CN220596010U

CN220596010U - Telescopic lifting adjustment type belt conveyor

Info

Publication number: CN220596010U
Application number: CN202321788642.3U
Authority: CN
Inventors: 郑振山
Original assignee: Dongguan Trans Automation Technology Co ltd
Current assignee: Dongguan Trans Automation Technology Co ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2024-03-15
Anticipated expiration: 2033-07-10

Abstract

The utility model provides a telescopic lifting adjustment type belt conveyor, which comprises a bottom frame, a jacking driving assembly, an angle adjusting frame, an X-axis driving device, a telescopic adjusting frame and a conveying belt, wherein the lifting driving assembly is arranged on the bottom frame; the jacking driving assembly is arranged at the left part of the underframe, and the power output end of the jacking driving assembly faces upwards and contacts with the angle adjusting frame; the right part of the underframe is rotationally connected with the angle adjusting frame through a first rotating shaft; the telescopic adjusting frame is connected to the inner side of the angle adjusting frame in a left-right sliding manner through a sliding rail pair; the X-axis driving device is arranged on the angle adjusting frame and is in transmission connection with the telescopic adjusting frame and used for controlling the telescopic adjusting frame to move left and right; the telescopic adjusting frame and the telescopic adjusting frame are provided with a plurality of transmission roll shafts, the conveying belt is wound on a rotating shaft between the telescopic adjusting frame and the telescopic adjusting frame, the height position of the feeding end of the conveying belt and the left and right receiving positions can be adjusted, and the position of the discharging end is kept unchanged.

Description

Telescopic lifting adjustment type belt conveyor

Technical Field

The utility model relates to the technical field of belt conveying devices, in particular to a telescopic lifting adjustment type belt conveyor.

Background

At present, a belt conveyor for conveying products is generally incapable of being adjusted, and generally in a large-scale stamping line, the belt conveyor is arranged at the tail end of a large-scale three-dimensional multi-station production line to be practical for product output, blanking positions and blanking heights can be different according to different specifications of the dies, the blanking heights of the dies are too high from the conveying belt, damage to the products is caused after the materials fall off, the blanking heights are too low, interference collision with the conveying belt is likely, front and rear positions of discharging of different dies are inconsistent, therefore, the position of a receiving end of the conveying belt is ensured to ensure that the products can be sent to, but the output end of the conveying belt is generally manually received, the discharging end does not need to adjust the position after the receiving end is adjusted, the situation that the manual material taking positions are different every time is avoided, and the conventional belt conveyor cannot realize the functions is improved.

Disclosure of Invention

The utility model aims to provide a telescopic lifting adjustment type belt conveyor to solve the problems in the background art.

In order to achieve the above object, the present utility model provides the following technical solutions:

a telescopic lifting adjustment type belt conveyor comprises a bottom frame, a jacking driving assembly, an angle adjusting frame, an X-axis driving device, a telescopic adjusting frame and a conveying belt; the jacking driving assembly is arranged at the left part of the underframe, and the power output end of the jacking driving assembly faces upwards and contacts with the angle adjusting frame; the right part of the underframe is rotationally connected with the angle adjusting frame through a first rotating shaft; the telescopic adjusting frame is connected to the inner side of the angle adjusting frame in a left-right sliding manner through a sliding rail pair; the X-axis driving device is arranged on the angle adjusting frame and is in transmission connection with the telescopic adjusting frame and used for controlling the telescopic adjusting frame to move left and right; the left upper end of the telescopic adjusting frame is provided with a first transmission shaft, and the right lower end of the telescopic adjusting frame is provided with a first outer guide roller; the angle adjusting frame is provided with a second transmission shaft, a second outer guide roller, a first inner guide roller and a second inner guide roller; the second transmission shaft is arranged at the upper right end of the angle adjusting frame; the second outer guide roller is arranged on the right side of the first outer guide roller; the first inner guide roller is arranged below the second outer guide roller; the second inner guide roller and the first outer guide roller are positioned at the same height and correspond to the left side of the first outer guide roller; the inner side of the conveying belt is wound between the first transmission shaft, the second transmission shaft, the first inner guide roller and the second inner guide roller, and the outer side of the conveying belt is wound around the first outer guide roller and the second outer guide roller; the angle adjusting frame is provided with a conveying belt driving device; and the power output end of the conveying belt driving device is in transmission connection with the second inner guide roller.

