixedly connected with T-shaped sliding blocks 24, a sliding rail groove 202 is formed on the surface of the U-shaped plate frame 5 corresponding to the T-shaped sliding blocks 24 on the inner wall of the strip groove, and the outer surface of the T-shaped sliding blocks 24 are in sliding clamping connection with the inner wall of the sliding rail groove 202;

the round pipe 23 can slide on the inner wall of the sliding rail groove 202 in the surface noodle groove of the U-shaped plate frame 5 through the T-shaped sliding block 24, so that the round pipe 23 can drive the first air pipe 8 and the second air pipe 16 to slide on the surface noodle groove of the U-shaped plate frame 5;

the second air delivery pipe 16 is positioned at the bottom of the second clamp mechanism 18, and the top of the second air delivery pipe 16 is not in contact with the bottom of the second clamp mechanism 18;

the surface of the cleaning mechanism 2 is in the region between the U-shaped plate frame 5 and the second clamp mechanism 18.

When the air conditioner is used, after the surface of the plate body 3 is perforated, a worker pulls the handle at the top of the cleaning mechanism 2 to drive the cleaning mechanism 2 to slide out along two sides of the operation table 1 to cover the leakage area of the plate body 3, the cleaning mechanism 2 is pulled to drive the second air pipe 16 to move at the same time, and in the moving process of the second air pipe 16, the other side of the second air pipe 16 drives the round pipe 23 to slide along the inner wall of the sliding rail groove 202 through the T-shaped sliding block 24, the round pipe 23 moves to drive the first air pipe 8 and the fan device 9 to move together, and finally the second air pipe 16 drives the first air pipe component 13 and the second air pipe component 15 to be located in the AB area at the tops of two sides of the plate body 3.

As further described above, a gap is provided between the U-shaped plate frame 5 and the second clamping mechanism 18, and the gap between the U-shaped plate frame 5 and the second clamping mechanism 18 can provide sliding movement of the cleaning mechanism 2, so that the cleaning mechanism 2 is convenient to move and store.

It is further described that the second air pipe 16 is C-shaped, one side of the second air pipe 16 is connected to the front inner wall of the cleaning mechanism 2, and the other side of the second air pipe 16 is connected to the inner wall of the circular pipe 23, and the middle area of the second air pipe 16 is located at the bottom of the second clamp mechanism 18, so that the second air pipe 16 drives the first air pipe assembly 13 and the second air pipe assembly 15 to move back and forth.

As shown in fig. 4, the inner wall of the first clamping plate 14 is fixedly connected with a first return spring 141, one side of the first return spring 141 is fixedly connected with a clamping plate 142, the inner wall of the first clamping plate 14 is elastically connected with the clamping plate 142 through the first return spring 141, and the first return spring 141 and the clamping plate 142 are positioned on the surface of the clamping plate body 3 which is vertically distributed on the inner wall of the first clamping plate 14;

the inside of the second clamping plate member 20 is consistent with the inside structure of the first clamping plate member 14, the inside of the two sides of the back of the second clamping mechanism 18 is fixedly connected with wiping cotton 19, the strip brush member 21 is fixedly connected between the bottoms of the second clamping plate members 20 positioned on the two sides of the bottom of the second clamping mechanism 18, and the whole wiping cotton 19 is made of flexible materials.

When the device is used, a worker clamps the first clamping plate 14 at one side of the plate body 3 corresponding to the inside of the front clamp mechanism 4, then pushes the plate body 3 to be clamped with the second clamping plate 20 inside the second clamp mechanism 18, so that the whole plate body 3 is positioned and clamped at the top of the operation table 1, and then the tapping mechanical arm 6 directly leaks out the plate body 3 to directly punch a required punching position;

when the plate bodies 3 with different thicknesses are clamped, the first return spring 141 can be compressed by the first clamping plate 14 and the second clamping plate 20 to enlarge the space, and the thicker plate bodies 3 can be clamped, so that the clamping device is convenient for adapting to the plate bodies 3 with different thicknesses, and the whole operation desk 1 can be used for multiple plate bodies 3 with different thicknesses.

The above further description is that the flexible material used for the wiping cotton 19 firstly cleans the fine waste on the surface of the board body 3 by wiping the bottom of the wiping cotton 19 in the process of drawing and taking out the board body 3, and secondly, the flexible material does not block the second air pipe 16 to drive the first air pipe assembly 13 and the second air pipe assembly 15 to slide from the inside of the second clamp mechanism 18, so that the blocking caused by the sliding of the second air pipe 16 is reduced.

