CN218663950U - Material feeding and conveying device for material sheets - Google Patents

Abstract

The utility model provides a material feeding and conveying device for material sheets, which comprises a material feeding and conveying structure for conveying the material sheets, a material feeding and pressurizing structure for pressurizing the material sheets and a material feeding and pushing structure for conveying the material sheets to the next module; the feeding push piece structure is arranged below the material pieces and comprises a feeding push piece power source and a feeding push plate connected with the feeding push piece power source, and the feeding push plate power source drives the feeding push plate to move and simultaneously drives the material pieces to move. Through setting up blowing transportation structure, transmit the tablet, for preventing that the tablet from skidding at the operation in-process, or because of gravity too little can not follow the removal blowing transportation structure is last to set up blowing pressurization structure, for the blowing push jack structure of further guaranteeing the tablet transmission, has realized the automation and the mechanization of transportation tablet, raises the efficiency greatly, practices thrift the cost.

Description

Material feeding and conveying device for material sheets

Technical Field

The utility model relates to a tablet processing technology field, especially a blowing transmission device of tablet.

Background

At present, when a material sheet is processed, the material sheet needs to be taken out of a material box and placed to a bending machine for bending operation, after the material sheet is bent, the processed material sheet is taken back into the material box, and after the material sheet is taken out of the material box, the material sheet needs to be transmitted to the bending machine to be processed in the bending machine.

Therefore, a device capable of discharging and conveying the material sheets is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem and providing a material feeding and conveying device for material sheets.

In order to achieve the purpose of the utility model, the utility model provides a material feeding and conveying device for material sheets, which comprises a material feeding and conveying structure for conveying the material sheets, a material feeding and pressurizing structure for pressurizing the material sheets and a material feeding and pushing structure for conveying the material sheets to the next module; the feeding push piece structure is arranged below the material pieces and comprises a feeding push piece power source and a feeding push plate connected with the feeding push piece power source, and the feeding push plate power source drives the feeding push plate to move and simultaneously drives the material pieces to move.

Further specifically, the discharging and pressurizing structure comprises a discharging and pressurizing cylinder, a flexible pressurizing assembly connected with the discharging and pressurizing cylinder, and a pressurizing roller connected with the flexible pressurizing assembly, wherein the discharging and pressurizing cylinder drives the flexible pressurizing assembly to move, and the pressurizing roller is in contact with the material sheet.

Further specifically, flexible pressurization subassembly is including the first linking arm, second linking arm and the third linking arm that connect gradually, the other end and the blowing pressurized cylinder of first linking arm are connected, the other end and the pressurization gyro wheel of third linking arm are connected.

Further specifically, a first through hole is formed in the first connecting arm, a second through hole is formed in the second connecting arm, the second through hole penetrates through the first through hole and the second through hole to form a pin shaft, the first connecting arm is rotatably connected with the second connecting arm, and the second through hole is a waist hole.

More specifically, the flexible pressing assembly further comprises a spring for flexibly floating the second connecting arm.

Further specifically, the discharging conveying structure comprises a discharging supporting plate, a discharging belt pulley arranged on the discharging supporting plate, a discharging belt connected with the discharging belt pulley, and a discharging belt motor driving the discharging belt pulley to rotate, and the material sheets are arranged on the discharging belt.

Further specifically, a discharging tension wheel used for tensioning the discharging belt is arranged on the discharging support plate.

Further specifically, a discharging roller for preventing the material sheet from tilting is arranged above the discharging belt.

Further specifically, the discharging belt is provided with two discharging belts, and each discharging belt is provided with a pressurizing roller.

Further specifically, the pushing piece power source is arranged as a pushing piece cylinder.

The utility model discloses blowing transmission device of tablet can realize following technological effect, through setting up blowing transportation structure, transmits the tablet, for preventing that the tablet from skidding at the operation in-process, or because of gravity too little can not follow the removal the structural blowing pressurization structure that sets up of blowing transportation has realized the automation and the mechanization of transportation tablet for the blowing push jack structure of further guaranteeing the tablet transmission, raises the efficiency greatly, practices thrift the cost.

Drawings

Exemplary embodiments of the present application will be described in detail below with reference to the attached drawings, it being understood that the following description of the embodiments is only for the purpose of explanation and not limitation of the scope of the present application, and in the accompanying drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of a discharge device according to the present invention;

fig. 3 is a schematic view of a three-dimensional structure of the discharge device of the present invention;

fig. 4 is a schematic perspective view of the Y-shaped discharging moving part and the material taking structure of the present invention;

fig. 5 is a schematic view of a three-dimensional structure of the discharging conveying device of the present invention;

fig. 6 is a schematic view of a three-dimensional structure of the discharging conveying device of the present invention;

fig. 7 is a schematic view of a three-dimensional structure of a discharging and pressurizing structure of the present invention;

fig. 8 is a schematic view of a three-dimensional structure of the discharging and pressurizing structure of the present invention;

fig. 9 is a schematic view of a three-dimensional structure of a discharging second connecting arm of the present invention;

fig. 10 is a schematic perspective view of the processing device of the present invention;

fig. 11 is a perspective view of the first arrival assembly of the present invention;

fig. 12 is a schematic perspective view of the material receiving and conveying device of the present invention;

