CN210417115U - Gypsum line surface film laminating machine - Google Patents

Abstract

The utility model provides a plaster line surface film laminating machine, which is used for laminating a plaster line surface protective film and comprises a film laminating bracket for arranging a plurality of plaster lines in a stacked manner; and the film pulling device walks in a reciprocating manner along the length direction of the covered stent and pulls the protective film to cover among a plurality of gypsum lines. The gypsum line is placed in the stack on the tectorial membrane support, every one deck gypsum line of placing, the control is drawn the length direction of membrane device edge gypsum line and is walked on, the protecting film receives to pull and covers in the surface of gypsum line, continue to place the gypsum line, the control is drawn the length direction of membrane device edge gypsum line and is returned, the stack of gypsum line with draw the reciprocal walking cooperation of membrane device, place multilayer gypsum line after, all pull between the adjacent two-layer gypsum line and cover one deck protecting film, thereby realized having accomplished the automatic tectorial membrane of protecting film between a plurality of gypsum lines to the stack transportation. Through the tectorial membrane support with draw the membrane device, realize the automation of protective film and lay, reduce artifical intensity of labour, realize the effective protection to the gypsum line.

Description

Gypsum line surface film laminating machine

Technical Field

The utility model relates to a fitment building materials technical field, more specifically say, relate to a gypsum line surface laminating machine.

Background

The gypsum line is a house decoration material, is mainly used for indoor decoration, can be provided with various patterns on the surface, is practical and attractive for indoor decoration, has the functions of fire prevention, moisture prevention, heat preservation, sound insulation and heat insulation, and can play a luxurious decoration effect.

The gypsum line belongs to a fragile product and is easy to be damaged by the impact of external force, so the gypsum line must be prevented from being damaged in the process of carrying and transporting. Meanwhile, the gypsum line needs to be prevented from being drenched or damped, and the surface finish quality of the gypsum line is affected. In order to ensure the safety of the gypsum line during transportation and storage, the gypsum line is usually packaged after production by covering the surface with a protective film for surface protection of the gypsum line. The gypsum line is rectangular form structure, and its packing adopts the mode of piling up more, and the protective film layer is spread and is between the gypsum line, leads to the packaging process complicated, has increased workman intensity of labour.

Therefore, how to achieve effective protection of the plaster line is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a gypsum line surface laminating machine to the realization is to the effective protection of gypsum line.

In order to achieve the above object, the utility model provides a following technical scheme:

a gypsum line surface film covering machine is used for covering a film of a gypsum line surface protective film and comprises a film covering support, a film covering support and a film covering device, wherein the film covering support is arranged in a stacked mode;

and the film-coated stent is reciprocated along the length direction of the film-coated stent, and the protective film is drawn to cover the film-drawing devices among the plurality of gypsum lines.

Preferably, in the gypsum line surface film covering machine, the frame is mounted above the film covering support, and the frame supports a gantry device of the film pulling device; the gantry device comprises a first vertical part and a second vertical part which are respectively positioned at two ends of the film covering support in the length direction, and a transverse part erected between the first vertical part and the second vertical part, and a reciprocating driving device for driving the film drawing device to reciprocate is arranged on the transverse part.

Preferably, in the gypsum line surface film laminating machine, the reciprocating driving device includes a guide rail disposed at the top of the transverse portion and arranged along the length direction of the film-covered support, and the film-pulling device is provided with a guide slider slidably engaged with the guide rail; the film drawing device also comprises a power device for driving the film drawing device to reciprocate.

Preferably, in the gypsum line surface film laminating machine, a winding disc for mounting the protective film coiled material and a winding disc support for supporting the winding disc extend out of the top of the film drawing device;

the film drawing device also comprises a guide frame which extends to the upper part of the covered film bracket and guides the stretching of the protective film; and the end part of the guide frame is provided with a film drawing frame which is respectively in press fit with two end surfaces of the protective film in the thickness direction.

Preferably, in the gypsum line surface film laminating machine, a cutting device for cutting the stretched protective film is further arranged on the guide frame, the cutting device includes a support base fixedly mounted on the guide frame, and a guide hole is arranged in the support base in a penetrating manner;

the guide rod is arranged in the guide hole in a sliding mode, a cutting tool matched with the protective film in a cutting mode is arranged at the cutting end of the guide rod, and a pressing handle pressing the guide rod in the axial direction is arranged at the poking end of the guide rod;

and the guide rod is further sleeved with a return spring, one end of the return spring abuts against the supporting seat, and the other end of the return spring abuts against the stirring end.

