阅读说明：本技术 一种家具生产用辅助堆放木板板材装置 (Furniture production is with supplementary plank panel device of stacking ) 是由 周兰芳 于 2021-07-27 设计创作，主要内容包括：本发明涉及家具生产技术领域,且公开了一种家具生产用辅助堆放木板板材装置,包括外壳,所述外壳的内部设置有堆叠板材机构,堆叠板材机构包括升降组件、变向组件、传送组件、检测组件,外壳的内部设置有带动木板升降的升降组件,升降组件的外部设置有驱动升降组件运动的变向组件,外壳的内部设置有带动木板移动的传送组件,传送组件的内部设置有触发传送组件运动的检测组件,外壳的内部固定连接有外部电源；通过升降绳运动带动传送带上面的板材上升,再通过传送带和推送块运动带动板材移动,就能达到辅助操作者将木质板材进行堆放的效果,进一步使得无需通过人工将一块块板材进行搬运堆叠,通过本装置就能完成,省时省力。(The invention relates to the technical field of furniture production, and discloses an auxiliary wood board stacking device for furniture production, which comprises a shell, wherein a wood board stacking mechanism is arranged in the shell and comprises a lifting component, a direction-changing component, a conveying component and a detection component, the lifting component for driving a wood board to lift is arranged in the shell, the direction-changing component for driving the lifting component to move is arranged outside the lifting component, the conveying component for driving the wood board to move is arranged in the shell, the detection component for triggering the conveying component to move is arranged in the conveying component, and an external power supply is fixedly connected in the shell; the plate on driving the conveyer belt through the movement of the lifting rope rises, the plate is driven to move by the conveyer belt and the pushing block, the effect of stacking the wooden plate by an assistant operator can be achieved, the plate is further conveyed and stacked without manpower, and the device can be used for completing time and labor saving.)

1. The utility model provides a furniture production is with supplementary plank board device of stacking, includes shell (1), its characterized in that: the inside of shell (1) is provided with piles up panel mechanism (2), it includes lifting unit (21) to pile up panel mechanism (2), diversion subassembly (22), transfer module (23), determine module (24), the inside of shell (1) is provided with lifting unit (21) that drives the panel and go up and down, the outside of lifting unit (21) is provided with diversion subassembly (22) that drive lifting unit (21) motion, the inside of shell (1) is provided with transfer module (23) that drives the panel and remove, the inside of transfer module (23) is provided with determine module (24) that trigger transfer module (23) motion, the inside fixedly connected with external power source (3) of shell (1).

2. The auxiliary plank stacking device for furniture production as claimed in claim 1, wherein: lifting unit (21) includes rolling wheel (211), lift rope (212), sliding block (213), rotate wheel (214), touch panel (215) down, go up touch panel (216), bee calling organ (217), the inside of shell (1) is rotated and is connected with rolling wheel (211), lift rope (212) fixed connection is in the outside of rolling wheel (211), sliding block (213) sliding connection is in the inside of shell (1), it rotates wheel (214) and connects the outside at sliding block (213) to rotate, touch panel (215) swing joint is in the inside of shell (1) down, go up touch panel (216) swing joint in the inside of shell (1), bee calling organ (217) fixed connection is in the outside of shell (1).

3. The auxiliary plank stacking device for furniture production as claimed in claim 2, wherein: the lifting rope (212) is connected to the outer portion of the rotating wheel (214) in a transmission mode, and the sliding block (213) corresponds to the lower touch plate (215) and the upper touch plate (216) in position and is matched with the upper touch plate in specification.

4. The auxiliary plank stacking device for furniture production as claimed in claim 2, wherein: diversion subassembly (22) includes electric telescopic handle (221), first motor (222), dwang (223), first gear (224), second gear (225), face gear (226), the inside fixedly connected with electric telescopic handle (221) of shell (1), first motor (222) fixed connection is in the inside of electric telescopic handle (221), dwang (223) fixed connection is in the outside of first motor (222), first gear (224) fixed connection is in the outside of dwang (223), second gear (225) fixed connection is in the outside of dwang (223), face gear (226) fixed connection is in the outside of rolling wheel (211), first gear (224) meshes with face gear (226) mutually.

