CN113511374A - Automatic basement membrane coating device and method - Google Patents

Abstract

An automatic basement membrane coating device and a method thereof, the device comprises a membrane drawing device arranged on a Y-direction linear motion module, and the membrane drawing device is provided with a membrane clamping mechanism for clamping a membrane, a rear membrane pressing mechanism for pressing a part to be cut on the membrane on a supporting plate and a membrane cutting device for cutting the membrane flattened on the supporting plate; the front film pressing device is used for pressing the front end of the film on the device to be coated; in the method for coating the bottom film, the film drawing device draws out the film to enable the film to be covered on the upper surface of the device to be coated, the front film pressing device presses the front end of the film on the device to be coated, the film clamping mechanism releases the film and returns to the original position, the rear film pressing mechanism presses the film on the supporting plate, and the film is cut off through the film cutting mechanism. The invention can realize the mechanized automation of the film coating and cutting processes, has high production efficiency and can reduce the production cost.

Description

Automatic basement membrane coating device and method

Technical Field

The invention belongs to the technical field of building material packaging processes, and particularly relates to an automatic basement membrane coating device and method.

Background

At present, in the production process of a novel wall brick, most packages of finished brick piles are not coated with a bottom film; with the improvement of the automation level of production line equipment, the storage and transportation problems of finished bricks are different and serious; therefore, the finished brick package film is adopted by most building material enterprises, but most of the finished brick packages are manually coated with the film on the tray; in the production process, an operator cuts a finished film which is prepared in advance into a certain size by manual work, then the finished film is laid on a tray for packaging by manual work, the work of coating a base film is completed, and then the finished film is stacked and packaged. The manual method for applying the base film wastes a large amount of manpower, increases the production cost, and ensures that the production efficiency of the product is extremely low and is not matched with the modern automatic production.

Disclosure of Invention

The invention aims to overcome the defects of low success rate and high cost of an automatic film laying device in the prior art, and provides an automatic film laying device and a method, which can realize the mechanized full-automatic production of the whole technological process of film laying and film cutting, greatly improve the production efficiency and reduce the production cost; and simple structure, degree of automation is high.

In order to achieve the purpose, the invention adopts the technical scheme that: an automatic base film coating device is used for coating a film on a device to be coated, and comprises a film drawing device arranged on a Y-direction linear motion module, wherein the film drawing device is provided with a film clamping mechanism for clamping the film, a rear film pressing mechanism for pressing a part to be cut on the film onto a supporting plate and a film cutting mechanism for cutting the film flattened on the supporting plate;

and the front film pressing device is arranged in front of the device to be coated and is used for pressing the front end of the film on the device to be coated.

In the above technical solution, the Y-direction linear motion module includes a movable support capable of reciprocating along the feeding direction of the film.

In the technical scheme, the film clamping mechanism in the film pulling device is arranged at the rear part of the movable support, the film clamping mechanism comprises an upper clamping piece and a lower clamping piece which are used for clamping a film, and the width of the lower clamping piece is greater than that of the film.

Among the above-mentioned technical scheme, draw the place ahead that back press mold mechanism among the membrane device is located film clamping mechanism, including the back press mold support that sets up on the movable support and the back press mold board that is used for compressing tightly the film that sets up on the back press mold support of activity from top to bottom.

Among the above-mentioned technical scheme, the front portion of movable support still is equipped with the membrane mechanism that rolls, rolls the membrane mechanism and includes the running roller that can go up and down, and the running roller falls to the next position and can be pressed the film in the backup pad.

In the technical scheme, the film cutting mechanism is arranged between the rear film pressing mechanism and the film rolling mechanism, and a cutter type film cutting mechanism, a laser film cutting mechanism or a hot melting film cutting mechanism is adopted.

In the technical scheme, the cutter type film cutting mechanism comprises an X-direction linear motion module, a cutter rest and a cutter, wherein the cutter is installed on the cutter rest, the cutter rest is connected with the X-direction linear motion module, and the X-direction linear motion module is arranged on a movable support in the Y-direction linear motion module.

Among the above-mentioned technical scheme, preceding press mold device is including the preceding press mold support that can move about from top to bottom and the preceding press mold board of installation on preceding press mold support.

In the technical scheme, the film guide device which is matched with the film drawing device to feed the film to the device to be coated with the film is further arranged at the rear part of the frame, the film guide device comprises a material roll mechanism, a guide shaft group and a baffle plate assembly, the film roll to be coated is rotatably supported on the material roll mechanism, the guide shaft group is arranged in front of the material roll mechanism and comprises a plurality of rotatable guide shafts which are arranged in parallel at intervals to tension the film, and the baffle plate assembly comprises a left baffle plate and a right baffle plate to limit the left and right positions of the film in movement.

