CN213059071U - Synchronous belt conveying mechanism - Google Patents

Abstract

The utility model relates to a hold-in range transport mechanism belongs to conveyer belt technical field. A synchronous belt conveying mechanism is characterized in that a translation conveying belt system comprises a translation conveying belt, the translation conveying belt is sleeved on driving rollers at two ends, and a main driving wheel and a driven wheel are respectively arranged on the two driving rollers; the alignment conveyor belt system comprises an alignment conveyor belt, the alignment conveyor belt is sleeved on a driving wheel and a second follow-up wheel at two ends, the second follow-up wheel is installed at the top end of a vertical supporting column, a rotating wheel is installed at the top end of a rotating shaft, a bevel gear is installed at the bottom end of the rotating shaft, a first driving wheel and a bevel gear are installed at two ends of a transmission rotating shaft, and the bevel gear on the rotating shaft is matched with the bevel gear on the transmission rotating shaft; the follower wheel is connected with the first driving wheel through a chain. Through the structure of the synchronous conveyor belt mechanism with reasonable design, the parallel and stable forward movement of the materials is ensured, and the materials can be aligned at one end on the translation conveyor belt.

Description

Synchronous belt conveying mechanism

Technical Field

The utility model relates to a hold-in range transport mechanism belongs to conveyer belt technical field.

Background

In food processing, particularly, materials such as peppers generally need to be cut and segmented, at present, the materials are generally simply cut by hands, and part of the materials are machined by machines, but the lengths of the machined peppers are different and cannot meet the market requirement, so the reasons are mainly that the lengths of the cut segments are different due to the fact that the positions of the peppers are uneven and not parallel in the conveying process, the lengths of the cut segments are different, the pepper stems to the tips need to be divided into multiple segments, the quality of each segment is different, and the pepper segments with fixed lengths cannot be precisely cut by the existing cutting. Meanwhile, the device is not beneficial to the later-stage sorting, so how to provide a conveying device is important for cutting and sorting materials such as hot peppers, and the device is also a main research problem for technicians in the field.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that exists among the prior art, provide a hold-in range transport mechanism. The purpose is in order to realize the material on the conveyer belt, can guarantee that one end aligns, and can also can not lead to the emergence of skew because of aligning in the in-process of marcing, along with the steady operation of conveyer belt on the conveyer belt.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a synchronous belt conveying mechanism is characterized by comprising a translation conveyor belt system and an alignment conveyor belt system; the translation conveyor belt system comprises a translation conveyor belt, the translation conveyor belt is sleeved on the transmission rollers at two ends, a main transmission wheel is arranged at the end part of the roller shaft of the transmission roller at one end, and a follow-up wheel is arranged at the end part of the roller shaft of the transmission roller at the other end; the alignment conveyor belt system comprises an alignment conveyor belt, the alignment conveyor belt is sleeved on a driving wheel and a second follow-up wheel at two ends, the second follow-up wheel is arranged at the top end of a vertical supporting column, a rotating wheel is arranged at the top end of a rotating shaft, a bevel gear is arranged at the bottom end of the rotating shaft, a first driving wheel and a bevel gear are arranged at two ends of a transmission rotating shaft, and the bevel gear on the rotating shaft is matched with the bevel gear on the transmission rotating shaft; the follower wheel is connected with the first driving wheel through a chain.

The aligning conveyor belt is arranged on one side of a feeding end of the translating conveyor belt, the translating conveyor belt is used for supporting materials (such as hot peppers) to move horizontally forward, one section of the materials is attached to the aligning conveyor belt, the aligning conveyor belt and the translating conveyor belt are vertically arranged and move in parallel, the materials cannot be attached to the aligning conveyor belt due to the end portions, the materials rotate in the horizontal direction due to friction, and all the materials placed on the translating conveyor belt move forward in parallel in sequence.

On the basis of the technical scheme, the utility model discloses a reach the convenience of use and the stability of equipment, can also make following improvement to foretell technical scheme:

further, the belt surface of the alignment conveyor belt is perpendicular to the belt surface of the translation conveyor belt.

Further, the gear transmission between the translation conveyor belt and the alignment conveyor belt is 1:1 transmission.

The gear transmission is 1:1 transmission, so that synchronous operation of the translation conveying belt and the alignment conveying belt can be ensured, and the rotation of materials on the translation conveying belt caused by differential operation is avoided.

Furthermore, the main driving wheel is connected with the motor through a chain.

The motor drives the translation conveying belt to run, the translation conveying belt is connected with the first driving wheel through the follow-up wheel, and power transmission between the translation conveying belt and the alignment conveying belt and synchronous running are achieved.

Furthermore, the aligning conveyor belt system is also provided with an aligning system bottom plate, the rotating shaft is arranged in the vertical bearing seat, and the vertical bearing seat is fixedly arranged on the aligning system bottom plate through a bracket; the vertical supporting columns are fixedly installed on the adjusting seat plate, and the adjusting seat plate is fixed on the aligning system bottom plate through bolts.