5. The auxiliary plank stacking device for furniture production as claimed in claim 2, wherein: the conveying assembly (23) comprises a second motor (231), a rotating roller (232), a conveying belt (233), a pushing block (234), a first torsion spring plate (235), a second torsion spring plate (236) and an indicating lamp (237), the second motor (231) is fixedly connected to the inside of the sliding block (213), the rotating roller (232) is fixedly connected to the outside of the second motor (231), the conveying belt (233) is connected to the outside of the rotating roller (232) in a transmission mode, the pushing block (234) is fixedly connected to the outside of the conveying belt (233), the first torsion spring plate (235) is movably connected to the outside of the sliding block (213), the second torsion spring plate (236) is movably connected to the outside of the sliding block (213), and the indicating lamp (237) is fixedly connected to the outside of the shell (1).

6. The auxiliary plank stacking device for furniture production as claimed in claim 2, wherein: the detection assembly (24) comprises a photoresistor (241), an electromagnet (242), a contact (243), a spring (244), an iron block (245), a plate stacking vehicle (246) and a direct light belt (247), the photoresistor (241) is fixedly connected inside the sliding block (213), the electromagnet (242) is fixedly connected inside the sliding block (213), and the contact (243) is fixedly connected outside the electromagnet (242).

7. The auxiliary plank stacking device for furniture production as claimed in claim 6, wherein: one end of the spring (244) is fixedly connected inside the sliding block (213), the other end of the spring (244) is fixedly connected with an iron block (245), the iron block (245) is connected inside the sliding block (213) in a sliding mode, the iron block (245) is matched with specifications of the contact (243) and the electromagnet (242), the plate stacking vehicle (246) is arranged outside the shell (1), and the direct light strip (247) is fixedly connected inside the plate stacking vehicle (246).

Technical Field

The invention relates to the technical field of furniture production, in particular to an auxiliary wood plate stacking device for furniture production.

Background

The furniture production refers to products which are made of materials such as wood, bamboo, rattan and the like, have certain functions and can be used by people to improve the life quality of people, and the most common furniture is beds, tables, chairs and the like.

Most of the existing furniture adopts natural trees for pursuing environmental protection, and the natural trees are processed and manufactured in batches by people to synthesize a block of wood board, and then the wood board is processed for the second time by people to be made into the furniture model wanted by people, after these panels are produced, in order to save space and to make them more tidy and convenient for people to transport, the panels are usually stacked, the traditional operation mode is to carry and stack one plate by manpower, the process is time-consuming and labor-consuming, the workload of operators is increased, the stacking height is lower, in addition, in the process of stacking the sheets, once the general machine stops working and starts again, the stacking height of the stacked sheets cannot be determined, and the operation of stacking the sheets on the stacked sheets is easy to be performed, so that collision damage between the sheets is caused.

Therefore, in response to these problems, a need exists for an auxiliary plank stacking device for furniture production.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the auxiliary wood plate stacking device for furniture production, which has the advantages of assisting an operator to stack wood plates and detecting the stacked height of the wood plates to stack the plates, and solves the problems that after the plates are produced, in order to save space and to make transportation easier, the sheets are usually stacked, the traditional operation mode is to carry and stack one plate by manpower, the process is time-consuming and labor-consuming, the workload of operators is increased, the stacking height is lower, in addition, in the process of stacking the sheets, once the general machine stops working and starts again, the stacking height of the stacked sheets cannot be determined, and the problem that the sheets are easily stacked on the stacked sheets to cause collision and damage among the sheets is easily caused.

In order to achieve the purpose of assisting an operator to stack wood boards and detecting the stacked height of the wood boards to perform board stacking operation, the invention provides the following technical scheme: the utility model provides a furniture production is with supplementary plank panel device of stacking, which comprises an outer shell, the inside of shell is provided with piles up panel mechanism, piles up panel mechanism and includes lifting unit, diversion subassembly, conveying subassembly, determine module, and the inside of shell is provided with the lifting unit who drives the plank and goes up and down, and lifting unit's outside is provided with the diversion subassembly that drives the lifting unit motion, and the inside of shell is provided with the conveying subassembly that drives the plank and remove, and the inside of conveying subassembly is provided with the determine module that triggers the conveying subassembly motion, and the inside fixedly connected with external power source of shell.