Preferably, in the gypsum line surface film covering machine, a first positioning device which is opposite to the film covering support and positions a film covering starting end of the gypsum line is telescopically arranged on the first vertical part; the second vertical part is provided with a second positioning device for positioning the tail end of the coated film of the plaster line; and the covered stent is provided with a positioning fork for positioning the position of the plaster line in the width direction in a telescopic way.

Preferably, in the gypsum line surface film covering machine, the first positioning device includes a first guide seat fixedly mounted on the first vertical portion, a first guide rod in sliding fit with the first guide seat, and a first driving cylinder for driving the first guide rod to extend and retract; the extension end of the first guide rod is provided with a first positioning plate positioned with the first end of the plaster line.

Preferably, in the above gypsum line surface laminating machine, the second positioning device includes a driving shaft rotatably disposed on the second vertical portion, a swing link rotating in synchronization with the driving shaft, a swing end of the swing link being provided with a second positioning plate positioned with the second end of the gypsum line; the power device is used for driving the driving shaft to rotate.

Preferably, in the gypsum line surface film laminating machine, the positioning forks comprise first U-shaped positioning forks which are telescopically arranged along the vertical direction and limit two ends of the gypsum line in the width direction; the second positioning forks are arranged on two sides of the film coating support in a swinging mode and used for tightly holding and positioning the plaster line along the width direction of the plaster line;

and the holding end of the second positioning fork is provided with a flexible cushion which is in tight fit with the plaster line.

Preferably, in the above gypsum line surface coating machine, the coating support includes a support roller having the same cross-sectional shape as the gypsum line and supporting the gypsum line, and a drive roller for driving the coated gypsum line to be output in a longitudinal direction thereof.

The utility model provides a plaster line surface film laminating machine, which is used for laminating a plaster line surface protective film and comprises a film laminating bracket for erecting and stacking a plurality of plaster lines; and the film pulling device walks in a reciprocating manner along the length direction of the covered stent and pulls the protective film to cover among a plurality of gypsum lines. The gypsum line is placed in the stack on the tectorial membrane support, every one deck gypsum line of placing, the control is drawn the length direction of membrane device edge gypsum line and is walked on, the protecting film receives to pull and covers in the surface of gypsum line, continue to place the gypsum line, the control is drawn the length direction of membrane device edge gypsum line and is returned, the stack of gypsum line with draw the reciprocal walking cooperation of membrane device, place multilayer gypsum line after, all pull between the adjacent two-layer gypsum line and cover one deck protecting film, thereby realized having accomplished the automatic tectorial membrane of protecting film between a plurality of gypsum lines to the stack transportation. Through the tectorial membrane support with draw the membrane device, realize the automation of protective film and lay, reduce artifical intensity of labour, realize the effective protection to the gypsum line.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 creative efforts.

Fig. 1 is a front view of a gypsum line surface film laminating machine provided by the present invention;

FIG. 2 is a bottom view of the gypsum line surface laminator of FIG. 1;

FIG. 3 is a schematic structural diagram of a cutting device in the gypsum line surface film coating machine in FIG. 1;

fig. 4 is a schematic structural diagram of a first positioning device of the gypsum line surface coating machine in fig. 2.

Detailed Description

The utility model discloses a gypsum line surface laminating machine has realized the effective protection to the gypsum line.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 4, which are front views of the gypsum line surface film laminating machine provided by the present invention; FIG. 2 is a bottom view of the gypsum line surface laminator of FIG. 1; FIG. 3 is a schematic structural diagram of a cutting device in the gypsum line surface film coating machine in FIG. 1; fig. 4 is a schematic structural diagram of a first positioning device of the gypsum line surface coating machine in fig. 2.

