CN216805958U - Stick body counting and conveying mechanism - Google Patents

Abstract

The utility model relates to a stick body counting and conveying mechanism, which comprises a vibrating tray for placing a stick body and sending the stick body out, a material arranging mechanism and a conveying belt mechanism, wherein the discharging end of the vibrating tray is arranged corresponding to the feeding end of the material arranging mechanism, the discharging end of the material arranging mechanism is arranged corresponding to the feeding end of the conveying belt mechanism, the material arranging mechanism comprises a material arranging channel, a feeding pressing wheel arranged in the material arranging channel and a pressing wheel driving mechanism for driving the feeding pressing wheel to rotate so as to send the stick body out of the material arranging channel, the conveying belt mechanism comprises a material rack, a conveying belt arranged on the material rack and a material belt driving mechanism for driving the conveying to rotate, a plurality of limiting grooves for limiting the stick body to slip are arranged on the conveying belt, the limiting grooves extend along the width direction of the conveying belt, and an induction counter for counting the stick body sent out of the conveying belt is arranged at the discharging end of the conveying belt. The utility model can send out the stick bodies one by one and count the stick bodies, thereby improving the production efficiency and reducing the labor intensity.

Description

Stick body counting and conveying mechanism

Technical Field

The utility model relates to a stick body counting and conveying mechanism.

Background

The counting bar is used as a teaching aid for assisting students in counting and calculating learning. The counting sticks sold on the market are generally sold in a whole box or bound into a bundle for sale. When the counting rods taking the bundle as a unit are bound, a predetermined number of rod bodies are generally placed together and bound through rubber bands, so that the processing efficiency is low, and the labor intensity is relatively high. For this reason, the applicant has developed an automatic roller packer capable of automatically packing, and needs to design a conveying mechanism capable of automatically feeding materials to reduce labor intensity and improve labor efficiency.

Accordingly, the present inventors have made extensive studies on the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stick body counting and conveying mechanism capable of reducing labor intensity and improving labor efficiency.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the stick body counting and conveying mechanism comprises a vibration material tray for placing and conveying the stick body, a material arranging mechanism for conveying the stick body one by one and a conveying belt mechanism for conveying the stick body to a preset position one by one, wherein the discharge end of the vibration material tray is arranged corresponding to the feed end of the material arranging mechanism, the discharge end of the material arranging mechanism is arranged corresponding to the feed end of the conveying belt mechanism, the material arranging mechanism comprises a material arranging channel, a feeding pinch roller arranged in the material arranging channel and a pinch roller driving mechanism for driving the feeding pinch roller to rotate so as to convey one stick body out of the material arranging channel, the conveying belt mechanism comprises a material rack, a conveying belt arranged on the material rack and a material belt driving mechanism for driving the conveying and rotating, a plurality of limiting grooves for limiting the stick body to slip are arranged on the conveying belt, the limiting grooves extend along the width direction of the conveying belt, and the limiting grooves are arranged along the length direction of the conveying belt, the discharge end of the conveyer belt is provided with an induction counter used for counting the rod bodies sent out from the conveyer belt.

As a preferable mode of the utility model, the feeding end of the material arranging channel is higher than the discharging end, and the feeding end of the conveying belt is higher than the discharging end.

As a preferred mode of the utility model, the conveying belt is provided with a plurality of limiting strips, the limiting strips extend along the width direction of the conveying belt, the limiting strips are arranged along the length direction of the conveying belt, and the limiting grooves are formed between adjacent limiting strips.

As a preferable mode of the utility model, the material arranging channel comprises a sliding plate, a first baffle plate and a second baffle plate, wherein the first baffle plate and the second baffle plate are arranged on the sliding plate, and the distance between the first baffle plate and the second baffle plate corresponds to the length of the stick body.

As a preferable mode of the utility model, the feeding press wheel is rotatably arranged on the first baffle and the second baffle through a rotating shaft, the press wheel driving mechanism is a motor, and the motor is in transmission connection with the rotating shaft.

