CN111703794B - Four-way vehicle - Google Patents

Abstract

The invention discloses a four-direction vehicle, which comprises a winding mechanism, a first traction wire, a second traction wire, a third traction wire, a fourth traction wire and a wire wheel set, wherein one end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are fixedly arranged on the winding mechanism, the other end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are connected with a material taking device of the four-direction vehicle through winding on the wire wheel set, and the wire wheel set and the winding mechanism are fixedly arranged on a vehicle body of the four-direction vehicle; the material taking device provided by the invention realizes accurate storage of containers, greatly improves the storage efficiency, reduces the manpower input, and effectively reduces the risks of material mistake and material stagnation in a manual storage mode.

Description

Four-way vehicle

Technical Field

The invention relates to the technical field of container storage, in particular to a four-way vehicle.

Background

The electrostatic box is widely applied to various industries such as electronics, medicines, foods, integrated circuits, connectors and the like, and is a common carrier for solving the problem of material supply of industrial automation equipment. In an electronic factory, the storage in the electrostatic box relates to various models or standard electronic components and the like, and the electrostatic box is various in variety, so that the electrostatic box needs to be classified and stored, and information binding is carried out on the components, so that the electrostatic box can be conveniently and quickly searched and taken.

Most of existing factories adopt material box racks for storage, the material box racks are small in storage capacity, poor in compatibility expansibility, low in automation degree and low in space utilization rate, materials need to be searched, sorted, stored and the like manually during actual use, manual operation easily causes frequent material missing, material stagnation and material remaining, and rework and scrapping loss are large.

In view of the above-mentioned drawbacks, the inventors of the present invention have finally obtained the present invention through a long period of research and practice.

Disclosure of Invention

In order to solve the technical defects, the invention adopts the technical scheme that the winding lifting device of the four-direction vehicle comprises a winding mechanism, a first traction wire, a second traction wire, a third traction wire, a fourth traction wire and a wire wheel set, wherein one end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are fixedly arranged on the winding mechanism, the other end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are connected with a material taking device of the four-direction vehicle through winding on the wire wheel set, and the wire wheel set and the winding mechanism are fixedly arranged on a vehicle body of the four-direction vehicle.

Preferably, the winding and lifting device further comprises a first tension detection mechanism and a second tension detection mechanism, the first tension detection mechanism and the second tension detection mechanism are fixedly arranged on the vehicle body and symmetrically arranged, the first tension detection mechanism and the second tension detection mechanism are respectively provided with two tension detection mechanisms, the first traction line and the third traction line are respectively provided with one tension detection mechanism, and the second traction line and the fourth traction line are respectively provided with one tension detection mechanism.

Preferably, the wire guiding wheel group comprises a first wire guiding wheel, a second wire guiding wheel, a third wire guiding wheel, a fourth wire guiding wheel, a fifth wire guiding wheel, a sixth wire guiding wheel, a seventh wire guiding wheel, a twelfth wire guiding wheel, a thirteenth wire guiding wheel and a fourteenth wire guiding wheel;

the first traction wire is connected with the material taking device through the first wire guide wheel, the second wire guide wheel, the twelfth wire guide wheel, the thirteenth wire guide wheel, the fourteenth wire guide wheel and the second tension detection mechanism; the first traction wire is led out from the winding mechanism, turns around the winding mechanism to the thirteenth wire guide wheel through the first wire guide wheel and the second wire guide wheel, is guided to the fourteenth wire guide wheel through the twelfth wire guide wheel, is guided downwards after turning through the fourteenth wire guide wheel and is connected with the material taking device, and the first wire guide wheel, the second wire guide wheel, the twelfth wire guide wheel, the thirteenth wire guide wheel and the fourteenth wire guide wheel are correspondingly arranged;

the second traction line passes through the third wire wheel, the fourth wire wheel, the fifth wire wheel, the sixth wire wheel, the seventh wire wheel and the first tension detection mechanism and is connected with the material taking device, and the third wire wheel, the fourth wire wheel, the fifth wire wheel, the sixth wire wheel and the seventh wire wheel are all correspondingly arranged.

Preferably, the wire guiding wheel set further includes an eighth wire guiding wheel, a ninth wire guiding wheel, a sixteenth wire guiding wheel, a tenth wire guiding wheel, an eleventh wire guiding wheel, and a fifteenth wire guiding wheel;

the third traction wire is connected with the material taking device through the eighth wire guide wheel, the ninth wire guide wheel, the sixteenth wire guide wheel and the second tension detection mechanism; the third traction wire is led out from the winding mechanism, guided to the ninth wire guide wheel through the sixteenth wire guide wheel, guided to the eighth wire guide wheel through the ninth wire guide wheel, and guided backwards and downwards through the eighth wire guide wheel to be connected with the material taking device; the eighth wire guide wheel, the ninth wire guide wheel and the sixteenth wire guide wheel are all correspondingly arranged;

the fourth traction wire is connected with the material taking device through the tenth wire guide wheel, the eleventh wire guide wheel, the fifteenth wire guide wheel and the first tension detection mechanism, and the tenth wire guide wheel, the eleventh wire guide wheel and the fifteenth wire guide wheel are correspondingly arranged.

Preferably, the rotation surfaces of the first wire guide wheel, the second wire guide wheel, the third wire guide wheel, the fourth wire guide wheel, the fifth wire guide wheel, the seventh wire guide wheel, the eighth wire guide wheel, the eleventh wire guide wheel, the thirteenth wire guide wheel, the fourteenth wire guide wheel, the fifteenth wire guide wheel and the sixteenth wire guide wheel are vertically arranged; the rotation surfaces of the sixth wire guiding wheel, the ninth wire guiding wheel, the tenth wire guiding wheel and the twelfth wire guiding wheel are horizontally arranged.

The preferred, the coiling elevating gear is still including setting up the frame, the setting up frame is fixed to be set up the central point of automobile body up end puts, the setting up includes fixed plate, diaphragm, long support sets up to parallel and fixed the setting two backup pads of automobile body up end, the fixed plate the both ends of diaphragm are all fixed to be set up two in the backup pad, one first tension detection mechanism and a second tension detection mechanism symmetry respectively set up on the fixed plate, ninth wire wheel with tenth wire wheel symmetry sets up on the diaphragm.

Preferably, the seventh wire guiding wheel and the fourteenth wire guiding wheel are symmetrically arranged on a straight edge of one side of the upper end surface of the vehicle body, which is close to the winding mechanism, the eighth wire guiding wheel and the eleventh wire guiding wheel are symmetrically arranged on a straight edge of one side of the upper end surface of the vehicle body, which is far from the winding mechanism, the seventh wire guiding wheel and the eighth wire guiding wheel are symmetrically arranged, the fourteenth wire guiding wheel and the eleventh wire guiding wheel are symmetrically arranged, and the seventh wire guiding wheel, the eighth wire guiding wheel, the eleventh wire guiding wheel and the fourteenth wire guiding wheel are all arranged on the inner side of the vehicle body through pulley supports.