The utility model provides a plaster line surface film laminating machine, which is used for laminating a plaster line surface protective film and comprises a film laminating bracket 1 for arranging a plurality of plaster lines in a stacked manner; and the film pulling device 2 walks in a reciprocating manner along the length direction of the covered stent and pulls the protective film to cover among a plurality of plaster lines. Gypsum line stack is placed on tectorial membrane support 1, every one deck gypsum line of placing, the gypsum line length of 2 walkings of control drawing membrane device, the protective film receives to pull to cover in the surface of gypsum line, continue to place the gypsum line, the control draws the length direction of membrane device 2 along the gypsum line to return, the stack of gypsum line and the reciprocal walking cooperation of drawing membrane device 2, place multilayer gypsum line after, all pull between the adjacent two-layer gypsum line and cover one deck protective film, thereby realized having accomplished the automatic tectorial membrane of protective film between a plurality of gypsum lines to the stack transportation. Through tectorial membrane support 1 and draw membrane device 2, realize the automation of protective film and lay, reduce artifical intensity of labour, realize the effective protection to the gypsum line.

In a specific embodiment of the scheme, the film-coating device also comprises a portal device 3 which is arranged above the film-coating bracket 2 and supports the film-coating device 1; the gantry device 3 comprises a first vertical part 31 and a second vertical part 32 which are respectively positioned at two ends of the covered stent 2 in the length direction, and a transverse part 33 which is erected between the first vertical part 31 and the second vertical part 32, wherein a reciprocating driving device for driving the film drawing device to reciprocate is arranged on the transverse part 33. The film drawing device 2 walks in a reciprocating mode above the covered stent 3, a portal device of a door-shaped structure consisting of a transverse portion 33, a first vertical portion 31 and a second vertical portion 32 is arranged, the portal device is arranged at two ends of the covered stent 1 in a striding mode, the film drawing device 2 is located on the transverse portion 33, a reciprocating driving device is arranged on the transverse portion 33 at the same time, the film drawing device 2 is driven to walk in a reciprocating mode between the first vertical portion 31 and the second vertical portion 32, and reciprocating film covering action of a gypsum line along the length direction of the gypsum line is achieved.

Preferably, the reciprocating driving device comprises a guide rail 34 which is arranged on the top of the transverse part 33 and arranged along the length direction of the covered stent 1, and the film drawing device 2 is provided with a guide slide block 21 which is matched with the guide rail 34 in a sliding way; and the film drawing device also comprises a power device 35 for driving the film drawing device to reciprocate. The film drawing device 2 can travel with the door frame device 3 through the guide rail 34 and the guide slider 21, and can also travel through the guide rail and the traveling wheel.

In this embodiment, the top of the transverse portion 33 is provided with a guide rail 34 arranged along the length direction, the film drawing device 2 is provided with a guide slider 21 in sliding fit with the guide rail 34, and the reciprocating driving device is also provided with a power device for driving the film drawing device 2 to slide on the guide rail 34 in a reciprocating manner. The power device 35 can adopt a driving motor to provide power, and the transmission device drives the film pulling device to walk.

In one embodiment of the scheme, a winding disc 22 for holding the protective film coiled material and a winding disc support 23 for supporting the winding disc 22 extend out of the top of the film drawing device 2;

the film drawing device 2 also comprises a guide frame 24 which extends to the upper part of the covered film bracket 1 and guides the stretching of the protective film; the end of the guide frame 24 is provided with a film drawing frame 25 which is respectively in press fit with two end faces in the thickness direction of the protective film.

The protective film adopts the bubble film more, and it has better antidetonation and protective capacities, and the protective film adopts coiled material structure more, adopts rotatory mode to carry out receiving and releasing of protective film at receiving and releasing in-process. The coiled material structure of adaptation protective film, protective film coiled material are erect by coiling dish 22 and are propped up coiling dish 22 by coiling dish support 23, and the protective film drags coiling dish 22 to rotate at the in-process of drawing, realizes receiving and releasing of protective film. Coiling dish 22 and coiling dish support 23 set up in the top of drawing the membrane device, and along with drawing the reciprocal walking synchronization action of membrane device, avoid occupying independent operating space, make the protective film take out the in-process on drawing the membrane device simultaneously, coiling dish 22 is in relative quiescent position on drawing the membrane device for the protective film is in the state of tightening all the time, avoids the tectorial membrane process to cause the protective film to pull the inconsistent problem of elasticity.

