CN212126596U - Double-track conveying line with adjustable width - Google Patents

Abstract

The utility model relates to a point gum machine technical field especially relates to a double track way transfer chain that is used for adjustable width of point gum machine. A width-adjustable double-track conveyor line comprises four first, second, third and fourth tracks, wherein the first track and the second track form a first belt conveyor line, and the third track and the fourth track form a second belt conveyor line; the rails are arranged above the linear slide rail in parallel; the second, third and fourth tracks are all connected with a width adjusting motor and a support plate, the linear slide rail and the screw rod penetrate through the support plate, the width adjusting motor drives the screw rod connected with the width adjusting motor to rotate, and the screw rod drives the corresponding second, third and fourth tracks to slide along the slide rail. Compared with the conventional single belt line conveying, the utility model has a carrier with a backflow line and a backflow line; compared with the conventional double-belt line conveying, the three tracks are adjustable, and the maximum conveying width of a single line is increased under the same line body size; an independent output motor is arranged on each track to drive the belt lines to rotate, and the conveying direction is adjustable.

Description

Double-track conveying line with adjustable width

Technical Field

The utility model relates to a point gum machine technical field especially relates to a double track way transfer chain that is used for adjustable width of point gum machine.

Background

In the prior art, a dispenser generally adopts a conventional single belt or double belt lines to convey workpieces to be dispensed, and the conventional single belt or double belt lines convey workpieces from left to right. When the conventional single belt line is adopted for conveying, no backflow line exists, and the method is not suitable for dispensing workpieces requiring carrier backflow. While the width is adjustable and the reflux can be realized during the conventional double-belt line conveying. However, the 3 rd rail is generally not adjustable or needs manual adjustment, the adjustment width is not stable, the applicability is high, and when the product is too small, the left and right positions of the product cannot be guaranteed after the product is placed on the rail. When the product is too big, the product can not be placed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the width of the existing double-belt line track cannot be adjusted. The utility model aims at designing an adjustable wide double track way transfer chain, this adjustable wide double track way transfer chain's track is adjustable to be applicable to different products. Based on this purpose, the utility model discloses a technical scheme as follows:

a width-adjustable double-track conveying line comprises a first track, a second track, a third track and a fourth track, wherein the first track and the second track form a first belt conveying line, and the third track and the fourth track form a second belt conveying line; the first rail, the second rail, the third rail and the fourth rail are arranged above the linear slide rail in parallel; the second rail, the third rail and the fourth rail are connected with a width adjusting motor and a supporting plate, the linear sliding rail and the screw rod penetrate through the supporting plate, the width adjusting motor drives the screw rod connected with the width adjusting motor to rotate, and the screw rod drives the corresponding second rail, the corresponding third rail and the corresponding fourth rail to slide along the linear sliding rail.

Further, the width adjusting motor drives a first synchronous wheel to rotate through a first synchronous belt, and the first synchronous wheel drives a screw rod to rotate.

Furthermore, the number of the lead screws corresponding to each track is two, one end of one lead screw is connected to the first synchronous wheel, the other end of the lead screw is connected to the second synchronous wheel, the second synchronous wheel is connected to the second synchronous belt, and the second synchronous belt drives the other lead screw to rotate.

Furthermore, the number of the linear slide rails is two, and the linear slide rails are adjacent to the screw rod.

Further, the slider is mounted on the support plate through a slider mounting plate.

Furthermore, the first rail, the second rail, the third rail and the fourth rail are all connected with power conveying mechanisms.

Further, the power transmission mechanism comprises an output motor, the output motor is connected with a pulley through a flat belt, and the pulley is connected with an idler pulley through the flat belt.

Further, a flat belt support is arranged above the flat belt.

Furthermore, the first track, the second track, the third track and the fourth track are all connected with two power delivery mechanisms.

Furthermore, jacking limit is arranged on the first rail, the second rail, the third rail and the fourth rail.

Compared with the prior art, the utility model discloses the beneficial effect who has as follows: (1) compared with the conventional single-belt line conveying, the carrier with the backflow line can flow back; compared with the conventional double-belt line conveying, the three tracks are adjustable, and the maximum conveying width of a single line is increased under the same line body size; (2) an independent output motor is arranged on each track and drives the belt lines to rotate, the forward and reverse rotation of the output motors controls the conveying direction of the belt lines, and the conveying direction is adjustable.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the width adjustment of the present invention;

FIG. 3 is a schematic view of the width adjustment of the present invention;

FIG. 4 is a schematic view of the width adjustment of the present invention;

FIG. 5 is a schematic view of the width adjustment of the present invention;

FIG. 6 is a schematic view of the width adjustment of the present invention;

fig. 7 is a schematic structural view of a single rail according to the present invention;

FIG. 8 is a schematic view of the conveying direction of the first embodiment of the present invention;