Preferably, the winding lifting device further comprises a first wire wheel support, a first wire wheel vertical support, a second wire wheel support and a second wire wheel vertical support, wherein the first wire wheel support, the first wire wheel vertical support, the second wire wheel support and the second wire wheel vertical support are all arranged on a straight edge of one side, close to the winding mechanism, of the upper end surface of the vehicle body, the first wire wheel support and the second wire wheel support are symmetrically arranged, and the first wire wheel vertical support and the second wire wheel vertical support are symmetrically arranged;

the sixth wire guide wheel is arranged on the first wire guide wheel support, the twelfth wire guide wheel is arranged on the second wire guide wheel support, the fifth wire guide wheel and the sixteenth wire guide wheel are symmetrically arranged on two sides of the second wire guide wheel standing support, the thirteenth wire guide wheel and the fifteenth wire guide wheel are symmetrically arranged on two sides of the first wire guide wheel standing support, and the first tension detection mechanism and the second tension detection mechanism are respectively and symmetrically arranged on a straight edge of one side, close to the winding mechanism, of the upper end face of the vehicle body.

Preferably, the first tension detection mechanism includes a first bottom plate, a first bearing wheel, a first cover plate, a first slider and a first microswitch, the first bearing wheel, the first cover plate and the first microswitch are all disposed on the disposed end surface of the first bottom plate, a first adjustment groove is disposed on the disposed end surface of the first bottom plate, the slider is disposed in the first adjustment groove and can freely slide, the first cover plate is fixed at the notch position of the first adjustment groove, the first microswitch is disposed on the first bottom plate, the first slider is provided with an induction block, and the induction block is disposed corresponding to the driving rod of the first microswitch;

the first bearing wheels are arranged in two numbers, one first bearing wheel is arranged on the first sliding block, the other first bearing wheel is arranged on the first base plate, and the second traction line or the fourth traction line is wound on the two first bearing wheels in an S shape.

Preferably, the first tension detection mechanism further includes two first bolts, the first bolts and the first bearing wheels are arranged in a one-to-one correspondence manner, and the second traction line or the fourth traction line is arranged between the first bolt and the corresponding first bearing wheel.

Preferably, the four-way vehicle comprises a vehicle body, a reversing traveling device, the winding lifting device and a material taking device, wherein the reversing traveling device and the winding lifting device are arranged on the vehicle body, the material taking device is arranged in the vehicle body, the winding lifting device is connected with the material taking device, and the reversing traveling device realizes reversing movement of the vehicle body.

Compared with the prior art, the invention has the beneficial effects that: the four-way vehicle is used for storing the dense box stacks, is arranged at the top of the goods shelf and moves and walks at the top of the goods shelf, the reversing walking mechanism moves in four directions as required, the winding and lifting device drives the material taking device to descend to the specified height of the goods shelf, and the boxes are arranged in the inner cavity space of the four-way vehicle, so that the unmanned and automatic storage process of the box stacks is realized, and the storage capacity and the space utilization rate of the boxes are improved; carry out information binding to goods position and box, realized the accurate storage of box, improved access efficiency greatly, reduced the human input, effectively reduced under the artifical storage mode wrong material, the risk of staying the material.

Drawings

FIG. 1 is a structural view of the four-way vehicle;

FIG. 2 is a structural view of the vehicle body;

FIG. 3 is a structural connection view of the reversing mechanism;

FIG. 4 is a structural view of the reversing mechanism;

FIG. 5 is a structural connection view of the traveling mechanism;

FIG. 6 is a structural view of the traveling mechanism;

FIG. 7 is a connection view of the spring;

FIG. 8 is a structural view of the long axis linear slide rail;

FIG. 9 is a structural view of the winding elevator;

FIG. 10 is a structural arrangement diagram of the wire wheel assembly;

fig. 11 is a structural view of the first tension detecting mechanism;

fig. 12 is a structural view of the second tension detecting mechanism;

FIG. 13 is a structural view of the reclaimer assembly;

FIG. 14 is a structural view of the top frame;

FIG. 15 is a structural view of the driveshaft assembly;

FIG. 16 is a structural view of the quick hitch assembly;

FIG. 17 is an open configuration view of the quick hitch assembly in a hooked position;

FIG. 18 is an open configuration view of the quick hitch assembly in a non-hooking condition;

FIG. 19 is a structural view of the drive gear set;

FIG. 20 is a structural view of the lift sensor;

fig. 21 is a structural view of the hook sensor.

The figures in the drawings represent:

1-a vehicle body; 2-reversing the running gear; 3-winding the lifting device; 4-a material taking device; 101-short side plate; 102-long side plate; 103-corner block; 21-a reversing mechanism; 22-a running gear; 201-reversing driving gear; 202-cam stub shaft; 203-a commutation sensor detection block; 204-a reversing driven gear; 205-short axis cam; 206-a spring; 207-short axis bevel gear; 208-cam major axis; 209-long axis bearing seat; 210-long axis bevel gear; 211-long axis cam; 212-a motor mount; 213-short shaft bearing seat; 221-short axis of road wheel; 222-short shaft driven synchronous pulley; 223-short shaft drive synchronous pulley; 224-short axis cam roller; 225-short axle bearing seat of road wheel; 226-short axis road wheels; 227-long axis of the road wheel; 228-long shaft driven synchronous pulley; 229-long axis road wheels; 230-road wheel long shaft bearing seat; 231-major axis linear slide rail base; 232-long axis linear slide rail; 233-long axis cam roller; 234-long shaft drive synchronous pulley; 235-guide rollers; 301-a winding mechanism; 302-a first spiral wire; 303-support; 304-a second spiral wire; 305-a third spiral wire; 306-a first tension detection mechanism; 307-a first wire guide wheel support; 308-a first wire-guiding wheel stand bracket; 309-a fourth spiral wire; 310-a second wire guide wheel support; 311-a second wire winding stand bracket; 312-a fixed plate; 313-a transverse plate; 314-a second tension detection mechanism; 315-pulley support; 316-long support; 317-a charging device; 318-wire wheel set; 30601 — first base plate 30601; 30602 — first bearing wheel; 30603-first cover plate; 30604-first slider; 30605-first microswitch; 30606-first bolt; 31401 — a second backplane; 31402-a second slider; 31403-a second microswitch; 31404-a second bearing; 31405-a second bolt; 31406-a second cover plate; 31801 — a first wire guide wheel; 31802-a second wire guide wheel; 31803-a third wire guide wheel; 31804-a fourth wire guide wheel; 31805-fifth wire guide wheel; 31806-sixth wire guide wheel; 31807-a seventh wire guide; 31808-eighth wire guide wheel; 31809-a ninth wire guide wheel; 31810-a tenth wire guide wheel; 31811-an eleventh wire guide wheel; 31812-a twelfth wire guide wheel; 31813-a thirteenth wire guide wheel; 31814-fourteenth wire guide wheel; 31815-a fifteenth wire guide wheel; 31816-a sixteenth wire guide wheel; 401-a top frame; 402-a drive shaft assembly; 403-quick hook assembly; 404-drive gear set; 405-a mechanical stop tab; 406-a body sensor; 407-lift sensor; 408-a hook sensor; 40101-a backplane; 40102-long beam; 40103-short beam; 40201-a drive shaft; 40202-a bearing seat; 40203-a first transmission gear; 40301-anterior skeletal plate; 40302-crutch hook; 40303-rear skeleton plate; 40304-eccentric wheel; 40305-connecting rod; 40306-straight bolt; 40307-spring plate; 40401-driving gear; 40402-bearing seat; 40403-minor axis; 40404-second drive gear; 40701-detecting block; 40702-a lifting photoelectric switch; 40801-hook photoelectric switch; 40802-test disc.