Furthermore, the bolt holes in the adjusting seat plates are long holes, the adjusting bottom plate is provided with a pair of adjusting top plates, the aligning system bottom plate is provided with a pair of adjusting bolt plates, each adjusting bolt plate is provided with an adjusting bolt, the adjusting bottom plate is arranged between the two adjusting bolt plates, and each adjusting bolt abuts against the adjusting top plates.

The bottom plate of the aligning system is used for adjusting the position of the aligning conveying system, is convenient to install and is convenient to adjust the elastic band of the aligning conveying belt.

Further, a tensioning wheel is arranged on the bottom plate of the alignment system. The tension wheel is used for adjusting the tension degree of the chain between the follow-up wheel and the first transmission wheel.

Further, the conveyor belt moving system and the aligning conveyor belt system are installed on the machine frame.

Further, the translation conveyer belt set up for many conveyer belts side by side, leave the clearance between two adjacent conveyer belts.

The utility model has the advantages that: by the aid of the reasonable structure of the synchronous conveyor belt mechanism, parallel and stable forward movement of the materials is guaranteed, one ends of the materials can be aligned on the translation conveyor belt, human eyes are not needed to judge whether the end portions of the materials are aligned, and accuracy is improved; and the alignment conveyor belt and the translation conveyor belt run synchronously, so that the problem that the materials are deviated due to the fact that one ends of the materials are attached to the alignment conveyor belt and the materials possibly run at the differential speed of the two conveyor belts can be solved, and the later-stage materials are cut into equal-length sections to be guaranteed.

Drawings

FIG. 1 is a schematic perspective view of a synchronous belt conveying mechanism;

FIG. 2 is a schematic diagram of a synchronous belt conveying mechanism;

FIG. 3 is a perspective view of an alignment conveyor system;

FIG. 4 is a schematic diagram of the alignment conveyor system;

fig. 5 is an enlarged view of a portion a in fig. 3.

The reference numbers are recorded as follows: 1-a translation conveyor belt system, 2-an alignment conveyor belt system, 3-a motor, 4-a rack;

1.1-a translation conveyor belt, 1.2-a main driving wheel and 1.3-a follower wheel;

2.1-aligning conveyor belt, 2.2-driving wheel, 2.3-second follow-up wheel, 2.4-vertical bearing seat and 2.5-first driving wheel; 2.6-rotating shaft, 2.7-vertical supporting column, 2.8-aligning system bottom plate, 2.9-adjusting seat plate, 2.10-adjusting top plate, 2.11-adjusting bolt plate, 2.12-adjusting bolt and 2.13-first bearing seat.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

A synchronous belt conveying mechanism (see figures 1-5) comprises a frame 4 with a multilayer structure, wherein a motor 3, a translation conveyor belt system 1 and an alignment conveyor belt system 2 are installed on the frame 4, a frame plane for installing the translation conveyor belt system 2 is arranged on the frame 4, two ends of the frame plane are respectively provided with a driving roller, the end part of a roller shaft of one driving roller is provided with a main driving wheel 1.2, and the end part of the roller shaft of the other driving roller is provided with a follower wheel 1.3; the translation conveyor belt 1.1 is sleeved on the two driving rollers; a motor mounting frame is arranged on the machine frame below the main driving wheel 1.2, the motor 3 is mounted on the motor mounting frame, the motor 3 is connected with the main driving wheel 1.2 through a chain, and a certain number of tension pulleys can be arranged to ensure the tension degree of the chain; an alignment conveyor belt system mounting frame is arranged on the machine frame below the follower wheel 1.3, and the alignment conveyor belt system 2 is mounted on the alignment conveyor belt system mounting frame;

the alignment conveyor belt system 2 is provided with an alignment system bottom plate 2.8, a rotating shaft 2.6 is arranged in an upright bearing seat 2.4, the upright bearing seat 2.4 is fixedly arranged on the alignment system bottom plate 2.8 through a support, two ends of the rotating shaft 2.6 extend out of the upright bearing seat 2.4, a driving wheel 2.2 is arranged at the top end of the rotating shaft 2.6, and a bevel gear is arranged at the bottom end of the rotating shaft 2.6; the first driving wheel 2.5 and a bevel gear are arranged on a first bearing seat 2.13 through a shaft, the first driving wheel 2.5 and the bevel gear are arranged at two ends of the first bearing seat 2.13, the first bearing seat 2.13 is fixedly arranged on an alignment system bottom plate 2.8, and the two bevel gears are matched to realize right-angle transmission; the adjusting seat plate 2.9 is fixed on the aligning system bottom plate 2.8 through a bolt, and the adjusting seat plate 2.9 and the vertical bearing seat 2.4 are positioned at two ends of the aligning system bottom plate 2.8;