The height difference is arranged between the gantry device 3 and the film covering support 1, an operation space for the plaster line is reserved, the film drawing device 2 is provided with a guide frame 24, and the end part of the guide frame 24 is close to the supporting end face of the film covering support 1, so that the situation that the height drop of the drawn protective film is high and the stacking work of the plaster line is influenced is avoided. Meanwhile, considering that the protective film is repeatedly drawn by the film drawing device 2 in one gypsum line stacking work, the guide frame 24 needs to be simultaneously pressed on two sides of the protective film in the thickness direction, the film drawing frame 25 is arranged at the end part of the guide frame 24, the protective film extends out from the middle of the film drawing frame 25, and in the film laminating process, two opposite end faces of the film drawing frame 25 are simultaneously pressed with two faces of the protective film in the thickness direction, so that the protective film is ensured to be smoothly laminated. The pressing end face of the film drawing frame 25 can be set to be an arc pressing face, and the film drawing frame 25 can also be made into a frame shape by adopting a pipe structure, so that the film drawing frame is prevented from pulling or cutting the surface of the protective film.

In a specific embodiment of the present disclosure, the guide frame 24 is further provided with a cutting device 26 for cutting the stretched protective film, the cutting device 26 includes a supporting seat 261 fixedly mounted on the guide frame 24, and a guide hole is arranged on the supporting seat 261 in a penetrating manner;

a guide rod 262 arranged in the guide hole in a sliding manner, a cutting tool matched with the cutting of the protective film is arranged at the cutting end of the guide rod 262, and a pressing handle 263 pressed along the axial direction is arranged at the stirring end of the guide rod 262;

the guide rod 262 is further sleeved with a return spring 264, one end of which abuts against the supporting seat 261, and the other end of which abuts against the toggle end.

The plaster line is packed by adopting a stacking mode, and preferably 6 plaster lines are packed by stacking. The protective film is coated between two adjacent gypsum lines, so that the protective film needs to be cut off after the gypsum lines are stacked. The cutting device 26 is arranged on the guide frame 24, and is fixedly arranged on the guide frame 24 through a supporting seat 261, and a guide hole is formed in the supporting seat 261 and penetrates through the guide hole, so that the preparation is facilitated. The guide rod 262 is arranged in the guide hole in a sliding mode, the guide rod 261 is supported by the supporting seat 261 at the same time, the end, which is close to the protective film, of the guide rod 262 is a cutting end, a cutting tool is installed on the cutting end, and the guide rod 262 slides up and down on the supporting seat 261, so that the cutting tool is matched with the tightened protective film in a cutting mode, and the protective film is cut off.

In the normal traction and lamination process of the protective film, the cutting tool is dragged by the guide rod 262 to be away from the end part of the guide frame 24, the guide rod 262 is sleeved with the reset spring 264, the reset spring 264 is positioned at one end of the guide rod 262 away from the cutting tool, one end of the two elastic ends of the reset spring is abutted to the supporting seat 261, the other end of the reset spring is abutted to the stirring end of the guide rod 262, the stirring end of the guide rod 262 is provided with the pressing handle 263, the guide rod 262 is elastically pushed by the reset spring 264 in a normal state, the guide rod 262 is dragged to slide upwards on the supporting seat 261, and the guide rod 262 drags the cutting tool to be away from the lamination end of the protective film. When the protective film needs to be cut, the guide rod 262 is pushed to extend downwards by pressing the handle 263, and the cutting tool is contacted with the protective film to separate the protective film. When the handle 263 is released, the return spring 264 pushes the guide rod 262 to slide upwards, and the cutter returns to the initial position.

In one embodiment of the present disclosure, a first positioning device 36 is telescopically arranged on the first vertical portion 31, and is opposite to the stent graft 1 for positioning the initial end of the plaster line; the second vertical portion 32 is provided with a second positioning device 37 that positions the film-coated end of the plaster line; and a positioning fork for positioning the position of the plaster line in the width direction is arranged on the covered stent 1 in a telescopic way.