Detailed Description

The above and further features and advantages of the present invention are described in more detail below with reference to the accompanying drawings.

Example one

As shown in fig. 1, fig. 1 is a structural view of the four-way vehicle; the four-way vehicle for storing and picking the intensive boxes comprises a vehicle body 1, a reversing traveling device 2, a winding lifting device 3 and a material taking device 4, wherein the reversing traveling device 2 and the winding lifting device 3 are arranged on the vehicle body 1, the material taking device 4 is arranged in the vehicle body 1, the winding lifting device 3 and the material taking device 4 are connected, so that the height of the material taking device 4 can be adjusted, and the reversing traveling device 2 realizes reversing movement of the vehicle body 1.

As shown in fig. 2, fig. 2 is a structural view of the vehicle body; the vehicle body 1 comprises a corner block 103, two short side plates 101 and two long side plates 102 which are symmetrically arranged respectively, the short side plates 101 and the long side plates 102 are assembled in an alternate square shape, and the corner block 103 is used for fixing the joint.

The four-way vehicle facing the intensive box storing and picking further comprises a processing unit and an output unit, the processing unit is used for processing the working states of the reversing traveling device 2, the winding lifting device 3 and the material taking device 4, and the output unit is used for receiving working state signals of the reversing traveling device 2, the winding lifting device 3 and the material taking device 4. The processing unit and the output unit are connected with the reversing traveling device 2, the winding lifting device 3 and the material taking device 4.

Example two

As shown in fig. 3 to 8, fig. 3 is a structural connection view of the reversing mechanism; FIG. 4 is a structural view of the reversing mechanism; FIG. 5 is a structural connection view of the traveling mechanism; FIG. 6 is a structural view of the traveling mechanism; FIG. 7 is a connection view of the spring; fig. 8 is a structural view of the long-axis linear slide rail.

The reversing traveling device 2 comprises a reversing mechanism 21 and a traveling mechanism 22. The reversing mechanism 21 comprises a first reversing part, a second reversing part and a reversing braking part, the first reversing part and the second reversing part are in meshing transmission connection through a short-shaft bevel gear 207 and a long-shaft bevel gear 210, and the reversing braking part is in transmission connection with the first reversing part.

The first reversing part comprises a cam short shaft 202, a short shaft cam 205 and a short shaft bearing seat 213, the cam short shaft 202 is fixedly arranged on the vehicle body 1 through the short shaft bearing seat 213, the short shaft cam 205 is fixedly arranged on the cam short shaft 202, and the short shaft cam 205 rotates correspondingly with the rotation of the cam short shaft 202; the stub cam 205 is in contact connection with the running gear 22.

The second reversing part comprises a cam long shaft 208, a long shaft bearing seat 209 and a long shaft cam 211, the cam long shaft 208 is fixedly arranged on the vehicle body 1 through the long shaft bearing seat 209, the long shaft cam 211 is fixedly arranged on the cam long shaft 208, and the long shaft cam 211 correspondingly rotates along with the rotation of the cam long shaft 208; the long shaft cam 211 is in contact connection with the traveling mechanism 22.

The linear distance between the outer edge of the short-axis cam 205 and the axis of the short-axis cam 202 is a short-axis adjustment distance, the linear distance between the outer edge of the long-axis cam 211 and the axis of the long-axis cam 208 is a long-axis adjustment distance, and when the outer edges of the short-axis cam 205 and the long-axis cam 211 are irregularly arranged, the short-axis adjustment distance and the long-axis adjustment distance change along with the rotation of the short-axis cam 202 and the long-axis cam 208, and meanwhile, due to the linkage of the short-axis cam 202 and the long-axis cam 208, generally, after the short-axis cam 202 is braked, the long-axis adjustment distance gradually decreases as the short-axis adjustment distance gradually increases, so that the reversing operation of the reversing mechanism 21 on the traveling mechanism 22 can be realized.

The reversing braking portion comprises a reversing braking member, the reversing braking member is fixedly arranged on the vehicle body 1 through a motor base 212, a reversing driving gear 201 is fixedly arranged on an output shaft of the reversing braking member, a reversing driven gear 204 is fixedly arranged on the cam short shaft 202, and the reversing driving gear 201 and the reversing driven gear 204 are driven through a chain, so that the rotation of the short shaft cam 205 can be realized under the driving of the reversing braking member.

Preferably, the first reversing parts and the second reversing parts are symmetrically arranged in pairs, specifically, the short-axis bevel gears 207 are respectively arranged at two ends of the cam short shaft 202 in the two first reversing parts, similarly, the long-axis bevel gears 210 are respectively arranged at two ends of the cam long shaft 208 in the two second reversing parts, and the short-axis bevel gears 207 and the long-axis bevel gears 210 are in one-to-one meshing transmission, so that closed-loop transmission of reversing mechanisms in four directions is formed.

In this embodiment, the two cam short shafts 202 are respectively and fixedly disposed on the two short side plates 101 through the short shaft bearing seats 213, the two cam long shafts 208 are respectively and fixedly disposed on the two long side plates 102 through the long shaft bearing seats 209, and the short shaft bevel gears 207 and the long shaft bevel gears 210 are correspondingly engaged at the joint of the vehicle body 1.

Preferably, the cam stub 202 is further provided with a commutation sensor detection block 203, and the commutation sensor detection block 203 detects the rotation angle of the cam stub 202 through a signal of an optoelectronic switch, so as to realize real-time monitoring of the rotation angle of the stub cam 205.

The traveling mechanism comprises a first traveling part and a second traveling part, the first reversing part is in contact connection with the first traveling part through the short-axis cam 205, and the second reversing part is in contact connection with the second traveling part through the long-axis cam 211.

The first reversing part and the second reversing part are further provided with a spring 206, two ends of the spring 206 are respectively connected with the first reversing part and the first walking part and provide certain elastic tension on the first reversing part, and two ends of the spring 206 are respectively connected with the second reversing part and the second walking part and provide certain elastic tension on the second reversing part.

The first walking part comprises a walking wheel short shaft 221, a short shaft driven synchronous pulley 222, a short shaft driving synchronous pulley 223, a short shaft cam roller 224, a walking wheel short shaft bearing seat 225, a short shaft walking wheel 226, a short shaft linear sliding rail base and a short shaft linear sliding rail.

The walking wheel short shaft 221 is fixedly arranged on the short shaft linear sliding rail base through the walking wheel short shaft bearing seat 225, the short shaft walking braking part is fixedly arranged on the short shaft linear sliding rail base, the short shaft driven synchronous pulley 222 is fixedly arranged on an output shaft of the short shaft walking braking part, the short shaft driven synchronous pulley 222 is fixedly arranged on the walking wheel short shaft 221, the short shaft driven synchronous pulley 222 and the short shaft driving synchronous pulley 223 are in transmission connection through a synchronous belt, the walking wheel short shaft 221 can be driven to rotate through braking of the short shaft walking braking part, and the short shaft walking wheels 226 are arranged at two ends of the walking wheel short shaft 221 so as to be in contact with a track to realize directional walking.

