CN109094867B - Thermal energy glue gun spraying type bottom support plate laminating device - Google Patents

Abstract

The invention discloses a thermal energy glue gun spraying type bottom support plate laminating device which comprises a frame, wherein one end of the frame is provided with a support shaft, one side of the support shaft is provided with a thermal energy glue gun spray head, and the lower station of the thermal energy glue gun spray head is provided with a cutter mechanism; the lower station of the cutter mechanism is provided with a supporting platform, and the frame is provided with a guide mechanism, a limiting part and a driving mechanism; a pressing plate is arranged right above the supporting platform, and a brushing mechanism for applying a covering film which is wider than the periphery of the foam plate to the side surface of the foam plate is arranged in a vertical stroke of downward movement of the foam plate; the machine frame is provided with a clamping part for traction of the tectorial membrane, and the clamping part is driven by a traction driving mechanism to reciprocate in the machine frame along the direction of the assembly line. The thermal energy glue gun spraying type bottom support plate laminating device adopts a mode of brushing edges in the vertical direction, so that the length of the whole laminating device is greatly shortened, the occupied space of equipment is further reduced, and the working efficiency is improved.

Description

Thermal energy glue gun spraying type bottom support plate laminating device

Technical Field

The invention relates to the technical field of bottom support plate laminating, in particular to a thermal energy glue gun spraying type bottom support plate laminating device.

Background

When products such as household appliances are packaged, the bottom supporting plates of foam are required to be arranged in the packaging box for shockproof treatment, so that the products are prevented from being destroyed or knocked due to vibration in the carrying process. In order to improve the service life and durability of a foam board, the bottom surface of the existing foam board is generally provided with a layer of paperboard, but as the paperboard is strong in water absorbability and poor in waterproofness and is easy to mildew when encountering damp, the friction coefficient between the foam board and the ground or a workbench is large, abrasion is serious, packaging quality is further affected, and certain potential safety hazards are generated for packaging and storing later products.

Disclosure of Invention

Therefore, the invention aims to solve the technical problems of complex structure, large occupied space and low production efficiency of the traditional thermal energy glue gun spraying type bottom support plate laminating device, and further provides the thermal energy glue gun spraying type bottom support plate laminating device.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a thermal energy glue gun spraying formula collet board tectorial membrane device, it includes the frame, the one end of frame is provided with the back shaft that is used for supporting the tectorial membrane roll, one side of back shaft is provided with the thermal energy glue gun shower nozzle of a plurality of side by side setting to the tectorial membrane one side coating glue solution, thermal energy glue gun shower nozzle is through supplying glue pipeline and glue solution storage device intercommunication, thermal energy glue gun shower nozzle's lower station is provided with the cutter mechanism that is used for cutting off the tectorial membrane that pulls out, thermal energy glue gun shower nozzle and cutter mechanism all fix in the frame; the lower station of the cutter mechanism is provided with a supporting platform for placing a foam board, and the rack is provided with a guide mechanism for guiding the supporting platform to move up and down, a limit part for limiting the highest lifting height of the supporting platform and a driving mechanism for driving the supporting platform to move upwards; a pressing plate used for pressing the foam plate and the supporting platform downwards to vertically move is arranged right above the supporting platform, and a brushing edge mechanism used for applying a covering film which is wider than the periphery of the foam plate to the side surface of the foam plate is arranged in the vertical stroke of the downward movement of the foam plate; the machine frame is provided with a clamping part for dragging the free end of the film to a lower station so as to cover the supporting plate, and the clamping part is driven by a traction driving mechanism to reciprocate in the machine frame along the direction of the production line.

Preferably, the edge brushing mechanism comprises a first edge brushing mechanism, a second edge brushing mechanism and a third edge brushing mechanism, wherein the first edge brushing mechanism is used for brushing the first side surface and the third side surface of the foam board, the second edge brushing mechanism is used for brushing the four corners of the foam board, the third edge brushing mechanism is used for brushing the second side surface and the fourth side surface of the foam board, the adjacent height difference of the first edge brushing mechanism, the second edge brushing mechanism and the third edge brushing mechanism is larger than or equal to the size that the covering film is wider than the bottom surface of the foam board, and the adjacent height difference of the first edge brushing mechanism, the second edge brushing mechanism and the third edge brushing mechanism is sequentially arranged from top to bottom in the height direction.