The gypsum line adopts stack mode packing and transportation, need guarantee its length direction and width direction's parallel and level, realizes the transportation convenience. Many gypsum lines of stack packing, the position that needs to guarantee the stack parallel and level includes gypsum line length direction's both ends and width direction both ends, the longer span structure of adaptation gypsum line, first vertical portion 31 and the vertical portion 32 of second at the portal device set up independent first positioner 36 and second positioner 37 respectively, by the two at gypsum line tectorial membrane in-process, carry out tectorial membrane initial end and terminal position location of tectorial membrane to the length both ends of gypsum line stack, guarantee many gypsum line stack back both ends parallel and level. The outward appearance face of gypsum line is its thickness direction one side, stack in-process should avoid gypsum line width direction to take place the dislocation, cause the damage of outward appearance face, it is relatively narrower to adapt to gypsum line size in width direction, the accessible location fork is spacing to gypsum line width direction's both ends simultaneously, stretch out two tooth portions on the fork of location, arrange on the tectorial membrane support to be along vertical orientation extending structure from top to bottom, stretch out the in-process, the gypsum line falls on between two tooth portions of location fork, guarantee gypsum line stack in-process width direction's parallel and level.

After the gypsum line is packed by stacking and laminating, the volume is large, the weight is large, and the difficulty of manually taking down the gypsum line from the laminated stent is increased. After the plaster line is coated by the gantry device 2 and the covered stent 1, the covered stent 1 can be set as a roller conveying channel, and the coated plaster line is output in a rolling conveying mode. Subsequent equipment of the gypsum line surface film laminating machine can be butted with a bagging device or other transfer devices, so that the packaging work of large-batch gypsum lines is facilitated.

Specifically, the first positioning device 36 includes a first guide seat 361 fixedly mounted on the first vertical portion 31, a first guide rod 362 slidably engaged with the first guide seat 361, and a first driving cylinder 363 for driving the first guide rod 362 to extend and retract; the protruding end of the first guide bar 362 is provided with a first positioning plate 364 positioned with the first end of the plaster line.

The second positioning device 37 comprises a driving shaft 371 rotatably arranged on the second vertical portion 32, a swing link 372 rotating synchronously with the driving shaft 371, and a swing end of the swing link 372 is provided with a second positioning plate positioned with the second end of the plaster line; the power device for driving the driving shaft to rotate is further included.

The first positioning device 36 adopts a first guide rod 362 structure driven by a first driving cylinder 363 to extend out, a first guide seat 361 is arranged on the first vertical part 31 of the gantry device 3, the first guide rod 362 and the first guide seat 361 slide and extend out to be matched, a first positioning plate 364 is arranged at the extending end of the first guide rod 362, the extending rod of the first driving cylinder 363 pushes the first positioning plate 364 to be close to or far away from the covered stent 1, after the first driving cylinder 363 extends out, the first positioning plate 364 moves to a positioning position at one end in the length direction of a gypsum wire, when the covered stent is placed on the gypsum wire, a certain clamping force can be reserved between the first positioning plate 364 and the gypsum wire, a protective film drawn on the film drawing device 2 can be clamped between the first positioning plate 364 and the gypsum wire, and automatic drawing pulling force of the protective film is provided. After the gypsum line is stacked, the first driving cylinder 363 drags the first positioning plate 364 to be retracted, so that the end of the gypsum line has enough space for operation.

The end of the extension rod of the first driving cylinder 363 abutting against the first positioning plate 364 can be connected by adopting a structure of a flexible cushion block, so that the hard impact in the extension process of the first driving cylinder is reduced. The flexible cushion block can be a plastic cushion block or a PVC cushion block. When first drive cylinder 363 withdraws, in order to avoid first locating plate to withdraw back and first guide holder 361 to bump and strike, set up the buffer block on first locating plate 364, including the supporting shoe 365 who sets firmly in first locating plate 364 bottom, with supporting shoe 365 sliding fit's buffer rod 366, the relative tip of buffer rod 366 with first guide holder 361 sets up buffer block 367, set up the compression spring of suit on buffer rod 366 between buffer block 367 and the supporting shoe 365, the other end of buffer rod 366 sets up limit structure and prevents that buffer rod 366 from deviating from.

Second positioner 37 is located the vertical portion 32 of second of portal device 3, consider that the gypsum line after the stack can set up to the structure by the output of the vertical portion 32 of second, and simultaneously, the protecting film draws on drawing the membrane device and takes out, it is tight to the protecting film by first positioner 36 and gypsum line clamp already, take the protecting film out smoothly, the protecting film covers on the gypsum line of lower floor simultaneously, the upper strata can continue range upon range of gypsum line, second positioner 37 need not provide the pulling force to the protecting film, only need guarantee that gypsum line tip parallel and level can.