The short-axis linear slide rail base is connected with the short-axis linear slide rail in a sliding manner, and the short-axis linear slide rail is fixedly arranged on the vehicle body 1; the short-axis cam roller 224 is arranged on the short-axis linear slide rail base and is in contact with the short-axis cam 205, and through the rotation adjustment of the short-axis cam 205, the relative rotation of the short-axis cam roller 224 can be realized and the short-axis cam roller 224 is pushed to enable the short-axis linear slide rail base to be adjusted in a sliding mode on the short-axis linear slide rail.

The second walking part comprises a walking wheel long shaft 227, a long shaft driven synchronous pulley 228, a long shaft walking wheel 229, a walking wheel long shaft bearing seat 230, a long shaft linear slide rail base 231, a long shaft linear slide rail 232, a long shaft cam roller 233 and a long shaft driving synchronous pulley 234.

The walking wheel long shaft 227 is fixedly arranged on the long shaft linear slide rail base 231 through the walking wheel long shaft bearing seat 230, the long shaft walking braking part is fixedly arranged on the long shaft linear slide rail base 231, the long shaft driven synchronous pulley 228 is fixedly arranged on an output shaft of the long shaft walking braking part, the long shaft driven synchronous pulley 228 is fixedly arranged on the walking wheel long shaft 227, the long shaft driven synchronous pulley 228 and the long shaft driving synchronous pulley 234 are connected through synchronous belt transmission, the walking wheel long shaft 227 can be driven to rotate through braking of the long shaft walking braking part, and the long shaft walking wheels 229 are arranged at two ends of the walking wheel long shaft 227 to be in contact with a rail to realize directional walking.

The long-axis linear slide rail base 231 is slidably connected with the long-axis linear slide rail 232, and the long-axis linear slide rail 232 is fixedly arranged on the vehicle body 1; the long axis cam roller 233 is disposed on the long axis linear slide base 231 and is disposed in contact with the long axis cam 211, and through the rotational adjustment of the long axis cam 211, the relative rotation of the long axis cam roller 233 can be realized and the long axis cam roller 233 is pushed to enable the long axis linear slide base 231 to be adjusted in a sliding manner on the long axis linear slide 232.

Preferably, the traveling mechanism is further provided with a guide roller 235, the guide roller 235 is fixedly arranged on the vehicle body 1 and is correspondingly arranged at a seam of the vehicle body 1, and when the traveling direction of the first traveling part and the traveling direction of the second traveling part are changed, the guide roller 235 performs a guiding operation corresponding to the traveling rail.

The working principle is as follows: when reversing, the reversing brake is started, the reversing drive gear drives the reversing driven gear to rotate, and then the short shaft cam, the long shaft cam, the short shaft bevel gear and the long shaft bevel gear rotate together to press the short shaft cam and the long shaft cam roller to bear downward force, so that the traveling mechanism moves downward along the linear sliding rail until the reversing sensor detection block reaches a specified position, the short shaft cam rotates to a specified angle, the traveling mechanism in the direction contacts with the rail, and the traveling mechanisms in the adjacent directions leave the rail; during the operation of the reversing mechanism, the spring is always in a stretching stress state.

When the four-direction vehicle runs, the running mechanism contacts the track, after the reversing mechanism confirms completion, the running mechanism motor is started, the short shaft drives the synchronous belt pulley to drive the short shaft driven synchronous belt pulley to rotate, and then the short shaft running wheel is driven to rotate, and the four-direction vehicle is driven to run along the reverse direction.

In conclusion, the reversing traveling device is used for reversing traveling of the four-direction vehicle on the top of the goods shelf so as to move to a designated goods location to store and take the containers, the reversing traveling device moves along the customized track, when reversing traveling is needed, the reversing motor is started to drive the cam on the shaft to press the traveling mechanism to descend to the track, and after the reversing mechanism is confirmed to be completed, the motor of the traveling mechanism is started to drive the traveling wheels of the four-direction vehicle to rotate and travel, so that unmanned and automatic traveling of the whole reversing traveling process of the four-direction vehicle is realized, and the performance and efficiency of reversing traveling of the four-direction vehicle are improved.

EXAMPLE III

As shown in fig. 9 to 12, fig. 9 is a structural view of the winding and lifting device; FIG. 10 is a structural arrangement diagram of the wire wheel assembly; fig. 11 is a structural view of the first tension detecting mechanism; fig. 12 is a structural view of the second tension detecting mechanism.

The winding lifting device 3 comprises a winding mechanism 301, a first spiral steel wire 302, a second spiral steel wire 304, a third spiral steel wire 305, a fourth spiral steel wire 309 and a wire wheel set 318, wherein the first spiral steel wire 302, the second spiral steel wire 304, the third spiral steel wire 305 and one end of the fourth spiral steel wire 309 are fixedly arranged on the winding mechanism 301, the other end of the winding mechanism is arranged on the wire wheel set 318 in a winding mode and connected with the material taking device 4, the winding mechanism 301 is controlled through braking control, so that the height position of the material taking device 4 is controlled, and the wire wheel set 318 and the winding mechanism 301 are all fixedly arranged on the vehicle body 1.

Through the arrangement of four spiral steel wires, namely the first spiral steel wire 302, the second spiral steel wire 304, the third spiral steel wire 305 and the fourth spiral steel wire 309, four corners of the material taking device 4 are drawn, so that stable adjustment of the material taking device 4 can be realized.

The winding and lifting device 3 further comprises a first tension detection mechanism 306 and a second tension detection mechanism 314, the first tension detection mechanism 306 and the second tension detection mechanism 314 are fixedly arranged on the vehicle body 1 and symmetrically arranged, the first tension detection mechanism 306 and the second tension detection mechanism 314 are both provided with two tension detection mechanisms, the first spiral steel wire 302 and the third spiral steel wire 305 are respectively and correspondingly provided with one tension detection mechanism 314, and the second spiral steel wire 304 and the fourth spiral steel wire 309 are respectively and correspondingly provided with one tension detection mechanism 306.

Specifically, the wire guiding wheel group 318 includes a first wire guiding wheel 31801, a second wire guiding wheel 31802, a third wire guiding wheel 31803, a fourth wire guiding wheel 31804, a fifth wire guiding wheel 31805, a sixth wire guiding wheel 31806, a seventh wire guiding wheel 31807, an eighth wire guiding wheel 31808, a ninth wire guiding wheel 31809, a tenth wire guiding wheel 31810, an eleventh wire guiding wheel 31811, a twelfth wire guiding wheel 31812, a thirteenth wire guiding wheel 31813, a fourteenth wire guiding wheel 31814, a fifteenth wire guiding wheel 31815 and a sixteenth wire guiding wheel 31816.

The first wire guide wheel 31801, the second wire guide wheel 31802, the third wire guide wheel 31803, the fourth wire guide wheel 31804, the fifth wire guide wheel 31805, the seventh wire guide wheel 31807, the eighth wire guide wheel 31808, the eleventh wire guide wheel 31811, the thirteenth wire guide wheel 31813, the fourteenth wire guide wheel 31814, the fifteenth wire guide wheel 31815 and the sixteenth wire guide wheel 31816 have their rotation surfaces arranged vertically; the rotation surfaces of the sixth wire guide wheel 31806, the ninth wire guide wheel 31809, the tenth wire guide wheel 31810 and the twelfth wire guide wheel 31812 are horizontally arranged; thereby performing a direction change operation of the first spiral wire 302, the second spiral wire 304, the third spiral wire 305, and the fourth spiral wire 309.

