CN216711502U - Two-position synchronous jacking device - Google Patents

Abstract

The utility model discloses a double-position synchronous jacking device which comprises two jacking mechanisms and a driving mechanism; the two jacking mechanisms are divided into a front jacking mechanism and a rear jacking mechanism, and the front jacking mechanism and the rear jacking mechanism are installed in a mirror image mode along the front-rear direction and are connected through a transmission plate of the driving mechanism; the driving mechanism comprises a double-stroke cylinder, a transmission plate and a driving bottom plate; the front jacking mechanism comprises a joint bearing A, a connecting seat, a double-slider guide rail, a connecting rod, a joint bearing B, a sliding table cylinder, a connecting plate, a jacking plate, a single-slider guide rail, a guide rail mounting plate, a jacking block and a front bottom plate. The connecting seats of the front jacking mechanism and the rear jacking mechanism are connected with the transmission plate, and the double-stroke cylinder drives the front jacking mechanism and the rear jacking mechanism to move together through the transmission plate, so that a complete synchronization effect is achieved. Compared with complex servo drive, the utility model greatly reduces the cost; for the superimposed mechanism of a plurality of cylinders, solved the not synchronous problem in jack-up both ends.

Description

Two-position synchronous jacking device

Technical Field

The utility model relates to jacking equipment on an automatic production line, in particular to a double-position synchronous jacking device.

Background

On the automated production line, some products need to be jacked at two positions to achieve the effect of stable operation. At present, two modes of jacking products at two positions are mainly adopted, one mode is realized by controlling a control motor, and the other mode is realized by utilizing a structure of jacking a plurality of cylinders in a layering manner. Although the effect can be achieved by using a mode of controlling the motor, the occupied space is large, the cost is high, and the control program is complicated; the structure of using a plurality of cylinders to jack up in a layered way has the problems that the cylinder cannot be completely synchronized and the structure is too complicated, and is not ideal for realizing synchronous jack-up.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model aims to design a double-position synchronous jacking device which is small in occupied space, low in cost and good in synchronism.

In order to achieve the purpose, the technical scheme of the utility model is as follows: a double-position synchronous jacking device comprises two jacking mechanisms and a driving mechanism; the two jacking mechanisms are divided into a front jacking mechanism and a rear jacking mechanism, and the front jacking mechanism and the rear jacking mechanism are installed in a mirror image mode along the front-rear direction and are connected through a transmission plate of the driving mechanism;

the driving mechanism comprises a double-stroke cylinder, a transmission plate and a driving bottom plate, the double-stroke cylinder is arranged at the lower part of the driving bottom plate, and the moving end of the double-stroke cylinder is fixedly connected with the transmission plate;

the front jacking mechanism comprises a joint bearing A, a connecting seat, a double-slider guide rail, a connecting rod, a joint bearing B, a sliding table cylinder, a connecting plate, a jacking plate, a single-slider guide rail, a guide rail mounting plate, a jacking block and a front bottom plate, wherein the double-slider guide rail is fixedly mounted on the front bottom plate, and the connecting seat is fixedly connected with the double sliders on the double-slider guide rail; the joint bearing A is fixedly arranged on the connecting seat, the joint bearing B is fixedly arranged on the connecting plate, and the joint bearing A is connected with the joint bearing B through a connecting rod; the two guide rail mounting plates are arranged on the front bottom plate side by side, and the two single-slider guide rails are respectively and fixedly mounted on the two guide rail mounting plates; the connecting seat is fixedly arranged at one end of the transmission plate through the adapter plate;

the sliding table air cylinder is arranged on a connecting plate, and the left side and the right side of the connecting plate are respectively and fixedly arranged on the sliding blocks of the two single-sliding-block guide rails; the moving end of the sliding table cylinder is fixedly connected with a jacking plate, and two jacking blocks are arranged on the upper side of the jacking plate;

and a front bottom plate in the front jacking mechanism is replaced by a rear bottom plate to form a rear jacking mechanism.

Furthermore, the surface of the transmission plate is U-shaped, and two ends of the transmission plate are respectively connected with the connecting seats of the front jacking mechanism and the rear jacking mechanism through respective adapter plates.

Further, the front bottom plate and the driving bottom plate are both positioned on the same side;

furthermore, the front bottom plate, the rear bottom plate and the driving bottom plate are fixedly arranged on a ground foundation.

Furthermore, the inner sides of the two guide rail mounting plates in the jacking mechanism are fixedly connected with the reinforcing plate.

