CN218369967U - Speed chain jacking rotary structure and speed chain assembly line - Google Patents

Abstract

The utility model provides a doubly fast chain jacking revolution mechanic and install this jacking revolution mechanic's doubly fast chain assembly line can realize that the work piece turns to fast of high accuracy on doubly fast chain production line. The speed-multiplying chain jacking and rotating structure comprises a jacking rotating plate, and a rotating assembly and a jacking assembly are arranged at the bottom of the jacking rotating plate; the rotating assembly is used for driving the jacking rotating plate to rotate; the jacking assembly is used for driving the jacking rotating plate to lift. This jacking revolution mechanic passes through the rotating electrical machines and takes the gear rotatory, can fix a position fast through the locating pin between jacking rotor plate and the carrier, has the characteristics that the location is accurate, the fault rate is few. In addition, the carrier can be buffered from moving to static through the blocking cylinder, the rotating wheel on the block can enable the carrier to be always horizontally stressed in the deceleration process, and the stop time of the carrier is shortened.

Description

Speed chain jacking rotary structure and speed chain assembly line

Technical Field

The utility model relates to a doubly fast chain assembly line technical field, concretely relates to doubly fast chain jacking revolution mechanic and doubly fast chain assembly line.

Background

The speed-multiplying chain assembly line is also called as a self-flowing conveying system, is mainly applied to production lines of various industries such as electronic appliances, electromechanics and the like, and the conveying principle is that the speed-increasing function of the speed-multiplying chain is utilized to enable a carrier on which a workpiece is supported to run quickly.

In order to meet the requirements of the production process, various matching devices are configured on the double-speed chain production line, and the functions of stacking, moving, transposition and the like of conveying workpieces are completed through corresponding instructions, and the matching devices need to be designed and manufactured according to the actual functional requirements.

The utility model discloses a doubly fast chain jacking revolution mechanic is a supporting device who is applied to doubly fast chain assembly line, and its effect is to change the work piece direction on the doubly fast chain production line, and the work piece of being convenient for gets into next process and processes. However, the steering precision and steering speed of the conventional steering matching device are insufficient, so that the workpiece is easily damaged during machining, and the production efficiency is also influenced.

SUMMERY OF THE UTILITY MODEL

Defect to the background art, the utility model provides a doubly fast chain jacking revolution mechanic can realize that the work piece turns to fast of doubly fast chain production line high accuracy.

The speed-multiplying chain jacking and rotating structure is arranged on the speed-multiplying chain assembly line and used for steering a carrier conveyed by the speed-multiplying chain assembly line, the speed-multiplying chain jacking and rotating structure comprises a jacking rotating plate, and a rotating assembly and a jacking assembly are arranged at the bottom of the jacking rotating plate;

the rotating assembly is used for driving the jacking rotating plate to rotate;

the jacking assembly is used for driving the jacking rotating plate to lift.

Preferably, the rotating assembly comprises a rotating gear, a driving gear, a rotating motor and a rotating assembly fixing plate;

the rotating gear is fixedly connected with the jacking rotating plate;

the driving gear is arranged on a rotating shaft of the rotating motor and is meshed with the rotating gear, and the diameter of the driving gear is smaller than that of the rotating gear;

the rotating gear and the rotating motor are arranged on the rotating component fixing plate.

Preferably, the jacking assembly is positioned at the bottom of the rotating assembly fixing plate;

the jacking assembly comprises a jacking cylinder, the jacking cylinder is provided with a telescopic rod, and the telescopic rod is fixedly connected with the rotating assembly fixing plate.

Preferably, the jacking assembly further comprises a jacking assembly fixing plate, and the jacking cylinder is mounted on the jacking assembly fixing plate;

jacking subassembly fixed plate and rotating assembly fixed plate parallel arrangement, through a plurality of resilience post elastic connection between jacking subassembly fixed plate and the rotating assembly fixed plate.

Preferably, the top surface of jacking rotor plate is equipped with the locating pin, and the bottom of carrier is equipped with the locating hole with locating pin matched with.

The utility model also provides a doubly fast chain assembly line installs the doubly fast chain jacking revolution mechanic that aforementioned arbitrary technical scheme recorded.

Preferably, the speed chain assembly line comprises a first conveyor belt and a second conveyor belt which are arranged in parallel, and the speed chain jacking and rotating structure is arranged between the first conveyor belt and the second conveyor belt.

Preferably, the double-speed chain assembly line is further provided with a blocking assembly, and the blocking assembly is used for positioning the auxiliary carrier and the double-speed chain jacking and rotating structure.