In the technical scheme, the film flattening device further comprises an air blowing device which is used for blowing air to the device to be filmed so as to flatten the film covered on the device to be filmed.

A method for automatically applying base film includes such steps as drawing film out by a film drawing unit, pressing the front end of film onto the film applying unit, releasing the film by the film drawing unit, pressing it onto the supporting plate behind the film applying unit, and cutting off the film by a film cutting unit.

The detailed steps of the method are as follows:

the front end of a film passing through a guide shaft group is clamped by a film clamping mechanism in a film pulling device, so that the front film pressing device, the rear film pressing mechanism and the film rolling mechanism are all positioned at an upper position;

starting the Y-direction linear motion module to drive the film pulling device to pull the front end of the film through the device to be coated so that the film covers the upper surface of the device to be coated;

thirdly, the front film pressing device acts to press the front end of the film on the device to be coated;

a film clamping mechanism in the film drawing device loosens the film, and the Y-direction linear motion module drives the film drawing device to return to the original position;

step five, in the return process of the Y-direction linear motion module, when the film rolling mechanism leaves the moving range of the front film pressing device, a roller of the film rolling mechanism falls to a dead weight position to press on the film;

step six, after the Y-direction linear motion module drives the film drawing device to return to the original position, a film clamping mechanism on the film drawing device clamps the film, a roller of the film rolling mechanism and a rear film pressing plate of the rear film pressing mechanism both fall to the lower position, and the film is flattened and compressed on the supporting plate;

step seven, the X-direction linear motion module drives the cutter to move along the width direction of the film to cut off the film on the supporting plate, and one working cycle is completed;

and step eight, repeating the steps one to seven, and carrying out the next working cycle.

Before the third step, the air blowing device arranged on the supporting plate blows air to the device to be coated through the gap of the device to be coated so as to flatten the thin film on the surface of the device to be coated.

The invention has the beneficial effects that: the automatic film coating and cutting machine is simple in structure and convenient to adjust and install, can realize automatic film coating and film cutting, can realize unmanned automatic production, improves production efficiency, reduces labor cost required by a production line, and solves the problems of storage and transportation of finished bricks.

Drawings

FIG. 1 is a front view of an automatic base film application apparatus according to the present invention;

FIG. 2 is a top view of an automatic base film application apparatus according to the present invention;

the labels in the figure are: 1-film guide device, 101-material roll mechanism, 1011-fixing ring, 1012-tip cone, 1013-material roll, 102-guide shaft group, 1021-guide shaft, 103-baffle plate assembly, 1031-baffle plate, 2-film drawing device, 201-film clamping mechanism, 2011-clamping unit, 2012-upper clamping piece, 2013-lower clamping piece, 202-rear film pressing mechanism, 2021-rear film pressing bracket, 203-film cutting mechanism, 2031-X direction linear motion module, 2032-knife rest, 2033-knife, 204-film rolling mechanism, 2041-rubber roll, 3-supporting plate, 4-air blowing device, 5-Y direction linear motion module, 6-front film pressing device, 601-front film pressing bracket, 602-front film pressing plate, 7-frame, 8-film pressing device, and film pressing device, 9-tray.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples, but the invention is not limited thereto.

Referring to the attached drawings, the automatic basement membrane coating device is used for laying a basement membrane with a certain length on a tray 9 before stacking bricks, and the tray 9 is the device to be coated with the basement membrane. In the following description of the apparatus, "front" and "rear" are both the direction in which the film is fed is referred to as "front" and "rear" on the contrary.

The device comprises a frame 7, a film guide device 1, a film drawing device 2, a supporting plate 3, a blowing device 4, a Y-direction linear motion module 5, a front film pressing device 6 and a tray 9 arranged below the frame 7, wherein the film guide device 1, the film drawing device 2, the supporting plate 3, the blowing device 4, the Y-direction linear motion module and the front film pressing device are arranged on the frame 7.