FIG. 13 is a schematic view of the three-dimensional structure of the material receiving and pressurizing structure of the present invention;

fig. 14 is a schematic perspective view of the material receiving second connecting arm of the present invention;

fig. 15 is a schematic perspective view of the material receiving device of the present invention;

fig. 16 is a schematic perspective view of the material receiving device of the present invention;

in the figure: 1. a discharging device; 11. a material discharging box; 1211. a discharging guide plate; 1212. a discharging bottom plate; 1213. a discharging screw rod; 1214. x discharging push plate; 1221. a material placing fixing plate; 1222. a material discharging clamping cylinder; 1223. discharging and loading a splint; 1224. discharging a lower clamping plate; 1225. discharging and moving a screw rod; 1226. discharging and moving the plate; 1227. a discharging moving motor; 1228. a discharging guide rod; 131. a power motor; 132. a first power plate; 133. a second power plate; 134. a material pushing guide rod; 135. a slider; 136. a push rod; 2. a discharging and conveying device; 211. a material-discharging transportation supporting plate; 212. a discharge belt pulley; 213. a discharging belt; 214. a discharge belt motor; 215. discharging the tension wheel; 222. discharging a flexible pressurizing assembly; 2221. discharging a first connecting arm; 2222. discharging a second connecting arm; 22221. discharging a second through hole; 2223. discharging a third connecting arm; 2224. a discharge supporting arm; 2225. discharging a spring; 2226. a discharging and pressurizing cylinder; 2227. discharging and pressurizing rollers; 23. a discharging roller; 24. a discharging push sheet cylinder; 25. a discharging push plate; 3. a processing device; 31. bending machine; 321. a first fixing plate; 322. a first positioning rod; 323. a stopper; 324. a second fixing plate; 325. processing a connecting plate; 326. a lifting cylinder; 331. processing a sliding block; 332. machining a slide rail; 333. a moving cylinder; 334. a cylinder plate; 335. a fourth sensor; 4. a material receiving and conveying device; 411. a material receiving and conveying support plate; 412. a material receiving belt pulley; 413. a material receiving belt; 414. a material receiving belt motor; 415. receiving a tensioning wheel; 422. a material receiving flexible pressurizing assembly; 4221. a first connecting arm for receiving material; 4222. a material receiving second connecting arm; 42221. a second through hole for receiving material; 4223. a third connecting arm for receiving materials; 4224. a material receiving supporting arm; 4225. a material receiving spring; 4226. a material receiving and pressurizing cylinder; 4227. a material receiving and pressurizing roller; 43. a material receiving roller; 44. a material receiving push plate; 45. a first cylinder; 46. a second cylinder; 47. a counting sensor; 5. a material receiving device; 51. a material receiving box; 5211. a material receiving guide plate; 5212. a receiving bottom plate; 5213. a material receiving screw rod; 5214. x material receiving push plate; 5221. a material receiving fixing plate; 5222. a material receiving clamping cylinder; 5223. collecting and loading a clamping plate; 5224. collecting the material and putting the clamping plate; 5225. a material receiving movable screw rod; 5226. a material receiving moving plate; 5227. a material receiving moving motor; 5228. a material receiving guide rod; 6. a web.

Detailed Description

In order to make the purpose, technical solution and advantages of the present invention clearer, the following will combine the drawings in the embodiments of the present invention to perform more detailed description on the technical solution in the embodiments of the present invention. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are only some, but not all embodiments of the invention. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the invention. Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It should be understood that the drawings are for illustrative purposes only and are not intended to limit the application.

A material receiving and discharging mechanism is shown in figures 1-16 and comprises a material discharging device 1, a material discharging conveying device 2, a processing device 3, a material receiving conveying device 4 and a material receiving device 5, wherein a material sheet 6 to be processed is taken out of the material discharging device 1, the material discharging conveying device 2 conveys the material sheet 6 to be processed to the processing device 3, and after the processing device 3 finishes processing, the material feeding conveying device conveys the material sheet 6 to the material receiving device 5.

As shown in fig. 2-4, the discharging device 1 includes a discharging bin 11, a discharging moving structure for driving the discharging bin 11 to move, and a material taking structure for taking the material sheet 6 out of the discharging bin 11. The material placing box is characterized in that a plurality of temporarily unprocessed material sheets 6 are arranged in the material placing box 11, a plurality of slots are arranged on two sides in the material placing box 11 along the height direction of the material placing box 11, the slots arranged on the two sides are arranged in a one-to-one correspondence manner, one material sheet 6 is inserted into two slots at the same height, and the material sheets 6 are horizontally arranged along the height direction of the material placing box 11.

As shown in fig. 2-4, the material feeding moving structure includes an X material feeding moving portion capable of driving the material feeding box 11 to move horizontally and a Y material feeding moving portion capable of driving the material feeding box 11 to move vertically, the X material feeding moving portion moves the material feeding box 11 to the Y material feeding moving portion, and the Y material feeding moving portion moves the material feeding box 11 to the material taking structure.

As shown in fig. 2-4, the X discharging moving part includes two discharging guide plates 1211 arranged in parallel, a discharging bottom plate 1212 for placing the discharging bin 11, a discharging screw 1213 arranged between the two discharging guide plates 1211, an X discharging push plate 1214 arranged on the discharging screw 1213, and a discharging motor for transmitting power to the discharging screw 1213, the distance between the two discharging guide plates 1211 is exactly one discharging bin 11, and when the discharging bin 11 moves on the discharging bottom plate 1212, no deflection occurs. The screw hole has been seted up on blowing bottom plate 1212, blowing lead screw 1213 is placed the screw hole does not influence the removal of blowing workbin 11, for the reduction blowing workbin 11 friction on blowing bottom plate 1212 the both sides of blowing lead screw 1213 are provided with the blowing bracing piece, will the blowing box props up, reduces the contact with blowing bottom plate 1212 to reduce the friction. The X discharging push plate 1214 moves toward or away from the Y discharging moving portion along with the rotation of the discharging screw 1213, and drives the discharging bin 11 to move horizontally. A plurality of discharging material boxes 11 are arranged on the discharging bottom plate 1212, and the discharging material boxes 11 are pushed to the Y discharging moving part one by one through the pushing of the X discharging push plate 1214. The end part of the discharging bottom plate 1212 close to the Y discharging moving part is provided with a first sensor for detecting the position of the discharging bin 11.