The utility model is further described, the jacking driving assembly comprises a first motor, a transmission belt, a second rotating shaft and two groups of worm lifters; the two groups of worm and gear lifters are arranged on the underframe in a front-back distribution way; the upper part of the worm wheel lifter is provided with a roller; the second rotating shaft is arranged on the underframe through a support and is connected between the two groups of worm lifters in a transmission way; the first motor is arranged at the rear side of the underframe, and the power output end is connected with the power input end of the worm wheel lifter at the rear side through a driving belt; two support rods which are distributed left and right are arranged above the corresponding jacking driving assembly on the angle adjusting frame; jacking blocks are respectively arranged above the two corresponding rollers between the two supporting rods; a sliding groove matched with the roller is formed in the bottom of the jacking block; the roller is propped in the chute.

Further describing the utility model, the X-axis driving device comprises a second motor, a third rotating shaft, two gears and two racks; the second motor is fixed at the left part of the angle adjusting frame; the third rotating shaft is rotatably connected to the angle adjusting frame and is connected with the power output end of the second motor; the two gears are arranged on the third rotating shaft in a front-back distribution way; the two racks are respectively arranged on the inner side of the telescopic adjusting frame in a front-back distribution manner and meshed with the gears.

Further describing the utility model, the inner side of the telescopic adjusting frame is provided with a plurality of first supporting frames and a plurality of supporting shafts; the first support frames and the support shafts are distributed at intervals; the upper surface of the first support frame is provided with two first positioning sliding grooves which are symmetrically distributed front and back; a second supporting frame is arranged on the right upper part of the angle adjusting frame; the left part of the second support frame is covered above the first support frame and the support shaft at the right part of the telescopic adjusting frame; the second support frame is provided with a second positioning chute corresponding to the first positioning chute; the inner side of the conveying belt is provided with a positioning convex strip matched with the first positioning sliding groove and the second positioning sliding groove.

For further description of the utility model, strip-shaped holes are respectively arranged on the front side and the rear side of the angle adjusting frame, which correspond to the second inner guide roller; the front end and the rear end of the second inner guide roller extend out of the strip-shaped hole; an adjusting seat is arranged on the right side of the angle adjusting frame, which corresponds to the strip-shaped hole; a screw rod is arranged on the adjusting seat; the screw rod is in threaded connection with the adjusting seat and is in rotary connection with the end part of the second inner guide roller.

The beneficial effects of the utility model are as follows:

this design is through the height of jacking drive assembly control angle adjustment frame left portion for angle adjustment frame rotates around first pivot, realizes the regulation of conveyer belt left portion position height, adapts to the high connecing of different blanking, and is used for controlling flexible adjustment frame's left and right sides slip through X axle drive arrangement, after sliding left, then can extend conveyer belt length to the left, adaptation product's ejection of compact position, after sliding right, then the conveyer belt left end shortens to right to suitable position and connects the product, and this adjustment in-process, the right-hand member position of conveyer belt remains unchanged, thereby has guaranteed that the discharge end position of conveyer belt is unchangeable.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a block diagram of a chassis and jack-up drive assembly of the present utility model;

FIG. 3 is a block diagram of the angle adjustment frame and the partial X-axis driving apparatus of the present utility model;

FIG. 4 is a view of the bottom view of FIG. 3;

FIG. 5 is a block diagram of a jacking block of the present utility model;

FIG. 6 is a block diagram of the telescoping adjustment rack and rack of the present utility model;

