CN217126122U - Transition device - Google Patents

Abstract

The utility model provides a transition device, which comprises a transition component and a structural frame, wherein the transition component is fixed on the structural frame and comprises a lifting component and a transfer component, the lifting component comprises a substrate, a lifting cylinder and a lifting platform, the substrate is fixedly arranged in the structural frame, the lifting cylinder is fixedly arranged on the substrate, and a push rod of the lifting cylinder is connected with the lifting platform; the transfer assembly comprises a driving motor, a transition driving wheel, a transition driven wheel and a transition synchronizing device; the transition synchronizing devices are symmetrically arranged on the left side and the right side of the lifting platform and are respectively connected with the transition synchronizing devices; a transition synchronous shaft is connected between the two transition synchronous devices; the transition driven wheel is connected with the transition synchronous shaft; the driving motor is connected with the transition driving wheel; a transition belt is arranged between the transition driven wheel and the transition driving wheel. The utility model discloses a transition device safe in utilization, simple structure, operation are stable.

Description

Transition device

Technical Field

The utility model belongs to the technical field of photovoltaic module production facility, especially, relate to a transition device.

Background

With the increased competition of the photovoltaic module manufacturing industry, the automation degree of a factory is improved, and the production cost of the module is reduced. The manufacturing industry of the photovoltaic module starts late in China, automatic equipment is not mature yet, and a large amount of manpower is needed to do repeated simple mechanical labor on site. After the components are formed, the production workshop needs to classify the components according to the characteristics of the components and the production conditions and the attributes of the components, and packages and delivers the components with similar power, current and color system in a certain range according to different powers, different currents, different battery colors and the like and according to a certain quantity. In the process, the frame bar code of the assembly needs to be manually checked; whether the corner protection of the packaging assembly is needed or not needs to be judged, if the corner protection is needed, the corner protection of the packaging assembly is carried out according to the requirement; whether the first assembly needs to be turned over or not needs to be judged, and if the first assembly needs to be turned over, the first assembly needs to be turned over manually; when the current tray of putting reaches the quantity of full support, need the manual work to carry out the tray and change.

The prior art is disclosed in Chinese patent application No. 201610374500.0, published as 2016.08.10. The automatic grading, boxing and packaging system comprises a first feeding sorting working line, a second feeding sorting working line, a first feeding-to-second feeding working line, a second feeding-to-first feeding working line, a stack inserting and transferring working line, an empty stack feeding working line and a full stack blanking working line; the first feeding sorting working line consists of a 90-degree conveying and steering unit, a first code reading and grading unit, a second code reading and grading unit, a grading and transferring unit, a confluence conveying unit, a horizontal overturning 180-degree unit, a turnover unit, a correcting unit and a control system; the second feeding sorting working line and the first feeding sorting working line are mirror images.

Disclosure of Invention

An object of the utility model is to provide a transition device, the utility model provides a safe in utilization, simple structure, the stable transition device of operation.

In order to achieve the purpose, the transition device comprises more than one transition assembly and a structural frame, wherein the transition assembly is fixed on the structural frame and comprises a lifting assembly and a transfer assembly, the lifting assembly comprises a base plate, a lifting cylinder and a lifting platform, the base plate is fixedly arranged in the structural frame, the lifting cylinder is fixedly arranged on the base plate, and a push rod of the lifting cylinder is connected with the lifting platform; the transfer assembly comprises a driving motor, a transition driving wheel, a transition driven wheel and a transition synchronizing device; more than one transition synchronizing device is arranged, and the transition synchronizing devices are symmetrically arranged on the left side and the right side of the lifting platform and are respectively connected with the transition synchronizing devices; a transition synchronous shaft is connected between the two transition synchronous devices; the transition driven wheel is connected with the transition synchronous shaft; the driving motor is arranged at the lower end of the lifting platform; the driving motor is connected with the transition driving wheel; a transition belt is arranged between the transition driven wheel and the transition driving wheel.

According to the arrangement, the transition device is used for transferring products from one conveying belt to another conveying belt in different directions, and the push rod of the lifting cylinder lifts the lifting table and lifts the products off the conveying belt; a transition subassembly is equipped with two transition synchronizer, and driving motor drives the transition action wheel and rotates, and the transition action wheel passes through transition belt and drives the transition from the driving wheel rotation, drives the transition synchronizing shaft through the transition from the driving wheel and rotates, and two transition synchronizer are connected through a synchronizing shaft, and it is the same to realize two transition synchronizer speed during operation, realizes transition synchronizer to the transport of product, simple structure, and transmission efficiency is high.

Furthermore, the transition synchronizing device comprises a transition synchronizing bracket, a first transition synchronizing wheel and a second transition synchronizing wheel; the transition synchronous bracket is arranged on one side of the lifting platform; a boss is arranged at one end of the transition synchronous bracket, which is far away from the lifting platform; the first transition synchronizing wheel and the second transition synchronizing wheel are respectively arranged at two ends of the lug boss, a synchronizing shaft is arranged in the first transition synchronizing wheel, and the first transition synchronizing wheel is connected with the first transition synchronizing bracket through the synchronizing shaft; the second transition synchronizing wheel is connected with the second transition synchronizing support through a transition synchronizing shaft; and a transition synchronous belt is sleeved between the first transition synchronous wheel and the second transition synchronous wheel.