As shown in fig. 2-4, the Y discharging moving part includes a discharging holder for holding the discharging bin 11 and a discharging moving member for driving the discharging holder to move vertically, and in order to ensure the stability of the discharging moving member for driving the discharging bin 11 to move, a discharging support frame is provided, and the discharging moving member and the discharging support frame are provided. The discharging clamping piece comprises a discharging fixing plate 1221 connected with the discharging moving piece, a discharging clamping cylinder 1222 arranged on the discharging fixing plate 1221, a discharging upper clamping plate 1223 connected with the discharging clamping cylinder 1222 and a discharging lower clamping plate 1224 arranged on the discharging fixing plate 1221; when needs carry out blowing workbin 11's transportation, blowing lower plate 1224 with blowing bottom plate 1212 is on same horizontal plane when X blowing push pedal 1214 promotes blowing workbin 11, can directly push away blowing workbin 11 to blowing lower plate 1224 on, blowing lower plate 1224 guarantees to support one blowing workbin 11 has seted up the sensor hole on the blowing fixed plate 1221 the downthehole second sensor that is provided with of sensor is used for detecting whether completion is placed to blowing workbin 11 one side that blowing workbin 11 is close to blowing fixed plate 1221 with blowing fixed plate 1221 laminating, the completion is promptly placed when bottom surface and blowing lower plate 1224 laminating. After the second sensor detects that the discharge bin 11 is completely placed, the discharge clamping cylinder 1222 drives the discharge upper clamping plate 1223 to move towards the side close to the discharge bin 11 until the discharge upper clamping plate 1224 cooperates with the discharge lower clamping plate 1224 to clamp the discharge bin 11. Blowing moving member is including blowing removal lead screw 1225, the blowing movable plate 1226 of setting on blowing removal lead screw 1225, to blowing removal lead screw 1225 transmits the blowing moving motor 1227 of power, blowing movable plate 1226 is connected with blowing fixed plate 1221, removal lead screw 1225 rotates, the drive blowing movable plate 1226 reciprocates, drives simultaneously blowing workbin 11 reciprocates. In order to ensure the stability of the movement of the discharging material box 11, discharging guide rods 1228 are arranged on two sides of the movable screw rod 1225, and the discharging moving plate 1226 is connected with the two discharging guide rods 1228. The discharging support frame is provided with a highest position sensor and a lowest position sensor which are used for limiting the highest position and the lowest position of the discharging clamping piece in movement, and normal use of the device is guaranteed.

As shown in fig. 2 to 4, the material taking structure includes a power portion and a material pushing portion, and the power portion drives the material pushing portion to move so as to push out the material sheets 6 in the material discharge box 11. The power part comprises a power motor 131, a first power plate 132 driven by the power motor 131 to rotate and a second power plate 133 connecting the first power plate 132 and the material pushing part, and when the power motor 131 drives the first power plate 132 to rotate, the second power plate 133 pulls the material pushing part to move towards the direction close to or away from the material sheet 6 so as to push the material sheet 6 out of the material discharge box 11. The material pushing portion comprises a material pushing guide rod 134, a sliding block 135 arranged on the material pushing guide rod 134 and a push rod 136 arranged on the sliding block 135, the second power plate 133 is connected with the sliding block 135, the power motor 131 drives the first power plate 132 to rotate, the sliding block 135 is driven to move, the push rod 136 synchronously drives the material sheets 6 to be pushed out of the material discharging box 11, and along with the material discharging moving member driving the material discharging box 11 to move, the push rod 136 pushes the material sheets 6 out of the material discharging box 11.

As shown in fig. 2 to 4, a recovery structure in which the discharge bin 11 is placed is provided below the X discharge moving portion for collecting empty discharge bins 11 from which the sheets 6 have been completely taken out. Retrieve the structure including blowing platform, setting and be in non return portion on the blowing platform and push away the case portion with the recovery in the workbin impels blowing platform blowing moving member removes blowing workbin 11 when the minimum, retrieve and push away the case portion and promote blowing workbin 11 from blowing lower plate 1224 to blowing platform, process the non return portion pushes down non return portion, works as blowing workbin 11 leaves during non return portion, non return portion bounces blocks blowing workbin 11 removes. The non-return part is arranged at one end, close to the Y discharging moving part, of the discharging platform, and prevents a material box entering the discharging platform from sliding to the Y discharging moving part.