Preferably, lifting unit includes rolling wheel, lifting rope, sliding block, rotates the wheel, touch panel, goes up touch panel, bee calling organ down, and the inside of shell is rotated and is connected with the rolling wheel, and lifting rope fixed connection is in the outside of rolling wheel, and sliding block sliding connection rotates the wheel and rotates the outside of connecting at the sliding block in the inside of shell, and touch panel swing joint goes up touch panel swing joint in the inside of shell down, bee calling organ fixed connection is in the outside of shell.

Preferably, the lifting rope is connected to the outer portion of the rotating wheel in a transmission mode, and the sliding block corresponds to the lower touch plate and the upper touch plate in position and is matched with the upper touch plate in specification.

Preferably, the diversion subassembly includes electric telescopic handle, first motor, the dwang, first gear, the second gear, face gear, the inside fixedly connected with electric telescopic handle of shell, first motor fixed connection is in electric telescopic handle's inside, dwang fixed connection is in the outside of first motor, first gear fixed connection is in the outside of dwang, second gear fixed connection is in the outside of dwang, face gear fixed connection is in the outside of rolling wheel, first gear meshes with face gear mutually, first gear is the same with the specification of second gear, first gear, the second gear all with face gear specification phase-match.

Preferably, the conveying assembly comprises a second motor, a rotating roller, a conveying belt, a pushing block, a first torsion spring plate, a second torsion spring plate and an indicating lamp, the second motor is fixedly connected to the inside of a sliding block, the rotating roller is fixedly connected to the outside of the second motor, the conveying belt is connected to the outside of the rotating roller in a transmission mode, the pushing block is fixedly connected to the outside of the conveying belt, the first torsion spring plate is movably connected to the outside of the sliding block, the second torsion spring plate is movably connected to the outside of the sliding block, the indicating lamp is fixedly connected to the outside of the shell, the first torsion spring plate is matched with the specification of the pushing block, the second torsion spring plate corresponds to the position of the conveying belt, and the first torsion spring plate and the torsion spring are fixedly connected to the inside of the second torsion spring plate.

Preferably, the detection component comprises a photosensitive resistor, an electromagnet, a contact, a spring, an iron block, a plate stacking vehicle and a direct light strip, wherein the photosensitive resistor is fixedly connected inside the sliding block, the electromagnet is fixedly connected inside the sliding block, and the contact is fixedly connected outside the electromagnet.

Preferably, the one end fixed connection of spring is in the inside of sliding block, and the other end fixedly connected with iron plate of spring, iron plate sliding connection are in the inside of sliding block, and the iron plate matches with the specification phase-match of contact, electro-magnet, and the windrow car sets up in the outside of shell, penetrates directly inside lamp area fixed connection at the windrow car.

Preferably, the second torsion spring plate, the first motor, the indicator light, the contact, the electric telescopic rod, the second motor, the first torsion spring plate, the lower contact plate and the upper contact plate are all electrically connected with an external power supply, the second torsion spring plate is electrically connected with the first motor and the indicator light, the contact is electrically connected with the first motor, the electric telescopic rod and the second motor, the first torsion spring plate is electrically connected with the second motor and the first motor, the lower contact plate is electrically connected with the first motor and the electric telescopic rod, the upper contact plate is electrically connected with the electric telescopic rod and the buzzer, and the photoresistor is electrically connected with the electromagnet.

Has the advantages that:

1. this furniture production is with supplementary plank panel device of stacking, panel through the lifting rope motion above the drive conveyer belt rises, rethread conveyer belt and propelling movement piece motion drive panel remove, just can reach the effect that the assistant operator stacks the plank panel, further make and need not to carry a plank panel through the manual work and pile up, just can accomplish through this device, time saving and labor saving, reduce operator's work load, reduction in production cost, the height that piles up is increased, also make this device accord with the technological theory that intelligent manufacturing more simultaneously.