According to the arrangement, the supporting effect of the transition synchronous belt is improved by arranging the lug boss, and the transition synchronous shaft can be fixed by arranging the transition synchronous bracket; through cup jointing the transition hold-in range between transition synchronizing wheel one and transition synchronizing wheel two for when transition synchronizing shaft drove transition synchronizing wheel two, transition synchronizing wheel two drives transition synchronizing wheel one through the transition hold-in range and rotates, and transition hold-in range rotates the in-process effect and stabilizes.

Furthermore, a limiting support is arranged on the outer side of the boss.

Above setting, inject the product through spacing support and slide on the transition synchronous belt, prevent to flow through the in-process and drop, the operation process is stable.

Furthermore, first bearings are arranged at two ends of the first transition synchronous wheel, and the synchronous shaft is connected with the two first bearings.

The first bearing is connected with the synchronizing shaft, and the rotating friction is reduced when the first transition synchronizing wheel rotates on the synchronizing shaft, so that the loss in the operation process is reduced.

Furthermore, a second bearing is arranged in the transition synchronous support, and the transition synchronous shaft is connected with the second bearing.

The transition synchronous shaft is connected with the second bearing, so that the rotation friction of the transition synchronous shaft is reduced when the transition synchronous shaft rotates on the synchronous support, and the loss in the operation process is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a transition device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a transition device according to an embodiment of the present invention.

Fig. 3 is a side view of a transition device according to an embodiment of the present invention.

Fig. 4 is an exploded view of a transition device according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 4, a transition device 3 includes more than one transition component 31 and a structural frame 32, the transition component 31 is fixed on the structural frame 32, the transition component 31 includes a lifting component 311 and a transfer component 312, the lifting component 311 includes a base plate 3111, a lifting cylinder 3112 and a lifting table 3113, the base plate 3111 is fixed in the structural frame 32, the lifting cylinder 3112 is fixed on the base plate 3111, and a push rod of the lifting cylinder 3112 is connected with the lifting table 3113; the transfer assembly 312 comprises a driving motor 3121, a transition driving wheel 3122, a transition driven wheel 3123 and a transition synchronizing device 3124; more than one transition synchronizing device 3124 is provided, the transition synchronizing devices 3124 are symmetrically provided at the left and right sides of the lifting table 3113 and are respectively connected with the transition synchronizing devices 3124; a transition synchronizing shaft 3125 is connected between the two transition synchronizing devices 3124; the transition driven wheel 3122 is connected with transition synchronous shaft 3125; the driving motor 3121 is arranged at the lower end of the lifting table 3113; the driving motor 3121 is connected with transition driving wheel 3122; a transition belt 3126 is arranged between the transition driven wheel 3123 and the transition driving wheel 3122.

With the arrangement, the transition device 3 is used for transferring a product from one conveyor belt to another conveyor belt in different directions, and the push rod of the lifting cylinder 3112 lifts the lifting table 3113 and lifts the product off the conveyor belt; the driving motor 3121 is a bi-directional motor in this embodiment, and can carry the product in two opposite directions. In this embodiment, a transition subassembly 3 is equipped with two transition synchronization device 3124, driving motor 3121 drives transition action wheel 3122 and rotates, transition action wheel 3122 drives the transition through transition belt 3126 and rotates from driving wheel 3122, drive transition synchronizing shaft 3125 through the transition from driving wheel 3122 and rotate, two transition synchronization device 312 are connected through a synchronizing shaft 3125, it is the same to realize two transition synchronization device 312 speed during operation, realize transition synchronization device 312 to the transport of product, moreover, the steam generator is simple in structure, and high transmission efficiency.

As shown in fig. 2, the transition synchronizing device 3124 includes a transition synchronizing bracket 31241, a first transition synchronizing wheel 31242 and a second transition synchronizing wheel 31243; the transition synchronous support 31241 is arranged on one side of the lifting table 3113; a boss 31240 is arranged at one end of the transition synchronous support 3124 far away from the lifting table 3113; the first transition synchronizing wheel 31242 and the second transition synchronizing wheel 31243 are respectively arranged at both ends of the boss 31240, a synchronizing shaft 31244 is arranged in the first transition synchronizing wheel 31242, and the first transition synchronizing wheel 31242 is connected with the transition synchronizing bracket 31241 through the synchronizing shaft 31244; the second transition synchronizing wheel 31243 is connected with the transition synchronizing bracket 31241 through a transition synchronizing shaft 31244; a transition synchronous belt 31245 is sleeved between the first transition synchronous wheel 31242 and the second transition synchronous wheel 31243.