As a preferred mode of the utility model, the material rack comprises a first supporting plate and a second supporting plate, a driving roller and a driven roller are arranged between the first supporting plate and the second supporting plate, the conveying belt is sleeved on the driving roller and the driven roller, the material belt driving mechanism is a motor, and the motor is in transmission connection with the driving roller.

As a preferable mode of the present invention, the sensing counter further includes a material guiding plate, the material guiding plate is disposed above the conveyor belt, a material guiding space for guiding the rod body to fall is formed between the material guiding plate and the discharge end of the conveyor belt, and the sensing counter is mounted on the material guiding plate.

After the technical scheme is adopted, the rod bodies are conveyed to the material arranging mechanism one by one through the vibrating material tray, the feeding pinch roller is driven to rotate through the pinch roller driving mechanism, so that the rod bodies are conveyed to the limiting grooves of the conveying belt one by one, the rod bodies are sent out one by one through the conveying belt, and the rod bodies are counted through the induction counter.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of a point a in fig. 1.

Fig. 3 is an enlarged view at B in fig. 1.

Fig. 4 is a schematic top view of the transfer mechanism of the present invention.

Fig. 5 is a schematic top view of the first robot assembly according to the present invention.

Fig. 6 is a schematic top view of the second robot assembly of the present invention.

Fig. 7 is a schematic top view of the leveling and discharging mechanism of the stick body according to the present invention.

In the figure:

stick body counting and conveying mechanism 100 vibrating tray 101

Slide plate 102 first baffle 103

The pressing wheel driving mechanism 104 material rack 105

Conveyor belt 106 spacing strip 107

Drive roll 109 with limit groove 108

Follower roller 110 stock guide 111

The material guiding space 112 senses the counter 113

Feed pinch roller 114

Stick body binding mechanism 200 lifting driving mechanism 201

Supply frame 202 reel 203

Film 204 guide 205

Guide roller 206 guide block 207

Guide block drive mechanism 208 suction cup assembly 209

Cutter driving mechanism 211 of blowing assembly 210

Cutter 212 linkage rod 213

Stopper 214 and stopper rod 215

Limit nut 216 leading truck actuating mechanism 217

Drive block 218 drives rod 219

Groove seat 220 first clamping block 221

Second clamping block 222 third clamping block 223

First link 224 and second link 225

Third link 226 first drive mechanism 227

Second drive mechanism 228 first mounting bracket 229

Fourth clamping block 230 fifth clamping block 231

Sixth clamping block 232 fourth link 234

Third drive mechanism 236 fourth drive mechanism 237

Pressing needle 238 pressing needle driving mechanism 239

Horizontal shaft 240 fisheye bearing 241

Fifth link 243 of drive shaft 242

Sixth link 244 second mount 245

Pin 246

Material receiving turntable 301 of rod body leveling and discharging mechanism 300

Supporting shaft 302 first material receiving claw 303

First plate 304 and second plate 305

Turntable driving mechanism 307 for supporting plate 306

Second receiving claw 308 pressure plate driving mechanism 309

Fixed plate 310 pressure plate 311

First clamping plate 313 of finger cylinder 312

The second clamping plate 314 slides the material plate 315

First shield 316 and second shield 317

First slot 318 and second slot 319

First conveyor belt 401 of transfer mechanism 400

Second conveyor belt 402 first brackets 403

Second bracket 404 first bracket 405

Second support 406

Stick body 500

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is made with reference to the embodiments.