Further described is that the wiping cotton 19 is divided into two pieces, the middle breaking area is correspondingly matched with the middle of the board body 3, and one side of the wiping cotton 19 is connected with the inner wall of the second clamp mechanism 18, so that the whole wiping cotton 19 can be opened and closed like a sliding door.

As shown in fig. 5 to 15, the first duct assembly 13 includes a bellows member 131, a first arc tube 132, a boss member 133, and a first air head 134;

the corrugated pipe fitting 131 is arranged on the surface of the first air pipe assembly 13, a rotating shaft on one side surface of the bottom of the first air pipe assembly 13 is connected with the shaft sleeve 133, one side of the bottom of the first air pipe assembly 13 is fixedly connected with the first air head 134, and the other side surface of the bottom of the first air pipe assembly 13 is fixedly connected with the first arc-shaped pipe 132;

the shaft sleeve 133 includes a ball 1331;

the ball 1331 is distributed on the surface of the shaft sleeve 133 in a ring shape;

the first arced pipe 132 is integrally formed by three integral arced pipes, and the bottom orifice of the first arced pipe 132 faces one side of the first air head 134;

the second air duct assembly 15 includes a bottom duct 151;

the bottom of the second air pipe assembly 15 is slidably connected with the bottom pipe 151, and the bottom of the bottom pipe 151 is fixedly connected with the second air head assembly 17;

the second windhead assembly 17 comprises a second arced tube 171, a third arced tube 172, a fourth arced tube 173, rollers 174, and a shaft 175;

the second arced tube 171 is arranged at the top of one side of the second air head assembly 17 in a shape of two rows and is tightly arranged, the third arced tube 172 is arranged at one side of the second air head assembly 17 at the bottom of the second arced tube 171 in a shape of one row and is tightly arranged, and the fourth arced tube 173 is arranged at one side of the second air head assembly 17 at the bottom of the third arced tube 172 in a shape of one row and is tightly arranged;

a nozzle 1721 is further included on one side of the third arced tube 172, and the bottom of the nozzle 1721 is planar;

the whole of the fourth arc-shaped pipe 173 is arc-shaped, and the whole opening of the fourth arc-shaped pipe 173 is opened towards the bottom of the second air head assembly 17;

a shaft lever 175 is closely arranged on the front arc slope of the second wind head assembly 17 in a straight line with the corresponding radian, the shaft lever 175 is fixedly connected with the second wind head assembly 17 by arc plates on both sides of the shaft lever 175, a roller 174 is arranged on the surface of the shaft lever 175 in a straight line distribution rotating shaft, and the surface of the roller 174 is attached to the arc surface of the second wind head assembly 17;

the inner wall of the second air pipe assembly 15 is fixedly connected with a sliding bead 28, a sliding groove is formed at the outer edge of the bottom pipe 151 corresponding to the sliding bead 28, and the surface of the sliding bead 28 is clamped with the inner sliding of the bottom pipe 151, so that the second air pipe assembly 15 and the bottom pipe 151 can slide up and down;

the bottom pipe 151 comprises a top ring 1511, the top of the bottom pipe 151 is fixedly connected with the top ring 1511, and the outer surface of the top ring 1511 is slidably attached to the inner wall of the second air pipe assembly 15;

the bottoms of the first air pipe assembly 13 and the second air pipe assembly 15 are at the same horizontal height;

the whole of the first air duct component 13 and the second air duct component 15 are arranged in a mirror symmetry mode.

When the device is used, after the surface of the plate body 3 is perforated, the cleaning mechanism 2 drives the second air pipe 16, the first air pipe component 13 and the second air pipe component 15 to be positioned in the AB area at the tops of two sides of the plate body 3, and then the power panel 10 is started to control the fan device 9 to start working, so that the inside of the fan device 9 transmits pressure air flow to the second air pipe 16 through the first air pipe 8 and then reaches the inside of the first air pipe component 13 and the second air pipe component 15 to blow and clean the surface of the plate body 3, and the process is to clean the normal plate body 3;