FIG. 9 is a schematic view of the conveying direction of the second embodiment of the present invention;

FIG. 10 is a schematic view of the conveying direction of the third embodiment of the present invention;

FIG. 11 is a schematic view of the conveying direction of the fourth embodiment of the present invention;

in the figure, 1-a first rail, 2-a second rail, 3-a third rail, 4-a fourth rail, 5-a linear slide rail, 6-a width adjusting motor, 7-a support plate, 8-a screw rod, 9-a first synchronous belt, 10-a first belt conveying line, 11-a first synchronous wheel, 12-a second synchronous wheel, 13-a second synchronous belt, 14-a slide block, 15-a slide block mounting plate, 16-a power conveying mechanism, 161-an output motor, 162-a flat belt, 163-a pulley, 164-an idler wheel, 165-a flat belt support, 17-a jacking limiting block, 18-a screw rod nut and 20-a second belt conveying line.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

Example 1

As shown in fig. 1-6, a width-adjustable dual-rail conveyor line includes a first rail 1, a second rail 2, a third rail 3, and a fourth rail 4, where the first rail 1 and the second rail 2 form a first belt conveyor line 10, and the third rail 3 and the fourth rail 4 form a second belt conveyor line 20; the first track 1 is a reference track, the position is fixed, and the second track 2, the third track 3 and the fourth track 4 are arranged above the two linear slide rails 5 in parallel. Second track 2, third track 3 and fourth track 4 all connect and are equipped with width adjustment motor 6 and backup pad 7, and width adjustment motor 6 is used for the orbital position that the adjustment corresponds with it, and backup pad 7 plays the supporting role to the track on the one hand, and on the other hand makes things convenient for the track to slide on linear slide. Each track is equipped with width adjustment motor alone, is convenient for adjust each orbital position alone. The linear slide rail 5 and the screw rod 8 penetrate through the supporting plate 7, the width adjusting motor 6 drives the screw rod 8 connected with the width adjusting motor to rotate, and the screw rod 8 drives the corresponding second rail 2, the corresponding third rail 3 and the corresponding fourth rail 4 to slide along the linear slide rail 5.

The width adjusting motor 6 of each track drives a first synchronous wheel 11 to rotate through a first synchronous belt 9 connected with the width adjusting motor, and the first synchronous wheel 11 drives a screw rod 8 to rotate, so that the positions of the corresponding second track 2, the corresponding third track 3 and the corresponding fourth track 4 are adjusted.

In order to adjust the positions of the tracks more accurately, one end of each of the two corresponding screw rods 8 of the second track 2, the third track 3 and the fourth track 4 is connected to the first synchronous wheel 11, the other end of each of the two corresponding screw rods is connected to the second synchronous wheel 12, the second synchronous wheel 12 is connected to the second synchronous belt 13, and the second synchronous belt 13 drives the other screw rod to rotate.

The slider 14 is mounted on the support plate 7 by a slider mounting plate 15.

The first track 1, the second track 2, the third track 3 and the fourth track 4 are all connected with a power transmission mechanism 16.

As shown in fig. 7, the structure of the single track is schematically illustrated, wherein the power transmission mechanism 16 includes an output motor 161, the output motor 161 is connected to a pulley 163 through a flat belt 162, and the pulley 163 is connected to an idler pulley 164 through the flat belt 162. A flat belt support 165 is provided above the flat belt 162 to support the flat belt 162.

The first track 1, the second track 2, the third track 3 and the fourth track 4 are all connected with two power transmission mechanisms 16.

Jacking limiting blocks 17 are arranged on the first rail 1, the second rail 2, the third rail 3 and the fourth rail 4.

As shown in fig. 2, taking the second rail 2 as an example to adjust the position thereof, the width adjustment motor 6 drives the first synchronous wheel 11 to rotate through the first synchronous belt 9 connected thereto, so as to drive the screw 8 connected to the first synchronous wheel to rotate, the screw 8 drives the second synchronous wheel 12, the second synchronous wheel 12 is connected to the second synchronous belt 13, the second synchronous belt 13 drives the other screw 8 to rotate, so as to drive the support plate 7 connected to the screw 8 through the screw nut 18 to move, and the second rail 2 connected to the support plate 7 moves along the linear sliding rail 5. The second track 2 is driven by the positive and negative rotation of the width adjusting motor 6 to move towards different directions, so that the distance between the second track 2 and the first track 1 is adjusted, and the width of the first belt conveyor line 10 is further adjusted. Similarly, the third track 3 and the fourth track 4 are adjusted in the same manner.

As shown in fig. 3, the distance between the second track 2 and the first track 1 is equal, and the distance between the third track 3 and the fourth track 4 is equal. The first belt conveying line 10 and the second belt conveying line 20 have the same width, a gap is reserved between the first belt conveying line 10 and the second belt conveying line 20, and the width of a belt conveying line formed by four rails of the two belt conveying lines is smaller than the maximum width of the whole line body.