Therefore, the second positioning device 37 is of a swing rod structure, the bottom of the second vertical portion 32 is provided with the driving shaft 371, the driving shaft 371 radially extends out of the swing rod 372, the end portion of the swing rod 372 is provided with the second positioning plate, the driving shaft 371 is driven to rotate through a power device, the driving shaft 371 drives the swing rod 372 to swing upwards from the bottom of the second vertical portion 32, the second positioning plate is sent to the end portion of the gypsum wire in the length direction, and the function of positioning the gypsum wire in the length direction can be achieved.

In a specific embodiment of the scheme, the positioning fork comprises a first U-shaped positioning fork 11 which is arranged in a telescopic manner along the vertical direction and used for limiting two ends of a gypsum line in the width direction; the second positioning forks 12 are arranged on the two sides of the width direction of the covered stent in a swinging mode and used for tightly holding and positioning the plaster line along the width direction of the plaster line; the holding end of the second positioning fork 12 is provided with a flexible cushion which is tightly matched with the plaster line in a pressing way. The positioning forks comprise a first U-shaped positioning fork 11 and a second positioning fork 12 for holding the stacked gypsum lines tightly.

First U type location fork 11 carries out the width direction to the gypsum line and goes up the location at the gypsum line stack in-process, and first U type location fork 11 is including first tooth portion and the second tooth portion that offsets with gypsum line width direction both ends respectively, and what stretch out and draw back from top to bottom installs in the tectorial membrane support, and accessible cylinder driven mode is flexible from top to bottom, stretches out the in-process and is used for gypsum line stack safety, is used for the output of gypsum line after the withdrawal.

Because the film covering process only carries out the tectorial membrane of protective film between many plaster lines, after the tectorial membrane is accomplished, many plaster lines are simple range upon range of arrangement structure. The stacked plurality of plaster lines can be wound and bundled by a winding machine which is provided on one side of the stent graft 1 in the width direction, and a flexible tape or a plastic film can be wound and bundled by the winding machine. The binding process needs to guarantee that each layer of gypsum line is laminated closely, and through setting up second location fork 12, second location fork 12 is including being located gypsum line width direction both sides respectively to hold close complex left location yoke and right location yoke, the two is driven by the cylinder respectively, and hold gypsum line width direction both ends tightly at the swing in-process. The embracing end of the second positioning fork 12 can adopt a trapezoidal structure so as to provide pressing force in the thickness direction of the plaster line. Simultaneously, because second location fork 12 is held tightly the action when the gypsum line is convoluteed to tie up, in order to avoid the second location fork 12 to the collision damage on gypsum line surface, set up the flexible pad with the armful dress end of second location fork 12, provide the flexible protection to gypsum line width direction both ends, improve the security. Preferably, the second positioning fork arrangement comprises three groups for respectively holding the two ends and the middle part of the gypsum line in the length direction.

In an embodiment of the present invention, the stent graft 1 includes a support roll 13 having the same cross-sectional shape as the plaster line for mounting the plaster line, and a drive roll 14 for driving the coated plaster line to be discharged in a length direction thereof. The outward appearance face of gypsum line adopts the curved surface structure more, for guaranteeing gypsum line tectorial membrane in-process support stability to reduce the rigid collision to gypsum line outward appearance face, the accessible sets up backing roll 13 on the tectorial membrane support, and the cross-sectional structure of backing roll 13 is the same or similar with the cross-sectional structure of gypsum line, provides the outrigger of profile. Meanwhile, the driving roller 14 is arranged on the covered stent, and after the stacking of the gypsum lines is completed, the gypsum lines can be dragged to be output in the length direction through the rotation of the driving roller, so that the difficulty of manual operation is reduced.