FIG. 7 is a block diagram of a first support bracket of the present utility model;

FIG. 8 is a block diagram of a conveyor belt of the present utility model;

fig. 9 is a connection structure diagram of the conveyor belt of the present utility model with the first transmission shaft, the second transmission shaft, the first inner guide roller, the second inner guide roller, the first outer guide roller and the second outer guide roller.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-9, a telescopic lifting adjustment type belt conveyor comprises a bottom frame 1, a jacking driving assembly 2, an angle adjusting frame 3, an X-axis driving device 4, a telescopic adjusting frame 5 and a conveying belt 6; the jacking driving assembly 2 is arranged at the left part of the underframe 1, and the power output end of the jacking driving assembly is upwards contacted with the angle adjusting frame 3; the right part of the underframe 1 is rotationally connected with the angle adjusting frame 3 through a first rotating shaft 11; the telescopic adjusting frame 5 is connected to the inner side of the angle adjusting frame 3 in a left-right sliding manner through a sliding rail pair 51; the X-axis driving device 4 is arranged on the angle adjusting frame 3 and is in transmission connection with the telescopic adjusting frame 5, and is used for controlling the telescopic adjusting frame 5 to move left and right; the left upper end of the telescopic adjusting frame 5 is provided with a first transmission shaft 52, and the right lower end of the telescopic adjusting frame is provided with a first outer guide roller 53; the angle adjusting frame 3 is provided with a second transmission shaft 31, a second outer guide roller 32, a first inner guide roller 33 and a second inner guide roller 34; the second transmission shaft 31 is arranged at the upper right end of the angle adjusting frame 3; the second outer guide roller 32 is arranged on the right side of the first outer guide roller 53; the first inner guide roller 33 is arranged below the second outer guide roller 32; the second inner guide roller 34 and the first outer guide roller 53 are positioned at the same height and are correspondingly positioned at the left side of the first outer guide roller 53; the inner side of the conveyer belt 6 is wound between the first transmission shaft 52, the second transmission shaft 31, the first inner guide roller 33 and the second inner guide roller 34, and the outer side of the conveyer belt 6 is wound around the first outer guide roller 53 and the second outer guide roller 32; the angle adjusting frame 3 is provided with a conveyer belt driving device 35; the power output end of the conveyer belt driving device 35 is in transmission connection with the second inner guide roller 34; the height of the left part of the angle adjusting frame 3 is controlled through the jacking driving assembly 2, the angle adjusting frame 3 rotates around the first rotating shaft 11, adjustment of the height of the left part of the conveying belt 6 is achieved, the left part is suitable for receiving of different blanking heights, the left and right sliding of the telescopic adjusting frame 5 is controlled through the X-axis driving device 4, the length of the conveying belt 6 can be prolonged to the left after the left sliding, the discharging position of a product is suitable, after the right sliding, the left end of the conveying belt 6 is shortened to the right to a proper position to receive the product, the position of the right end of the conveying belt 6 is kept unchanged in the adjustment process, accordingly, the position of the discharging end of the conveying belt 6 is guaranteed to be unchanged, and the height of the left end of the conveying belt 6 and the left and right positions are adjusted according to the discharging position in the actual use process.

The jacking driving assembly 2 comprises a first motor 21, a transmission belt, a second rotating shaft 22 and two groups of worm and gear lifters 23; the two groups of worm and gear lifters 23 are arranged on the underframe 1 in a front-back distribution manner; the upper part of the worm wheel lifter 23 is provided with a roller 24; the second rotating shaft 22 is arranged on the underframe 1 through a support and is connected between two groups of worm lifters 23 in a transmission way; the first motor 21 is arranged at the rear side of the underframe 1, and the power output end is connected with the power input end of the worm wheel lifter 23 at the rear side through a transmission belt; two support rods 36 which are distributed left and right are arranged above the corresponding jacking driving assembly 2 on the angle adjusting frame 3; jacking blocks 37 are respectively arranged above the two corresponding rollers 24 between the two supporting rods 36; the bottom of the jacking block 37 is provided with a chute 371 matched with the roller 24; the roller 24 is propped in the chute 371, the first motor 21 drives the worm wheel lifter 23 at the rear side to work through the driving belt, and drives the worm wheel lifter 23 at the front side to synchronously move through the second rotating shaft 22, the worm wheel timer drives the roller 24 connected to the upper end of the worm wheel timer to move up and down, and the roller 24 is propped against the jacking block 37, so that the left part of the angle adjusting frame 3 is driven to do lifting movement.

