CN215100835U - A material loading equipment integral structure for membrane material pastes dress - Google Patents

Abstract

The utility model relates to the technical field of film material mounting technology, in particular to a feeding and assembling integrated structure for film material mounting, which comprises a sleeve and a vacuum hole arranged inside the sleeve; the device also comprises a jig for placing the membrane material to be absorbed; the integrated structure can move towards the jig; when the sleeve is tightly attached to the jig, the vacuum hole moves towards the film to be sucked until the sleeve contacts the film and is reset after being sucked. The utility model discloses an in the technical process of having solved current vacuum suction membrane material, need add the vacuum hole in order to increase the success rate of drawing materials usually, nevertheless can lead to the problem that the membrane material warp often.

Description

A material loading equipment integral structure for membrane material pastes dress

Technical Field

The utility model relates to a membrane material pastes dress technical field, in particular to a material loading equipment integral structure for membrane material pastes dress.

Background

The film material is a composite material composed of a high-strength fabric base material and a polymer coating layer, and is used in film structure engineering. In the mounting process of the small film, it is generally necessary to take a single film and perform the work, but since the film is too small, it is generally performed by a vacuum suction method.

In the existing technical means of adopting the vacuum adsorption membrane material, the success rate of material taking is not high due to the problems of smaller membrane material size and softer material, and even the membrane material is deformed.

The existing method for solving the problems that in the process of vacuum adsorption of the membrane material, in order to avoid deformation of the membrane material and improve the material taking success rate, a mode of increasing a suction nozzle vacuum hole is generally adopted, but the mode easily causes material taking deformation, or a mode of changing a single vacuum hole into a dense vacuum hole is adopted, but the mode also causes the problem of low material taking success rate.

Therefore, a feeding and assembling integrated structure for film material mounting is produced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an in the utility model provides a material loading equipment integral structure for membrane material pastes dress has mainly solved the technical process of current vacuum absorption membrane material, need add the vacuum hole in order to increase the success rate of drawing materials usually, nevertheless often can lead to the problem that the membrane material warp.

The utility model provides a feeding and assembling integrated structure for film material mounting, which comprises a sleeve and a vacuum hole arranged inside the sleeve; the device also comprises a jig for placing the membrane material to be absorbed; the integrated structure can move towards the jig; when the sleeve is tightly attached to the jig, the vacuum hole moves towards the film to be sucked until the sleeve contacts the film and is reset after being sucked.

Preferably, the sleeve comprises a first sleeve and a second sleeve which are detachably connected; the vacuum pipe is characterized by also comprising a vacuum suction pipe, wherein the end part of one end of the vacuum suction pipe is provided with the vacuum hole; the vacuum suction pipe penetrates through the first sleeve and the second sleeve, and the vacuum hole is formed in the second sleeve; the vacuum suction pipe can move along the length direction of the first sleeve and the second sleeve.

Preferably, a stop block is arranged on the vacuum suction pipe; the cross section of the stop block is smaller than that of the first sleeve and larger than that of the second sleeve; an elastic structure is arranged between one surface of the stop block facing the vacuum hole and the bottom surface of the first sleeve; the elastic structure has a tendency to move back when the vacuum holes move toward the film.

Preferably, the elastic structure is sleeved outside the vacuum straw.

Preferably, the end of the vacuum suction pipe is provided with a plurality of vacuum holes; all of the vacuum holes are arranged in rows and columns.

Preferably, a plurality of top columns are distributed on the jig; the membrane material to be absorbed is arranged on the surface of the top column; the sleeve covers the top column and the membrane material to be sucked comprehensively.

Preferably, the jig is provided with a fixing column for fixing the bottom film; the membrane material to be absorbed is uniformly distributed on the bottom membrane.

Preferably, the upper end of the top pillar is hemispherical.

