CN215919641U - A slip table for adhesive tape installation - Google Patents

Abstract

The utility model relates to a sliding table for adhesive tape installation, which comprises a sliding bottom plate, a displacement cylinder and two finger clamping cylinders; the two finger clamping cylinders are arranged at two ends of a horizontally placed I-shaped part, and the I-shaped part is arranged on the displacement bottom plate in a way that the height of the I-shaped part can be adjusted through the rectangular platform and the guide optical axis; the displacement cylinder is connected with the displacement bottom plate in a driving mode and is installed on the sliding bottom plate, the displacement cylinder drives the finger clamping cylinder to move towards the position of the rubber strip, and the finger head of the finger clamping cylinder clamps the rubber strip. The utility model achieves the following beneficial effects: the rubber strip can be inserted, the position precision is high, the stability is good, and the adjusting precision is high.

Description

A slip table for adhesive tape installation

Technical Field

The utility model relates to an adhesive tape installation technical field especially is used for slip table of adhesive tape installation.

Background

In the adhesive tape installation of door plant, traditional mounting means is manual assembly's mode, nevertheless because assembly efficiency is low, influences the production efficiency of whole production line to installation accuracy is not high enough.

Therefore, a plurality of mechanical mounting processes are provided, and the automatic operation of the rubber strips is realized. The installation mode is that when the rubber strip is conveyed to the groove position of the door plate, the rubber strip is pressed into the groove by an extrusion method. However, the method can only mount the adhesive tape for the groove with a small inside and a large outside, and cannot mount the groove with a large inside and a small outside or the groove with different characteristics; and after the installation is finished and the extrusion force is removed, the condition that part of the rubber strips retreat outwards can occur.

Based on this, this company designs a set of brand-new technology different from ordinary installation, lets the adhesive tape install through the mode of inserting, can solve above-mentioned problem well.

During the insertion, the force and the accuracy of the insertion are guaranteed, so that the new process adopts the sliding table which is designed to realize the insertion.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide the sliding table for rubber strip installation, which can realize rubber strip insertion, and has high position precision, good stability and high adjustment precision.

The purpose of the utility model is realized by the following technical scheme: the sliding table for mounting the adhesive tape comprises a sliding bottom plate, a displacement cylinder and two finger clamping cylinders;

the two finger clamping cylinders are arranged at two ends of a horizontally placed I-shaped part, and the I-shaped part is arranged on the displacement bottom plate in a way that the height of the I-shaped part can be adjusted through the rectangular platform and the guide optical axis;

the displacement cylinder is connected with the displacement bottom plate in a driving mode, is installed on the sliding bottom plate and drives the finger clamping cylinder to move towards the position of the rubber strip, and the finger head of the finger clamping cylinder clamps the rubber strip.

Furthermore, the rectangular table is fixed on the displacement base plate, the I-shaped part is placed on the rectangular table, and the I-shaped part and the rectangular table are assembled through the guide optical axis; and a space for placing the adjusting cushion block is arranged between the vertical plates at the two ends of the I-shaped part and the rectangular table. After the cushion blocks are placed, the I-shaped part rises along the guide optical axis, and the height of the finger clamping cylinder can be adjusted. And at the in-process of centre gripping, can be according to the position of adhesive tape, the I-shaped spare is through sliding on the wire optical axis to realize automatic adjustment height.

Furthermore, two parallel sliding optical axes are arranged on the sliding bottom plate through a supporting block, a displacement block penetrates through the sliding optical axes, and the displacement bottom plate is fixed on the upper surface of the displacement block; the displacement block is designed into a notch shape for reducing friction force and is H-shaped, and the notch position of the displacement block is matched with the sliding optical axis for installation. The friction between the displacement block and the sliding optical axis is reduced, and the displacement block can move along the sliding optical axis conveniently.