if the clamping thick plate body 3 is punched and cleaned, the second air pipe 16 can drive the first air pipe component 13 and the second air pipe component 15 in the process of pulling the cleaning mechanism 2, the rollers 174 arranged on the cambered surface on one side of the second air head component 17 can slide to the top surface of the plate body 3, then the bottom pipe 151 is extruded with the surface of the plate body 3 to enable the sliding bead 28 on the inner wall of the second air pipe component 15 to slide upwards, the bottom pipe 151 drives the second air head component 17 to carry out height adjustment, so that the cleaning mechanism is suitable for being attached to the surfaces of the plate bodies 3 with different thicknesses, then the first air pipe component 13 can be extruded with one side of the plate body 3 through the surface smoothness of the bottom ball component 1331, and then the shaft sleeve component 133 can rotate in the extrusion process, so that the ball component 1331 can be similarly slid to the top surfaces on two sides of the plate body 3, at the moment, the shaft sleeve component 133 can be extruded with the top surface of the plate body 3, the first air pipe component 13 can be extruded with the top surface of the plate body 3 through the corrugated pipe 131 to shrink the height adjustment, so that the cleaning mechanism is suitable for being attached to the surfaces of the plate bodies 3 with different thicknesses, namely, the cleaning mechanism can clean the surfaces of the plate bodies with different thicknesses and the air pipes 3.

For the further description, the nozzle 1721 is an elastic tube body as a whole, and the bottom is a plane to stably output the wind force through the bottom plane of the nozzle 1721 after the third arc tube 172 is attached to the top of the plate 3.

Further, the top ring 1511 attached to the inner wall of the second air duct assembly 15 is disposed at the top of the bottom tube 151 to prevent air leakage during the air flow transmission process of the second air duct assembly 15.

As shown in fig. 15, both sides of the operation table 1 are provided with side material frames 12 capable of sliding and pulling, one side of each side material frame 12 is a hollow chamber, a blanking port 101 is formed in a cavity chamber card corresponding to the top of each side material frame 12 on both sides of the top of the operation table 1, and a first electromagnetic plate 201 is correspondingly arranged on the top of each blanking port 101.

When the device is used, the cleaning mechanism 2 wraps the surface of the plate body 3, and then the first air pipe assembly 13 and the second air pipe assembly 15 blow and clean the top of the plate body 3, so that waste materials at the top of the plate body 3 blow to the surface of the first electromagnetic plate 201 to be magnetically adsorbed, and a small amount of waste materials can be directly dropped from the blanking port 101 to a cavity at one side of the side material frame 12 to be collected when the waste materials are blown;

after the waste materials on the surface of the plate body 3 are collected through the first electromagnetic plate 201, a worker can control the power supply plate 10 to cut off the power supply to the first electric wire 11 so that the first electromagnetic plate 201 stops working, at the moment, the magnetism on the surface of the first electromagnetic plate 201 disappears, the waste materials magnetically attracted on the surface of the first electromagnetic plate 201 automatically fall off, the waste materials enter a cavity on one side of the side material frame 12 from the blanking opening 101 and are collected together, finally, the side material frame 12 can be pulled by the worker to clean, and the subsequent circulation can be used.

To the further explanation that the width of blanking mouth 101 is greater than the width of slide rail groove 202, and the bottom of clearance mechanism 2 is located one side of blanking mouth 101, forms clearance mechanism 2 and can be located the top of operation panel 1 and slide to the top of blanking mouth 101, and at this moment, the first electromagnetic plate 201 bottom of clearance mechanism 2 both sides inner wall can be located the top of blanking mouth 101, and the effectual waste material that makes after the demagnetization of first electromagnetic plate 201 directly drops to the inside collection of side material frame 12, reduces the staff and cleans by oneself, improves the clean and tidy degree of operation panel 1 mesa.

As shown in fig. 19 to 23, a chamber is formed at one half of the back of the top of the operation table 1, a second material frame 25 capable of being movably pulled is arranged in the chamber at the other side of the top of the operation table 1, a handle bar 27 is movably supported at the top of one side of the second material frame 25, two second electromagnets 22 are fixedly connected to both sides of the front surface of the handle bar 27, one side of the top of the two second electromagnets 22 is fixedly connected with a slide bar 26, a slide groove is formed on the inner wall of the U-shaped plate frame 5 corresponding to the slide bar 26, and one side of the two slide bars 26 is in sliding clamping connection with the corresponding slide groove on the inner wall of the U-shaped plate frame 5;

second electromagnet 22 includes second return spring 221;

the second electromagnets 22 are integrally formed by two in number, and second return springs 221 are arranged between four corner areas of the two second electromagnets 22;

the grip lever 27 includes a button member 271, a second electric wire 272;

the built-in power block is arranged in the handle bar 27, a button member 271 is arranged at the top of the handle bar 27, the work of the built-in power block can be regulated and controlled at the bottom of the handle bar 27, one side of the built-in power block in the handle bar 27 is electrically connected with a second electric wire 272, and one side of the second electric wire 272 is electrically connected with a second electromagnet 22.