Preferably, the blocking assembly comprises a blocking assembly bracket, a stop block and a blocking cylinder;

the blocking assembly bracket is fixedly arranged between the first conveyor belt and the second conveyor belt;

the stop block is hinged on the stop component bracket, and the turning direction of the stop block is vertical to the conveying plane of the speed chain assembly line;

the blocking cylinder is used for driving the stop block to turn over.

Preferably, the stop block is provided with a rotating wheel, and the stop block is contacted with the carrier through the rotating wheel.

The utility model has the advantages that:

1. the rotary motor drives the gear to rotate, so that the positioning is accurate, and the failure rate is low.

2. And the jacking rotating plate and the carrier are quickly positioned through the positioning pin.

3. The carrier is buffered from moving to static through the blocking cylinder, and the rotating wheel on the stop block can enable the carrier to always keep horizontal stress in the deceleration process, so that the stop time of the carrier is shortened.

Drawings

The invention is explained in more detail below with reference to exemplary embodiments and the accompanying drawings, in which:

fig. 1 is a perspective view of the multi-speed chain jacking rotary structure of the present invention.

Fig. 2 is a schematic diagram of the coordination between the speed chain jacking rotation structure and the carrier of the present invention.

Fig. 3 is the structural explosion diagram of the multi-speed chain jacking rotary structure of the present invention.

Fig. 4 is a perspective view of the speed chain assembly line of the present invention.

Fig. 5 is a schematic structural view of a barrier assembly.

Reference numerals:

1-jacking rotating plate, 11-positioning pin, 2-rotating assembly, 21-rotating gear, 22-driving gear, 23-rotating motor, 24-rotating assembly fixing plate, 3-jacking assembly, 31-jacking cylinder, 32-jacking assembly fixing plate, 33-rebounding column, 4-carrier, 5-first conveyor belt, 6-second conveyor belt, 7-blocking assembly, 71-blocking assembly support, 72-block, 73-blocking cylinder, 74-rotating wheel and 8-inductor.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Thus, a feature indicated in this specification will serve to explain one of the features of an embodiment of the invention, and not to imply that every embodiment of the invention must have the described feature. Further, it should be noted that this specification describes many features. Although some features may be combined to show a possible system design, these features may also be used in other combinations not explicitly described. Thus, the combinations illustrated are not intended to be limiting unless otherwise specified.

The principles of the present invention will be described in detail below with reference to the accompanying drawings and examples.

The utility model provides an install doubly fast chain jacking revolution mechanic on doubly fast chain assembly line for turn to the carrier through doubly fast chain assembly line conveying. As shown in fig. 1-3, this chain jacking rotary structure of doubly speeding includes jacking rotor plate 1, and the bottom of jacking rotor plate 1 is equipped with rotating assembly 2 and jacking subassembly 3, and wherein rotating assembly 2 is used for driving jacking rotor plate 1 rotatory, and jacking subassembly 3 is used for driving jacking rotor plate 1 and goes up and down.

When the lifting device turns, the carrier 4 with the workpiece stops on the lifting rotating plate 1 and is fixed with the lifting rotating plate 1, the lifting assembly 3 lifts the rotating assembly 2 and the lifting rotating plate 1, and the lifting rotating plate 1 rotates under the action of the rotating assembly 2, so that the workpiece in the carrier 4 turns rapidly.

In this embodiment, the rotating assembly 2 includes a rotating gear 21, a driving gear 22, a rotating motor 23, and a rotating assembly fixing plate 24, and the rotating gear 21 and the rotating motor 23 are mounted on the rotating assembly fixing plate 24. In order to be able to control the steering angle precisely, the rotating assembly 2 is driven by a rotating electric machine 23. A small driving gear 22 is installed on a rotating shaft of the rotating motor 23, the driving gear 22 is meshed with the large rotating gear 21, and the rotating gear 21 is fixedly connected with the jacking rotating plate 1. Driven by the rotating motor 23, the rotating gear 21 drives the jacking rotating plate 1 to rotate according to the angle required by the instruction.

In this embodiment, jacking subassembly 3 is located the bottom of rotating assembly fixed plate 24, and jacking subassembly 3 includes jacking cylinder 31, and jacking cylinder 31 is equipped with the telescopic link of following the vertical direction is flexible, telescopic link and rotating assembly fixed plate 24 fixed connection. The telescopic link passes through jacking cylinder 31 control, when the telescopic link upwards stretches out, drives rotating assembly 2 and rises together with jacking rotor plate 1.