2. This furniture production is with supplementary plank panel device of stacking, move through the sliding block and drive the photo resistance motion, the photo resistance motion is to when not stacking the height of panel, the light in direct light area can be penetrated the photo resistance outside directly, and can reach the effect that can detect the height that the wooden board had piled up and pile up the panel operation, further make this device at the in-process that piles up panel, this kind of condition stop work that cuts off the power supply suddenly appears, also can confirm when restarting and pile up the height that the panel was stacked, can carry out the operation of piling up panel on the height that current panel piled up, can not cause the collision damage between the panel.

Drawings

FIG. 1 is a schematic side view in partial cross-section of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the connection among the housing, the direction changing assembly and the winding wheel.

In the figure: 1. a housing; 2. a sheet stacking mechanism; 21. a lifting assembly; 211. a winding wheel; 212. a lifting rope; 213. a slider; 214. a rotating wheel; 215. a lower touch plate; 216. an upper touch plate; 217. a buzzer; 22. a direction changing component; 221. an electric telescopic rod; 222. a first motor; 223. rotating the rod; 224. a first gear; 225. a second gear; 226. a face gear; 23. a transfer assembly; 231. a second motor; 232. a rotating roller; 233. a conveyor belt; 234. a pushing block; 235. a first torsion spring plate; 236. a second torsion spring plate; 237. an indicator light; 24. a detection component; 241. a photoresistor; 242. an electromagnet; 243. a contact; 244. a spring; 245. an iron block; 246. stacking the plates; 247. a direct light strip; 3. an external power source.

Detailed Description

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

The first embodiment is as follows:

referring to fig. 1-4, an auxiliary wood board stacking device for furniture production comprises a housing 1, a wood board stacking mechanism 2 is arranged inside the housing 1, the wood board stacking mechanism 2 comprises a lifting assembly 21, a direction changing assembly 22, a conveying assembly 23 and a detecting assembly 24, the lifting assembly 21 for driving a wood board to lift is arranged inside the housing 1, the lifting assembly 21 comprises a winding wheel 211, a lifting rope 212, a sliding block 213, a rotating wheel 214, a lower contact plate 215, an upper contact plate 216 and a buzzer 217, the winding wheel 211 is rotatably connected inside the housing 1, the lifting rope 212 is fixedly connected outside the winding wheel 211, the sliding block 213 is slidably connected inside the housing 1, the rotating wheel 214 is rotatably connected outside the sliding block 213, the lower contact plate 215 is movably connected inside the housing 1, the upper contact plate 216 is movably connected inside the housing 1, the buzzer 217 is fixedly connected outside the housing 1, the lifting rope 212 is connected to the outside of the rotating wheel 214 in a transmission way, and the sliding block 213 corresponds to the positions of the lower touch panel 215 and the upper touch panel 216 and is matched with the specifications.

The outside of lifting unit 21 is provided with the diversion subassembly 22 that drives lifting unit 21 motion, diversion subassembly 22 includes electric telescopic handle 221, first motor 222, dwang 223, first gear 224, second gear 225, face gear 226, the inside fixedly connected with electric telescopic handle 221 of shell 1, first motor 222 fixed connection is in electric telescopic handle 221's inside, dwang 223 fixed connection is in the outside of first motor 222, first gear 224 fixed connection is in the outside of dwang 223, second gear 225 fixed connection is in the outside of dwang 223, face gear 226 fixed connection is in the outside of rolling wheel 211, first gear 224 meshes with face gear 226 mutually, first gear 224 is the same with second gear 225's specification, first gear 224, second gear 225 all matches with face gear 226 specification.

The conveying assembly 23 for driving the wood board to move is arranged inside the shell 1, the conveying assembly 23 comprises a second motor 231, a rotating roller 232, a conveying belt 233, a pushing block 234, a first torsion spring plate 235, a second torsion spring plate 236 and an indicating lamp 237, the second motor 231 is fixedly connected inside the sliding block 213, the rotating roller 232 is fixedly connected outside the second motor 231, the conveying belt 233 is in transmission connection outside the rotating roller 232, the pushing block 234 is fixedly connected outside the conveying belt 233, the first torsion spring plate 235 is movably connected outside the sliding block 213, the second torsion spring plate 236 is movably connected outside the sliding block 213, the indicating lamp 237 is fixedly connected outside the shell 1, the first torsion spring plate 235 is matched with the pushing block 234 in specification, the second torsion spring plate 236 corresponds to the conveying belt 233 in position, and torsion springs are fixedly connected inside the first torsion spring plate 235 and the second torsion spring plate 236.