The X-axis driving device 4 comprises a second motor 41, a third rotating shaft 42, two gears 43 and two racks 44; the second motor 41 is fixed at the left part of the angle adjusting frame 3; the third rotating shaft 42 is rotatably connected to the angle adjusting frame 3 and is connected to the power output end of the second motor 41; the two gears 43 are arranged on the third rotating shaft 42 in a front-back distribution manner; the two racks 44 are respectively and longitudinally arranged on the inner side of the telescopic adjusting frame 5 and meshed with the gears 43, the second motor 41 drives the third rotating shaft 42 to rotate, the two gears 43 arranged on the third rotating shaft 42 rotate along with the rotation, and the gears 43 are meshed with the racks 44, so that the telescopic adjusting frame 5 fixedly connected with the racks 44 is driven to slide left and right.

A plurality of first supporting frames 54 and a plurality of supporting shafts 55 are arranged on the inner side of the telescopic adjusting frame 5; the first supporting frames 54 and the supporting shafts 55 are distributed at intervals; the upper surface of the first support frame 54 is provided with two first positioning sliding grooves 541 which are symmetrically distributed in front-back direction; a second supporting frame 38 is arranged on the upper right part of the angle adjusting frame 3; the left part of the second supporting frame 38 is covered above the first supporting frame 54 and the supporting shaft 55 at the right part of the telescopic adjusting frame 5; a second positioning chute 381 corresponding to the first positioning chute 541 is provided on the second support frame 38; the inside of conveyer belt 6 is equipped with first location spout 541 and second location spout 381 complex location sand grip 61, and the function of first support frame 54, back shaft 55 and second support frame 38 is all used for supporting conveyer belt 6 for the product can be in conveyer belt 6 top steady delivery, because flexible alignment jig 5 needs the regulation of horizontal movement, has the supporting part of partly overlapping between flexible alignment jig 5 and the angle modulation jig 3, and first location spout 541 and second location spout 381 and conveyer belt 6's location sand grip 61 cooperation, then can fix a position conveyer belt 6, prevent conveyer belt 6 off normal, improve conveyer belt 6's position accuracy.

The front side and the rear side of the angle adjusting frame 3 corresponding to the second inner guide roller 34 are respectively provided with a strip-shaped hole 301; the front and rear ends of the second inner guide roller 34 extend out of the strip-shaped hole 301; an adjusting seat 302 is arranged on the right side of the angle adjusting frame 3 corresponding to the strip-shaped hole 301; a screw rod 303 is arranged on the adjusting seat 302; the screw rod 303 is in threaded connection with the adjusting seat 302 and is in rotary connection with the end part of the second inner guide roller 34, and the front and rear positions of the second inner guide roller 34 are controlled through the adjusting screw rod 303, so that the second inner guide roller 34 tightens the conveying belt 6.

The above description should not be taken as limiting the scope of the present utility model, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical substance of the present utility model still fall within the scope of the present utility model.