The jacking assembly 3 further comprises a jacking assembly fixing plate 32, and the jacking cylinder 31 is installed on the jacking assembly fixing plate 32;

the jacking assembly fixing plate 32 and the rotating assembly fixing plate 24 are arranged in parallel, and the jacking assembly fixing plate 32 and the rotating assembly fixing plate 24 are elastically connected through a plurality of rebound columns 33. The rebound columns 33 not only play a role in connection, but also play a role in buffering, so that inaccurate positioning caused by displacement of the carrier 4 and a workpiece in the carrier 4 due to too high speed when the jacking rotating plate 1 is contacted with the carrier 4 is avoided.

In order to realize the quick connection between the jacking rotating plate 1 and the carrier 4 in the workpiece turning process, the top surface of the jacking rotating plate 1 is provided with a positioning pin 11, and the bottom of the carrier 4 is provided with a positioning hole matched with the positioning pin 11. When the jacking rotary plate 1 is connected with the carrier 4, the positioning pin 11 is inserted into the positioning hole for fixing and positioning.

The utility model also provides a doubly fast chain assembly line, as shown in FIG. 4, this doubly fast chain assembly line includes parallel arrangement's first conveyer belt 5 and second conveyer belt 6. Between first conveyer belt 5 and second conveyer belt 6, install doubly fast chain jacking revolution mechanic in proper order along the direction of transfer and be used for assisting doubly fast chain jacking revolution mechanic and fix a position block subassembly 7.

This doubly fast chain jacking revolution mechanic includes jacking rotor plate 1, and the bottom of jacking rotor plate 1 is equipped with rotating assembly 2 and jacking subassembly 3, and wherein rotating assembly 2 is used for driving 1 rotations of jacking rotor plate, and jacking subassembly 3 is used for driving 1 lifts of jacking rotor plate.

When the lifting device turns, the carrier 4 with the workpiece stops on the lifting rotating plate 1 and is fixed with the lifting rotating plate 1, the lifting assembly 3 lifts the rotating assembly 2 and the lifting rotating plate 1, and the lifting rotating plate 1 rotates under the action of the rotating assembly 2, so that the workpiece in the carrier 4 turns rapidly.

In this embodiment, the rotating unit 2 includes a rotating gear 21, a driving gear 22, a rotating motor 23, and a rotating unit fixing plate 24, and the rotating gear 21 and the rotating motor 23 are mounted on the rotating unit fixing plate 24. In order to be able to control the steering angle precisely, the rotating assembly 2 is driven by a rotating electric machine 23. A small driving gear 22 is installed on a rotating shaft of the rotating motor 23, the driving gear 22 is meshed with the large rotating gear 21, and the rotating gear 21 is fixedly connected with the jacking rotating plate 1. Driven by the rotating motor 23, the rotating gear 21 drives the jacking rotating plate 1 to rotate according to the angle required by the instruction.

In this embodiment, jacking subassembly 3 is located the bottom of rotating assembly fixed plate 24, and jacking subassembly 3 includes jacking cylinder 31, and jacking cylinder 31 is equipped with the telescopic link of following the vertical direction is flexible, telescopic link and rotating assembly fixed plate 24 fixed connection. The telescopic link passes through jacking cylinder 31 control, when the telescopic link upwards stretches out, drives rotating assembly 2 and rises together with jacking rotor plate 1.

The jacking assembly 3 further comprises a jacking assembly fixing plate 32, and the jacking cylinder 31 is installed on the jacking assembly fixing plate 32;

the jacking assembly fixing plate 32 and the rotating assembly fixing plate 24 are arranged in parallel, and the jacking assembly fixing plate 32 and the rotating assembly fixing plate 24 are elastically connected through a plurality of resilient columns 33. The rebound columns 33 not only play a role in connection, but also play a role in buffering, so that inaccurate positioning caused by displacement of the carrier 4 and a workpiece in the carrier 4 due to too high speed when the jacking rotating plate 1 is contacted with the carrier 4 is avoided.

In order to realize the quick connection between the jacking rotating plate 1 and the carrier 4 in the workpiece turning process, the top surface of the jacking rotating plate 1 is provided with a positioning pin 11, and the bottom of the carrier 4 is provided with a positioning hole matched with the positioning pin 11. When the jacking rotary plate 1 is connected with the carrier 4, the positioning pin 11 is inserted into the positioning hole for fixing and positioning.