The inside of the transmission assembly 23 is provided with a detection assembly 24 for triggering the transmission assembly 23 to move, the inside of the housing 1 is fixedly connected with an external power supply 3, the second torsion spring plate 236, the first motor 222, the indicator light 237, the contact 243, the electric telescopic rod 221, the second motor 231, the first torsion spring plate 235, the lower contact plate 215 and the upper contact plate 216 are electrically connected with the external power supply 3, the second torsion spring plate 236 is electrically connected with the first motor 222 and the indicator light 237, the contact 243 is electrically connected with the first motor 222, the electric telescopic rod 221 and the second motor 231, the first torsion spring plate 235 is electrically connected with the second motor 231 and the first motor 222, the lower contact plate 215 is electrically connected with the first motor 222 and the electric telescopic rod 221, the upper contact plate 216 is electrically connected with the electric telescopic rod 221 and the buzzer 217, and the photoresistor 241 is electrically connected with the electromagnet 242.

Example two:

referring to fig. 1 and 3, an auxiliary wood board stacking device for furniture production includes a housing 1, a wood board stacking mechanism 2 is disposed inside the housing 1, the wood board stacking mechanism 2 includes a lifting component 21, a direction changing component 22, a transmission component 23, and a detection component 24, the lifting component 21 for driving a wood board to lift is disposed inside the housing 1, the direction changing component 22 for driving the lifting component 21 to move is disposed outside the lifting component 21, the transmission component 23 for driving the wood board to move is disposed inside the housing 1, the detection component 24 for triggering the transmission component 23 to move is disposed inside the transmission component 23, the detection component 24 includes a photo resistor 241, an electromagnet 242, a contact 243, a spring 244, an iron block 245, a sliding block vehicle 246, a direct light strip 247, the photo resistor 241 is fixedly connected inside the sliding block 213, the electromagnet 242 is fixedly connected inside the sliding block 213, the contact 243 is fixedly connected outside the electromagnet 242, one end of the spring 244 is fixedly connected inside the sliding block 213, the other end of the spring 244 is fixedly connected with an iron block 245, the iron block 245 is slidably connected inside the sliding block 213, the iron block 245 is matched with the specifications of the contact 243 and the electromagnet 242, the plate stacking vehicle 246 is arranged outside the shell 1, and the direct light strip 247 is fixedly connected inside the plate stacking vehicle 246.

The external power supply 3 is fixedly connected to the inside of the housing 1, the second torsion spring plate 236, the first motor 222, the indicator light 237, the contact 243, the electric telescopic rod 221, the second motor 231, the first torsion spring plate 235, the lower contact plate 215 and the upper contact plate 216 are electrically connected to the external power supply 3, the second torsion spring plate 236 is electrically connected to the first motor 222 and the indicator light 237, the contact 243 is electrically connected to the first motor 222, the electric telescopic rod 221 and the second motor 231, the first torsion spring plate 235 is electrically connected to the second motor 231 and the first motor 222, the lower contact plate 215 is electrically connected to the first motor 222 and the electric telescopic rod 221, the upper contact plate 216 is electrically connected to the electric telescopic rod 221 and the buzzer 217, and the photoresistor 241 is electrically connected to the electromagnet 242.