The winding lifting device 3 further comprises a setting frame, the setting frame is fixedly arranged at the center of the upper end face of the vehicle body 1, the setting frame comprises a fixing plate 312, a transverse plate 313 and a long support 316, the long support 316 is arranged in parallel and fixedly arranged on two support plates of the upper end face of the vehicle body 1, two ends of the fixing plate 312 and the transverse plate 313 are fixedly arranged on the two support plates, a first tension detection mechanism 306 and a second tension detection mechanism 314 are respectively and symmetrically arranged on the fixing plate 312, and a ninth wire guide wheel 31809 and a tenth wire guide wheel 31810 are symmetrically arranged on the transverse plate 313.

The seventh wire guide wheel 31807 and the fourteenth wire guide wheel 31814 are symmetrically disposed on a straight edge of the upper end surface of the vehicle body 1 on the side close to the winding mechanism 301, the eighth wire guide wheel 31808 and the eleventh wire guide wheel 31811 are symmetrically disposed on a straight edge of the upper end surface of the vehicle body 1 on the side far from the winding mechanism 301, the seventh wire guide wheel 31807 and the eighth wire guide wheel 31808 are symmetrically disposed, the fourteenth wire guide wheel 31814 and the eleventh wire guide wheel 31811 are symmetrically disposed, and the seventh wire guide wheel 31807, the eighth wire guide wheel 31808, the eleventh wire guide wheel 31811 and the fourteenth wire guide wheel 31814 are disposed on the inner side of the vehicle body 1 through a pulley holder 315.

The winding and lifting device 3 further includes a first wire wheel support 307, a first wire wheel standing support 308, a second wire wheel support 310, and a second wire wheel standing support 311, wherein the first wire wheel support 307, the first wire wheel standing support 308, the second wire wheel support 310, and the second wire wheel standing support 311 are all disposed on a straight edge of the upper end surface of the vehicle body 1 near one side of the winding mechanism 301, the first wire wheel support 307 and the second wire wheel support 310 are symmetrically disposed, and the first wire wheel standing support 308 and the second wire wheel standing support 311 are symmetrically disposed.

The sixth wire guide wheel 31806 is disposed on the first wire guide wheel support 307, the twelfth wire guide wheel 31812 is disposed on the second wire guide wheel support 310, the fifth wire guide wheel 31805 and the sixteenth wire guide wheel 31816 are symmetrically disposed on two sides of the second wire guide wheel standing bracket 311, the thirteenth wire guide wheel 31813 and the fifteenth wire guide wheel 31815 are symmetrically disposed on two sides of the first wire guide wheel standing bracket 308, and a first tension detection mechanism 306 and a second tension detection mechanism 314 are respectively symmetrically disposed on a straight edge of the upper end surface of the vehicle body 1 on the side close to the winding mechanism 301.

The winding lifting device 3 further includes a support 303, the first wire guide wheel 31801, the second wire guide wheel 31802, the third wire guide wheel 31803, and the fourth wire guide wheel 31804 are all fixedly disposed on the support 303, and the support 303 is fixedly disposed below the winding mechanism 301, and is configured to change a row line direction of the first spiral steel wire 302 and the second spiral steel wire 304, so as to avoid interference between the first spiral steel wire 302 and the second spiral steel wire 304 and the winding mechanism 301.

The first spiral wire 302 is connected to the material taking device 4 through the first wire guide wheel 31801, the second wire guide wheel 31802, the twelfth wire guide wheel 31812, the thirteenth wire guide wheel 31813, the fourteenth wire guide wheel 31814, and the second tension detecting mechanism 314. Specifically, the first spiral wire 302 is led out from the winding mechanism 301, turned around the winding mechanism 301 to the thirteenth wire guide wheel 31813 by the first wire guide wheel 31801 and the second wire guide wheel 31802, guided to the fourteenth wire guide wheel 31814 by the twelfth wire guide wheel 31812, turned back by the fourteenth wire guide wheel 31814, and led downward to be connected to the material taking device 4. In this embodiment, the second tension detecting mechanism 314 is disposed between the twelfth wire guide wheel 31812 and the fourteenth wire guide wheel 31814. The first wire guiding wheel 31801, the second wire guiding wheel 31802, the twelfth wire guiding wheel 31812, the thirteenth wire guiding wheel 31813 and the fourteenth wire guiding wheel 31814 are all disposed correspondingly.

Similarly, as in the winding arrangement of the first spiral wire 302, the second spiral wire 304 is connected to the material taking device 4 through the third wire guide wheel 31803, the fourth wire guide wheel 31804, the fifth wire guide wheel 31805, the sixth wire guide wheel 31806, the seventh wire guide wheel 31807 and the first tension detection mechanism 306.

The third spiral wire 305 is connected to the material taking device 4 through the eighth wire guide wheel 31808, the ninth wire guide wheel 31809, the sixteenth wire guide wheel 31816 and the second tension detection mechanism 314. Specifically, the third spiral wire 305 is led out from the winding mechanism 301, guided to the ninth wire guiding wheel 31809 by the sixteenth wire guiding wheel 31816, guided to the eighth wire guiding wheel 31808 by the ninth wire guiding wheel 31809, and led back and down by the eighth wire guiding wheel 31808 to be connected to the material taking device 4. In this embodiment, the second tension detecting mechanism 314 is disposed between the ninth wire wheel 31809 and the sixteenth wire wheel 31816. The eighth wire guide wheel 31808, the ninth wire guide wheel 31809 and the sixteenth wire guide wheel 31816 are all correspondingly arranged.

Similarly, as in the winding arrangement of the third spiral wire 305, the fourth spiral wire 309 is connected to the material taking device 4 through the tenth wire guide 31810, the eleventh wire guide 31811, the fifteenth wire guide 31815 and the first tension detection mechanism 306.

The first tension detection mechanism 306 includes a first base plate 30601, a first bearing wheel 30602, a first cover plate 30603, a first slider 30604, a first micro switch 30605 and a first bolt 30606, the first bearing wheel 30602, the first cover plate 30603, the first micro switch 30605 and the first bolt 30606 are all disposed on a disposed end face of the first base plate 30601, a first adjustment groove is disposed on the disposed end face of the first base plate 30601, the slider 30604 is disposed in the first adjustment groove and can freely slide, and the first cover plate 30603 is fixed at a notch position of the first adjustment groove, so that movement of the first slider 30604 is limited. The first micro switch 30605 is disposed on the first base plate 30601, and the first slider 30604 is provided with an induction block, which is disposed corresponding to the driving rod of the first micro switch 30605.

The first bolt 30606 and the first bearing wheel 30602 are each provided in two, the first bolts 30606 and the first bearing wheels 30602 are provided in one-to-one correspondence, one of the first bearing wheels 30602 is provided on the first slider 30604, the other of the first bearing wheels 30602 is provided on the first base 30601, and the second spiral wire 304 or the fourth spiral wire 309 is simultaneously disposed in contact with both the first bearing wheels 30602, that is, the second spiral wire 304 or the fourth spiral wire 309 is wound around the first bearing rollers 30602 in an S-shape, the contact points of the second spiral steel wire 304 or the fourth spiral steel wire 309 and the two first bearing wheels 30602 are respectively arranged at two sides of the connecting line of the axle centers of the two first bearing wheels 30602, so that according to the difference in the tension of the second spiral wire 304 or the fourth spiral wire 309, the first bearing wheel 30602 is forced to slide the first slider 30604 within the first adjustment slot.