Claims

1. The utility model provides a scalable lift adjustment formula belt feeder which characterized in that: comprises a bottom frame, a jacking driving component, an angle adjusting frame, an X-axis driving device, a telescopic adjusting frame and a conveying belt; the jacking driving assembly is arranged at the left part of the underframe, and the power output end of the jacking driving assembly faces upwards and contacts with the angle adjusting frame; the right part of the underframe is rotationally connected with the angle adjusting frame through a first rotating shaft; the telescopic adjusting frame is connected to the inner side of the angle adjusting frame in a left-right sliding manner through a sliding rail pair; the X-axis driving device is arranged on the angle adjusting frame and is in transmission connection with the telescopic adjusting frame and used for controlling the telescopic adjusting frame to move left and right; the left upper end of the telescopic adjusting frame is provided with a first transmission shaft, and the right lower end of the telescopic adjusting frame is provided with a first outer guide roller; the angle adjusting frame is provided with a second transmission shaft, a second outer guide roller, a first inner guide roller and a second inner guide roller; the second transmission shaft is arranged at the upper right end of the angle adjusting frame; the second outer guide roller is arranged on the right side of the first outer guide roller; the first inner guide roller is arranged below the second outer guide roller; the second inner guide roller and the first outer guide roller are positioned at the same height and correspond to the left side of the first outer guide roller; the inner side of the conveying belt is wound between the first transmission shaft, the second transmission shaft, the first inner guide roller and the second inner guide roller, and the outer side of the conveying belt is wound around the first outer guide roller and the second outer guide roller; the angle adjusting frame is provided with a conveying belt driving device; and the power output end of the conveying belt driving device is in transmission connection with the second inner guide roller.

2. The telescopic lifting adjustment belt conveyor according to claim 1, wherein: the jacking driving assembly comprises a first motor, a transmission belt, a second rotating shaft and two groups of worm and gear lifters; the two groups of worm and gear lifters are arranged on the underframe in a front-back distribution way; the upper part of the worm wheel lifter is provided with a roller; the second rotating shaft is arranged on the underframe through a support and is connected between the two groups of worm lifters in a transmission way; the first motor is arranged at the rear side of the underframe, and the power output end is connected with the power input end of the worm wheel lifter at the rear side through a driving belt; two support rods which are distributed left and right are arranged above the corresponding jacking driving assembly on the angle adjusting frame; jacking blocks are respectively arranged above the two corresponding rollers between the two supporting rods; a sliding groove matched with the roller is formed in the bottom of the jacking block; the roller is propped in the chute.

3. The telescopic lifting adjustment belt conveyor according to claim 1, wherein: the X-axis driving device comprises a second motor, a third rotating shaft, two gears and two racks; the second motor is fixed at the left part of the angle adjusting frame; the third rotating shaft is rotatably connected to the angle adjusting frame and is connected with the power output end of the second motor; the two gears are arranged on the third rotating shaft in a front-back distribution way; the two racks are respectively arranged on the inner side of the telescopic adjusting frame in a front-back distribution manner and meshed with the gears.

4. The telescopic lifting adjustment belt conveyor according to claim 1, wherein: the inner side of the telescopic adjusting frame is provided with a plurality of first supporting frames and a plurality of supporting shafts; the first support frames and the support shafts are distributed at intervals; the upper surface of the first support frame is provided with two first positioning sliding grooves which are symmetrically distributed front and back; a second supporting frame is arranged on the right upper part of the angle adjusting frame; the left part of the second support frame is covered above the first support frame and the support shaft at the right part of the telescopic adjusting frame; the second support frame is provided with a second positioning chute corresponding to the first positioning chute; the inner side of the conveying belt is provided with a positioning convex strip matched with the first positioning sliding groove and the second positioning sliding groove.

5. The telescopic lifting adjustment belt conveyor according to claim 1, wherein: the front side and the rear side of the angle adjusting frame, which correspond to the second inner guide roller, are respectively provided with a strip-shaped hole; the front end and the rear end of the second inner guide roller extend out of the strip-shaped hole; an adjusting seat is arranged on the right side of the angle adjusting frame, which corresponds to the strip-shaped hole; a screw rod is arranged on the adjusting seat; the screw rod is in threaded connection with the adjusting seat and is in rotary connection with the end part of the second inner guide roller.