When the plate body 3 is cleaned by the second air pipe assembly 15 and the first air pipe assembly 13, a worker presses the button member 271 to enable the built-in power block in the grip lever 27 to work to provide current for the second electric wire 272, then the second electric wire 272 transmits the current to the inside of the second electromagnet 22 to generate electromagnetism, the second electromagnet 22 is positioned at one side of the bottom of the plate body 3 to absorb the plate body 3 due to the electromagnetism, and then the worker pulls the grip lever 27 to drive the second electromagnet 22 and the plate body 3 to separate the cleaning mechanism 2 from the inside of the U-shaped plate frame 5;

when the plate body 3 is drawn and pulled to pass through the inside of the U-shaped plate frame 5, the bottom of the plate body 3 is cleaned by the bottom strip brush piece 21 of the second clamp mechanism 18, meanwhile, the top surface of the plate body 3 is cleaned by the wiping cotton 19, so that the whole surface of the plate body 3 is carefully cleaned, and the waste materials cleaned by the strip brush piece 21 and the wiping cotton 19 on the surface of the plate body 3 in the process of carefully treating the plate body 3 are pulled to directly fall into the second material frame 25 to be collected and tidied, thereby effectively removing uncleaned scraps and waste materials on the surface of the plate body 3, and directly taking out the whole plate body 3 cleanly and orderly;

after finishing the plate body 3 is regular, the staff can pull the second material frame 25 to separate the inner cavity of the operation table 1 for cleaning, and the second material frame 25 can be directly inserted into the inner cavity of the operation table 1 for continuous use after cleaning, so that the second material frame 25 is easy to recycle.

The length of one side of the second electromagnet 22 extends to the middle area of the second clamping plate 20 and is located at the bottom of one side of the plate 3, so that the bottom of the plate 3 can be directly pulled out by directly energizing the second electromagnet 22 through the grip rod 27 after the plate 3 is completed by the first air duct assembly 13 and the second air duct assembly 15.

The second electromagnets 22 are combined, the second electromagnet 22 at the top is a magnet, the second electromagnet 22 at the bottom is not magnetic and is easy to be made of plastic, so that the two second electromagnets 22 can be directly and automatically adsorbed after the second electromagnets 22 are electrified by the built-in power block in the handle bar 27, and the bottom of the plate body 3 can not be adsorbed.

It is further described that the strip brush 21 is disposed between the second clamping plates 20 to facilitate cleaning the bottom of the plate 3 directly through the brush at the top of the strip brush 21 during the drawing process of the plate 3.

It is further explained that in the above-mentioned whole solution the plate body 3 is a metal plate, and the waste material produced by punching is also metallic.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an automatic tapping machine is used in elevator guide rail processing, includes operation panel (1), its characterized in that: the bottom of the operation table (1) is fixedly connected with a side bearing platform plate (7), the top of the side bearing platform plate (7) is fixedly connected with a tapping mechanical arm (6), and one side of the tapping mechanical arm (6) is positioned at the top of the operation table (1);

the top of the operating platform (1) is sequentially provided with a front clamp mechanism (4), a cleaning mechanism (2) and a U-shaped plate frame (5) from front to back;

front clamp mechanisms (4) and second clamp mechanisms (18) are respectively arranged on two sides of a half area of the front surface of the top of the operating platform (1), the inner walls of the front clamp mechanisms (4) are in triangular distribution and fixedly connected with first clamp plates (14), the inner walls of the second clamp mechanisms (18) are in triangular distribution and fixedly connected with second clamp plates (20), and the front clamp mechanisms (4) and the second clamp mechanisms (18) are detachably connected with a plate body (3) through the first clamp plates (14);

the cleaning mechanism comprises a U-shaped plate frame (5), wherein one side of the top of the U-shaped plate frame (5) is slidably connected with a fan device (9), a power board (10) is arranged at the top of the fan device (9), two sides of the power board (10) are electrically connected with first electric wires (11), two sides of the inner wall of the cleaning mechanism (2) are fixedly connected with first electromagnetic plates (201), and one side of each first electric wire (11) penetrates through the inner walls of two sides of the cleaning mechanism (2) to be electrically connected with the first electromagnetic plates (201);