Referring to fig. 1 to 7, an automatic packaging machine for a stick body comprises a stick body counting and conveying mechanism 100, a stick body binding mechanism 200 and a stick body leveling and discharging mechanism 300, in order to better realize the orderly matching of the mechanisms and elements, the utility model further comprises a controller which is a conventional structure in the field of electric control, and the utility model will not be described in detail herein. The discharging end of the rod counting and conveying mechanism 100 is provided with a transfer mechanism 400, the transfer mechanism 400 comprises a first support 405, a first conveyor belt 401 arranged on the first support 405, a second support 406, a second conveyor belt 402 arranged on the second support 406 and a conveyor belt driving mechanism for driving the first conveyor belt 401 and the second conveyor belt 402 to rotate, the first conveyor belt 401 and the second conveyor belt 402 are both annular, a chain structure or a conveyor belt structure is adopted, the conveyor belt driving mechanism adopts a conventional chain wheel and a motor, the first conveyor belt 401 is sleeved on a group of chain wheels, the second conveyor belt 402 is sleeved on another group of chain wheels, in order to better realize synchronous rotation of the first conveyor belt 401 and the second conveyor belt 402, the chain wheels of the first conveyor belt 401 and the chain wheels of the second conveyor belt 402 are connected through a synchronous shaft. Be equipped with a plurality of first brackets 403 on first conveyer belt 401, a plurality of first brackets 403 are arranged along the length direction of first conveyer belt 401 equidistant, it is equipped with a plurality of second brackets 404 to correspond first bracket 403 on second conveyer belt 402, a plurality of second brackets 404 are arranged along the length direction equidistant of second conveyer belt 402, a first bracket 403 and a second bracket 404 form the support material space that is used for placing a pile of rod body 500 jointly, when the blowing, the both ends of rod body 500 erect respectively on first bracket 403 and second bracket 404, the intermediate position of rod body 500 is unsettled.

In the present invention, the stick body counting and conveying mechanism 100 is disposed corresponding to the material supporting space, the stick body binding mechanism 200 is disposed corresponding to the material supporting space, and the stick body leveling and discharging mechanism 300 is disposed corresponding to the discharging end of the transfer mechanism 400.

The utility model also provides a stick body counting and conveying mechanism 100, which comprises a vibrating tray 101 for placing the stick body 500 and conveying the stick body 500 out, a material arranging mechanism for conveying the stick bodies 500 out one by one and a conveying belt mechanism for conveying the stick bodies 500 to a preset position one by one (namely to the transfer mechanism 400). The material arranging mechanism comprises a material arranging channel, a feeding pressure wheel 114 arranged in the material arranging channel and a pressure wheel driving mechanism 104 used for driving the feeding pressure wheel 114 to rotate so as to send a roller body 500 out of the material arranging channel. The conveying belt mechanism comprises a material frame 105, a conveying belt 106 arranged on the material frame 105 and a material belt driving mechanism (not shown in the figure) used for driving the conveying belt 106 to rotate, a plurality of limiting grooves 108 used for limiting the slipping of the roller bodies 500 are arranged on the conveying belt 106, the limiting grooves 108 extend along the width direction of the conveying belt 106, the limiting grooves 108 are arranged along the length direction of the conveying belt 106, an induction counter 113 used for counting the roller bodies 500 sent out from the conveying belt 106 is arranged at the discharge end of the conveying belt 106, and when the roller bodies 500 pass through the induction range of the induction counter 113, counting is achieved.

In a preferred embodiment of the present invention, the feeding end of the material arranging channel is higher than the discharging end, the roller body 500 can slide down under gravity, and the feeding end of the conveying belt 106 is higher than the discharging end.

As a preferable mode of the present invention, the conveyor belt 106 is provided with a plurality of position-limiting strips 107, the position-limiting strips 107 extend along the width direction of the conveyor belt 106, the plurality of position-limiting strips 107 are arranged along the length direction of the conveyor belt 106, and the position-limiting groove 108 is formed between adjacent position-limiting strips 107.

As a preferred embodiment of the present invention, the material arranging channel includes a sliding plate 102, and a first baffle 103 and a second baffle (not shown in the figure) disposed on the sliding plate 102, the sliding plate 102 is disposed perpendicular to the first baffle 103 and the second baffle, the three are enclosed to form a channel-shaped channel, and the distance between the first baffle 103 and the second baffle corresponds to the length of the stick 500, so that the stick 500 can be transported in the direction perpendicular to the length direction.