The displacement plate and the displacement bottom plate have two design modes: firstly, the displacement block is in a horizontal plate shape, the displacement bottom plate comprises a horizontal part A and a vertical part A, a rib plate A for reinforcing the strength in the displacement direction is arranged between the horizontal part A and the vertical part A, and the vertical part A is connected with a displacement cylinder; secondly, the displacement bottom plate is in a horizontal plate shape; the displacement block comprises a horizontal part B and a vertical part B, and a rib plate B for positioning the displacement bottom plate is arranged between the horizontal part B and the vertical part B; the horizontal part B is H-shaped, and the vertical part B is connected with the displacement cylinder. The first design is to ensure that the displacement direction has a strong enough force; the second is to ensure the positional accuracy between the displacement base and the displacement block. In the case where the action intensity is not required, the second type is preferable.

Furthermore, the displacement cylinder is a three-axis cylinder, and is fixed on the sliding table bottom plate through a supporting block, and the height of the displacement cylinder is consistent with that of the I-shaped part. And the stability and the reliability of the action are ensured.

Furthermore, the sliding bottom plate is provided with a guide groove through a support, and the guide groove leads out an air pipe of the displacement cylinder, an air pipe of the finger clamping cylinder and an electric wire, so that the air pipe and the electric wire are prevented from being clamped when the sliding table acts, and the sliding table acts conveniently; the sliding bottom plate is penetratingly provided with a driving motor for driving the whole sliding table to act.

The utility model has the following advantages:

the clamping of the adhesive tape is realized by arranging the displacement cylinder, the I-shaped part and the finger clamping cylinder, so that the insertion mode of the adhesive tape is realized;

the rectangular table and the I-shaped parts form a spaced structure and the arrangement of the guide optical axis, so that fingers on the upper side and the lower side can clamp the adhesive tape together from the upper side and the lower side at the same force, and the adhesive tape is prevented from deforming; the arrangement of the I-shaped piece and the guide optical axis can realize automatic adaptation and height adjustment when the I-shaped piece clamps the adhesive tape;

the structure of displacement piece, displacement bottom plate and the structure between rectangle platform and the I-shaped spare have guaranteed the position precision and the stability of finger centre gripping cylinder, when carrying out the cartridge, can not produce between finger and the door plant and interfere to realize accurate cartridge.

Drawings

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

FIG. 2 is a schematic structural view of the displacement block as a horizontal plate;

FIG. 3 is a schematic structural view of a displacement block including a horizontal portion B and a vertical portion B;

in the figure: the device comprises a 1-sliding bottom plate, a 2-displacement cylinder, a 3-finger clamping cylinder, a 4-I-shaped part, a 5-rectangular table, a 6-guiding optical axis, a 7-displacement bottom plate, a 701-horizontal part A, a 702-vertical part A, a 703-rib plate A, an 8-sliding optical axis, a 9-displacement block, a 901-horizontal part B, a 902-vertical part B, a 903-rib plate B, a 10-guiding groove and a 11-driving motor.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 3, the sliding table for rubber strip installation includes a sliding bottom plate 1, a driving motor 11 is provided on the sliding bottom plate 1, an output end of the driving motor 11 passes through the sliding bottom plate 1, and an output end of the driving motor realizes movement of the whole sliding table through a gear.

Still be provided with finger centre gripping cylinder 3 on sliding bottom plate 1, the finger through finger centre gripping cylinder 3 cliies the adhesive tape, and when the slip table slided, the inslot that drives the adhesive tape and insert the door plant realizes the installation.

When clamping and putting down are realized, a motion is generated between the finger clamping cylinder 3 and the rubber strip, when the rubber strip is inserted, the cylinder body is close to the rubber strip firstly, then the clamping is performed, and then the whole sliding table slides; after the insertion is completed, when the sliding table needs to be reset, the clamping is loosened, and the cylinder body is far away from the door rubber strip. For this reason, this scheme is through setting up displacement cylinder 2 for drive finger centre gripping cylinder 3 realizes this action.