The second spiral wire 304 or the fourth spiral wire 309 is disposed between the first bolt 30606 and the corresponding first bearing wheel 30602, and the first bolt 30606 ensures that the second spiral wire 304 or the fourth spiral wire 309 and the first bearing wheel 30602 are attached to prevent the wire from slipping out.

By sliding the first slider 30604 in the first adjustment groove, the signal state of the first micro switch 30605 can be controlled, and the tension of the second and fourth spiral wires 304, 309 can be controlled.

Similarly, the second tension detection mechanism 314 and the first tension detection mechanism 306 are symmetrically arranged, and the second tension detection mechanism 314 includes a second bottom plate 31401, a second slider 31402, a second microswitch 31403, a second bearing 31404, a second bolt 31405, and a second cover plate 31406. The second slider 31402 and the second bottom plate 31401 can slide, and control the signal state of the second microswitch 31403, so as to control the tension of the first spiral steel wire 302 and the third spiral steel wire 305.

Preferably, the setting frame is further provided with a charging device 317, and the charging device 317 is arranged corresponding to the material taking device 4 and is used for charging the power consumption elements on the material taking device 4.

When the containers are stored, scanning the container information by adopting a scanning gun, feeding the information back to the processing unit, and placing the containers at a warehouse entry; the storage system transmits information that the goods positions on the goods shelf are empty to the processing unit, and the processing unit collects coordinate information of the empty goods positions and transmits the coordinate information to the output unit; the four-way vehicle reversing traveling device works and moves to a storage entrance; the winding lifting device drives the material taking device to descend to the warehouse inlet for loading the container; after the container is loaded, the four-way vehicle reversing traveling device works and moves to a cargo space; the winding lifting device drives the material taking device to descend to the goods position, and storage work of the container is completed.

When the container is taken out, the information of the material taking list is input into a processing unit, the processing unit processes the input information and transmits a processing result to an output unit according to a set rule, the output unit outputs the position information of the container to be taken, the container to be taken is searched according to the position information output by the output unit, the four-way vehicle reversing traveling device moves according to the coordinate information output by the output unit to search the goods position where the container is located, the information of the goods position of the container to be taken is transmitted to the processing unit, and the processing unit transmits the information of the goods position to the output unit according to the coordinate information of the goods position; the four-way vehicle moves to a goods position, and the four-way vehicle reversing traveling device works and moves to the goods position; the winding lifting device drives the material taking device to descend to a goods position for loading a goods box; after the container is loaded, the container is reversed to the vehicle to move to the delivery port; the winding lifting device drives the material taking device to descend to the position of the delivery port, and the goods box is taken out.

In conclusion, the four-way vehicle is used for storing the dense box stacks, is installed at the top of the goods shelf and moves on the top of the goods shelf, the reversing traveling device moves in four directions as required, the winding lifting device drives the material taking device to descend to the specified height of the goods shelf, and the boxes are arranged in the inner cavity space of the four-way vehicle, so that the unmanned and automatic storage process of the box stacks is realized, and the storage capacity and the space utilization rate of the boxes are improved; carry out information binding to goods position and box, realized the accurate storage of box, improved access efficiency greatly, reduced the human input, effectively reduced under the artifical storage mode wrong material, the risk of staying the material.

Example four

As shown in fig. 13-21, fig. 13 is a structural view of the reclaimer assembly; FIG. 14 is a structural view of the top frame; FIG. 15 is a structural view of the driveshaft assembly; FIG. 16 is a structural view of the quick hitch assembly; FIG. 17 is an open configuration view of the quick hitch assembly in a hooked position; FIG. 18 is an open configuration view of the quick hitch assembly in a non-hooking condition; FIG. 19 is a structural view of the drive gear set; FIG. 20 is a structural view of the lift sensor; fig. 21 is a structural view of the hook sensor.

The material taking device 4 of the four-direction vehicle comprises a top frame 401, a transmission shaft assembly 402, a quick hook assembly 403, a driving gear set 404, a hook sensor 408, a material taking braking part and a processing unit; the processing unit is connected with the material taking braking member, the transmission shaft assembly 402, the quick hook assemblies 403 and the driving gear sets 404 are arranged on the top frame 401, the quick hook assemblies 403 are arranged at the bottom of the side edge of the top frame, the number of the quick hook assemblies 403 is 4, the quick hook assemblies 403 are symmetrically arranged, accordingly, the container can be hooked, the material taking braking member is in transmission connection with the transmission shaft assembly 402 through the driving gear sets 404, and the transmission shaft assembly 402 is connected with the quick hook assemblies 403, so that the quick hook assemblies 403 can be hooked to brake.

The top frame 401 comprises a bottom plate 40101, a pair of long beams 40102 arranged in parallel and a pair of short beams 40103 arranged in parallel, wherein the long beams 40102 and the short beams 40103 are both fixedly arranged on the bottom plate 40101, and two ends of the short beams 40103 are respectively and vertically arranged on the two long beams 40102.

Preferably, the tip on the long roof beam 40102 is provided with mechanical spacing piece 405, mechanical spacing piece 405 sets up in pairs, just mechanical spacing piece 405 sets up perpendicularly two right angle sides on the long roof beam 40102, mechanical spacing piece 405 with the automobile body inner wall contact setting of four-way car, thereby guarantee the steady movement or the placing of top frame 401 in the automobile body.

The long beam 40102 is further provided with a vehicle body sensor 406, the vehicle body sensor 406 can monitor the position relation between the top frame 401 and the containers to be clamped, and the vehicle body sensor 406 is connected with the processing unit.

The transmission shaft assembly 402 comprises a transmission shaft 40201, a bearing seat 40202 and a first transmission gear 40203, the transmission shaft 40201 is arranged on the top frame 401 through the bearing seat 40202, and the first transmission gear 40203 is arranged on the transmission shaft 40201. The transmission shaft 40201 is in transmission connection with the quick hook assembly 403. Generally, the transmission shafts 40201 are arranged in parallel, and two ends of each transmission shaft 40201 are in transmission connection with one quick hook assembly 403, so that four positions of hooking actions on a container are conveniently formed.

The quick hook assembly 403 comprises a front frame plate 40301, a crank 40302, a rear frame plate 40303, an eccentric 40304, a connecting rod 40305 and a straight insert 40306. The front frame plate 40301 and the rear frame plate 40303 are fixedly connected, and a guide groove and an adjustment groove are formed between the front frame plate 40301 and the rear frame plate 40303, the guide groove is communicated with the adjusting groove, the guide groove is a linear groove, the crank 40302 and the straight pin 40306 are arranged between the front skeleton plate 40301 and the rear skeleton plate 40303, the straight insert 40306 is arranged in the guide groove, the turning hook 40302 is fixedly arranged in the adjusting groove through a rotating shaft, the turning hook 40302 can rotate around the rotating shaft, the turning hook 40302 is provided with a short side and a long side with a certain included angle, the lower end portion of the straight insert pin 40306 is disposed in contact with the short side of the return hook 40302, so that the turning of the turning hook 40302 around the rotating shaft can be realized by pushing the turning hook 40302 through the straight pin 40306, and the long edge of the turning hook 40302 can be extended out of the adjusting groove.