Through the arrangement, the supporting effect of the transition synchronous belt 31245 is improved through the arrangement of the boss 31240, and the transition synchronous shaft 3125 can be fixed through the arrangement of the transition synchronous support 31241; through the transition synchronous belt 31245 that is cup jointed between transition synchronous wheel 31242 and the second transition synchronous wheel 31243 for when transition synchronizing shaft 6458 drove the second transition synchronous wheel 31243, the second transition synchronous wheel 31243 drives the first transition synchronous wheel 31242 through transition synchronous belt 31245 and rotates, and transition synchronous belt 31245 rotates the in-process effect stably.

As shown in fig. 4, a limiting bracket 31246 is provided outside the boss 31240.

Above setting, inject the product through spacing support 31246 and slide on transition hold-in range 31245, prevent to flow through the in-process and drop, the operation process is stable.

As shown in fig. 4, the first transition synchronizing wheel 31242 is provided with a first bearing 31247 at both ends, and the synchronizing shaft 31244 is connected with the two first bearings 31247.

Through the arrangement, the first bearings 31247 are arranged at the two ends of the first transition synchronizing wheel 31242, the first bearings 31247 are connected with the synchronizing shaft 31244, and when the first transition synchronizing wheel 31242 rotates on the synchronizing shaft 31244, the rotation friction is reduced, and the loss in the operation process is reduced.

As shown in fig. 4, a second bearing 31248 is disposed in the transition synchronization support 31241, and the transition synchronization shaft 3125 is connected to the second bearing 31248.

Through the arrangement, the second bearing 31248 is arranged in the transition synchronous support 31241, and the transition synchronous shaft 3125 is connected with the second bearing 31248, so that the rotation friction is reduced when the transition synchronous shaft 3125 rotates on the synchronous support, and the loss in the operation process is reduced.

Above-mentioned structure, when the product is sent to transition mechanism 3 upper end, lift cylinder 3112's push rod promotes elevating platform 3113 and rises, driving motor 3121 drives transition action wheel 3122 and rotates, transition action wheel 3112 drives transition from driving wheel 3123 through transition belt 3126 and rotates, transition from driving wheel 3123 drives transition synchronizing shaft 3125 and rotates, transition synchronizing shaft 3125 drives two 31243 rotations of transition synchronizing wheel, two 31243 of transition synchronizing wheel drive transition synchronous belt 31245 rotate, transition synchronizing wheel 31242, the steady rotation of transition synchronous belt 31245 is maintained to two 31243 of transition synchronizing wheel and boss 31240, the steadiness of transition synchronous belt 31245 has been guaranteed.

In this embodiment, the second transition synchronizing wheel 31243 is in a key connection with the synchronizing shaft 3125, the first transition synchronizing wheel 31242 is in a shaft connection with the transition synchronizing shaft 31244, and the key connection and the shaft connection are prior art and are not described in further detail.

Claims (5)

1. A transition device comprising one or more transition assemblies and a structural frame, wherein: the transition assembly is fixed on the structural frame and comprises a lifting assembly and a transfer assembly, the lifting assembly comprises a base plate, a lifting cylinder and a lifting platform, the base plate is fixedly arranged in the structural frame, the lifting cylinder is fixedly arranged on the base plate, and a push rod of the lifting cylinder is connected with the lifting platform; the transfer assembly comprises a driving motor, a transition driving wheel, a transition driven wheel and a transition synchronizing device; more than one transition synchronizing device is arranged, and the transition synchronizing devices are symmetrically arranged on the left side and the right side of the lifting platform and are respectively connected with the transition synchronizing devices; a transition synchronous shaft is connected between the two transition synchronous devices; the transition driven wheel is connected with the transition synchronous shaft; the driving motor is arranged at the lower end of the lifting platform; the driving motor is connected with the transition driving wheel; a transition belt is arranged between the transition driven wheel and the transition driving wheel.

2. A transition device according to claim 1, wherein: the transition synchronizing device comprises a transition synchronizing bracket, a first transition synchronizing wheel and a second transition synchronizing wheel; the transition synchronous bracket is arranged on one side of the lifting platform; a boss is arranged at one end of the transition synchronous bracket, which is far away from the lifting platform; the first transition synchronizing wheel and the second transition synchronizing wheel are respectively arranged at two ends of the boss, a synchronizing shaft is arranged in the first transition synchronizing wheel, and the first transition synchronizing wheel is connected with the transition synchronizing support through the synchronizing shaft; the second transition synchronizing wheel is connected with the second transition synchronizing support through a transition synchronizing shaft; and a transition synchronous belt is sleeved between the first transition synchronous wheel and the second transition synchronous wheel.

3. A transition device according to claim 2, wherein: and a limiting bracket is arranged on the outer side of the boss.

4. A transition device according to claim 2, wherein: first bearings are arranged at two ends of the first transition synchronizing wheel, and the synchronizing shaft is connected with the two first bearings.

5. A transition device according to claim 2, wherein: and a second bearing is arranged in the transition synchronous support, and the transition synchronous shaft is connected with the second bearing.

Images