In the case of insertion, the clamping accuracy must be met, which is achieved by the positional accuracy and the stable accuracy of the movement. Otherwise, interference is easily formed and the position of the adhesive tape is not well installed during the insertion. Therefore, the scheme has the following structural design on the sliding table:

the overall design is as follows: two parallel sliding optical axes 8 are arranged on the sliding bottom plate 1 through a supporting block, and the axial direction of each sliding optical axis 8 is perpendicular to the side surface of each rubber strip; a slidable displacement block 9 is arranged on the sliding optical axis 8 in a matching manner, a displacement bottom plate 7 is arranged on the displacement block 9, and the displacement bottom plate 7 is connected with the displacement cylinder 2 in a driving manner; a horizontally arranged I-shaped part 4 is arranged on a displacement bottom plate 7 through a rectangular table 5, two finger clamping cylinders 3 are respectively arranged at two ends of the I-shaped part 4, and the two finger clamping cylinders 3 clamp the adhesive tape together.

Because during the assembly, the precision can not put in place by one step, and finger centre gripping cylinder 3 is from the upper and lower side with the adhesive tape centre gripping in-process of centre gripping, and the distance that the finger of upper and lower side apart from the adhesive tape is not equal so necessarily, consequently can not the same power way centre gripping, leads to the adhesive tape to warp easily. To enable adjustment, as shown in fig. 1: the rectangular platform 5 is fixed on the displacement bottom plate 7, the I-shaped part 4 is horizontally placed on the rectangular platform 5 upside down, and vertical plates at two ends of the I-shaped part 4 form a space with the rectangular platform 5; and the i-shaped member 4 is mounted on a rectangular table 5 through a guide optical axis 6. When needing to adjust, survey the height of downside finger, then survey the height that the adhesive tape need be installed to door plant groove department, obtain the height that needs to adjust through calculating, put the cushion in the interval department between the vertical board of I-shaped 4 and rectangle platform 5, require its thickness to be unanimous with the height that needs to adjust when selecting the cushion. The adjusting mode of firstly placing the cushion block and then screwing the cushion block is adopted, so that the adjusting accuracy is ensured.

When the finger clamping cylinder 3 on the H-shaped workpiece 4 clamps the rubber strip, the height position of the finger clamping cylinder 3 freely slides up and down along the guide optical axis 6 along the H-shaped workpiece 4, so that automatic adaptive adjustment is realized.

In order to make full use of the efficiency of the displacement cylinder 2 and reduce the friction force, in this embodiment, the moving block 9 is designed to be H-shaped with a notch for reducing the friction force, and the notch is installed in a manner of being matched with the sliding optical axis 8. The friction force between the displacement block 9 and the sliding optical axis 8 is reduced, and the movement of the displacement block 9 along the sliding optical axis 8 is facilitated.

In order to ensure enough action force and the position precision of the displacement bottom plate 7 (the position precision of the displacement bottom plate 7 ensures the precision of the finger clamping cylinder 3), two design ideas are adopted for the displacement block 9 and the displacement bottom plate 7, the first design idea is that enough action force exists (debugging is needed after installation), and the second design idea is that the displacement bottom plate 7 has better position precision at the initial stage of installation (debugging is basically not needed after installation).

The first design, as shown in fig. 2: the displacement block 9 is in a horizontal plate shape, the displacement bottom plate 7 comprises a horizontal part A701 and a vertical part A702, a rib plate A703 for enhancing the strength of the displacement direction is arranged between the horizontal part A701 and the vertical part A702, and the vertical part A702 is connected with the displacement cylinder 2. Namely, the rib plate A703 ensures the firmness between the horizontal part A701 and the vertical part A702 on one hand; on the other hand, when the displacement cylinder 2 acts, most of the generated pushing force is directly transmitted through the rib plate a703, and the strong action force is achieved.

The second design, as shown in fig. 3: secondly, the displacement bottom plate 7 is in a horizontal flat plate shape; the displacement block 9 comprises a horizontal part B901 and a vertical part B902, and a rib plate B903 for positioning the displacement bottom plate 7 is arranged between the horizontal part B901 and the vertical part B902; the horizontal portion B901 is H-shaped and the vertical portion B902 is connected to the displacement cylinder 2. The rib plate B903 is positioned according to the principle that a notch matched with the rib plate B903 is formed in the displacement bottom plate 7, the notch is clamped on the rib plate B903 when the displacement bottom plate 7 is installed, and then the displacement bottom plate is fixed on the displacement block 9 through a screw, so that errors caused by screwing the screw are avoided.