the bolt hole on the adjusting seat plate 2.9 is a long hole, in the installation process, the position of the adjusting seat plate 2.9 can be adjusted through the bolt hole, the vertical support column 2.7 is fixedly installed on the adjusting seat plate 2.9, the second follow-up wheel 2.3 is installed at the top end of the vertical support column 2.7, and the alignment conveyor belt 2.1 is sleeved on the second follow-up wheel 2.3 and the transmission wheel 2.2; a pair of adjusting top plates 2.10 are arranged on the adjusting bottom plate 2.9, and the two adjusting top plates 2.10 are positioned at two sides of the inner support column 2.7; a pair of adjusting bolt plates 2.11 are arranged on a bottom plate 2.8 of the alignment system, an adjusting bolt 2.12 is arranged on each adjusting bolt plate 2.11, an adjusting bottom plate 2.9 is arranged between the two adjusting bolt plates 2.11, and each adjusting bolt 2.12 abuts against an adjusting top plate 2.10; a tensioning wheel is arranged on the alignment system bottom plate 2.8;

the follow-up wheel 1.3 is connected with the first driving wheel 2.5 through a chain, and the chain is tensioned through a tensioning wheel;

the belt surface of the alignment conveyor belt 2.1 is perpendicular to the belt surface of the translation conveyor belt 1.1;

the gear transmission between the translation conveyor belt 1.1 and the alignment conveyor belt 2.1 is 1:1 transmission; the constant-speed operation of the translation conveyor belt and the alignment conveyor belt is realized;

the translation conveyer belt 1.1 sets up for many conveyer belts side by side, leaves the clearance between two adjacent conveyer belts.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. A synchronous belt transport mechanism, characterized by comprising a translating conveyor belt system (1) and an aligning conveyor belt system (2); the translation conveyor belt system (1) comprises a translation conveyor belt (1.1), the translation conveyor belt (1.1) is sleeved on the transmission rollers at two ends, a main transmission wheel (1.2) is installed at the end part of the roller shaft of the transmission roller at one end, and a follow-up wheel (1.3) is installed at the end part of the roller shaft of the transmission roller at the other end; the aligning conveyor belt system (2) comprises an aligning conveyor belt (2.1), the aligning conveyor belt (2.1) is sleeved on a driving wheel (2.2) and a second follow-up wheel (2.3) at two ends, the second follow-up wheel (2.3) is installed at the top end of a vertical supporting column (2.7), the driving wheel (2.2) is installed at the top end of a rotating shaft (2.6), a bevel gear is installed at the bottom end of the rotating shaft (2.6), a first driving wheel (2.5) and a bevel gear are installed at two ends of a driving rotating shaft, and the bevel gear on the rotating shaft (2.6) is matched with the bevel gear on the driving rotating shaft; the follower wheel (1.3) is connected with the first driving wheel (2.5) through a chain.

2. Synchronous belt transport mechanism according to claim 1, characterized in that the belt face of the alignment conveyor belt (2.1) is perpendicular to the belt face of the translation conveyor belt (1.1).

3. Synchronous belt transmission according to claim 1, characterized in that the gear transmission between the translating conveyor belt (1.1) and the aligning conveyor belt (2.1) is a 1:1 transmission.

4. A synchronous belt transmission as in claim 1 wherein the main drive wheel (1.2) is connected to the motor (3) by a chain connection.

5. The synchronous belt conveyor mechanism of claim 1, wherein the alignment conveyor belt system (2) further comprises an alignment system base plate (2.8), the rotating shaft (2.6) is mounted in the vertical bearing seat (2.4), and the vertical bearing seat (2.4) is fixedly mounted on the alignment system base plate (2.8) through a bracket; the vertical supporting columns (2.7) are fixedly arranged on the adjusting seat plate (2.9), and the adjusting seat plate (2.9) is fixed on the aligning system bottom plate (2.8) through bolts.

6. The synchronous belt conveying mechanism according to claim 5, wherein the bolt holes of the adjusting seat plate (2.9) are long holes, a pair of adjusting top plates (2.10) are arranged on the adjusting seat plate (2.9), a pair of adjusting bolt plates (2.11) are arranged on the aligning system bottom plate (2.8), one adjusting bolt (2.12) is arranged on each adjusting bolt plate (2.11), the adjusting seat plate (2.9) is installed between the two adjusting bolt plates (2.11), and each adjusting bolt (2.12) abuts against the adjusting top plate (2.10).

7. The timing belt transfer mechanism of claim 5, wherein the alignment system base plate (2.8) is provided with a tension wheel.

8. A synchronous belt transport mechanism as claimed in any one of claims 1 to 7, characterized in that the moving conveyor system (1) and the aligning conveyor system (2) are mounted on a frame (4).

9. Synchronous belt transmission according to claim 8, characterized in that the translatory conveyor belt (1.1) is a plurality of conveyor belts arranged side by side with a gap between two adjacent conveyor belts.

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