The film guiding device 1 is used for completing the feeding of the film 8 to the tray 9 in cooperation with the film drawing device 2. For this purpose, the film guiding device 1 comprises a material roll mechanism 101, a guide shaft group 102 and a baffle plate assembly 103, wherein the material roll mechanism 101 comprises a tip cone 1012, a fixing ring 1011 and a rotating shaft, the tip cone 1012 is installed on the rotating shaft, the fixing ring 1011 is arranged on the outer side of the tip cone 1012 to fix the tip cone 1012, a film roll to be laid is supported on the rotating shaft of the material roll mechanism 101 and is positioned between the two tip cones 1012, and the rotating shaft is rotatably supported at the rear end part of the machine frame 7; the guide shaft group 102 is arranged in front of the material roll mechanism 101 and comprises a plurality of rotatable guide shafts 1021 arranged on the frame 7 in parallel at intervals to tension the moving film 8; the shutter assembly 103 is disposed in front of the guide shaft 1021, and includes left and right shutters 1031 to restrict the left and right positions of the film 8 in movement.

The film drawing device 2 is installed on the Y-direction linear motion module 5, and the film clamping mechanism 201, the rear film pressing mechanism 202, the film cutting mechanism 203 and the film rolling mechanism 204 are arranged on the film drawing device 2 and are all arranged on a movable support of the Y-direction linear motion module 5. The film clamping mechanism 201 is positioned behind the rear film pressing mechanism 202, the rear film pressing mechanism 202 is positioned behind the film cutting mechanism 203, and the film rolling mechanism 204 is positioned in front of the film cutting mechanism 203; the film clamping mechanism 201 is provided with a clamping unit 2011, the clamping unit 2011 comprises a lower clamping piece 2013 and an upper clamping piece 2012 which can be opened and closed up and down, the width of the lower clamping piece 2013 is larger than that of the film 8, the number of the upper clamping pieces is two, the two clamping pieces are respectively positioned at two ends of the lower clamping piece 2013, the two corners of the film 8 are clamped by the upper clamping piece and the lower clamping piece, and the upper clamping piece and the lower clamping piece can be opened and closed up and down by adopting a finger cylinder in implementation. The rear film pressing mechanism 202 is provided with a rear film pressing bracket 2021 which can be lifted, the lower end of the rear film pressing bracket 2021 is provided with a rear film pressing plate, and the rear film pressing plate can be welded on the rear film pressing bracket 2021 or can be arranged into a structure integrated with the rear film pressing bracket 2021. The film cutting mechanism 203 adopts a cutter type structure to cut the film, and comprises an X linear motion module 2031, a cutter rest 2032 and a cutter 2033, wherein the X linear motion module 2031 is arranged on a movable bracket of the Y linear motion module 5, the cutter rest 2032 is fixed on the X linear motion module 2031, the cutter 2033 is fixed at the lower end of the cutter rest 2032, and the X linear motion module 2031 drives the cutter 2033 to move linearly and reciprocally along X to cut the film 8. The film rolling mechanism 204 is provided with a rubber roller 2041 which can be lifted, and the positions corresponding to the working state of the rubber roller 2041 are three types: an upper position, a dead weight position and a lower position, wherein the film 8 is pressed when the rubber roller 2041 is in the lower position.

In order to cut the film 8, a support plate 3 is arranged below the original position of the film drawing device 2, the width of the support plate 3 in the Y direction is not less than that of the movable support, the upper plate surface of the support plate 3 is flush with the upper surface of the tray 9, or the height difference of the two is within the production requirement range. A knife groove corresponding to the cutting knife is arranged on the supporting plate 3, and the cutting knife 2033 can move back and forth along the knife groove to cut off the film 8 straightly. During cutting, the rubber roller 2041 of the film rolling mechanism 204 is located at the lower position, the film 8 on one side of the cutter groove is pressed on the support plate 3, the rear film pressing support 2021 falls to the lower position, and the film 8 on the other side of the cutter groove is also pressed on the support plate 3, so that the film at the cutting position can be tightly attached to the support plate 3 on one hand, and the film 8 at the cutting position is tensioned on the other hand, so that the cutter 2033 can cut off the film 8 smoothly.

The "Y direction" is the same direction as the feeding direction of the film 8, and a direction perpendicular thereto in the horizontal plane is the "X direction".

The X-direction linear motion module 2031 and the Y-direction linear motion module 5 may adopt a synchronous belt type, a rack and pinion type, a screw rod type, a chain type, a linear motor, an air cylinder, an electric push rod type, and other linear motion transmission modes.

Alternatively, the film cutting mechanism 203 can also adopt a laser film cutting mechanism or a hot melting film cutting mechanism.