Preferably, the first edge brushing mechanism comprises two transverse brushing plates fixed on two sides of the frame along the direction perpendicular to the assembly line of the frame, bristles extending horizontally in opposite directions are arranged on opposite sides of the two transverse brushing plates, and the interval between the bristles on the two transverse brushing plates is smaller than or equal to the distance between the first side surface and the third side surface of the foam plate.

Preferably, the second edge brushing mechanism is arranged below the first edge brushing mechanism, and positions corresponding to the four corners of the foam board vertically attach the parts of the first side surface and the third side surface of the foam board, which are wider than the foam board body after being brushed by the first edge brushing mechanism, to the second side surface and the fourth side surface.

Preferably, the second edge brushing mechanism is a rotary cylinder or a spring plate or a push plate which is arranged at positions corresponding to four corners of the foam plate.

Preferably, the third edge brushing mechanism comprises two longitudinal brushing plates fixed on the frame along the direction of the assembly line of the frame, bristles extending horizontally in opposite directions are arranged on opposite sides of the two longitudinal brushing plates, and the interval between the bristles on the two longitudinal brushing plates is smaller than or equal to the distance between the second side surface and the fourth side surface of the foam plate.

Preferably, the guiding mechanism is at least one guiding column fixed on the frame, the guiding column is vertically arranged, the supporting platform is connected with a guiding sleeve sleeved on the guiding column, and the guiding sleeve slides up and down along the axis direction of the guiding column so as to guide the supporting platform to move up and down.

Preferably, the below of supporting platform is connected with the horizontal pole that sets up, the at least one end of horizontal pole is connected with the stay cord, the other end of stay cord is connected with the balancing weight, fixedly provided with in the frame supplies the mid portion of stay cord bypasses the gyro wheel, the balancing weight passes through the stay cord drives supporting platform upward movement.

Preferably, a limit rod for preventing the cross rod from moving upwards is arranged on the guide post or the rack.

Preferably, the traction driving mechanism comprises synchronous belts arranged at two sides of the frame along the direction of the flowing water and a traction motor for driving the synchronous belts to rotate; the clamping part is fixed on the clamping support rod, and two ends of the clamping support rod are respectively fixed on two synchronous belts which are arranged in parallel; the traction motor rotates forward or backward so as to drive the clamping part to approach or separate from the free end of the film at the cutter mechanism.

Preferably, the film covered roll is a woven bag film roll or a plastic film roll.

Preferably, the support shaft is an inflatable shaft.

The thermal energy glue gun spraying type bottom support plate laminating device has at least the following beneficial effects:

according to the thermal energy glue gun spraying type bottom support plate laminating device, the laminating film of the wide foam plate is attached to the side face of the foam plate in the mode of brushing edges in the vertical direction, so that the length of the whole laminating device is greatly shortened, the occupied space of equipment is further reduced, the edge brushing mechanism is arranged in the vertical stroke of the foam plate in the pressing process, the edge brushing actions of four sides and four corners can be realized through one pressing action, the working efficiency is further greatly improved, and power source equipment is saved; the supporting platform has a certain vertical stroke in the vertical direction, and foam board coating films with different thickness sizes can be applied by adjusting the size of the vertical stroke and the interval of the edge brushing mechanism, so that the application range of the invention is further improved, and the device can be particularly used for processing thinner foam boards, which cannot be realized by the conventional equipment.