The eccentric wheel 40304 is fixedly arranged on the transmission shaft 40201, the eccentric wheel 40304 is rotatably connected with the straight inserting pin 40306 through the connecting rod 40305, and both ends of the connecting rod 40305 are rotatably connected, so that the straight inserting pin 40306 can linearly move in the guide groove under the rotation of the eccentric wheel 40304, and the rotation of the crank 40302 around the rotating shaft is realized, so that the position state of the long side of the crank 40302 is adjusted.

Preferably, the adjusting groove comprises an avoiding portion, a spring plate 40307 is further arranged in the avoiding portion, and the avoiding portion is arranged on one side, close to the eccentric wheel 40304, of the crank 40302; through the setting of shell fragment 40307, avoid in the quick couple assembly 403 moves down the in-process, follow the turning hook 40302 that the adjustment tank stretches out bumps with other objects etc. when turning hook 40302 moves down to lean on the object, turning hook 40302 can move around the pivot to in dodging the portion to in moving down the in-process atress dodge, simultaneously under the spring action of shell fragment 40307, in dodging the completion, turning hook 40302 is followed dodge in the portion, thereby resume normal condition.

The driving gear set 404 comprises a driving gear 40401, a bearing seat 40402, a short shaft 40403 and a second transmission gear 40404; the number of the driving gears 40401 and the number of the second transmission gears 40404 are two, the driving gear 40401 and the second transmission gear 40404 are on one short shaft 40403, the short shaft 40403 is arranged on the long beam 40102 through the bearing block 40402, and the material taking braking member is fixedly connected with the short shaft 40403.

The two driving gears 40401 are meshed with each other, and the two second transmission gears 40404 are driven to synchronously rotate in opposite directions by the short shaft 40403. The two second transmission gears 40404 are respectively in link transmission with the first transmission gears 40203 on the two transmission shafts 40201 through two chains, so that the straight inserted pin 40306 in the quick hook assembly 403 can move up and down.

In order to hook the cargo box between the quick hook assemblies 403, the turning hooks 40302 of the two quick hook assemblies 403 on the same long beam 40102 are symmetrically arranged, so that the rotation directions are opposite, and the two transmission shafts 40201 reversely rotate by arranging the two driving gears 40401 which are meshed with each other.

Lift sensor 407 is including detecting piece 40701 and lift photoelectric switch 40702, detect piece 40701 with lift photoelectric switch 40702 corresponds the setting, and all sets up on the long roof beam 40102, it passes through to detect piece 40701 lift photoelectric switch 40702 with processing unit connects, thereby but real time monitoring top frame 401 is in the internal high position of quadriversal car.

Couple sensor 408 includes couple photoelectric switch 40801 and detection disc 40802, couple photoelectric switch 40801 with it corresponds the setting to detect disc 40802, just it sets up to detect disc 40802 on the transmission shaft 40201, couple photoelectric switch 40801 sets up on the long roof beam 40102, it passes through to detect disc 40802 couple photoelectric switch 40801 with get the material stopper intercommunication, it detects to detect disc 40802 the turned angle of transmission shaft 40201, thereby detect the rotation state of turning hook 40302, control the state of unblanking of quick couple assembly 403.

The working principle is as follows: when the containers are stored, the information that the goods positions on the goods shelves are empty is transmitted to the processing unit, the processing unit collects the coordinate information of the empty goods positions and transmits the coordinate information to the output unit, the four-way vehicle (the vehicle-mounted body) moves to the goods positions, and the material taking device descends to the designated height according to the coordinate information output by the output unit; according to a descending height completion instruction output by an output unit, the hook sensor 408 rotates the transmission shaft assembly 402 to drive the straight pin 40306 in the quick hook assembly 403 to lift, and the turning hook 40302 returns to a non-working state position, so that the turning hook 40302 is pulled out from a groove of a container, and the storage work of the container is completed;

when the container is taken out, the information of the goods position of the container to be taken is transmitted to the processing unit, the processing unit transmits the information to the output unit according to the coordinate information of the goods position, the four-way vehicle (vehicle-carrying body) moves to the goods position, and the material taking device descends to the designated height according to the coordinate information output by the output unit; according to a descending height completion instruction output by the output unit, the hook sensor 408 rotates the transmission shaft assembly 402 to drive the straight bolt 40306 in the quick hook assembly 403 to descend, and the turning hook 40302 returns to a working state position, so that the turning hook 40302 is inserted into a container groove and drives a container to lift, and the container is taken out.

In conclusion, the material taking device is used for taking and placing the cargo boxes of the four-way vehicle on the top of the goods shelf, the material taking device is lowered to the specified height of the goods shelf, the quick hooks are inserted into the grooves in the cargo boxes, the cargo boxes are lifted into the four-way vehicle together, and the four-way vehicle travels on the top of the goods shelf, so that unmanned and automatic stacking and storing processes of the cargo boxes are realized, and the storage capacity and the space utilization rate of the cargo boxes are improved; carry out information binding to goods position and packing box, realized the accurate storage of packing box, improved access efficiency greatly, reduced the human input, effectively reduced under the artifical storage mode wrong material, the risk of staying idle material.

The foregoing is merely a preferred embodiment of the invention, which is intended to be illustrative and not limiting. It will be understood by those skilled in the art that various changes, modifications and equivalents may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (9)

1. A four-way vehicle is characterized by comprising a vehicle body, a reversing walking device, a winding lifting device and a material taking device, wherein the reversing walking device and the winding lifting device are arranged on the vehicle body;

the winding lifting device comprises a winding mechanism, a first traction wire, a second traction wire, a third traction wire, a fourth traction wire and a lead wheel set, one end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are fixedly arranged on the winding mechanism, the other end of the first traction wire, one end of the second traction wire, one end of the third traction wire and one end of the fourth traction wire are connected with a material taking device of the four-way vehicle through winding on the lead wheel set, and the lead wheel set and the winding mechanism are fixedly arranged on a vehicle body of the four-way vehicle;

the material taking device of the four-way vehicle comprises a top frame, a transmission shaft assembly, a quick hook assembly, a driving gear set, a hook sensor, a material taking braking part and a processing unit; the processing unit is connected with the material taking braking part, the transmission shaft assembly and the driving gear set are both arranged on the top frame, the quick hook assembly is arranged at the bottom of the side edge of the top frame, the material taking braking part is in transmission connection with the transmission shaft assembly through the driving gear set, and the transmission shaft assembly is connected with the quick hook assembly;

the transmission shaft assembly comprises a transmission shaft, a bearing seat and a first transmission gear, the transmission shaft is arranged on the top frame through the bearing seat, and the first transmission gear is arranged on the transmission shaft; the transmission shaft is in transmission connection with the quick hook assembly, and the first transmission gear is in transmission connection with the driving gear set;

the quick hook assembly comprises a front framework plate, a turning hook, a rear framework plate, an eccentric wheel, a connecting rod and a straight pin, the front framework plate is fixedly connected with the rear framework plate, a guide groove and an adjusting groove are formed between the front framework plate and the rear framework plate, the guide groove is communicated with the adjusting groove, the guide groove is a linear groove, the turning hook and the straight pin are arranged between the front framework plate and the rear framework plate, the straight pin is arranged in the guide groove, the turning hook is fixedly arranged in the adjusting groove through a rotating shaft and can rotate around the rotating shaft, the turning hook is provided with a short edge and a long edge with an included angle, the lower end part of the straight pin is in contact with the short edge of the turning hook, the eccentric wheel is fixedly arranged on the transmission shaft, and the eccentric wheel is connected with the straight pin through the connecting rod, the two ends of the connecting rod are rotatably connected, and the long edge of the turning hook can extend out of the adjusting groove.