Preceding press mold device 6 sets up the front end at frame 7, including the preceding press mold support 601 that can go up and down and the preceding press mold board 602 at preceding press mold support 601 top, preceding press mold board 602 can weld in the front on press mold support 601, also can set to the structure integrative with preceding press mold support 601. After the front squeeze film holder 601 falls down, the front squeeze film plate 602 can press the front end of the film 8 against the front end of the tray 9.

In order to ensure that the film 8 can be flattened on the tray 9, an air blowing device 4 is arranged below the supporting plate 3, the air blowing device 4 can blow air towards the tray 9, and since the tray 9 has a plurality of criss-cross gaps, air flow can rapidly flow along the gaps, so that the film 8 is flattened on the tray 9, and then the film 8 is pressed by the front lamination plate 602.

Further, the lower clip 2013 is provided with a U-shaped avoiding groove, so that the front film pressing plate 602 can press the film 8 on the tray 9 through the avoiding groove.

The automatic basement membrane coating method adopting the device comprises the following steps:

firstly, placing the front film pressing device 6, the rear film pressing mechanism 202 and the film rolling mechanism 204 in an upper position, pulling the film 8 on the film roll to a position between an upper clamping piece 2012 and a lower clamping piece 2013 of the film clamping mechanism 201 through the film guiding device 1, and controlling the upper clamping piece 2012 to fall to clamp the film 8;

secondly, starting the Y-direction linear motion module 5 to drive the film drawing device 2 to linearly move from the original position to the rear position, wherein the film 8 covers the tray 9, and the front end of the film 8 reaches the moving range of the front film pressing device 6;

thirdly, after the air blowing device 4 blows air towards the tray 9, the front film pressing device 6 acts to press the front end of the film 8 on the tray 9;

fourthly, the film clamping mechanism 201 loosens the film 8, and the Y-direction linear motion module 5 drives the film drawing device 2 to return to the original position;

fifthly, in the return process of the Y-direction linear motion module 5, when the film rolling mechanism 204 leaves the moving range of the front film pressing device 6, the rubber roller 2041 of the film rolling mechanism 204 falls down and presses the film 8;

sixthly, after the film drawing device 2 is driven by the Y-direction linear motion module 5 to return to the original position, the film clamping mechanism 201 on the film drawing device 2 clamps the film 8, the rubber roller 2041 of the film rolling mechanism 204 is adjusted to be at the lower position, and the film 8 is pressed on the supporting plate 3 together with the pressed rear film pressing mechanism 202;

seventhly, the X-direction linear motion module 2031 drives the cutter 2033 to move along the cutter groove of the support plate 3 to cut off the film 8 tensioned on the support plate 3, thereby completing one working cycle;

and step eight, repeating the first step to the seventh step, and carrying out the next working cycle.

The above embodiments are only intended to illustrate the technical solution of the present invention and not to limit the same, and it should be understood by those of ordinary skill in the art that the specific embodiments of the present invention can be modified or substituted with equivalents with reference to the above embodiments, and any modifications or equivalents without departing from the spirit and scope of the present invention are within the scope of the claims to be appended.

Claims (13)

1. An automatic base film application device for applying a film to a device to be coated, comprising: the film cutting device comprises a film pulling device (2) arranged on a Y-direction linear motion module (5), wherein a film clamping mechanism (201) used for clamping a film (8), a rear film pressing mechanism (202) used for pressing a part to be cut on the film (8) on a supporting plate (3) and a film cutting mechanism (203) used for cutting the film (8) which is flattened on the supporting plate (3) are arranged on the film pulling device (2);

and the front film pressing device (6) is arranged in front of the device to be coated and is used for pressing the front end of the film (8) on the device to be coated.

2. An automatic carrier film application apparatus as defined in claim 1, wherein: the Y-direction linear motion module (5) comprises a movable support capable of reciprocating along the feeding direction of the film (8).

3. An automatic carrier film application apparatus as defined in claim 2, wherein: film clamping mechanisms (201) in the film drawing device (2) are arranged at the rear part of the movable support, each film clamping mechanism comprises an upper clamping piece (2012) and a lower clamping piece (2013) for clamping a film, and the width of each lower clamping piece (2013) is greater than that of the corresponding film (8).

4. An automatic carrier film application apparatus as defined in claim 2, wherein: the rear film pressing mechanism (202) in the film pulling device (2) is positioned in front of the film clamping mechanism (201) and comprises a rear film pressing support (2021) which is movably arranged on the movable support up and down and a rear film pressing plate which is arranged on the rear film pressing support (2021) and is used for pressing the film (8).