the inside of the U-shaped plate frame (5) is connected with the cleaning mechanism (2) in a sliding drawing way, and a second clamp mechanism (18) is arranged in the cleaning mechanism (2);

one side of the fan device (9) is fixedly connected with four first air delivery pipes (8) in a straight line, the bottoms of the four first air delivery pipes (8) are fixedly connected with round pipes (23), the bottoms of the round pipes (23) are fixedly connected with second air delivery pipes (16), one side of each second air delivery pipe (16) is fixedly connected with the inner wall of the top of the cleaning mechanism (2), the bottoms of the four second air delivery pipes (16) are fixedly connected with first air pipe assemblies (13) in a straight line, and the bottoms of the four second air delivery pipes (16) are fixedly connected with second air pipe assemblies (15) in a straight line;

the number of the second air delivery pipes (16) is four, two of the second air delivery pipes are in a group, and the second air delivery pipes are respectively positioned at the tops of two sides of the plate body (3);

the bottoms of the first air pipe assembly (13) and the second air pipe assembly (15) are attached to the top of the plate body (3), the bottom of the second air pipe assembly (15) is located in a region B on one side of the top of the plate body (3), and the bottom of the first air pipe assembly (13) is located in a region A on one side of the top of the plate body (3);

the surface of the U-shaped plate frame (5) is provided with a strip groove corresponding to the first air pipe (8), two sides of the round pipe (23) are fixedly connected with T-shaped sliding blocks (24), the inner wall of the surface strip groove of the U-shaped plate frame (5) is provided with a sliding rail groove (202) corresponding to the T-shaped sliding blocks (24), and the outer surface of the T-shaped sliding blocks (24) are in sliding clamping connection with the inner wall of the sliding rail groove (202);

the circular tube (23) is positioned on the inner wall of the sliding rail groove (202) in the surface strip groove of the U-shaped plate frame (5) through a T-shaped sliding block (24), so that the circular tube (23) drives the first air pipe (8) and the second air pipe (16) to slide in the surface strip groove of the U-shaped plate frame (5);

the inner wall of the first clamping piece (14) is fixedly connected with a first return spring (141), one side of the first return spring (141) is fixedly connected with a clamping piece (142), the inner wall of the first clamping piece (14) is elastically connected with the clamping piece (142) through the first return spring (141), and the first return spring (141) and the clamping piece (142) are positioned on the surface of the clamping piece (3) which is distributed up and down on the inner wall of the first clamping piece (14);

the inside of second splint piece (20) is unanimous with the inner structure of first splint piece (14), the inside all fixed connection of back both sides of second anchor clamps mechanism (18) is wiped material cotton (19), is located between the bottom of second splint piece (20) of second anchor clamps mechanism (18) bottom both sides fixed connection strip brush piece (21), wipe material cotton (19) whole and be flexible material and make.

2. The automatic tapping machine for machining elevator guide rails according to claim 1, wherein: the second air pipe (16) is positioned at the bottom of the second clamp mechanism (18), and the top of the second air pipe (16) is not contacted with the bottom of the second clamp mechanism (18);

the surface of the cleaning mechanism (2) is arranged in the area between the U-shaped plate frame (5) and the second clamp mechanism (18).

3. The automatic tapping machine for machining elevator guide rails according to claim 2, wherein: the first air pipe assembly (13) comprises a corrugated pipe fitting (131), a first arc-shaped pipe (132), a shaft sleeve piece (133) and a first air head (134);

the corrugated pipe fitting (131) is arranged on the surface of the first air pipe assembly (13), a shaft sleeve (133) is connected to the surface of one side of the bottom of the first air pipe assembly (13) in a rotating mode, a first air head (134) is fixedly connected to one side of the bottom of the first air pipe assembly (13), and a first arc-shaped pipe (132) is fixedly connected to the surface of the other side of the bottom of the first air pipe assembly (13).