As shown in fig. 5-9, the emptying conveyer 2 is used for conveying the material sheet 6 to the processing device 3, and the emptying conveyer 2 comprises an emptying and conveying structure for conveying the material sheet 6, an emptying and pressurizing structure for pressurizing the material sheet 6 and an emptying and pushing structure for conveying the material sheet 6 to the processing device 3. Blowing transportation structure is in including two blowing transportation backup pad 211, the setting of parallel arrangement blowing belt pulley 212, connection on the blowing transportation backup pad 211 blowing belt 213, the drive of blowing belt pulley 212 pivoted blowing belt motor 214, two the distance between blowing transportation backup pad 211 guarantees to place tablet 6, and tablet 6 is placed on the blowing belt 213, one blowing belt 213 sets up two at least blowing belt pulley 212, two blowing belt pulley 212 sets up the both ends of blowing transportation backup pad 211, the both ends and two of blowing belt pulley 212 blowing transportation backup pad 211 is connected, blowing belt 213 passes two blowing belt pulleys 212. For guaranteeing reliable transmission to tablet 6, blowing belt 213 sets up two same one end of blowing transportation backup pad 211 sets up two blowing belt pulley 212, two same root axis is connected to blowing belt pulley 212, and is same two blowing belt pulley 212 on the blowing transportation backup pad 211 connects same blowing belt 213, according to the length of blowing belt 213 transportation distance, two proper amount sets up blowing belt pulley 212 again between the blowing belt pulley 212. In order to further ensure the reliable transportation of the discharging belt 213, a discharging tension wheel 215 is arranged on the discharging transportation support plate 211, and the discharging belt 213 is connected with the discharging tension wheel 215 to tension the discharging belt 213.

As shown in fig. 5-9, the emptying and pressurizing structure comprises an emptying and pressurizing cylinder 2226, an emptying flexible pressurizing assembly 222 connected with the emptying and pressurizing cylinder 2226, and an emptying and pressurizing roller 2227 connected with the emptying flexible pressurizing assembly 222, wherein the emptying and pressurizing cylinder 2226 is fixed on the emptying transportation support plate 211, and after the distance between the emptying and pressurizing roller 2227 and the emptying belt 213 is set, the emptying flexible pressurizing assembly 222 can allow the emptying and pressurizing roller 2227 to float up and down within a small range according to the difference of the thicknesses of the material sheets 6, so as to protect the material sheets 6.

As shown in fig. 5-9, the discharging flexible pressing assembly 222 includes a discharging first connecting arm 2221, a discharging second connecting arm 2222, and a discharging third connecting arm 2223, one end of the discharging first connecting arm 2221 is connected to a discharging pressing cylinder 2226, the other end is connected to the discharging second connecting arm 2222, the other end of the discharging second connecting arm 2222 is connected to the discharging third connecting arm 2223, the other end of the discharging third connecting arm 2223 is connected to a discharging pressing roller 2227, a discharging first through hole is disposed on the discharging first connecting arm 2221, a discharging second through hole 22221 is disposed on the discharging second connecting arm 2222, a pin shaft is disposed through the discharging first through hole and the discharging second through hole 22221, the discharging first connecting arm 2221 is rotatably connected to the discharging second connecting arm 2222, and in order to ensure that the discharging pressing roller 2227 can float up and down, the discharging second through hole 22221 is a waist hole. Blowing third linking arm 2223's below sets up blowing support arm 2224, the one end of blowing support arm 2224 with blowing third linking arm 2223 contacts two tip of blowing support arm 2224 are provided with the first waist hole of blowing and the second waist hole of blowing, blowing support arm 2224 passes two waist holes to be fixed on blowing transportation backup pad 211, can support blowing third linking arm 2223 does not influence in the time blowing pressure roller 2227 floats from top to bottom. In order to further ensure the floating of the discharging pressurizing roller 2227, a discharging first connecting hole is formed in the discharging supporting arm 2224, a discharging second connecting hole is formed in the discharging second connecting arm 2222, threads are arranged in the first connecting hole and the second connecting hole, bolts are connected through the threads and are not in contact with the discharging transportation supporting plate 211, and a discharging spring 2225 is hung on the two bolts. The discharging pressurizing cylinder 2226 drives the discharging flexible pressurizing assembly 222 to move, so that the discharging pressurizing roller 2227 is in contact with the material sheet 6 and floats according to the thickness of the material sheet 6. The discharging and pressurizing structures are arranged above the two discharging belts 213, and the number of the discharging belts 213 is set according to the requirement.

As shown in fig. 5 to 9, in order to prevent the material sheets 6 from being in unreliable contact with the feeding belt 213 during the conveying process, and not moving along with the feeding belt 213, or tilting during the transportation process, the feeding roller 23 is arranged above the feeding belt 213, the feeding roller 23 is rotatably fixed on the feeding transportation support plate 211, and the distance between the rotation adjustment and the belt ensures the pressing of the material sheets 6. The number of the discharging rollers 23 is set according to the length of the discharging belt 213, and if the number of the discharging flexible pressurizing assemblies 222 meets the requirement for setting the discharging rollers 23, the discharging rollers 23 may not be repeatedly set.

As shown in fig. 5 to 9, in order to further ensure the transportation of the material sheets 6, in the emptying conveyor 2, an emptying pusher structure is arranged between the two emptying transportation support plates 211, the emptying pusher structure is arranged below the material sheets 6, the emptying pusher structure includes an emptying pusher cylinder 24 and an emptying push plate 25 connected to the emptying pusher cylinder 24, the upper surface of the emptying push plate 25 is higher than the material sheets 6 placed on the emptying belt 213, the emptying pusher cylinder 24 drives the emptying push plate 25 to move towards a side close to or far away from the processing device 3, and simultaneously drives the material sheets 6 to move towards the processing device 3 until the processing device 3 is pushed.