As a preferred mode of the present invention, the feeding pressure roller 114 is rotatably disposed on the first baffle 103 and the second baffle through a rotating shaft, the rotating shaft is disposed along a horizontal direction, the pressure roller driving mechanism 104 is a motor, and the motor is in transmission connection with the rotating shaft.

As a preferred mode of the present invention, the material rack 105 includes a first supporting plate and a second supporting plate, the first supporting plate and the second supporting plate are installed on the rack, a driving roller 109 and a driven roller 110 are disposed between the first supporting plate and the second supporting plate, the conveying belt 106 is sleeved on the driving roller 109 and the driven roller 110, the material belt driving mechanism is a motor, and the motor is in transmission connection with the driving roller 109.

As a preferable mode of the present invention, the present invention further includes a material guiding plate 111, the material guiding plate 111 is disposed above the conveyor belt 106, a material guiding space 112 for guiding the roller 500 to drop is formed between the material guiding plate 111 and the discharge end of the conveyor belt 106, the induction counter 113 is mounted on the material guiding plate 111, and the material guiding plate 111 is mounted on the first support plate or the second support plate.

The discharge end of the conveyor belt 106 of the present invention is disposed corresponding to the material supporting space, and is used for feeding the stick body 500 into the material supporting space.

The utility model also provides a stick body binding mechanism 200, which comprises a frame, a groove seat 220 for stacking a stick body 500, a lifting driving mechanism 201 for driving the groove seat 220 to move up and down, a first manipulator assembly and a second manipulator assembly for clamping two ends of the stick body 500, a manipulator rotation driving mechanism for driving the first manipulator assembly and the second manipulator assembly to rotate, a feeding frame 202 for supplying an elastic film 204, and a guide frame 205 for guiding the trend of the film 204, wherein the elastic film 204 is preferably a transparent film 204, such as a PE film 204. The guide frame 205 is internally provided with a guide roller 206 and a guide block 207 which is matched with the guide roller 206 to clamp the film 204 or loosen the film 204, the guide frame 205 is provided with a guide block driving mechanism 208 which is used for driving the guide block 207 to be close to the guide roller 206 or to be far away from the guide roller 206, the upper end of the guide frame 205 is rotatably arranged on the machine frame, the guide roller 206 and the guide block 207 are arranged at the lower end of the guide frame 205, and the machine frame is provided with a guide frame driving mechanism 217 which is used for driving the guide frame 205 to swing. A suction cup component 209 for adsorbing the free end of the film 204 is further arranged on the guide frame 205, and the suction cup component 209 is a conventional negative pressure suction cup component 209 which comprises a suction cup and a negative pressure device and can adsorb the film 204 on the suction cup when the free end of the film 204 is close to the suction cup. An air blowing assembly 210 for blowing the free end of the film 204 toward the suction cup assembly 209 is provided on the frame, the air blowing assembly 210 being a conventional high pressure air device for providing a high pressure air stream to blow the free end of the film 204 toward the air blowing assembly 210. The guide roller 206 and the guide block 207 are both arranged between the suction cup component 209 and the air blowing component 210, the rack is further provided with a cutter 212 for cutting the film 204 and a cutter 212 driving mechanism 211 for driving the cutter 212 to act, and the first manipulator component or the second manipulator component is provided with a pressing pin 238 for pressing the film 204 against the roller body 500. The pressing pin 238 is used to press the free end of the film 204 against the roller 500 first, so as to prevent the film 204 from slipping during winding.

As a preferred embodiment of the present invention, the socket 220 includes a first U-shaped plate, a second U-shaped plate, and a connecting plate connecting the first U-shaped plate and the second U-shaped plate, the connecting plate is disposed along a horizontal direction, and the lifting driving mechanism 201 is connected to the connecting plate.

In the present invention, the socket 220 is arranged corresponding to the position between the first bracket 403 and the second bracket 404, and the distance between the first U-shaped plate and the second U-shaped plate is smaller than the distance between the first bracket 403 and the second bracket 404.