4. The automatic tapping machine for machining elevator guide rails according to claim 3, wherein: the shaft sleeve (133) comprises a ball part (1331);

the ball pieces (1331) are annularly distributed on the surface of the shaft sleeve piece (133);

the first arc-shaped pipe (132) is integrally formed by three integral arc-shaped pipes, and the bottom orifice of the first arc-shaped pipe (132) faces one side of the first air head (134);

the second air pipe assembly (15) comprises a bottom pipe (151);

the bottom of the second air pipe assembly (15) is connected with the bottom pipe (151) in a sliding mode, and the bottom of the bottom pipe (151) is fixedly connected with the second air head assembly (17).

5. The automatic tapping machine for machining elevator guide rails according to claim 4, wherein: the second wind head assembly (17) comprises a second arc-shaped pipe (171), a third arc-shaped pipe (172), a fourth arc-shaped pipe (173), rollers (174) and a shaft lever (175);

the second arc-shaped pipe (171) is arranged at the top of one side of the second air head assembly (17) in a two-row and one-line manner, the third arc-shaped pipe (172) is arranged at one side of the second air head assembly (17) at the bottom of the second arc-shaped pipe (171) in a one-row and one-line manner, and the fourth arc-shaped pipe (173) is arranged at one side of the second air head assembly (17) at the bottom of the third arc-shaped pipe (172) in a one-row and one-line manner;

a nozzle (1721) is further arranged on one side of the third arc-shaped pipe (172), and the bottom of the nozzle (1721) is plane;

the whole of the fourth arc-shaped pipe (173) is arc-shaped, and the whole opening of the fourth arc-shaped pipe (173) is opened towards the bottom of the second air head assembly (17);

a shaft lever (175) is tightly arranged on the front arc slope of the second wind head component (17) in a straight line with the corresponding radian, both sides of the shaft lever (175) are fixedly connected with the second wind head component (17) through arc plates, a roller (174) is arranged on the surface of the shaft lever (175) in a straight line distribution rotating shaft, and the surface of the roller (174) is attached to the arc surface of the second wind head component (17);

the inner wall of the second air pipe assembly (15) is fixedly connected with a sliding bead (28), a sliding groove is formed in the outer edge of the bottom pipe (151) corresponding to the sliding bead (28), and the surface of the sliding bead (28) is clamped with the inner sliding of the bottom pipe (151), so that the second air pipe assembly (15) and the bottom pipe (151) slide up and down;

the bottom pipe (151) comprises a top ring (1511), the top of the bottom pipe (151) is fixedly connected with the top ring (1511), and the outer surface of the top ring (1511) is in sliding contact with the inner wall of the second air pipe assembly (15);

the bottoms of the first air pipe assembly (13) and the second air pipe assembly (15) are at the same horizontal height;

the whole of the first air pipe assembly (13) and the second air pipe assembly (15) are arranged in a mirror symmetry mode.

6. The automatic tapping machine for machining elevator guide rails according to claim 1, wherein: the automatic feeding device is characterized in that sliding and pulling side material frames (12) are arranged on two sides of the operation table (1), a cavity chamber is formed in one side of the side material frames (12), a blanking port (101) is formed in the cavity chamber at the top of the operation table (1) corresponding to the side material frames (12), and a first electromagnetic plate (201) is arranged at the top of the blanking port (101) correspondingly.

7. The automatic tapping machine for machining elevator guide rails according to claim 1, wherein: a cavity is formed in one half of the back surface of the top of the operating platform (1), a second movable drawing material frame (25) is arranged in the cavity of the other side of the top of the operating platform (1), a handle rod (27) is movably supported at the top of one side of the second material frame (25), two second electromagnets (22) are fixedly connected to the two sides of the front surface of the handle rod (27), a slide bar (26) is fixedly connected to one side of the top of the two second electromagnets (22), a slide groove is formed in the inner wall of the U-shaped plate frame (5) corresponding to the slide bar (26), and one side of the two slide bars (26) is in sliding clamping connection with the corresponding slide groove in the inner wall of the U-shaped plate frame (5);

the second electromagnet (22) comprises a second return spring (221);

the second electromagnets (22) are integrally formed by two, and a second return spring (221) is arranged between four corner areas of the two second electromagnets (22);

the handle bar (27) comprises a button member (271) and a second electric wire (272);

the novel electric bicycle is characterized in that a built-in power supply block is arranged in the handle rod (27), a button piece (271) is arranged at the top of the handle rod (27), the bottom of the handle rod (27) regulates and controls the operation of the built-in power supply block, one side of the built-in power supply block in the handle rod (27) is electrically connected with a second electric wire (272), and one side of the second electric wire (272) is electrically connected with a second electromagnet (22).