Further, the sliding table cylinder and the double-stroke cylinder are respectively connected with a control system through control lines.

Furthermore, an opening is formed in a front bottom plate on the right side of the connecting seat in the front jacking mechanism, the upper end of the adapter plate is connected with the right side of the connecting seat, and the lower end of the adapter plate is connected with the transmission plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. the connecting seats of the front jacking mechanism and the rear jacking mechanism are connected with the transmission plate, and the double-stroke cylinder drives the front jacking mechanism and the rear jacking mechanism to move together through the transmission plate, so that a complete synchronization effect is achieved.

2. Compared with complex servo drive, the utility model greatly reduces the cost; compared with a mechanism with a plurality of cylinders stacked, the mechanism solves the problem that two jacking ends cannot be synchronized at the source.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a rear view of fig. 1.

FIG. 3 is a schematic view of a front lift mechanism.

Figure 4 is a schematic illustration of a jacking product of the present invention.

In the figure: 1. the double-stroke air cylinder, 2, a transmission plate, 3, a joint bearing A, 4, a connecting seat, 5, a double-slider guide rail, 6, a connecting rod, 7, a joint bearing B, 8, a sliding table air cylinder, 9, a connecting plate, 10, a jacking plate, 11, a single-slider guide rail, 12, a guide rail mounting plate, 13, a jacking block, 14, a front bottom plate, 15, a driving bottom plate, 16, a rear bottom plate, 17 and a switching plate.

Detailed Description

The utility model is further described below with reference to the accompanying drawings. As shown in fig. 1-4, a two-position synchronous jacking device comprises two jacking mechanisms and a driving mechanism; the two jacking mechanisms are divided into a front jacking mechanism and a rear jacking mechanism, the front jacking mechanism and the rear jacking mechanism are installed in a mirror image mode along the front-rear direction and are connected through a transmission plate 2 of the driving mechanism;

the driving mechanism comprises a double-stroke cylinder 1, a transmission plate 2 and a driving bottom plate 15, wherein the double-stroke cylinder 1 is arranged at the lower part of the driving bottom plate 15, and the moving end of the double-stroke cylinder 1 is fixedly connected with the transmission plate 2;

the front jacking mechanism comprises a joint bearing A3, a connecting seat 4, a double-slider guide rail 5, a connecting rod 6, a joint bearing B7, a sliding table cylinder 8, a connecting plate 9, a jacking plate 10, a single-slider guide rail 11, a guide rail mounting plate 12, a jacking block 13 and a front bottom plate 14, wherein the double-slider guide rail 5 is fixedly mounted on the front bottom plate 14, and the connecting seat 4 is fixedly connected with the double sliders on the double-slider guide rail 5; the joint bearing A3 is fixedly arranged on the connecting seat 4, the joint bearing B7 is fixedly arranged on the connecting plate 9, and the joint bearing A3 is connected with the joint bearing B7 through the connecting rod 6; the two guide rail mounting plates 12 are arranged on the front base plate 14 side by side, and the two single-slider guide rails 11 are respectively and fixedly mounted on the two guide rail mounting plates 12; the connecting seat 4 is fixedly arranged at one end of the transmission plate 2 through an adapter plate 17;

the sliding table air cylinder 8 is arranged on a connecting plate 9, and the left side and the right side of the connecting plate 9 are respectively and fixedly arranged on the sliding blocks of the two single-sliding-block guide rails 11; the moving end of the sliding table cylinder 8 is fixedly connected with a jacking plate 10, and two jacking blocks 13 are arranged on the upper side of the jacking plate 10;

the front bottom plate 14 of the front jacking mechanism is replaced by a rear bottom plate 16 to form a rear jacking mechanism.

Furthermore, the surface of the transmission plate 2 is U-shaped, and two ends of the transmission plate 2 are connected with the connecting seats 4 of the front jacking mechanism and the rear jacking mechanism through respective adapter plates 17.

Further, the front bottom plate 14 and the driving bottom plate 15 are both located on the same side;

further, the front bottom plate 14, the rear bottom plate 16 and the driving bottom plate 15 are all fixedly installed on the ground foundation.

Further, the inner sides of the two guide rail mounting plates 12 in the jacking mechanism are fixedly connected with the reinforcing plate.

Further, the sliding table cylinder 8 and the double-stroke cylinder 1 are respectively connected with a control system through control lines.

Furthermore, an opening is formed in a front bottom plate 14 on the right side of the connecting seat 4 in the front jacking mechanism, the upper end of the adapter plate 17 is connected with the right side of the connecting seat 4, and the lower end of the adapter plate is connected with the transmission plate 2.