Example three:

referring to fig. 1-4, an auxiliary wood board stacking device for furniture production comprises a housing 1, a wood board stacking mechanism 2 is arranged inside the housing 1, the wood board stacking mechanism 2 comprises a lifting assembly 21, a direction changing assembly 22, a conveying assembly 23 and a detecting assembly 24, the lifting assembly 21 for driving a wood board to lift is arranged inside the housing 1, the lifting assembly 21 comprises a winding wheel 211, a lifting rope 212, a sliding block 213, a rotating wheel 214, a lower contact plate 215, an upper contact plate 216 and a buzzer 217, the winding wheel 211 is rotatably connected inside the housing 1, the lifting rope 212 is fixedly connected outside the winding wheel 211, the sliding block 213 is slidably connected inside the housing 1, the rotating wheel 214 is rotatably connected outside the sliding block 213, the lower contact plate 215 is movably connected inside the housing 1, the upper contact plate 216 is movably connected inside the housing 1, the buzzer 217 is fixedly connected outside the housing 1, the lifting rope 212 is connected to the outside of the rotating wheel 214 in a transmission way, and the sliding block 213 corresponds to the positions of the lower touch panel 215 and the upper touch panel 216 and is matched with the specifications.

The outside of lifting unit 21 is provided with the diversion subassembly 22 that drives lifting unit 21 motion, diversion subassembly 22 includes electric telescopic handle 221, first motor 222, dwang 223, first gear 224, second gear 225, face gear 226, the inside fixedly connected with electric telescopic handle 221 of shell 1, first motor 222 fixed connection is in electric telescopic handle 221's inside, dwang 223 fixed connection is in the outside of first motor 222, first gear 224 fixed connection is in the outside of dwang 223, second gear 225 fixed connection is in the outside of dwang 223, face gear 226 fixed connection is in the outside of rolling wheel 211, first gear 224 meshes with face gear 226 mutually, first gear 224 is the same with second gear 225's specification, first gear 224, second gear 225 all matches with face gear 226 specification.

The conveying assembly 23 for driving the wood board to move is arranged inside the shell 1, the conveying assembly 23 comprises a second motor 231, a rotating roller 232, a conveying belt 233, a pushing block 234, a first torsion spring plate 235, a second torsion spring plate 236 and an indicating lamp 237, the second motor 231 is fixedly connected inside the sliding block 213, the rotating roller 232 is fixedly connected outside the second motor 231, the conveying belt 233 is in transmission connection outside the rotating roller 232, the pushing block 234 is fixedly connected outside the conveying belt 233, the first torsion spring plate 235 is movably connected outside the sliding block 213, the second torsion spring plate 236 is movably connected outside the sliding block 213, the indicating lamp 237 is fixedly connected outside the shell 1, the first torsion spring plate 235 is matched with the pushing block 234 in specification, the second torsion spring plate 236 corresponds to the conveying belt 233 in position, and torsion springs are fixedly connected inside the first torsion spring plate 235 and the second torsion spring plate 236.

The detection component 24 for triggering the transmission component 23 to move is arranged inside the transmission component 23, the detection component 24 comprises a photoresistor 241, an electromagnet 242, a contact 243, a spring 244, an iron block 245, a plate stacking vehicle 246 and a direct light strip 247, the photoresistor 241 is fixedly connected inside the sliding block 213, the electromagnet 242 is fixedly connected inside the sliding block 213, the contact 243 is fixedly connected outside the electromagnet 242, one end of the spring 244 is fixedly connected inside the sliding block 213, the other end of the spring 244 is fixedly connected with the iron block 245, the iron block 245 is slidably connected inside the sliding block 213, the iron block 245 is matched with the specifications of the contact 243 and the electromagnet 242, the plate stacking vehicle 246 is arranged outside the shell 1, and the direct light strip 247 is fixedly connected inside the plate stacking vehicle 246.

The external power supply 3 is fixedly connected to the inside of the housing 1, the second torsion spring plate 236, the first motor 222, the indicator light 237, the contact 243, the electric telescopic rod 221, the second motor 231, the first torsion spring plate 235, the lower contact plate 215 and the upper contact plate 216 are electrically connected to the external power supply 3, the second torsion spring plate 236 is electrically connected to the first motor 222 and the indicator light 237, the contact 243 is electrically connected to the first motor 222, the electric telescopic rod 221 and the second motor 231, the first torsion spring plate 235 is electrically connected to the second motor 231 and the first motor 222, the lower contact plate 215 is electrically connected to the first motor 222 and the electric telescopic rod 221, the upper contact plate 216 is electrically connected to the electric telescopic rod 221 and the buzzer 217, and the photoresistor 241 is electrically connected to the electromagnet 242.