As shown in fig. 4, the distance between two adjacent rails is equal, the widths of the first belt conveyor line 10 and the second belt conveyor line 20 are equal, a gap is left between the first belt conveyor line 10 and the second belt conveyor line 20, and the width of the belt conveyor line formed by the four rails is equal to the maximum width of the whole line body.

As shown in fig. 5, the second track 2 and the first track 1 are equidistant from each other, the third track 3 and the fourth track 4 are equidistant from each other, and the second track 2 and the third track 3 are close to each other. The first belt conveyor line 10 and the second belt conveyor line 20 have the same width.

As shown in fig. 6, the first belt conveyor line 10 composed of the second rail 2 and the first rail 1, the second belt conveyor line 20 composed of the third rail 3 and the fourth rail 4, the second rail 2 and the third rail 3 are closely adjacent, and the first belt conveyor line 10 and the second belt conveyor line 20 have different widths.

As shown in fig. 8, the first belt conveyor line 10 and the second belt conveyor line 20 have different transmission directions, the first belt conveyor line 10 is used for feeding, and the second belt conveyor line 20 is used for jig reflow.

Example 2

As shown in fig. 9, the first belt conveyor line 10 and the second belt conveyor line 20 are driven in different directions, the first belt conveyor line 10 is used for jig reflow, and the second belt conveyor line 10 is used for feeding.

Example 3

As shown in fig. 10, the first belt conveyor line 10 and the second belt conveyor line 20 have the same driving direction and the same width, and are used for feeding materials with the same size at the same time.

Example 4

As shown in fig. 10, the first belt conveyor line 10 and the second belt conveyor line 20 have the same driving direction and different widths, and are used for feeding materials with different sizes at the same time.

Finally, it should be noted that: the above embodiments are only used for illustrating the present invention and do not limit the technical solution described in the present invention; thus, while the present invention has been described in detail with reference to the various embodiments thereof, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and within the scope and spirit of the following claims.

Claims (10)

1. The width-adjustable double-track conveying line is characterized by comprising a first track (1), a second track (2), a third track (3) and a fourth track (4), wherein the first track (1) and the second track (2) form a first belt conveying line (10), and the third track (3) and the fourth track (4) form a second belt conveying line (20); the first rail (1), the second rail (2), the third rail (3) and the fourth rail (4) are arranged above the linear sliding rail (5) side by side; second track (2), third track (3) and fourth track (4) are all connected and are equipped with width adjustment motor (6) and backup pad (7), and linear slide rail (5) and lead screw (8) pass backup pad (7) and set up, width adjustment motor (6) drive lead screw (8) rotatory that link to each other with it, and lead screw (8) drive second track (2), third track (3), fourth track (4) that correspond and slide along linear slide rail (5).

2. The width-adjustable double-rail conveying line according to claim 1, wherein: the width adjusting motor (6) drives a first synchronizing wheel (11) to rotate through a first synchronizing belt (9), and the first synchronizing wheel (11) drives a screw rod (8) to rotate.

3. The width-adjustable double-rail conveying line according to claim 2, wherein: the number of the corresponding screw rods (8) of the second track (2), the third track (3) and the fourth track (4) is two, one end of one screw rod is connected to the first synchronous wheel (11), the other end of the screw rod is connected to the second synchronous wheel (12), the second synchronous wheel (12) is connected to the second synchronous belt (13), and the second synchronous belt (13) drives the other screw rod to rotate.

4. The width-adjustable double-rail conveying line according to claim 3, wherein: the two linear sliding rails (5) are arranged adjacent to the screw rod (8).

5. The width-adjustable double-rail conveying line according to claim 1, wherein: the slide block (14) is arranged on the support plate (7) through a slide block mounting plate (15).

6. The width-adjustable double-rail conveying line according to claim 1, wherein: and the first track (1), the second track (2), the third track (3) and the fourth track (4) are all connected with a power conveying mechanism (16).

7. The width-adjustable double-rail conveying line according to claim 6, wherein: the power transmission mechanism (16) comprises an output motor (161), the output motor (161) is connected with a pulley (163) through a flat belt (162), and the pulley (163) is connected with an idler pulley (164) through the flat belt (162).

8. The width-adjustable double-rail conveying line according to claim 7, wherein: a flat belt support (165) is arranged above the flat belt (162).

9. The width-adjustable double-rail conveying line according to claim 1, wherein: and the first track (1), the second track (2), the third track (3) and the fourth track (4) are all connected with two power conveying mechanisms (16).

10. The width-adjustable double-rail conveying line according to claim 1, wherein: jacking limiting blocks (17) are arranged on the first rail (1), the second rail (2), the third rail (3) and the fourth rail (4).

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