As a preferred embodiment of the present invention, the first manipulator assembly includes a first mounting frame 229, a first clamping block 221, a second clamping block 222, and a third clamping block 223, the first clamping block 221, the second clamping block 222, and the third clamping block 223 are uniformly arranged on the first mounting frame 229 and enclose a first clamping space for clamping the stick body 500, the first clamping block 221 is hinged to the first mounting frame 229 through a first connecting rod 224, the second clamping block 222 is hinged to the first mounting frame 229 through a second connecting rod 225, a first driving mechanism 227 for driving the first connecting rod 224 to swing to clamp or release the first clamping block 221 is arranged on the first mounting frame 229, and a second driving mechanism 228 for driving the second connecting rod 225 to swing to clamp or release the second clamping block 222 is arranged on the first mounting frame 229. The first clamping block 221 and the second clamping block 222 are driven to approach or separate from each other by the first driving mechanism 227 and the second driving mechanism 228, in the present invention, the third clamping block 223 is located above the first clamping block 221 and the second clamping block 222, and the third clamping block 223 is mounted on the first mounting frame 229 by the fifth connecting rod 243.

As a preferred embodiment of the present invention, the second manipulator assembly includes a second mounting frame 245, a fourth clamping block 230, a fifth clamping block 231, and a sixth clamping block 232, the fourth clamping block 230, the fifth clamping block 231, and the sixth clamping block 232 are uniformly arranged on the second mounting frame 245 and enclose a second clamping space for clamping the rod body 500, the fourth clamping block 230 is hinged to the second mounting frame 245 through a third connecting rod 226, the fifth clamping block 231 is hinged to the second mounting frame 245 through a fourth connecting rod 234, a third driving mechanism 236 for driving the third connecting rod 226 to swing to clamp or release the fourth clamping block 230 is arranged on the second mounting frame 245, a fourth driving mechanism 237 for driving the fourth connecting rod 234 to swing to clamp or release the fifth clamping block 231 is arranged on the second mounting frame 245, and the pressing pin 238 is arranged on the sixth clamping block 232. The fourth clamping block 230 and the fifth clamping block 231 are driven to approach or separate from each other by the first driving mechanism 236 and the fourth driving mechanism 237, the sixth clamping block 232 is located above the fourth clamping block 230 and the fifth clamping block 231, and the sixth clamping block 232 is mounted on the second mounting frame 245 through the sixth connecting rod 244.

In a preferred embodiment of the present invention, the sixth clamping block 232 is provided with a pressing pin driving mechanism 239 for driving the pressing pin 238 to extend and retract in the direction of the first manipulator assembly and the second manipulator assembly, the pressing pin driving mechanism 239 may be an air cylinder, for example, for driving the pressing pin 238 to extend and retract, when the pressing pin 238 extends, the film 204 may be pressed against the roller body 500, and when the pressing pin 238 retracts, the pressing pin 238 may be separated from the film 204, such a structure can ensure the integrity of the film 204, and the film 204 may not slip at the beginning of winding, and after the film 204 is wound once, the film 204 may not slip any more by using the friction force between the films 204, and at this time, the pressing pin 238 may retract. Removal of the pins 238 in a manner that destroys a portion of the membrane is theoretically possible but not optimal.

In a preferred embodiment of the present invention, the robot rotation driving mechanism is a first motor and a second motor, the first mounting bracket 229 is provided on an output shaft of the first motor, the second mounting bracket 245 is provided on an output shaft of the second motor, and the first driving mechanism 227, the second driving mechanism 228, the third driving mechanism 236, and the fourth driving mechanism 237 are all cylinders.

As a preferred mode of the present invention, the guide block 207 is rotatably mounted on the guide frame 205 through a pin 246 horizontally disposed, the pin 246 is horizontally disposed, the guide block driving mechanism 208 is a motor, an output shaft of the motor is in transmission connection with the pin, and when the guide block 207 presses against the guide roller 206, the film 204 can be clamped, so as to prevent the film 204 from slipping.