2. The four-way vehicle according to claim 1, wherein the winding and lifting device further comprises a first tension detection mechanism and a second tension detection mechanism, the first tension detection mechanism and the second tension detection mechanism are fixedly arranged on the vehicle body and symmetrically arranged, the first tension detection mechanism and the second tension detection mechanism are respectively provided in two numbers, the first traction wire and the third traction wire are respectively provided with one second tension detection mechanism correspondingly, and the second traction wire and the fourth traction wire are respectively provided with one first tension detection mechanism correspondingly.

3. The four-way vehicle according to claim 2, wherein the wire guide wheel group comprises a first wire guide wheel, a second wire guide wheel, a third wire guide wheel, a fourth wire guide wheel, a fifth wire guide wheel, a sixth wire guide wheel, a seventh wire guide wheel, a twelfth wire guide wheel, a thirteenth wire guide wheel, and a fourteenth wire guide wheel;

the first traction wire is connected with the material taking device through the first wire guide wheel, the second wire guide wheel, the twelfth wire guide wheel, the thirteenth wire guide wheel, the fourteenth wire guide wheel and the second tension detection mechanism; the first traction wire is led out from the winding mechanism, turns around the winding mechanism to the thirteenth wire guide wheel through the first wire guide wheel and the second wire guide wheel, is guided to the fourteenth wire guide wheel through the twelfth wire guide wheel, is guided downwards after turning through the fourteenth wire guide wheel and is connected with the material taking device, and the first wire guide wheel, the second wire guide wheel, the twelfth wire guide wheel, the thirteenth wire guide wheel and the fourteenth wire guide wheel are correspondingly arranged;

the second traction line passes through the third wire wheel, the fourth wire wheel, the fifth wire wheel, the sixth wire wheel, the seventh wire wheel and the first tension detection mechanism and is connected with the material taking device, and the third wire wheel, the fourth wire wheel, the fifth wire wheel, the sixth wire wheel and the seventh wire wheel are all correspondingly arranged.

4. The four-way vehicle according to claim 3, wherein the wire guide wheel set further comprises an eighth wire guide wheel, a ninth wire guide wheel, a sixteenth wire guide wheel, a tenth wire guide wheel, an eleventh wire guide wheel, a fifteenth wire guide wheel;

the third traction wire is connected with the material taking device through the eighth wire guide wheel, the ninth wire guide wheel, the sixteenth wire guide wheel and the second tension detection mechanism; the third traction wire is led out from the winding mechanism, guided to the ninth wire guide wheel through the sixteenth wire guide wheel, guided to the eighth wire guide wheel through the ninth wire guide wheel, and guided backwards and downwards through the eighth wire guide wheel to be connected with the material taking device; the eighth wire guide wheel, the ninth wire guide wheel and the sixteenth wire guide wheel are all correspondingly arranged;

the fourth traction wire is connected with the material taking device through the tenth wire guide wheel, the eleventh wire guide wheel, the fifteenth wire guide wheel and the first tension detection mechanism, and the tenth wire guide wheel, the eleventh wire guide wheel and the fifteenth wire guide wheel are correspondingly arranged.

5. The four-way vehicle according to claim 4, wherein the winding lifting device further comprises a setting frame, the setting frame is fixedly arranged at the center of the upper end surface of the vehicle body, the setting frame comprises a fixed plate, a transverse plate and a long bracket, the long bracket is arranged in parallel and fixedly arranged on two supporting plates of the upper end surface of the vehicle body, two ends of the fixed plate and two ends of the transverse plate are fixedly arranged on the two supporting plates, the first tension detection mechanism and the second tension detection mechanism are respectively and symmetrically arranged on the fixed plate, and the ninth wire guide wheel and the tenth wire guide wheel are symmetrically arranged on the transverse plate.

6. The four-way vehicle according to claim 5, wherein the seventh wire guide wheel and the fourteenth wire guide wheel are symmetrically arranged on a straight edge of the upper end surface of the vehicle body on a side close to the winding mechanism, the eighth wire guide wheel and the eleventh wire guide wheel are symmetrically arranged on a straight edge of the upper end surface of the vehicle body on a side far away from the winding mechanism, the seventh wire guide wheel and the eighth wire guide wheel are symmetrically arranged, the fourteenth wire guide wheel and the eleventh wire guide wheel are symmetrically arranged, and the seventh wire guide wheel, the eighth wire guide wheel, the eleventh wire guide wheel and the fourteenth wire guide wheel are all arranged on the inner side of the vehicle body through pulley supports.

7. The four-way vehicle according to claim 6, wherein the winding lifting device further comprises a first wire wheel support, a first wire wheel stand support, a second wire wheel support and a second wire wheel stand support, wherein the first wire wheel support, the first wire wheel stand support, the second wire wheel support and the second wire wheel stand support are all arranged on a straight edge of one side of the upper end surface of the vehicle body, which is close to the winding mechanism, the first wire wheel support and the second wire wheel support are symmetrically arranged, and the first wire wheel stand support and the second wire wheel stand support are symmetrically arranged;

the sixth wire guide wheel is arranged on the first wire guide wheel support, the twelfth wire guide wheel is arranged on the second wire guide wheel support, the fifth wire guide wheel and the sixteenth wire guide wheel are symmetrically arranged on two sides of the second wire guide wheel standing support, the thirteenth wire guide wheel and the fifteenth wire guide wheel are symmetrically arranged on two sides of the first wire guide wheel standing support, and the first tension detection mechanism and the second tension detection mechanism are respectively and symmetrically arranged on a straight edge of one side, close to the winding mechanism, of the upper end face of the vehicle body.

8. The four-way vehicle according to claim 2, wherein the first tension detection mechanism comprises a first bottom plate, a first bearing wheel, a first cover plate, a first slider and a first microswitch, the first bearing wheel, the first cover plate and the first microswitch are all arranged on the arrangement end surface of the first bottom plate, a first adjusting groove is arranged on the arrangement end surface of the first bottom plate, the slider is arranged in the first adjusting groove and can freely slide, the first cover plate is fixed at the notch position of the first adjusting groove, the first microswitch is arranged on the first bottom plate, the first slider is provided with a sensing block, and the sensing block is arranged corresponding to the driving rod of the first microswitch;

the first bearing wheels are arranged in two numbers, one first bearing wheel is arranged on the first sliding block, the other first bearing wheel is arranged on the first base plate, and the second traction line or the fourth traction line is wound on the two first bearing wheels in an S shape.

9. The four-way vehicle according to claim 8, wherein the first tension detection mechanism further comprises a first bolt, two first bolts are arranged, the first bolts and the first bearing wheels are arranged in one-to-one correspondence, and the second traction line or the fourth traction line is arranged between the first bolts and the corresponding first bearing wheels.

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