In the embodiment shown in fig. 5, the stopping assembly 7 comprises a stopping assembly support 71, a stopper 72 and a stopping cylinder 73, wherein the stopping assembly support 71 is fixedly arranged between the first conveyor belt 5 and the second conveyor belt 6, the stopper 72 is hinged on the stopping assembly support 71, and the turning direction of the stopper 72 is perpendicular to the conveying plane of the double-speed chain line. The blocking cylinder 73 is used for driving the block 72 to turn, and the blocking cylinder 73 can enable the carrier 4 to obtain buffering from the moving process to the static process.

A rotating wheel 74 is arranged on the block 72, and the block 72 is contacted with the carrier 4 through the rotating wheel 74.

The speed doubling chain assembly line is provided with an inductor 8, when the carrier 4 passes through the inductor 8, the stopper 72 is turned up under the pushing of the blocking cylinder 73 to block the carrier 4 from stopping moving, and meanwhile, the jacking rotary plate 1 is driven by the jacking assembly 3 to ascend and be connected with the carrier 4. Since stop 72 contacts with vehicle 4 via wheel 74, wheel 74 on stop 72 can keep vehicle 4 horizontally stressed all the time during deceleration, and the stop time of vehicle 4 is shortened.

The blocking assembly 7 enables the carrier 4 to obtain buffering from moving to static through the blocking air cylinder 73, and the rotating wheel 74 on the block 72 can enable the carrier 4 to be always kept horizontally stressed in the deceleration process, so that the stop time of the carrier 4 is shortened.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A speed-multiplying chain jacking and rotating structure is installed on a speed-multiplying chain assembly line and used for steering a carrier conveyed by the speed-multiplying chain assembly line, and is characterized by comprising a jacking rotating plate, wherein a rotating assembly and a jacking assembly are arranged at the bottom of the jacking rotating plate;

the rotating assembly is used for driving the jacking rotating plate to rotate;

the jacking assembly is used for driving the jacking rotary plate to lift.

2. The speed chain jacking rotary structure as claimed in claim 1, wherein said rotating assembly includes a rotating gear, a driving gear, a rotating motor and a rotating assembly fixing plate;

the rotating gear is fixedly connected with the jacking rotating plate;

the driving gear is arranged on a rotating shaft of the rotating motor, the driving gear is meshed with the rotating gear, and the diameter of the driving gear is smaller than that of the rotating gear;

the rotating gear and the rotating motor are arranged on the rotating component fixing plate.

3. The speed chain jacking rotary structure of claim 2, wherein the jacking assembly is located at the bottom of the rotary assembly fixing plate;

the jacking assembly comprises a jacking cylinder, the jacking cylinder is provided with a telescopic rod, and the telescopic rod is fixedly connected with the rotating assembly fixing plate.

4. The speed chain jacking rotary structure as claimed in claim 3, wherein the jacking assembly further comprises a jacking assembly fixing plate, and the jacking cylinder is mounted on the jacking assembly fixing plate;

the jacking assembly fixing plate and the rotating assembly fixing plate are arranged in parallel, and the jacking assembly fixing plate and the rotating assembly fixing plate are elastically connected through a plurality of rebounding columns.

5. The chain lifting and rotating structure as claimed in claim 1, wherein the top surface of the lifting and rotating plate is provided with a positioning pin, and the bottom of the carrier is provided with a positioning hole matching with the positioning pin.

6. A speed chain assembly line characterized in that the speed chain assembly line is provided with the speed chain jacking rotary structure of any one of claims 1 to 5.

7. The multiple speed chain assembly line of claim 6, wherein the multiple speed chain assembly line comprises a first conveyor belt and a second conveyor belt arranged in parallel, and the multiple speed chain jacking rotation structure is mounted between the first conveyor belt and the second conveyor belt.

8. The multiple speed chain assembly line of claim 7, further comprising a stop assembly mounted to assist in positioning the carrier with a multiple speed chain jacking rotation structure.

9. The multiple speed chain line of claim 8, wherein the dam assembly comprises a dam assembly bracket, a stop, and a dam cylinder;

the blocking assembly bracket is fixedly arranged between the first conveyor belt and the second conveyor belt;

the stop block is hinged to the stop component bracket, and the turning direction of the stop block is vertical to the conveying plane of the speed chain assembly line;

the blocking cylinder is used for driving the stop block to turn over.

10. The multiple speed chain line of claim 9, wherein the stop is provided with a wheel, and the stop contacts the carrier via the wheel.

Images