As a preferred mode of the present invention, the guide frame driving mechanism 217 includes a motor, a driving shaft 242, a driving block 218 mounted on the driving shaft 242, and a driving rod 219 hinged to the driving block 218, one end of the driving rod 219 is connected to the driving block 218, the driving shaft 242 is disposed along a horizontal direction, the other end of the driving rod 219 is hinged to the guide frame 205, specifically, to the middle upper portion of the guide frame 205, and an output shaft of the motor is in transmission connection with the driving shaft 242.

As a preferable mode of the utility model, the guide device further comprises a horizontal shaft 240 arranged on the rack, a linkage rod 213 is arranged on the horizontal shaft 240, the upper end of the guide frame 205 is hinged on the linkage rod 213, the horizontal shaft 240 and the guide frame 205 are respectively arranged at two ends of the linkage rod 213, a limit block 214 is further hinged on the horizontal shaft 240, a fisheye bearing 241 is arranged at the lower end of the limit block 214, a limit rod 215 is arranged in the fisheye bearing 241 in a penetrating manner, one end of the limit rod 215 is hinged on the guide frame 205, the other end of the limit rod 215 penetrates through the fisheye bearing 241 and is provided with a limit nut 216, the limit rod 215 can move along the axial direction of the fisheye bearing 241, and the linkage rod 213, the limit block 214, the limit rod 215 and the guide frame 205 can stably swing within a predetermined range through the structure.

In a preferred embodiment of the present invention, the supply frame 202 is provided with an unwinding shaft and a winding drum 203 provided on the unwinding shaft, the winding drum 203 is provided in a horizontal direction, and the film 204 is wound around the winding drum 203. The utility model can clamp the film 204 through the guide block 207 and the guide roller 206 to pull the film 204, and can drive the film 204 to automatically release through arranging the motor, thereby reducing the pulling resistance of the film 204.

The utility model also provides a roller body leveling and discharging mechanism 300 which comprises a support, a material receiving turntable 301 which is rotatably arranged on the support and a turntable driving mechanism 307 for driving the material receiving turntable 301 to rotate, wherein the axis of the material receiving turntable 301 is arranged along the horizontal direction, a first material receiving claw 303 and a second material receiving claw 308 for receiving a roller body 500 are arranged at two ends of the material receiving turntable 301 along the axial direction, the first material receiving claw 303 is arranged corresponding to the second material receiving claw 308, the first material receiving claws 303 are multiple, the multiple first material receiving claws 303 are distributed along the circumferential direction of the material receiving turntable 301, the multiple second material receiving claws 308 are distributed along the circumferential direction of the turntable 301, the roller body leveling and discharging mechanism further comprises a pressing plate 311 which is arranged corresponding to the position between the first material receiving claw 303 and the second material receiving claw 308 and a pressing plate driving mechanism 309 for driving the pressing plate 311 to move along the radial direction of the material receiving turntable 301, and the pressing plate 311 is arranged above the material receiving turntable 301. The utility model also comprises a first clamping plate 313 and a second clamping plate 314 which are arranged corresponding to the first receiving claw 303 and the second receiving claw 308, and a clamping plate driving mechanism which drives the first clamping plate 313 and the second clamping plate 314 to move relatively or back to back, wherein the first receiving claw 303 and the second receiving claw 308 are both arranged between the first clamping plate 313 and the second clamping plate 314, and the first clamping plate 313 and the second clamping plate 314 are arranged in parallel and arranged along the horizontal direction.

As a preferred mode of the present invention, the receiving rotary table 301 is mounted on the support through a support shaft 302, the support shaft 302 is arranged along a horizontal direction, and the rotary table driving mechanism 307 is in transmission connection with the support shaft 302.

In a preferred embodiment of the present invention, the turntable driving mechanism 307 is a motor.