Drawings

In order that the invention may be more readily understood, the invention will be described in further detail below with reference to the following drawings, in which:

FIG. 1 is a schematic perspective view of a thermal energy glue gun spraying type bottom support plate film laminating device;

FIG. 2 is a schematic perspective view of a thermal energy glue gun spraying type bottom support plate film covering device of the invention, wherein a pressing plate is removed, and a cross rod of an outer support is arranged;

FIG. 3 is a schematic diagram of a rotary cylinder on a thermal energy glue gun spraying type bottom support plate laminating device;

FIG. 4 is a schematic view of the structure of a foam deck placed on a cover film of a support platform;

FIG. 5 is a schematic view of the structure of the first edge brushing mechanism after brushing the foam board;

FIG. 6 is a schematic view of the structure of the second edge brushing mechanism after brushing the edges of the foam board;

fig. 7 is a schematic structural view of the third edge brushing mechanism after brushing the edges of the foam board.

The reference numerals in the drawings are as follows:

1-a frame; 2-a support shaft; 3-heat energy glue gun nozzle; 4-a cutter mechanism; 41-knife rest; 42-blade; 43-cutting the support plate; 5-a support platform; 51-a guide sleeve; 6-a guiding mechanism; 7-a limiting part; 8-a driving mechanism; 9-pressing plates; 10-clamping part; 11-traction drive mechanism; 111-a synchronous belt; 12-a first edge brushing mechanism; 121-a transverse brush plate; 13-a second edge brushing mechanism; 131-a rotary cylinder; 132-flexible brush sheets; 14-a third edge brushing mechanism; 141-longitudinal brushing plates; 15-a cross bar; 16-pulling rope; 17-balancing weight; 18-a roller; 19-a limit rod; 20-clamping the supporting rod; 21-foam board; 22-coating; 23-broadside.

Detailed Description

Referring to fig. 1, a thermal energy glue gun spraying type bottom support plate laminating device comprises a frame 1, wherein one end (the upper left corner end in fig. 1) of the frame 1 is provided with a support shaft 2 for supporting a laminating roll, one side of the support shaft 2 is provided with a thermal energy glue gun spray head 3 for coating glue solution on one side of the laminating film, and the thermal energy glue gun spray head 3 is communicated with a glue solution storage device through a glue supply pipeline; a lower station (an upper station is on the left upper corner side and a lower station is on the right lower corner side in fig. 1) of the thermal energy glue gun nozzle 3 is provided with a cutter mechanism 4 for cutting off the pulled film, the cutter mechanism 4 comprises a cutter rest 41 and a blade 42 fixed on the cutter rest, the cutter rest 41 is driven by a cylinder to cut downwards, and a cutting support plate 43 is arranged right below the blade 42 for supporting the film from below and cutting off the film in cooperation with the cutter; the thermal energy glue gun spray head 3 and the cutter mechanism 4 are both fixed on the frame 1; the lower station of the cutter mechanism 4 is provided with a supporting platform 5 for placing a foam board, the frame 1 is provided with a guide mechanism 6 for guiding the supporting platform 5 to move up and down, a limit part 7 for limiting the highest lifting height of the supporting platform 5, and a driving mechanism 8 for driving the supporting platform 5 to move upwards; a pressing plate 9 for pressing down the foam board (the foam board is manually placed at the middle position of the supporting platform and is not shown in the figure) and the supporting platform 5 to vertically move is arranged right above the supporting platform 5, and the pressing plate 9 can be driven to press down by an air cylinder or a cam mechanism and the like; the vertical stroke of the downward movement of the foam board is provided with a side brushing mechanism for applying the covering film which is wider than the periphery of the foam board to the side surface of the foam board; the machine frame 1 is provided with a clamping part 10 for drawing the free end of the film to a lower station to cover the supporting plate, the opening or clamping action of the clamping part 10 is driven by an air cylinder, and the clamping part 10 is driven by a drawing driving mechanism 11 to reciprocate on the machine frame 1 along the direction of the production line. According to the thermal energy glue gun spraying type bottom support plate laminating device, the laminating film of the wide foam plate is attached to the side face of the foam plate in the mode of brushing edges in the vertical direction, so that the length of the whole laminating device is greatly shortened, the occupied space of equipment is further reduced, the edge brushing mechanism is used for realizing edge brushing actions of four sides and four corners by one-time pressing action in the vertical stroke of the foam plate in the pressing process of the foam plate, the working efficiency is further greatly improved, and power source equipment is saved; the supporting platform has a certain vertical stroke in the vertical direction, and foam board coating films with different thickness sizes can be applied by adjusting the size of the vertical stroke and the interval of the edge brushing mechanism, so that the application range of the invention is further improved, and the device can be particularly used for processing thinner foam boards, which cannot be realized by the conventional equipment.