The working method of the utility model comprises the following steps:

A. the sliding table cylinder 8 extends out to drive the jacking block on the jacking plate 10 to approach the supporting part of the product to be jacked;

B. the first section of stroke of the double-stroke cylinder 1 is pushed out to drive the transmission plate 2 to slide forwards, the transmission is transmitted to the connecting rod 6 through the connecting seat 4 and the double-slider guide rail 5 and then transmitted to the single-slider guide rail 11 through the connecting rod 6, and at the moment, the slider on the single-slider guide rail 11 moves upwards to drive the jacking block 13 to jack the product and move upwards to the first position to stop;

when the second stroke of the double-stroke cylinder 1 is pushed out, the product continues to move upwards until reaching the second position and then stops.

Fig. 4 is a schematic view of a jacking roller conveyor of the present invention.

The front, rear, left and right directions of the present invention are only relative to fig. 1, and do not constitute any limitation to the present invention.

The present invention is not limited to the embodiment, and any equivalent idea or change within the technical scope of the present invention is to be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a two position synchronous jacking device which characterized in that: comprises two jacking mechanisms and a driving mechanism; the two jacking mechanisms are divided into a front jacking mechanism and a rear jacking mechanism, the front jacking mechanism and the rear jacking mechanism are installed in a mirror image mode along the front-rear direction and are connected through a transmission plate (2) of the driving mechanism;

the driving mechanism comprises a double-stroke cylinder (1), a transmission plate (2) and a driving bottom plate (15), the double-stroke cylinder (1) is installed at the lower part of the driving bottom plate (15), and the moving end of the double-stroke cylinder (1) is fixedly connected with the transmission plate (2);

the front jacking mechanism comprises a joint bearing A (3), a connecting seat (4), a double-slider guide rail (5), a connecting rod (6), a joint bearing B (7), a sliding table cylinder (8), a connecting plate (9), a jacking plate (10), a single-slider guide rail (11), a guide rail mounting plate (12), a jacking block (13) and a front bottom plate (14), wherein the double-slider guide rail (5) is fixedly mounted on the front bottom plate (14), and the connecting seat (4) is fixedly connected with double sliders on the double-slider guide rail (5); the joint bearing A (3) is fixedly arranged on the connecting seat (4), the joint bearing B (7) is fixedly arranged on the connecting plate (9), and the joint bearing A (3) is connected with the joint bearing B (7) through a connecting rod (6); the two guide rail mounting plates (12) are arranged side by side on the front base plate (14), and the two single-slider guide rails (11) are respectively and fixedly mounted on the two guide rail mounting plates (12); the connecting seat (4) is fixedly arranged at one end of the transmission plate (2) through an adapter plate (17);

the sliding table air cylinder (8) is arranged on a connecting plate (9), and the left side and the right side of the connecting plate (9) are respectively fixedly arranged on the sliding blocks of the two single-sliding-block guide rails (11); the moving end of the sliding table cylinder (8) is fixedly connected with a jacking plate (10), and two jacking blocks (13) are arranged on the upper side of the jacking plate (10);

and a front bottom plate (14) in the front jacking mechanism is replaced by a rear bottom plate (16) to form a rear jacking mechanism.

2. The two-position synchronous jacking device according to claim 1, wherein: the surface of the transmission plate (2) is U-shaped, and two ends of the transmission plate (2) are connected with the connecting seats (4) of the front jacking mechanism and the rear jacking mechanism through respective adapter plates (17).

3. The two-position synchronous jacking device according to claim 1, wherein: the front bottom plate (14) and the driving bottom plate (15) are located on the same side.

4. The two-position synchronous jacking device according to claim 1, wherein: the front bottom plate (14), the rear bottom plate (16) and the driving bottom plate (15) are all fixedly installed on a ground foundation.

5. The two-position synchronous jacking device according to claim 1, wherein: the inner sides of two guide rail mounting plates (12) in the jacking mechanism are fixedly connected with the reinforcing plate.

6. The two-position synchronous jacking device according to claim 1, wherein: the sliding table cylinder (8) and the double-stroke cylinder (1) are respectively connected with a control system through control lines.

7. The two-position synchronous jacking device according to claim 1, wherein: an opening is formed in a front bottom plate (14) on the right side of the connecting seat (4) in the front jacking mechanism, the upper end of the adapter plate (17) is connected with the right side of the connecting seat (4), and the lower end of the adapter plate is connected with the transmission plate (2).

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