In a preferred embodiment of the present invention, the clamp plate driving mechanism is a finger cylinder 312, a cylinder of the finger cylinder 312 is mounted on the bracket, and the first clamp plate 313 and the second clamp plate 314 are respectively mounted on two telescopic ends of the finger cylinder 312.

As a preferable mode of the present invention, each of the first receiving claw 303 and the second receiving claw 308 includes a first support plate 304, a second support plate 305, and a support plate 306 connected between the first support plate 304 and the second support plate 305, and the first support plate 304, the second support plate 305, and the support plate 306 define a V shape.

As a preferred embodiment of the present invention, the pressing plate driving mechanism 309 is an air cylinder, a cylinder body of the air cylinder is fixed on the bracket, a piston rod of the air cylinder is arranged along a vertical direction, and the pressing plate 311 is installed on the piston rod of the air cylinder.

In a preferred embodiment of the present invention, the piston rod of the cylinder is provided with a fixing plate 310, the pressure plate 311 is attached to the fixing plate 310, and the cylinder body of the finger cylinder 312 is fixed to the fixing plate 310.

In a preferred embodiment of the present invention, the bracket is further provided with a hopper which is obliquely arranged, the hopper comprises a material sliding plate 315, and a first protective plate 316 and a second protective plate 317 which are arranged on the material sliding plate 315, the material sliding plate 315 is obliquely arranged relative to a horizontal plane, the material sliding plate 315 is mounted on the bracket, the material sliding plate 315 is provided with a first slot 318 for avoiding the first material receiving claw 303 and a second slot 319 for avoiding the second material receiving claw 308, and the first slot 318 and the second slot 319 extend along the length direction of the material sliding plate 315.

The utility model is in operation:

the stick body 500 is conveyed to the material arranging mechanism one by one through the vibrating tray 101, the feeding pinch roller 114 is driven to rotate through the pinch roller driving mechanism 104, so that the stick body is conveyed to the limiting groove 108 of the conveying belt 106 one by one, the stick body 500 is conveyed out one by one through the conveying belt 106, the stick body 500 is counted through the induction counter 113, the stick body 500 falls on the first bracket 403 and the second bracket 404 of the transfer mechanism 400 after being conveyed out from the conveying belt 106, and the first bracket 403 and the second bracket 404 bear a preset number of stick bodies and are conveyed to the lower part of the lifting driving mechanism 201 along with the first conveying belt 401 and the second conveying belt 402.

The lifting driving mechanism 201 drives the slot seat 220 to ascend, the roller bodies 500 of the first bracket 403 and the second bracket 404 are lifted upwards to the positions of the first manipulator assembly and the second manipulator assembly through the slot seat 220, the guide frame 205 drives the film 204 to move to the roller bodies 500 under the action of the guide frame driving mechanism 217 (in the moving process, the guide block 207 and the guide roller 206 clamp the film 204), before the guide frame 205 moves, the film 204 is pulled out of the supply frame 202 and passes through between the guide block 207 and the guide roller 206, and the free end of the film 204 is adsorbed by the sucker assembly 209. The first mechanical arm component and the second mechanical arm component clamp the stick body 500, the pressing pin 238 presses the film 204, the mechanical arm rotation driving mechanism drives the first mechanical arm component and the second mechanical arm component to rotate, so that the film 204 is coated on the stick body 500, the first mechanical arm component and the second mechanical arm component stop rotating, then the cutter driving mechanism 211 drives the cutter 212 to move, the film 204 is cut off to enable the film 204 to form a free end, the guide block 207 and the guide roller 206 clamp the film 204, the guide frame 205 returns under the action of the guide frame driving mechanism 217, the air blowing component 210 acts to blow the free end of the film 204 to the sucker component 209, and the sucker component 209 adsorbs the free end of the film 204 and is in a flat state. The first manipulator assembly and the second manipulator assembly release the bundled stick body 500, the lifting driving mechanism 201 drives the bundled stick body to descend, and the stick body is transferred to the first bracket 403 and the second bracket 404, and then the lifting driving mechanism 201 lifts the stick body which is not bundled in the next group of the first bracket 403 and the second bracket 404, so as to bundle the stick body next time.