In this embodiment, the edge brushing mechanism includes a first edge brushing mechanism 12 for brushing the edges of the first and third sides of the foam board, a second edge brushing mechanism 13 for brushing the edges of the four corners of the foam board, and a third edge brushing mechanism 14 for brushing the edges of the second and fourth sides of the foam board, which are sequentially arranged from top to bottom along the height direction, wherein the adjacent height difference between the first edge brushing mechanism 12, the second edge brushing mechanism 13 and the third edge brushing mechanism 14 is greater than or equal to the size of the bottom surface of the foam board, and the foam board is ensured to realize three edge brushing actions continuously in the vertical pressing process, so that the downward movement amount and the processing time are saved.

In this embodiment, the first edge brushing mechanism 12 includes two transverse brushing plates 121 fixed on two sides of the frame 1 along a direction perpendicular to the assembly line of the frame 1, and bristles or flexible scrubbing brushes (may be flexible sheet plates such as rubber sheets) extending horizontally in opposite directions are disposed on opposite sides of the two transverse brushing plates 121, and a distance between the bristles on the two transverse brushing plates 121 is smaller than or equal to a distance between the first side and the third side of the foam sheet, so as to tightly attach the covering film wider than the first side and the third side to the foam pad.

In this embodiment, the second edge brushing mechanism 13 is disposed below the first edge brushing mechanism 12, and positions corresponding to the four corners of the foam board vertically attach the parts of the first side surface and the third side surface of the foam board, which are wider than the foam board body after being brushed by the first edge brushing mechanism, to the second side surface and the fourth side surface. The second edge brushing mechanism 13 is a rotary cylinder 131 arranged at the positions corresponding to the four corners of the foam board, and a flexible brush piece 132 or brush hair is arranged on the rotary shaft of the rotary cylinder 131 so as to press and attach the wide part at the corner to the second side surface and the fourth side surface. Of course, in other embodiments, the wide portion at the corner can be attached to the side of the foam board by using a spring or a push plate, and the specific type is not limited, so long as the attachment purpose can be achieved

The third edge brushing mechanism 14 of this embodiment comprises two longitudinal brushing plates 141 fixed on the frame 1 along the direction perpendicular to the assembly line of the frame 1, wherein the opposite sides of the two longitudinal brushing plates 141 are provided with bristles or flexible brushing plates extending horizontally in opposite directions, and the interval between the bristles or brushing plates on the two longitudinal brushing plates 141 is smaller than or equal to the distance between the second side surface and the fourth side surface of the foam plate, so as to tightly attach the covering film wider than the second side surface and the fourth side surface to the foam pad

The guiding mechanism 6 of this embodiment is fixed four guide posts on the frame 1, the guide posts are vertically arranged, four corners of the supporting platform 5 are connected with guide sleeves 51 sleeved on the guide posts, and the guide sleeves 51 slide up and down along the axis direction of the guide posts to guide the supporting platform 5 to move up and down, so as to improve certain up and down precision.

The horizontal pole 15 that the level set up is connected with to the below of supporting platform 5 of this embodiment, the both ends of horizontal pole 15 are connected with stay cord 16 respectively, the other end of stay cord 16 is connected with balancing weight 17, fixedly on frame 1 be provided with the confession the mid portion of stay cord 17 walks around gyro wheel 18, balancing weight 17 passes through stay cord 16 drives supporting platform 5 upward movement is until contradicting on spacing portion 7. The guide post or the frame 1 of this embodiment is provided with a stop lever 19 for blocking the upward movement of the cross bar 15, and the counterweight 17 pulls the cross bar to move upward to reach the maximum height when abutting against the stop lever 19, and of course, other forms of stop portions may be provided.