As shown in fig. 10 and 11, the processing device 3 includes a bending machine 31, a positioning structure for positioning the material sheets 6, and a material moving structure for driving the positioning structure to move, a processing waiting area and a processing area are disposed on two sides of the bending machine 31, the processing waiting area is provided with the material sheets 6 to be processed, the processing area is provided with the material sheets 6 to be processed, and when the material sheets 6 are processed in the processing area, the material sheets 6 in the processing waiting area are intercepted and waited by the positioning structure until the material sheets 6 in the processing area are conveyed to the feeding and conveying device.

As shown in fig. 10 and 11, the positioning structure includes a first arrival assembly for positioning the web 6 at the processing waiting section and blocking the web 6 from entering the processing section, and a second arrival assembly for positioning the web 6 at the processing section to facilitate the processing of the web 6.

As shown in fig. 10 and 11, the first arriving assembly includes a first fixing plate 321, a first positioning rod 322 disposed on the first fixing plate 321, and a retractable blocking member 323 disposed below the material sheet 6, the first fixing plate 321 drives the first positioning rod 322 to move up and down, a third sensor for detecting the position of the material sheet 6 is disposed at a side of the blocking member 323 close to the material sheet 6 in the processing waiting area, when the third sensor detects the material sheet 6, the blocking member 323 moves up to block the movement of the material sheet 6, at this time, the first fixing plate 321 moves down to drive the first positioning rod 322 to extend into the material sheet 6 to position and adjust the position of the material sheet 6, so as to prevent the material sheet 6 from being skewed during transportation, and the processing inaccuracy occurs during the processing, after the processing area has been processed, the first fixing plate 321 moves up, the first positioning rod 322 is pulled out of the material sheet 6, and the material discharging and pushing structure pushes the material sheet 6 into the processing area.

As shown in fig. 10 and 11, the second arriving assembly includes a second fixing plate 324, and a second positioning rod disposed on the second fixing plate 324, the second fixing plate 324 drives the second positioning rod to move up and down, the second positioning rod extends into or out of the material sheet 6, and positions the material sheet 6 or releases the material sheet 6 to move toward the material receiving and conveying device 4. The first fixing plate 321 and the first positioning rod 322 are connected in the same manner and structure, and the second fixing plate 324 and the second positioning rod are connected in the same manner and structure. Positioning holes are arranged on two sides of the material sheet 6, and the first positioning rod and the second positioning rod extend into the positioning holes to position the material sheet. The first fixing plate 321 is connected with the second fixing plate 324 through a processing connecting plate 325, the processing connecting plate 325 is connected with a lifting cylinder 326, the lifting cylinder 326 drives the first fixing plate 321 and the second fixing plate 324 to synchronously move up and down, the first fixing plate and the second fixing plate are fixedly arranged on two sides of the bending machine 31, therefore, the width of the processing connecting plate 325 is larger than the length of the bending machine 31, and in order to ensure that the processing connecting plate 325 can stably drive the first fixing plate and the second fixing plate to move by corresponding heights, guide bearings are arranged on two sides of the lifting cylinder 326, guide rods are arranged in the guide bearings, and the guide rods are connected with the processing connecting plate 325.

As shown in fig. 10 and 11, the material moving structure includes a sliding rail and sliding block assembly connected to the lifting cylinder 326 and the guide bearing, and a cylinder assembly connected to the sliding rail and sliding block assembly, and the cylinder assembly pushes the sliding rail and sliding block assembly to move, so as to drive the positioning structure to move. The slide rail and slide block combination comprises a processing slide block 331 connected with the lifting cylinder 326 and the guide bearing, and a processing slide rail 332 matched with the processing slide block 331, wherein the length of the processing slide rail 332 is greater than that of the bending machine 31. The air cylinder component comprises a moving air cylinder 333 and an air cylinder plate 334 connected with the moving air cylinder 333, the air cylinder plate 334 is further connected with the machining slide block 331, and the moving air cylinder 333 pushes the air cylinder plate 334 to move and drives the positioning structure to move. A fourth sensor 335 for detecting the position of the cylinder plate 334 is provided at one side of said cylinder plate 334, which further detects the position of the positioning structure.

After the feeding and conveying device 2 conveys unprocessed material sheets 6 to the processing waiting area, the movable air cylinder 333 drives the positioning structure to reach a designated position to position the material sheets 6, before the material sheets 6 need to be processed, the first positioning rod 322 and/or the second positioning rod position the material sheets 6 to ensure the accuracy of processing, after the material sheets 6 are processed, the positioning rod can directly penetrate through the material sheets 6, the movable air cylinder 333 drives the material sheets to move to the material receiving and conveying device 4, and the material sheets 6 can be pushed by the next material sheet 6 after being processed until the material sheets are pushed into the material receiving and conveying device 4.