From the above, use the utility model provides a technical scheme can obtain following beneficial effect:

firstly, the integrated structure provided by the utility model is provided with the sleeve, which is convenient for providing a nearly airtight vacuum environment when absorbing the membrane material, and is convenient for successfully absorbing the membrane material, and is also provided with a fixture for fixing the membrane material, thereby greatly improving the success rate of absorbing the membrane material and ensuring that the shape of the membrane material is not damaged when successfully absorbing the membrane material;

second, the utility model provides an integrated structure still is provided with the elastic construction among, but the order automatic re-setting exists the negative pressure in order to guarantee between vacuum hole and membrane material after absorbing the membrane material, and then absorbs the removal to the membrane material smoothly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic view of an integrated structure in an embodiment of the present invention in a using process;

fig. 2 is a schematic view of the overall structure of the jig according to the embodiment of the present invention;

fig. 3 is a bottom view of the integrated structure in the embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

In the existing technical process of sucking the membrane material in vacuum, a vacuum hole is usually needed to be additionally arranged so as to increase the success rate of material taking, but the membrane material is often deformed.

As shown in fig. 1 to 3, in order to solve the above problem, the present embodiment proposes a feeding and assembling integrated structure for film material mounting, which mainly includes a sleeve, and a vacuum hole 21 disposed inside the sleeve; the device also comprises a jig 40 for placing the membrane material to be absorbed; the integrated structure can move towards the jig 40; when the sleeve is tightly attached to the jig 40, the vacuum holes 21 move towards the film material until the sleeve contacts the film material and is reset after being sucked.

In the present embodiment, the vacuum holes 21 are disposed inside the sleeve, so that when the sleeve is tightly attached to the jig 40, the vacuum holes 21 can move toward the jig 40 and contact the film, and a separate space is formed inside the sleeve. The vacuum holes 21 are used for sucking the membrane material after space is vacuumized and generating negative pressure between the membrane material to enable the membrane material to be tightly attached to the vacuum holes 21, and at the moment, the vacuum holes 21 reset and lift the membrane material, so that the subsequent processes can be carried out.

More specifically, the sleeve comprises a first sleeve 11 and a second sleeve 12 which are detachably connected; the vacuum sucker 20 is further included, and a vacuum hole 21 is formed in one end of the vacuum sucker 20; the vacuum suction pipe 20 penetrates through the first sleeve 11 and the second sleeve 12, and the vacuum hole 21 is arranged in the second sleeve 12; the vacuum pipette 20 is movable along the length of the first sleeve 11 and the second sleeve 12.

Preferably, but not limitatively, the first sleeve 11 and the second sleeve 12 are connected by screw threads in this embodiment.

Preferably, but not limitatively, the range of movement of the vacuum hole 21 in this embodiment is always located within the second sleeve 12.

Preferably, but not limited to, the other end of the vacuum suction pipe 20 in this embodiment should be protruded from the first sleeve 11 to ensure smooth discharge of air.

More specifically, the vacuum suction pipe 20 is provided with a stopper 22; the cross section of the stop 22 is smaller than that of the first sleeve 11 and larger than that of the second sleeve 12; an elastic structure 30 is arranged between one surface of the stopper 22 facing the vacuum hole 21 and the bottom surface of the first sleeve 11; the elastic structure 30 has a tendency to move to an original state when the vacuum holes 21 move toward the film.

Preferably, but not limited to, the cross section of the opening at the other end of the first sleeve 11 is smaller than the cross section of the stopper 22, and the cross section of the stopper 22 is sized to ensure that the vacuum pipette 20 with the stopper 22 can be disposed in the first sleeve 11 and cannot be separated from the first sleeve 11, so as to ensure the proper functioning of the elastic structure 30.

Preferably, but not limited to, the elastic structure 30 is a spring in this embodiment, and the spring is sleeved outside the vacuum suction pipe 20.

More specifically, the end of the vacuum suction pipe 20 is provided with a plurality of vacuum holes 21; all the vacuum holes 21 are arranged in rows and columns.

