CN110104382A

CN110104382A - A kind of flexible rotary conveyer structure

Info

Publication number: CN110104382A
Application number: CN201910457166.9A
Authority: CN
Inventors: 肖学良
Original assignee: XIANGYANG HUIBO MECHANICAL EQUIPMENT Co Ltd
Current assignee: XIANGYANG HUIBO MECHANICAL EQUIPMENT Co Ltd
Priority date: 2019-05-29
Filing date: 2019-05-29
Publication date: 2019-08-09
Anticipated expiration: 2039-05-29
Also published as: CN110104382B

Abstract

The present invention relates to conveyer technical fields, especially a kind of flexible rotary conveyer structure, including first support, two sides offer sliding slot above first support, sliding is placed with sliding block in sliding slot, support frame is welded between two sliding blocks, first support is welded with the first fixed plate, the first telescopic cylinder is welded in first fixed plate, baffle is welded with above first support both ends, the second symmetrical telescopic cylinder is welded with above support frame both ends, the second fixed plate is welded between two the second telescopic cylinders, first reducing motors are installed below second fixed plate, first reducing motors are connected with first rotating shaft, first rotating shaft is welded with angle-adjusting mechanism, and angle-adjusting mechanism is rotatably connected to second support, second conveyer belt is installed in second support, connecting rod is welded at the upper side of second telescopic cylinder, under connecting rod Side is equipped with buffer gear, and the present invention being capable of automatic telescopic revolution.

Description

A kind of flexible rotary conveyer structure

Technical field

The present invention relates to conveyer technical field more particularly to a kind of flexible rotary conveyer structures.

Background technique

Conveyer can be divided by function mode: dress is mended integrated conveyer, belt type conveyer, screw conveyor, bucket type and is mentioned The machine of liter, roller conveyor, plate-and-chain conveyer, wired belt conveyer and chain transfer, existing conveying mechanism not can be carried out flexible Revolution is automatically brought into operation so that can not flexible adaptation transport space, reduce working efficiency.

Summary of the invention

The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of flexible rotary conveyer proposed Structure.

To achieve the goals above, present invention employs following technical solutions:

A kind of flexible rotary conveyer structure, including first support are designed, the first conveyer belt is installed in the first support, Both ends are mounted on several symmetrical support rods below the first support, and the one end of the support rod far from first support is equal Idler wheel with brake structure is installed, two sides offer sliding slot above the first support, and sliding is put in the sliding slot It is equipped with sliding block, two sliding blocks weld at the upper side of the first support far from support frame is welded between one end in sliding slot It is connected to the first fixed plate, the first telescopic cylinder is welded in first fixed plate, is welded above the first support both ends There is baffle, is welded with the second symmetrical telescopic cylinder above support frame as described above both ends, two second telescopic cylinders are remote From the second fixed plate is welded between one end of support frame, first reducing motors are installed below second fixed plate, it is described The input terminal of first reducing motors is connected with external power supply, and the output end of the first reducing motors is connected with by shaft coupling One shaft, the first rotating shaft pass through the second fixed plate far from one end of first reducing motors and are welded with angle-adjusting mechanism, and Angle-adjusting mechanism is rotatably connected to second support far from one end of first rotating shaft, and the second transmission is equipped in the second support Band, the second telescopic cylinder upper side are welded with connecting rod, are equipped with buffer gear below the connecting rod.

Preferably, the angle-adjusting mechanism includes fixed block, the one end of the first rotating shaft far from first reducing motors It is welded with fixed block across the second fixed plate, the fixed block is welded with the first link block far from one end of first rotating shaft, described First link block is rotatablely connected the second support far from one end of fixed block, twists between first link block and second support Tightly there is screw.

Preferably, the buffer gear includes second reducing motors, is equipped with second reducing motors below the connecting rod, The input terminal of the second reducing motors is connected with external power supply, and the output end of the second reducing motors is connected by shaft coupling There is the second shaft, second shaft passes through connecting rod and is welded with third fixed plate, the rotation connection of third fixed plate side There are several the second link blocks, second link block is welded with slide plate far from one end of third fixed plate, on the slide plate It is stained with cushion.

Preferably, second shaft side is welded with several fixed plates, is welded with above the fixed plate Third telescopic cylinder, the third telescopic cylinder connect the corresponding slide plate far from one end of fixed plate.

Preferably, first telescopic cylinder connects support frame as described above far from one end of the first fixed plate.