The gypsum line surface laminating machine that this embodiment provided, in gypsum line stack in-process, carry out circumference location to the gypsum line of stack by first positioner 36 and second positioner 37 and location fork, the stack in-process, realize laying of protective film on every layer of gypsum line by drawing the reciprocal walking of membrane device 2 on portal device 3, and cooperate with the coiling strapper, tie up the gypsum line after the stack, carry out the gypsum line after packing by the transport structure on the tectorial membrane support 1 at last, only need artifically carry the stack to single gypsum line in this process, through drawing the membrane device, first positioner, the second positioner, the electrical control of location fork, and the manual cutting of cutting harness, realize the automatic packing to the gypsum line, reduce intensity of labour, guarantee the transportation safety of gypsum line.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A gypsum line surface film covering machine is used for covering a film of a gypsum line surface protective film and is characterized by comprising a plurality of film covering supports for the gypsum lines, wherein the film covering supports are stacked and arranged in a frame;

and the film-coated stent is reciprocated along the length direction of the film-coated stent, and the protective film is drawn to cover the film-drawing devices among the plurality of gypsum lines.

2. The gypsum line surface film laminating machine of claim 1, further comprising a gantry device mounted above the film laminating bracket and supporting the film pulling device; the gantry device comprises a first vertical part and a second vertical part which are respectively positioned at two ends of the film covering support in the length direction, and a transverse part erected between the first vertical part and the second vertical part, and a reciprocating driving device for driving the film drawing device to reciprocate is arranged on the transverse part.

3. The gypsum line surface laminating machine of claim 2, wherein the reciprocating drive device comprises a guide rail arranged at the top of the transverse part and arranged along the length direction of the film-covered support, and a guide slide block in sliding fit with the guide rail is arranged on the film pulling device; the film drawing device also comprises a power device for driving the film drawing device to reciprocate.

4. The gypsum line surface film laminating machine of claim 2, wherein a winding disc for mounting the protective film coiled material and a winding disc support for supporting the winding disc extend out of the top of the film drawing device;

the film drawing device also comprises a guide frame which extends to the upper part of the covered film bracket and guides the stretching of the protective film; and the end part of the guide frame is provided with a film drawing frame which is respectively in press fit with two end surfaces of the protective film in the thickness direction.

5. The gypsum line surface film laminating machine according to claim 4, wherein a cutting device for cutting the stretched protective film is further arranged on the guide frame, the cutting device comprises a support seat fixedly arranged on the guide frame, and a guide hole is arranged on the support seat in a penetrating manner;

the guide rod is arranged in the guide hole in a sliding mode, a cutting tool matched with the protective film in a cutting mode is arranged at the cutting end of the guide rod, and a pressing handle pressing the guide rod in the axial direction is arranged at the poking end of the guide rod;

and the guide rod is further sleeved with a return spring, one end of the return spring abuts against the supporting seat, and the other end of the return spring abuts against the stirring end.

6. The gypsum line surface film laminating machine of claim 2, wherein a first positioning device which is opposite to the film-covered support and used for positioning the film-covered initial end of the gypsum line is telescopically arranged on the first vertical part; the second vertical part is provided with a second positioning device for positioning the tail end of the coated film of the plaster line; and the covered stent is provided with a positioning fork for positioning the position of the plaster line in the width direction in a telescopic way.

7. The gypsum line surface film laminating machine of claim 6, wherein the first positioning device comprises a first guide seat fixedly mounted on the first vertical part, a first guide rod in sliding fit with the first guide seat, and a first driving cylinder for driving the first guide rod to stretch and retract; the extension end of the first guide rod is provided with a first positioning plate positioned with the first end of the plaster line.

8. The gypsum line surface laminating machine of claim 6, wherein the second positioning device comprises a drive shaft rotatably disposed on the second vertical portion, a swing link rotating synchronously with the drive shaft, a swing end of the swing link providing a second positioning plate positioned with the second end of the gypsum line; the power device is used for driving the driving shaft to rotate.

9. The gypsum line surface film laminating machine of claim 6, wherein the positioning forks comprise first U-shaped positioning forks which are arranged in a telescopic manner along the vertical direction and limit two ends of the gypsum line in the width direction; the second positioning forks are arranged on two sides of the film coating support in a swinging mode and used for tightly holding and positioning the plaster line along the width direction of the plaster line;

and the holding end of the second positioning fork is provided with a flexible cushion which is in tight fit with the plaster line.

10. The gypsum line surface laminating machine of claim 1, wherein the laminating bracket comprises a supporting roller which has the same cross-sectional shape as the gypsum line and is used for mounting the gypsum line, and a driving roller which drives the laminated gypsum line to be output along the length direction of the gypsum line.

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