As shown in fig. 12-14, the material receiving and conveying device 4 is used for conveying the processed material sheets 6 to the material receiving device 5, and the material receiving and conveying device 4 includes a material receiving and conveying structure for conveying the material sheets 6, a material receiving and pressurizing structure for pressurizing the material sheets 6, and a material receiving and pushing structure for conveying the material sheets 6 to the processing device 3, the structure of the material receiving and conveying structure is the same as that of the material discharging and conveying structure, and the structure of the material receiving and pressurizing structure is the same as that of the material discharging and pressurizing structure. Receive material transportation structure including parallel arrangement's two receipts material transportation backup pad 411, set up receive material belt pulley 412, the connection on the receipts material transportation backup pad 411 receive material belt 413, the drive of receiving material belt pulley 412 receive material belt pulley 412 pivoted and receive material belt motor 414, two receive the distance between the material transportation backup pad 411 and guarantee to place tablet 6, tablet 6 places receive on the material belt 413, one receive material belt 413 and set up two at least receive material belt pulley 412, two receive material belt pulley 412 and set up receive the both ends of material transportation backup pad 411, receive the both ends and two of material belt pulley 412 receive material transportation backup pad 411 and connect, receive material belt 413 and pass two and receive material belt pulley 412. For guaranteeing reliable transmission to tablet 6, receive the material belt 413 and put two receive the material transportation backup pad 411 with the end set up two receive the material belt pulley 412, two receive the material belt pulley 412 and connect same root axis, it is same receive two on the material transportation backup pad 411 receive the material belt 412 and connect same receive the material belt 413, according to receive the length of material belt 413 transportation distance, two receive the material belt pulley 412 between the material belt 412 set up again in right amount. In order to further ensure the reliable transportation of the material receiving belt 413, a material receiving tension wheel 415 is arranged on the material receiving transportation support plate 411, and the material receiving belt 413 is connected with the material receiving tension wheel 415 to tension the material receiving belt 413.

As shown in fig. 12-14, the material receiving and pressurizing structure includes a material receiving pressurizing cylinder 4226, a material receiving flexible pressurizing assembly 422 connected to the material receiving pressurizing cylinder 4226, and a material receiving pressurizing roller 4227 connected to the material receiving flexible pressurizing assembly 422, wherein the material receiving pressurizing cylinder 4226 is fixed on the material receiving and transporting support plate 411, and after the material receiving pressurizing roller 4227 is set at a distance from the material receiving belt 413, the material receiving flexible pressurizing assembly 422 can allow the material receiving pressurizing roller 4227 to float up and down within a small range according to the thickness difference of the material pieces 6, so as to protect the material pieces 6.

As shown in fig. 12-14, the material collecting flexible pressing assembly 422 includes a material collecting first connecting arm 4221, a material collecting second connecting arm 4222 and a material collecting third connecting arm 4223, one end of the material collecting first connecting arm 4221 is connected to the material collecting pressing cylinder 4226, the other end of the material collecting first connecting arm 4222 is connected to the material collecting second connecting arm 4222, the other end of the material collecting second connecting arm 4222 is connected to the material collecting third connecting arm 4223, the other end of the material collecting third connecting arm 4223 is connected to the material collecting pressing roller 4227, a material collecting first through hole is formed in the material collecting first connecting arm 4221, a material collecting second through hole 42221 is formed in the material collecting second connecting arm 4222, a pin shaft passes through the material collecting first through hole and the material collecting second through hole 42221, the material collecting first connecting arm 4221 is rotatably connected to the material collecting second connecting arm 4222, and the material collecting pressing roller 4227 can float up and down to ensure that the second through hole is a waist hole. Receive the below of material third linking arm 4223 and set up and receive material support arm 4224, receive the one end of material support arm 4224 with receive the contact of material third linking arm 4223 receive two tip of material support arm 4224 and be provided with and receive the first waist hole of material and receive the second waist hole, it passes two waist holes and fixes to receive the material support arm 4224 receive on the material transportation backup pad 411, can support do not influence when receiving material third linking arm 4223 receive material pressurization gyro wheel 4227 and float from top to bottom. In order to further ensure the floating of the material receiving pressurizing roller 4227, a material receiving first connecting hole is formed in the material receiving supporting arm 4224, a material receiving second connecting hole is formed in the material receiving second connecting arm 4222, threads are arranged in the first connecting hole and the second connecting hole and are connected with bolts through the threads, the bolts do not contact with the material receiving transportation supporting plate 411, and material receiving springs 4225 are hung on the two bolts. The material receiving pressurizing cylinder 4226 drives the material receiving flexible pressurizing assembly 422 to move, so that the material receiving pressurizing roller 4227 is in contact with the material sheet 6 and floats according to the thickness of the material sheet 6. Two receive the material flexible pressure components 422 all to be provided with above the material belt 413, and each receive the quantity that the material belt 413 set up and set up as required by oneself.

As shown in fig. 12-14, in order to prevent the material sheet 6 from being in unreliable contact with the material receiving belt 413 during the conveying process, the material receiving belt 413 does not move or tilt during the conveying process, a material receiving roller 43 is arranged above the material receiving belt 413, the material receiving roller 43 is rotatably fixed on the material receiving conveying support plate 411, and the distance between the rotation adjustment and the belt ensures the pressing of the material sheet 6. Receive the material gyro wheel 43 according to receive the length setting quantity of material belt 413, if receive the quantity that flexible pressurizing assembly 422 set up and satisfy the above-mentioned demand that sets up and receive the material gyro wheel 43, receive the material gyro wheel 43 and can not duplicate the setting.

As shown in fig. 12-14, to further ensure the transportation of the material sheets 6, a material receiving and pushing structure is disposed on the material receiving and transporting device 4 on a side of the material receiving and transporting device near the material receiving device 5, where the material receiving and pushing structure includes a material receiving and pushing plate 44, a first cylinder 45 for driving the material receiving and pushing plate 44 to move horizontally, and a second cylinder 46 for driving the material receiving and pushing plate 44 to move vertically, after the processed material sheets 6 are transported into the material receiving box 51 by the material receiving and transporting device 4, a situation that the processed material sheets may not completely enter the material receiving box 51 may occur, and at this time, the first cylinder 45 drives the material receiving and pushing plate 44 to move, so as to completely push the material sheets 6 into the material receiving box 51; a second air cylinder 46 is provided to drive the material receiving push plate 44 to move vertically so as to be close to or far from the material sheet 6. The material receiving box 51 is provided with a counting sensor 47 at the feeding port, and the material sheets 6 in each material receiving box 51 can be fully placed through the counting of the counting sensor 47 according to the number of the material sheets 6 which can be placed in each material receiving box 51.