In this embodiment, the displacement cylinder 2 is a three-axis cylinder, and is fixed on the sliding table bottom plate 1 through a supporting block, and the height of the displacement cylinder is consistent with that of the i-shaped member 4, so that the stability and reliability of the movement are ensured.

On sliding bottom plate 1, be provided with guide groove 10 through the pillar, this guide groove 10 draws out the trachea of displacement cylinder 2, the trachea of finger centre gripping cylinder 3 and electric wire, presss from both sides trachea, electric wire when avoiding the slip table action, does benefit to and realizes the slip table action.

The above examples only represent preferred embodiments, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. A slip table for adhesive tape installation, its characterized in that:

comprises a sliding bottom plate (1), a displacement cylinder (2) and two finger clamping cylinders (3);

the two finger clamping cylinders (3) are arranged at two ends of a horizontally placed I-shaped part (4), and the I-shaped part (4) is arranged on the displacement bottom plate (7) through a rectangular table (5) and a guide optical axis (6) in a height-adjustable manner;

the displacement cylinder (2) is connected with the displacement bottom plate (7) in a driving mode, is installed on the sliding bottom plate (1), and drives the finger clamping cylinder (3) to move towards the position of the rubber strip, so that the finger clamping rubber strip of the finger clamping cylinder (3) can be clamped.

2. The slide table for adhesive tape mounting according to claim 1, wherein: the rectangular table (5) is fixed on the displacement bottom plate (7), the I-shaped part (4) is placed on the rectangular table (5), and the I-shaped part and the rectangular table are assembled through the guide optical axis (6);

an interval capable of placing an adjusting cushion block is arranged between the vertical plates at the two ends of the I-shaped part (4) and the rectangular table (5), and an inner hexagonal hole is formed in the upper end of the guide optical axis (6).

3. The slide table for adhesive tape mounting according to claim 2, wherein: the sliding bottom plate (1) is provided with two parallel sliding optical axes (8) through a supporting block, a displacement block (9) penetrates through the sliding optical axes (8), and the displacement bottom plate (7) is fixed on the upper surface of the displacement block (9);

the displacement block (9) is designed into a notch shape for reducing friction force and is H-shaped, and the notch position of the displacement block is matched with the sliding optical axis (8) for installation.

4. A slide for adhesive tape installation according to claim 3, wherein: the displacement block (9) is in a horizontal plate shape;

the displacement bottom plate (7) comprises a horizontal part A (701) and a vertical part A (702), a rib plate A (703) used for enhancing the strength in the displacement direction is arranged between the horizontal part A (701) and the vertical part A (702), and the vertical part A (702) is connected with the displacement cylinder (2).

5. A slide for adhesive tape installation according to claim 3, wherein: the displacement bottom plate (7) is in a horizontal plate shape;

the displacement block (9) comprises a horizontal part B (901) and a vertical part B (902), and a rib plate B (903) for positioning the displacement bottom plate (7) is arranged between the horizontal part B and the vertical part B;

the horizontal part B (901) is H-shaped, and the vertical part B (902) is connected with the displacement cylinder (2).

6. A slip table for adhesive tape installation according to claim 4 or 5, wherein: the displacement cylinder (2) is a three-axis cylinder, is fixed on the sliding table bottom plate (1) through a supporting block and is consistent with the position of the I-shaped part (4) in height.

7. The slide table for adhesive tape mounting of claim 6, wherein: the sliding bottom plate (1) is provided with a guide groove (10) through a support, and the guide groove (10) leads out an air pipe of the displacement cylinder (2), an air pipe of the finger clamping cylinder (3) and an electric wire;

and a driving motor (11) for driving the whole sliding table to act is penetratingly arranged on the sliding bottom plate (1).

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