In this embodiment, the traction driving mechanism 11 includes a synchronous belt 111 disposed at two sides of the frame 1 along the direction of the running water and a traction motor for driving the synchronous belt to rotate; the two ends of the synchronous belt are respectively sleeved on the rolling shafts so as to keep the middle part of the synchronous belt in tension, the clamping part 10 is fixed on the clamping support rods 20, and the two ends of the clamping support rods 20 are respectively fixed on two synchronous belts which are arranged in parallel and enable the support rods to be in a vertical state with the synchronous belts; the traction motor rotates forward or backward to drive the clamping part 10 to approach or separate from the free end of the film at the cutter mechanism, so as to clamp the free end of the film and draw the film to the lower right corner side to cover the supporting platform 5.

The film-covered roll in this embodiment may be a woven bag film roll or a plastic film roll, that is, not only may a plastic film be covered on the foam board, but also a woven bag may be covered to form a protective film.

The support shaft 2 is an inflatable shaft, and after the film roll is sleeved into the inflatable shaft, the inflatable shaft is inflated to fix the film roll, and of course, other film forms can be adopted in other embodiments.

The clamping part is driven by the synchronous belt to drive the film pulled from the film roll to pass through a plurality of guide rollers, then glue solution is sprayed on one side of the position of the spraying glue gun head to enable the film to be sticky, the clamping part continuously pulls the film to move to the supporting platform so as to enable the film to be tiled on the supporting platform, the cutter mechanism drives the cutter to move downwards to cut off the film, at the moment, the cutting supporting plate plays a supporting role at the free end of the film at the cutting position from below, then a foam plate is placed on the film manually, the bottom surface of the foam plate is adhered to the film, the pressing plate is started to press downwards, the gravity effect of the balancing weight is overcome, the bottom surface of the foam plate is tightly adhered to the film at first, the wide edge parts of the first side and the third side of the foam plate are brushed and attached to the side surfaces, the second side brushing mechanism continuously presses downwards, the wide edge parts at the four corners of the foam plate are brushed, then the third side brushing mechanism presses downwards, the wide edge parts of the film at the cutting position are pasted, and the second side and the fourth side surface of the foam plate are brushed, and the side brushing action is completed. The pressing plate starts to rise, the supporting platform starts to move upwards under the traction of the gravity of the balancing weight until the cross rod is abutted against the limiting rod, then the foam plate with the brushed edges is taken away, and the steps are repeated to perform the next action.

The principle of the foam board edge brushing process by the thermal energy glue gun spraying type bottom supporting plate laminating device is as follows:

referring to fig. 4, after the foam board 21 is placed on the covering film 6 on the supporting platform 5, the first edge brushing mechanism brushes the wide edges 23 on the left and right sides upward in the direction of arrow a in fig. 5 to attach to the left and right sides; then the rotary cylinder or the elastic sheet of the second edge brushing mechanism brushes edges from the left side and the right side to the front side and the back side of the wide edge part at the corners from the four corners along the direction of an arrow B in FIG. 6; finally, the third edge brushing mechanism brushes the wide edge portions of the front and rear sides upward in the direction of arrow C in fig. 7 to attach to the front and rear sides.

The above detailed description is only for explaining the technical solution of the present invention in detail, the present invention is not limited to the above examples, and it should be understood that those skilled in the art should all modifications and substitutions based on the above principles and spirit are within the scope of the present invention.

Claims (10)

1. The utility model provides a heat energy glue rifle spraying formula collet piece tectorial membrane device which characterized in that: the device comprises a frame, wherein one end of the frame is provided with a supporting shaft for supporting a film roll, one side of the supporting shaft is provided with a plurality of heat energy glue gun spray heads which are arranged side by side and are used for coating glue solution on one side of the film, the heat energy glue gun spray heads are communicated with a glue solution storage device through a glue supply pipeline, the lower station of the heat energy glue gun spray heads is provided with a cutter mechanism for cutting off the pulled film, and the heat energy glue gun spray heads and the cutter mechanism are both fixed on the frame; the lower station of the cutter mechanism is provided with a supporting platform for placing a foam board, and the rack is provided with a guide mechanism for guiding the supporting platform to move up and down, a limit part for limiting the highest lifting height of the supporting platform and a driving mechanism for driving the supporting platform to move upwards; a pressing plate used for pressing the foam plate and the supporting platform downwards to vertically move is arranged right above the supporting platform, and a brushing edge mechanism used for applying a covering film which is wider than the periphery of the foam plate to the side surface of the foam plate is arranged in the vertical stroke of the downward movement of the foam plate; the machine frame is provided with a clamping part for dragging the free end of the film to a lower station so as to cover the supporting platform, and the clamping part is driven by a traction driving mechanism to reciprocate in the machine frame along the direction of the production line.

2. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 1, wherein: the edge brushing mechanism comprises a first edge brushing mechanism, a second edge brushing mechanism and a third edge brushing mechanism, wherein the first edge brushing mechanism is used for brushing edges of a first side surface and a third side surface of the foam board, the second edge brushing mechanism is used for brushing edges of four corners of the foam board, the third edge brushing mechanism is used for brushing edges of a second side surface and a fourth side surface of the foam board, the adjacent height difference of the first edge brushing mechanism, the second edge brushing mechanism and the third edge brushing mechanism is larger than or equal to the size that the covering film is wider than the bottom surface of the foam board, and the adjacent height difference of the first edge brushing mechanism, the second edge brushing mechanism and the third edge brushing mechanism is sequentially arranged from top to bottom.

3. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 2, wherein: the first edge brushing mechanism comprises two transverse brushing plates which are fixed on two sides of the machine frame along the direction perpendicular to the assembly line of the machine frame, bristles which extend horizontally in opposite directions are arranged on the opposite sides of the two transverse brushing plates, and the interval between the bristles on the two transverse brushing plates is smaller than or equal to the distance between the first side surface and the third side surface of the foam plate.

4. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 2, wherein: the second edge brushing mechanism is arranged below the first edge brushing mechanism, and positions corresponding to the four corners of the foam board vertically adhere the parts of the first side surface and the third side surface of the foam board, which are widened after being brushed by the first edge brushing mechanism, to the second side surface and the fourth side surface; the second edge brushing mechanism is a rotary cylinder or an elastic sheet or a push plate which is arranged at the positions corresponding to the four corners of the foam plate.

5. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 4, wherein: the third edge brushing mechanism comprises two longitudinal brushing plates which are fixed on the machine frame along the direction of the assembly line of the machine frame, bristles which extend horizontally in opposite directions are arranged on one side of the two opposite longitudinal brushing plates, and the interval between the bristles on the two longitudinal brushing plates is smaller than or equal to the distance between the second side surface and the fourth side surface of the foam plate.

6. The thermal energy glue gun spraying type bottom support plate laminating device according to any one of claims 1 to 5, wherein: the guide mechanism is at least one guide post fixed on the frame, the guide post is vertically arranged, the support platform is connected with a guide sleeve sleeved on the guide post, and the guide sleeve vertically slides along the axis direction of the guide post to guide the support platform to move up and down.

7. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 6, wherein: the lower part of supporting platform is connected with the horizontal pole that the level set up, the at least one end of horizontal pole is connected with the stay cord, the other end of stay cord is connected with the balancing weight, fixedly provided with confession in the frame the mid portion of stay cord walks around the gyro wheel, the balancing weight passes through the stay cord drives supporting platform upward movement.

8. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 7, wherein: and the guide post or the rack is provided with a limiting rod for preventing the cross rod from moving upwards.

9. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 1, wherein: the traction driving mechanism comprises synchronous belts arranged on two sides of the frame along the direction of the flowing water and a traction motor for driving the synchronous belts to rotate; the clamping part is fixed on the clamping support rod, and two ends of the clamping support rod are respectively fixed on two synchronous belts which are arranged in parallel; the traction motor rotates forward or backward so as to drive the clamping part to approach or separate from the free end of the film at the cutter mechanism.

10. The thermal energy glue gun spraying type bottom support plate laminating device according to claim 1, wherein: the film covered roll is a woven bag film roll or a plastic film roll.