A kind of flexible rotary conveyer structure proposed by the present invention, beneficial effect are: can make the second conveyer belt of splicing certainly Dynamic flexible revolution adjustment works, and can adjust the splicing height also angle of the second conveyer belt, material can be made to transmit Certain buffer function is played in journey.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of flexible rotary conveyer structure proposed by the present invention；

Fig. 2 is enlarged structure schematic diagram at the A of Fig. 1 proposed by the present invention；

Fig. 3 is enlarged structure schematic diagram at the B of Fig. 1 proposed by the present invention；

Fig. 4 is the overlooking structure diagram of Fig. 1 proposed by the present invention；

Fig. 5 is the structural schematic diagram of sliding block proposed by the present invention and sliding slot；

Fig. 6 is the structural schematic diagram of connecting rod proposed by the present invention.

In figure: first support 1, the first conveyer belt 2, support rod 3, idler wheel 4, sliding slot 5, sliding block 6, support frame 7, first are fixed Plate 8, the first telescopic cylinder 9, baffle 10, the second telescopic cylinder 11, the second fixed plate 12, first reducing motors 13, first rotating shaft 14, fixed block 15, the first link block 16, second support 17, the second conveyer belt 18, connecting rod 19, second reducing motors 20, second Shaft 21, third fixed plate 22, the second link block 23, slide plate 24, cushion 25, fixed plate 26, third telescopic cylinder 27, spiral shell Nail 28.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Referring to Fig.1-6, a kind of flexible rotary conveyer structure, including first support 1 are equipped with the first biography in first support 1 Band 2 is sent, 1 lower section both ends of first support are mounted on several symmetrical support rods 3, the one end of support rod 3 far from first support 1 It is mounted on the idler wheel 4 with brake structure, can carry out by idler wheel 4 in easily mobile first support 1 first passes Band 2 is sent, 1 top two sides of first support offer sliding slot 5, and sliding is placed with sliding block 6 in sliding slot 5, and two sliding blocks 6 are far from sliding Support frame 7 is welded between one end in slot 5, the both ends of support frame 7 are L shape structure, are welded at the upper side of first support 1 First fixed plate 8, is welded with the first telescopic cylinder 9 in the first fixed plate 8, the first telescopic cylinder 9 far from the first fixed plate 8 one Connection support frame 7 in end can drive support frame 7 to carry out elastic movement by the first telescopic cylinder 9, what support frame 7 connected Sliding block 6 will also slide back and forth in sliding slot 5, this makes it possible to make material receiving conveyor structure carry out splicing required for flexible adjust away from From.

It is welded with baffle 10 above 1 both ends of first support, baffle 10 is located at 2 two sides of the first conveyer belt, can prevent object Material is fallen from 2 edge of the first conveyer belt, is welded with the second symmetrical telescopic cylinder 11 above 7 both ends of support frame, and two It is welded with the second fixed plate 12 between second one end of telescopic cylinder 11 far from support frame 7, is equipped with below the second fixed plate 12 The input terminal of first reducing motors 13, first reducing motors 13 is connected with external power supply, and the output end of first reducing motors 13 is logical It crosses shaft coupling and is connected with first rotating shaft 14, two the second telescopic cylinders 11 are able to drive the second fixed plate 12 and carry out flexible up and down move It is dynamic, the height of suitable splicing needed for enabling material receiving conveyor structure to adjust up and down.

First rotating shaft 14 passes through the second fixed plate 12 far from one end of first reducing motors 13 and is welded with angle-adjusting mechanism, And angle-adjusting mechanism is rotatably connected to second support 17 far from one end of first rotating shaft 14, angle-adjusting mechanism includes fixed block 15, first rotating shaft 14 passes through the second fixed plate 12 far from one end of first reducing motors 13 and is welded with fixed block 15, fixed block 15 One end far from first rotating shaft 14 is welded with the first link block 16, and the first link block 16 is rotatablely connected far from one end of fixed block 15 Second support 17 is equipped with the second conveyer belt 18 in second support 17, starts first reducing motors 13, and the first deceleration can be made electric Machine 13 drives the fixed block 15 in first rotating shaft 14 turn to the direction for properly needing splicing, first reducing motors 13 and the One telescopic cylinder 9, which matches, can be realized flexible revolution splicing conveying, be connected above fixed block 15 by the rotation of the first link block 16 Connect second support 17, tightened screw 28 between the first link block 16 and second support 17, can unscrew the first link block 16 with Screw 28 between second support 17, this can be such that the second conveyer belt 18 of the splicing installed in second support 17 carries out up and down Rotation adjusts the tilt angle of splicing, tightens screw 28 after adjusting again.