The working principle is as follows: an operator pushes a plate to the outside of the conveyor belt 233 until the plate contacts the second torsion spring plate 236, an external power supply 3 supplies power to the first motor 222 and the indicator lamp 237, the indicator lamp 237 is powered on and the operator stops pushing the plate, the first motor 222 is powered on and operates to drive the rotating rod 223 to rotate, the rotating rod 223 rotates to drive the first gear 224 to rotate, the first gear 224 rotates to drive the end gear 226 to rotate, the end gear 226 rotates to drive the winding wheel 211 to rotate, the winding wheel 211 rotates to drive the lifting rope 212 to move, the lifting rope 212 moves to drive the rotating wheel 214 to ascend, the rotating wheel 214 ascends to drive the sliding block 213 to slide, the sliding block 213 slides to drive the photoresistor 241 to move, when the photoresistor 241 moves to correspond to the position of the direct light strip 247 which is not shielded, the light received by the photoresistor 241 becomes strong, so that the resistance of the photoresistor 241 becomes small, and the current passing through the photoresistor 241 becomes large, so that the current passing through the electromagnet 242 also becomes large, the magnetic enhancement of the electromagnet 242 attracts the iron block 245 to slide and the spring 244 is stretched, the iron block 245 slides to be in contact with the contact point 243, at this time, the external power supply 3 stops supplying power to the first motor 222, and the first motor 222 stops operating in the same way, so that the rotating rod 223, the second gear 225, the first gear 224, the face gear 226, the winding wheel 211, the lifting rope 212, the rotating wheel 214 and the sliding block 213 stop moving.

Meanwhile, the external power supply 3 supplies power to the electric telescopic rod 221 and the second motor 231, the electric telescopic rod 221 extends to drive the first motor 222 to move, the first motor 222 drives the rotating rod 223 to move, the rotating rod 223 rotates to drive the first gear 224 to move and not to be meshed with the end face gear 226, the rotating rod 223 rotates to drive the second gear 225 to move and to be meshed with the end face gear 226, the second motor 231 is electrified to operate to drive the rotating roller 232 to rotate, the rotating roller 232 rotates to drive the conveying belt 233 to move, the conveying belt 233 moves to drive the pushing block 234 to move, the pushing block 234 moves to be in contact with the plate and drives the plate to move, the plate moves to drive the second torsion spring plate 236 to rotate and compress the torsion spring, the pushing block 234 drives the plate to move to the interior of the plate stacking vehicle 246 for stacking, the pushing block 234 continues to move to be in contact with the first torsion spring plate 235, and at the moment, the external power supply 3 stops supplying power to the second motor 231 and supplies power to the first motor 222 again, the second motor 231 stops operating to enable the above mechanisms to stop moving, the first motor 222 is electrified to operate to drive the rotating rod 223 to rotate, the rotating rod 223 rotates to drive the second gear 225 to rotate, the second gear 225 rotates to drive the end face gear 226 to rotate, the end face gear 226 rotates to drive the sliding block 213 to descend under the action of the winding wheel 211, the lifting rope 212 and the rotating wheel 214, when the sliding block 213 descends to be in contact with the lower touch plate 215, the external power source 3 stops supplying power to the first motor 222 and supplies power to the electric telescopic rod 221 again, the first motor 222 stops operating to enable the above mechanisms to stop moving, the electric telescopic rod 221 is electrified to shorten to enable the second gear 225 not to be meshed with the end face gear 226, and the first gear 224 is meshed with the end face gear 226.

When piling up the inside panel of board car 246 and piling up, the light of penetrating light area 247 is sheltered from by panel completely, the light source that the light area 247 sent can not penetrate directly in the motion of photo resistance 241 can make second motor 231 rise always to and contact with last touch panel 216 with the reason, at this moment external power source 3 can give electric telescopic handle 221 and bee calling organ 217 power supply, bee calling organ 217 power supply operation sends the heap board car 246 that the suggestion operating personnel of bee calling organ renew, electric telescopic handle 221 circular telegram operation extension makes this device resume initial condition with the reason.

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