In this embodiment, the vacuum holes 21 are arranged in rows and columns to ensure that the negative pressure applied to the film is the same at all locations to ensure the flatness of the film.

More specifically, a plurality of top pillars 41 are distributed on the jig 40, and the film material to be sucked is arranged on the surfaces of the top pillars 41; the sleeve covers the top column 41 and the membrane material to be sucked.

Preferably, but not limited to, the vacuum holes 21 cover the entire surface of the top pillar 41 and the film material to be sucked.

More specifically, the jig 40 is provided with a fixing column 50 for fixing the base film; the bottom film is uniformly distributed with film materials to be absorbed.

Preferably, but not limited to, the fixing column 50 in this embodiment is a pin for fixing the position of the bottom film, so as to ensure that the positions of the bottom film and the film material to be sucked are kept fixed during the sucking process.

Preferably, but not limited to, the film to be absorbed uniformly distributed on the bottom film in the present embodiment corresponds to the top pillars 41 uniformly distributed on the jig 40, so that the size of the bottom film can be matched with the jig 40.

Preferably, but not limited to, the upper end of the top pillar 41 is hemispherical in this embodiment.

In the present embodiment, the hemispherical top pillar 41 can be used to position the position of the film to be sucked, but is more convenient when the film is sucked in vacuum.

In summary, the present embodiment provides a material loading equipment integrated structure for membrane material pastes dress, it mainly absorbs structural the adding and establishes the sleeve to guarantee to wait to absorb the membrane material environment and be the vacuum environment, and then guarantee the smooth absorption of membrane material, and keep the roughness of membrane material in absorbing the in-process.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (8)

1. The utility model provides a material loading equipment integral structure for membrane material pastes dress which characterized in that: the integrated structure comprises a sleeve and a vacuum hole arranged in the sleeve; the device also comprises a jig for placing the membrane material to be absorbed; the integrated structure can move towards the jig; when the sleeve is tightly attached to the jig, the vacuum hole moves towards the film to be sucked until the sleeve contacts the film and is reset after being sucked.

2. The integrated loading and assembly structure for film mounting as claimed in claim 1, wherein: the sleeve comprises a first sleeve and a second sleeve which are detachably connected; the vacuum pipe is characterized by also comprising a vacuum suction pipe, wherein the end part of one end of the vacuum suction pipe is provided with the vacuum hole; the vacuum suction pipe penetrates through the first sleeve and the second sleeve, and the vacuum hole is formed in the second sleeve; the vacuum suction pipe can move along the length direction of the first sleeve and the second sleeve.

3. The integrated loading and assembly structure for film mounting as claimed in claim 2, wherein: the vacuum suction pipe is provided with a stop block; the cross section of the stop block is smaller than that of the first sleeve and larger than that of the second sleeve; an elastic structure is arranged between one surface of the stop block facing the vacuum hole and the bottom surface of the first sleeve; the elastic structure has a tendency to move back when the vacuum holes move toward the film.

4. The integrated loading and assembly structure for film mounting as claimed in claim 3, wherein: the elastic structure is sleeved outside the vacuum suction pipe.

5. The integrated loading and assembly structure for film mounting as claimed in claim 4, wherein: the end part of the vacuum suction pipe is provided with a plurality of vacuum holes; all of the vacuum holes are arranged in rows and columns.

6. The integrated loading and assembling structure for film mounting according to any one of claims 1 to 5, wherein: a plurality of top columns are distributed on the jig; the membrane material to be absorbed is arranged on the surface of the top column; the sleeve covers the top column and the membrane material to be sucked comprehensively.

7. The integrated loading and assembly structure for film mounting as claimed in claim 6, wherein: the jig is provided with a fixing column for fixing the bottom film; the membrane material to be absorbed is uniformly distributed on the bottom membrane.

8. The integrated loading and assembly structure for film mounting as claimed in claim 7, wherein: the upper end of the top column is hemispherical.

Images