The bound stick bodies are conveyed to the first material receiving claw 303 and the second material receiving claw 308 through the transfer mechanism 400, rotate to the lower part of the pressing plate 311 along with the rotation of the material receiving turntable 301, the pressing plate 311 is driven to move through the pressing plate driving mechanism 309 and squeeze the stick bodies in the circumferential direction, so that the whole bundle of stick bodies is straightened, the first clamping plate 313 and the second clamping plate 314 are driven through the clamping plate driving mechanism to squeeze the stick bodies in the axial direction, and the stick bodies are stacked neatly. The receiving rotary disc 301 rotates to transfer the roller bodies arranged in a flat state into the hopper, and the roller bodies slide to a preset position (such as a material basket).

In the utility model, the frame and the bracket are arranged on the carrier as parts, and the shapes of the parts are correspondingly arranged according to the using length.

The product form of the present invention is not limited to the embodiments, and any suitable changes or modifications of the similar ideas by anyone should be considered as not departing from the patent scope of the present invention.

Claims (7)

1. Rod body count conveying mechanism, its characterized in that: comprises a vibration material tray for placing and sending out the stick body, a material arranging mechanism for sending out the stick body one by one and a conveyer belt mechanism for conveying the stick body to a preset position one by one, wherein the discharge end of the vibration material tray is arranged corresponding to the feed end of the material arranging mechanism, the discharge end of the material arranging mechanism is arranged corresponding to the feed end of the conveyer belt mechanism, the material arranging mechanism comprises a material arranging channel, the feeding pinch roller that sets up in reason material passageway and be used for driving the feeding pinch roller and rotate the pinch roller actuating mechanism who sees off in order to follow reason material passageway with a rod body, conveyer belt mechanism includes the work or material rest, the conveyer belt of setting on the work or material rest and be used for the drive to carry pivoted material area actuating mechanism, be equipped with a plurality of spacing grooves that are used for restricting the rod body and skid on the conveyer belt, the width direction of spacing groove edge conveyer belt extends, the length direction of a plurality of spacing grooves edge conveyer belt arranges, the discharge end of conveyer belt is equipped with and is used for carrying out the response counter of counting to the rod body that sees off from the conveyer belt.

2. The stick body counting and conveying mechanism according to claim 1, wherein: the feeding end of the material arranging channel is higher than the discharging end, and the feeding end of the conveying belt is higher than the discharging end.

3. The stick body counting and conveying mechanism according to claim 2, wherein: the conveying belt is provided with a plurality of limiting strips, the limiting strips extend along the width direction of the conveying belt, the limiting strips are arranged along the length direction of the conveying belt, and the limiting grooves are formed between adjacent limiting strips.

4. The stick body counting and conveying mechanism according to claim 3, wherein: the material arranging channel comprises a sliding plate, a first baffle and a second baffle, wherein the first baffle and the second baffle are arranged on the sliding plate, and the distance between the first baffle and the second baffle corresponds to the length of the stick body.

5. The stick body counting and conveying mechanism according to claim 4, wherein: the feeding pinch roller is rotatably arranged on the first baffle and the second baffle through a rotating shaft, the pinch roller driving mechanism is a motor, and the motor is in transmission connection with the rotating shaft.

6. The stick body counting and conveying mechanism according to claim 5, wherein: the material rack comprises a first supporting plate and a second supporting plate, a driving roller and a driven roller are arranged between the first supporting plate and the second supporting plate, the conveying belt is sleeved on the driving roller and the driven roller, the material belt driving mechanism is a motor, and the motor is in transmission connection with the driving roller.

7. The stick body counting and conveying mechanism according to claim 6, wherein: the sensing counter is arranged on the guide plate, the guide plate is arranged above the conveying belt, a guide space for guiding the rod body to fall is formed between the guide plate and the discharge end of the conveying belt, and the sensing counter is arranged on the guide plate.

Images