As shown in fig. 15 and 16, the material receiving device 5 includes a material receiving box 51 and a material receiving moving structure for driving the material receiving box 51 to move. The material receiving box 51 is an empty box and is used for containing the processed material sheets 6, a plurality of slots are formed in two sides of the material receiving box 51 in the height direction, the slots in the two sides are arranged in a one-to-one correspondence mode, one material sheet 6 is inserted into each of the two slots in the same height, namely, the material sheet 6 is inserted into the material receiving box 51 and then horizontally arranged in the height direction of the material receiving box 51.

As shown in fig. 15 and 16, the material receiving moving structure comprises an X material receiving moving part capable of driving the material receiving box 51 to move horizontally and a Y material receiving moving part capable of driving the material receiving box 51 to move vertically, the X material receiving moving part moves the material receiving box 51 to the Y material receiving moving part, and the Y material receiving moving part moves the material receiving box 51 to the material taking structure.

As shown in fig. 15 and 16, the X material receiving moving portion includes two material receiving guide plates 5211 arranged in parallel, a material receiving bottom plate 5212 for placing the material receiving box 51, a material receiving screw rod 5213 arranged between the two material receiving guide plates 5211, an X material receiving push plate 5214 arranged on the material receiving screw rod 5213, and a material receiving motor for transmitting power to the material receiving screw rod 5213, wherein the distance between the two material receiving guide plates 5211 is just equal to that of one material receiving box 51, and when the material receiving box 51 moves on the material receiving bottom plate 5212, the material receiving box 51 does not skew. Receive and seted up the lead screw hole on the material bottom plate 5212, receive material lead screw 5213 and place the lead screw is downthehole, does not influence the removal of receiving material workbin 51, for reducing receive the friction of material workbin 51 on receiving material bottom plate 5212 the both sides of receiving material lead screw 5213 are provided with the receipts material bracing piece, will receive material workbin 51 to prop up, reduce and receive the contact of material bottom plate 5212 to reduce the friction. The X material receiving push plate 5214 moves in a direction close to or away from the Y material receiving moving portion along with the rotation of the material receiving screw rod 5213, and drives the material receiving box 51 to move horizontally. A plurality of material receiving bins 51 are disposed on the material receiving bottom plate 5212, and the material receiving bins 51 are pushed to the Y material receiving moving portion one by the pushing of the X material receiving push plate 5214. A fifth sensor is disposed at an end of the material receiving bottom plate 5212 close to the Y material receiving moving portion, and is configured to detect a position of the material receiving box 51.

As shown in fig. 15 and 16, the Y receiving moving part comprises a receiving clamping member for clamping the receiving material box 51 and a receiving moving member for driving the receiving clamping member to vertically move, and a receiving support is arranged for ensuring the receiving moving member to drive the receiving material box 51 to move stably, and the receiving moving member and the receiving support are arranged. The material receiving clamping piece comprises a material receiving fixing plate 5221 connected with the material receiving moving piece, a material receiving clamping cylinder 5222 arranged on the material receiving fixing plate 5221, a material receiving upper clamping plate 5223 connected with the material receiving clamping cylinder 5222 and a material receiving lower clamping plate 5224 arranged on the material receiving fixing plate 5221; receive the material lower plate 5224 with receive the material bottom plate 5212 on same horizontal plane X receives the material push pedal 5214 and promotes when receiving the material workbin 51, can directly push away to receive the material workbin 51 on receiving the material lower plate 5224, receive the material lower plate 5224 to guarantee to support one receive the material workbin 51 the sensor hole has been seted up on receiving the material fixed plate 5221 the downthehole sixth sensor that is provided with of sensor for detecting whether receive the material workbin 51 and place the completion receive the material workbin 51 be close to receive one side of material fixed plate 5221 with receive the laminating of material fixed plate 5221, the completion is promptly placed when the bottom surface laminates with receiving the material lower plate 5224. After the sixth sensor detects that the material receiving box 51 is placed completely, the material receiving clamping cylinder 5222 drives the material receiving upper clamping plate 5223 to move towards one side close to the material receiving box 51 until the material receiving lower clamping plate 5224 is matched to clamp the material receiving box 51. Receive the material moving member including receiving material removal lead screw 5225, set up the receipts material movable plate 5226 on receiving material removal lead screw 5225, to receive the material removal motor 5227 that receives material removal lead screw 5225 transmission power, receive material movable plate 5226 and receive material fixed plate 5221 and be connected, the removal lead screw rotates, the drive the movable plate reciprocates, drives simultaneously receive material workbin 51 and reciprocate. In order to ensure the smooth movement of the material receiving box 51, material receiving guide rods 5228 are arranged on two sides of the material receiving movable screw rod 5225, and the material receiving movable plate 5226 is connected with the two material receiving guide rods 5228. The receiving support frame is provided with a highest position sensor and a lowest position sensor which are used for limiting the highest position and the lowest position of the receiving clamping piece to move, and normal use of the device is guaranteed.