Connecting rod 19 is welded at the upper side of second telescopic cylinder 11, connecting rod 19 is wave-like structure, connecting rod 19 Lower section is equipped with buffer gear, and buffer gear includes second reducing motors 20, is equipped with second reducing motors below connecting rod 19 20, the input terminal of second reducing motors 20 is connected with external power supply, and the output end of second reducing motors 20 is connected by shaft coupling There is the second shaft 21, the second shaft 21 passes through connecting rod 19 and is welded with third fixed plate 22, and the rotation of 22 side of third fixed plate connects Several the second link blocks 23 are connected to, second one end of link block 23 far from third fixed plate 22 is welded with slide plate 24, slide plate 24 three sides are the enclosed construction to raise upward, are stained with cushion 25 on slide plate 24, if 21 side of the second shaft is welded with Dry fixed plate 26,26 top of fixed plate are welded with third telescopic cylinder 27, and third telescopic cylinder 27 is far from fixed plate One end of block 26 connects corresponding slide plate 24, and the second link block 23, the second connection are rotatably connected in third fixed plate 22 Slide plate 24 has been welded on block 23, can star second reducing motors 20, and second reducing motors 20 will drive the second shaft 21 to connect Third fixed plate 22 rotated, make slide plate 24 turn to alignment the second conveyer belt 18 direction stop operating again, make material It is slipped to from splicing conveyer belt 18 on slide plate 24, when slide plate 24 turns to the direction of the first conveyer belt 2 of alignment, passes through third Telescopic cylinder 27 drives slide plate 24 to carry out flexible rotation downwards, will drop on the second conveyer belt 18 in the material on slide plate 24, The cushion 25 that can play a buffer role in is stained on slide plate 24.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims

1. a kind of flexible rotary conveyer structure, including first support (1), which is characterized in that be equipped on the first support (1) First conveyer belt (2), first support (1) lower section both ends are mounted on several symmetrical support rods (3), the support rod (3) one end far from first support (1) is mounted on the idler wheel (4) with brake structure, two sides above the first support (1) It offers sliding slot (5), sliding is placed with sliding block (6) in the sliding slot (5), and two sliding blocks (6) are far from sliding slot (5) One end between be welded with support frame (7), be welded with the first fixed plate (8) at the upper side of the first support (1), described first It is welded in fixed plate (8) the first telescopic cylinder (9), is welded with baffle (10) above first support (1) both ends, it is described Symmetrical the second telescopic cylinder (11) is welded with above support frame (7) both ends, two second telescopic cylinders (11) are remote It is welded between one end from support frame (7) the second fixed plate (12), is equipped with first below second fixed plate (12) and subtracts The input terminal of speed motor (13), the first reducing motors (13) is connected with external power supply, the first reducing motors (13) Output end is connected with first rotating shaft (14) by shaft coupling, the one end of the first rotating shaft (14) far from first reducing motors (13) It is welded with angle-adjusting mechanism across the second fixed plate (12), and angle-adjusting mechanism is rotated far from one end of first rotating shaft (14) It is connected with second support (17), is equipped with the second conveyer belt (18) on the second support (17), second telescopic cylinder (11) upper side is welded with connecting rod (19), is equipped with buffer gear below the connecting rod (19).

2. a kind of flexible rotary conveyer structure according to claim 1, which is characterized in that the angle-adjusting mechanism includes Fixed block (15), the first rotating shaft (14) pass through the second fixed plate (12) far from the one end of first reducing motors (13) and are welded with Fixed block (15), the fixed block (15) are welded with the first link block (16) far from the one end of first rotating shaft (14), and described first Link block (16) is rotatablely connected the second support (17) far from the one end of fixed block (15), first link block (16) and the Screw (28) have been tightened between two brackets (17).

3. a kind of flexible rotary conveyer structure according to claim 1, which is characterized in that the buffer gear includes second Decelerating motor (20), connecting rod (19) lower section are equipped with second reducing motors (20), the second reducing motors (20) Input terminal is connected with external power supply, and the output end of the second reducing motors (20) is connected with the second shaft by shaft coupling (21), second shaft (21) passes through connecting rod (19) and is welded with third fixed plate (22), third fixed plate (22) side Face is rotatably connected to several the second link blocks (23), and the one end of second link block (23) far from third fixed plate (22) is equal It is welded with slide plate (24), is stained with cushion (25) on the slide plate (24).

4. a kind of flexible rotary conveyer structure according to claim 3, which is characterized in that the second shaft (21) side It is welded with several fixed plates (26), is welded with third telescopic cylinder (27) above the fixed plate (26), described the Three telescopic cylinders (27) connect the corresponding slide plate (24) far from the one end of fixed plate (26).

5. a kind of flexible rotary conveyer structure according to claim 1, which is characterized in that first telescopic cylinder (9) One end far from the first fixed plate (8) connects support frame as described above (7).