5. An automatic carrier film application apparatus as defined in claim 4, wherein: the front part of the movable support is also provided with a film rolling mechanism (204), the film rolling mechanism (204) comprises a roller capable of lifting, and the roller falls to the lower position and can press the film (8) on the supporting plate (3).

6. An automatic carrier film application apparatus as defined in claim 5, wherein: and the film cutting mechanism (203) is arranged between the rear film pressing mechanism (202) and the film rolling mechanism (204) and adopts a cutter type film cutting mechanism, a laser film cutting mechanism or a hot melting film cutting mechanism.

7. An automatic carrier film application apparatus as defined in claim 6, wherein: the cutter type film cutting mechanism comprises an X-direction linear motion module (2031), a cutter rest (2032) and a cutter (2033), wherein the cutter (2033) is installed on the cutter rest (2032), the cutter rest (2032) is connected with the X-direction linear motion module (2031), and the X-direction linear motion module (2031) is arranged on a movable support in the Y-direction linear motion module (5).

8. An automatic carrier film application apparatus as defined in claim 1, wherein: preceding press mold device (6) are including the preceding press mold support (601) that can move about from top to bottom and preceding press mold board (602) that set up on preceding press mold support (601).

9. An automatic carrier film application apparatus as defined in claim 1, wherein: the film guide device (1) is arranged at the rear part of the rack (7) and matched with the film drawing device (2) to complete feeding of the film (8) to the device to be coated, the film guide device (1) comprises a material roll mechanism (101), a guide shaft group (102) and a baffle plate assembly (103), the film roll to be coated is rotatably supported on the material roll mechanism (101), the guide shaft group (102) is arranged in front of the material roll mechanism (101) and comprises a plurality of rotatable guide shafts (1021) which are arranged in parallel at intervals to tension the film (8), and the baffle plate assembly (103) comprises a left baffle plate and a right baffle plate to limit the left and right positions of the film (8) in the moving process.

10. An automatic carrier film application apparatus as defined in claim 1, wherein: also comprises an air blowing device (4) used for blowing air to the device to be coated so as to flatten the thin film (8) covered on the device to be coated.

11. An automatic base film coating method is characterized in that a film (8) is firstly pulled out by a film pulling device (2) and is conveyed to a device to be coated, so that the film (8) covers the upper surface of the device to be coated, then the front end of the film (8) is pressed on the device to be coated by a front film pressing device (6), then the film (8) is loosened by the film pulling device (2) and returns to the original position, then the film (8) is pressed on a supporting plate (3) behind the device to be coated by the film pulling device (2), and finally the film (8) on the supporting plate (3) is cut off by a film cutting mechanism (204).

12. An automated method according to claim 11, comprising the steps of:

firstly, the front end of a film passing through a guide shaft group (102) is clamped by a film clamping mechanism (201) in a film pulling device (2), and a front film pressing device (6), a rear film pressing mechanism (202) and a film rolling mechanism (204) are ensured to be positioned at an upper position;

step two, starting the Y-direction linear motion module (5) to drive the film pulling device (2) to pull the front end of the film through the device to be coated, so that the film (8) covers the upper surface of the device to be coated;

step three, the front film pressing device (6) acts to press the front end of the film on the device to be coated;

fourthly, loosening the film (8) by a film clamping mechanism (201) in the film drawing device (2), and driving the film drawing device (2) to return to the original position by the Y-direction linear motion module (5);

step five, in the return process of the Y-direction linear motion module (5), when the film rolling mechanism (204) leaves the moving range of the front film pressing device (6), a roller of the film rolling mechanism (204) falls to a dead weight position to press on the film (8);

sixthly, after the Y-direction linear motion module (5) drives the film drawing device (2) to return to the original position, a film clamping mechanism (201) on the film drawing device (2) clamps the film (8), a roller of a film rolling mechanism (204) and a rear film pressing plate of a rear film pressing mechanism (202) both fall to the lower position, and the film (8) is flattened and pressed on the supporting plate (3);

seventhly, the X-direction linear motion module (2031) drives the cutter (2033) to move along the width direction of the film (8) to cut off the film (8) on the support plate (3) to complete one working cycle;

and step eight, repeating the steps one to seven, and carrying out the next working cycle.

13. An automatic method for applying a base film according to claim 12, wherein, before the third step, the air blowing means (4) provided on the supporting plate (3) blows air through the slit of the means for coating film toward the means for coating film to flatten the film (8) on the surface of the means for coating film.

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