As shown in fig. 15 and 16, a collecting structure for placing a collecting bin 51 is provided below the X collecting moving portion, and collects the full collecting bin 51 into which all the processed material sheets 6 have been placed. The recovery structure is in including receiving the material platform, setting the non return portion on receiving the material platform and pushing away the case portion with the recovery of workbin propulsion in receiving the material platform receive the material moving member and will receive material workbin 51 and remove to when the minimum, it pushes away the case portion and will receive material workbin 51 and promote to receiving the material platform from receiving on the lower plate 5224 to receive the material to retrieve the non return portion, process the non return portion pushes down the non return portion, works as receive material workbin 51 and leave during the non return portion, non return portion bounces, blocks receive material workbin 51 and remove. The non-return portion is arranged at one end, close to the Y material receiving moving portion, of the material receiving platform, and the material box entering the material receiving platform is prevented from sliding to the Y material receiving moving portion again.

The operation process of the material receiving and discharging mechanism is as follows:

the discharging box 11 filled with unprocessed material sheets 6 is pushed to the Y discharging moving part by the X discharging moving part, the Y discharging moving part drives the discharging box 11 to move vertically, when the discharging box 11 moves to the material taking structure, the pushing rod 136 pushes the material sheets 6 to the discharging conveying device 2 along with the fixed-height movement of the discharging box 11, and after the material sheets 6 in the discharging box 11 are taken out, the material recovering and pushing part pushes the discharging platform; blowing belt 213 drives unprocessed tablet 6 and removes, transport processingequipment 3 department with it, when tablet 6 reachs the processing waiting area, location structure fixes a position and intercepts it, tablet 6 processing in the processing area is accomplished the back, location structure release is temporarily unprocessed tablet 6, make it get into the processing area, after processing is accomplished, because the promotion of the tablet 6 that later one needs to carry out processing, the tablet 6 that will process the completion pushes into receipts material conveyor 4, also can carry tablet 6 to receipts material conveyor 4 department by location structure and material moving structure, then the transmission through receiving belt 413, the tablet 6 that will process the completion pushes receiving box 51, after full tablet 6 is filled in receiving box 51, it pushes away the material platform to retrieve the material portion of pushing away.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and in order to avoid unnecessary repetition, the present invention does not need to describe any combination of the features.

In addition, various embodiments of the present invention can be combined arbitrarily, and the disclosed content should be regarded as the present invention as long as it does not violate the idea of the present invention.

Claims (10)

1. The emptying conveying device for the material sheets is characterized in that: the device comprises a discharging and conveying structure for conveying the material sheets (6), a discharging and pressurizing structure for pressurizing the material sheets (6) and a discharging and pushing structure for conveying the material sheets (6) to the next module; the feeding push sheet structure is arranged below the material sheet (6) and comprises a feeding push sheet power source and a feeding push plate (25) connected with the feeding push sheet power source, and the feeding push sheet power source drives the feeding push plate (25) to move and simultaneously drives the material sheet (6) to move.

2. The emptying and conveying device for the tablets according to claim 1, which is characterized in that: the feeding and pressurizing structure comprises a feeding and pressurizing cylinder (2226), a feeding flexible pressurizing assembly (222) connected with the feeding and pressurizing cylinder (2226) and a feeding and pressurizing roller (2227) connected with the feeding flexible pressurizing assembly (222), the feeding and pressurizing cylinder (2226) drives the feeding flexible pressurizing assembly (222) to move, and the feeding and pressurizing roller (2227) is in contact with the material sheets (6).

3. The emptying and conveying device for the tablets according to claim 2, wherein: the flexible pressurizing assembly (222) for discharging comprises a first discharging connecting arm (2221), a second discharging connecting arm (2222) and a third discharging connecting arm (2223) which are sequentially connected, the other end of the first discharging connecting arm (2221) is connected with a discharging pressurizing cylinder (2226), and the other end of the third discharging connecting arm (2223) is connected with a discharging pressurizing roller (2227).

4. The emptying and conveying device for the tablets according to claim 3, which is characterized in that: the first feeding through hole is formed in the first feeding connecting arm (2221), the second feeding through hole (22221) is formed in the second feeding connecting arm (2222), the first feeding through hole and the second feeding through hole (22221) are provided with pin shafts in a penetrating mode, the first feeding connecting arm (2221) is rotatably connected with the second feeding connecting arm (2222), and the second feeding through hole (22221) is arranged to be a waist hole.

5. The emptying and conveying device for the tablets according to claim 3, which is characterized in that: the discharging flexible pressurizing assembly (222) further comprises a discharging spring (2225) used for enabling the discharging second connecting arm (2222) to float flexibly.

6. The emptying and conveying device for the tablets according to claim 1, which is characterized in that: blowing transport structure is including blowing transportation backup pad (211), blowing belt pulley (212), the connection of setting on blowing transportation backup pad (211 blowing belt pulley (213), the drive of blowing belt pulley (212) pivoted blowing belt motor (214), and tablet (6) are placed on blowing belt (213).

7. The emptying and conveying device for the tablets according to claim 6, which is characterized in that: and a discharging tension wheel (215) used for tensioning the discharging belt (213) is arranged on the discharging conveying support plate (211).

8. The emptying and conveying device for the tablets according to claim 6, which is characterized in that: and a discharging roller (23) for preventing the material sheet (6) from tilting is arranged above the discharging belt (213).

9. The emptying and conveying device for the tablets according to claim 6, which is characterized in that: two discharging belts (213) are arranged, and each discharging belt (213) is provided with a discharging and pressurizing roller (2227).

10. The emptying and conveying device for the tablets according to claim 1, which is characterized in that: the push piece power source is set to be a push piece cylinder.

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