CN211002056U

CN211002056U - Gypsum line tectorial membrane device

Info

Publication number: CN211002056U
Application number: CN201921419839.3U
Authority: CN
Inventors: 郑建立; 王凯
Original assignee: Ningbo Wanlijie Pushun Decoration Materials Co ltd
Current assignee: Ningbo Wanlijie Pushun Decoration Materials Co ltd
Priority date: 2019-08-29
Filing date: 2019-08-29
Publication date: 2020-07-14
Anticipated expiration: 2029-08-29

Abstract

The utility model provides a gypsum line tectorial membrane device, many gypsum line stack in-process, carry out the stack by the tectorial membrane support and support, when each layer of gypsum line was placed on the tectorial membrane support, pull attached length direction in the tectorial membrane support of surface protection membrane by surface tectorial membrane device, surface protection membrane pulls the in-process and falls into gypsum line thickness direction surface, carries out the stack of gypsum line along with the reciprocal walking of surface protection membrane, accomplishes the protection between the gypsum line. After the plurality of gypsum lines are stacked, the side surfaces and the width direction of the gypsum lines need to be attached with side surface protective films, the side surface film covering device pulls the side surface protective film at one end of the film covering support in the length direction to be attached to the side surfaces of the gypsum lines, the gypsum lines are bundled by a bundling machine, the plurality of gypsum lines and the protective films are bundled into a whole, and automatic film covering packaging of the gypsum lines is completed.

Description

Gypsum line tectorial membrane device

Technical Field

The utility model relates to a fitment building materials technical field, more specifically say, relate to a gypsum line tectorial membrane device.

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 after wrapping up the protective film continues the suit in the wrapping bag, and the wrapping bag seals isolated gypsum line and external environment, avoids weing. 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, and the working strength that the protective film was laid is big, and the packaging process is complicated, has increased workman intensity of labour.

Therefore, how to reduce the difficulty of packaging 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 tectorial membrane device to reduce the packing degree of difficulty of gypsum line.

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

a gypsum line film covering device is used for film covering work of stacking gypsum lines and comprises a film covering support for stacking and supporting a plurality of gypsum lines;

the surface film covering device walks in a reciprocating mode along the length direction of the film covering support and lays surface protective films on two sides of the adjacent gypsum line in the thickness direction in the stacking process;

the side surface film covering device is arranged at one end of the film covering support in the length direction and used for drawing the side surface protective film to be attached to the side surface of the stacked gypsum line;

and a plaster line binding machine which is arranged at one side of the width direction of the covered stent and binds the covered plaster line.

Preferably, in the plaster line film covering device, a gantry device straddles over the film covering support along the length direction of the film covering support, the surface film covering device is arranged on the transverse part of the gantry device in a sliding manner, and a film pulling device for pulling the surface protective film to cover among the plaster lines extends out of the surface film covering device.

Preferably, in the gypsum line film covering device, a winding disc for mounting the surface protection film coiled material extends out of the top of the film pulling 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 surface 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 surface protective film in the thickness direction.

Preferably, in the gypsum line film covering device, a cutting device for cutting the stretched protective film is further disposed on the guide frame, the cutting device includes a support base fixedly mounted on the guide frame, and a guide hole is formed 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 surface 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 plaster line stent graft device, the side stent graft device includes a stent delivery frame which is provided at one end in the longitudinal direction of the stent graft and which delivers the side protective membrane and guides the direction of extraction thereof;

the guide frame is also provided with a mounting bracket which is arranged in a telescopic manner along the vertical direction, and the extending end of the mounting bracket is provided with a film pulling clamp for clamping and loosening the side protective film;

the film drawing clamp comprises a clamp support fixedly arranged on the mounting support, a first clamping part and a second clamping part which are arranged on the clamp support in a sliding mode and close to or far away from each other, and a clamping cylinder for driving the first clamping part and the second clamping part to move.

Preferably, in the plaster line coating device, the film feeding support is provided with a film feeding clamp which guides the thickness direction of the side protective film to the same direction as the width direction of the plaster line, and the film feeding clamp is internally provided with a feeding channel which clamps and conveys the side protective film along the thickness direction;

the far end of the outer side of the film covering of the film feeding clamp is hinged with a first swing bracket, and the near end of the first swing bracket is connected with an opening mechanism for driving the film feeding clamp to open outwards;

the opening mechanism comprises a traction connecting rod for drawing the film feeding clamp to swing and a traction cylinder for driving the traction connecting rod to act.

Preferably, in the plaster line film covering device, the film feeding support comprises a first film feeding support and a second film feeding support which are respectively positioned at two sides of the film covering support in the width direction, and the film pulling clamp comprises a first film pulling clamp and a second film pulling clamp which are respectively matched with the first film feeding support and the second film feeding support;

a plaster line output channel for guiding out the coated plaster line is arranged between the first film drawing clamp and the second film drawing clamp.

Preferably, in the gypsum line film covering device, the gantry device further includes a first vertical portion and a second vertical portion respectively disposed at two ends of the film covering support in the length direction, and the first vertical portion and the second vertical portion are respectively provided with a first positioning device and a second positioning device for performing parallel and level limiting on stacking end faces at two ends of the gypsum line in the length direction;

and a positioning fork for positioning the two side edges in the width direction of the plaster line is arranged on the body of the covered stent in a telescopic manner along the vertical direction.

Preferably, in the gypsum line film covering device, 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 which is abutted and positioned with the first end in the length direction of the plaster line.

Preferably, in the gypsum line mulching device, the second positioning device includes a driving shaft rotatably disposed on the second vertical portion, and a swing link rotating synchronously with the driving shaft, and a swing end of the swing link is provided with a second positioning plate positioned in abutment with a second end of the gypsum line in the length direction; the power device is used for driving the driving shaft to rotate.

The utility model provides a plaster line film covering device, which is used for film covering work of stacking plaster lines and comprises a film covering bracket for stacking and supporting a plurality of plaster lines; the surface film covering device walks in a reciprocating mode along the length direction of the film covering support and lays surface protective films on two sides of the adjacent gypsum line in the thickness direction in the stacking process; the side surface film covering device is arranged at one end of the film covering support in the length direction and used for drawing the side surface protective film to be attached to the side surface of the stacked gypsum line; and a plaster line binding machine which is arranged at one side of the width direction of the covered stent and binds the covered plaster line. Many gypsum lines are through stack packing, and the stack in-process, between the gypsum line to and the side of gypsum line all need attached protective film to protect after the stack. The stack of gypsum line adopts artifical transport mode, carries out the stack by the tectorial membrane support and supports, and when each layer of gypsum line was placed on the tectorial membrane support, pull attached length direction in the tectorial membrane support of surperficial protective film by surperficial tectorial membrane device, the surperficial protective film pulls the in-process and falls on gypsum line thickness direction surface, carries out the stack of gypsum line along with the reciprocal walking of surperficial protective film, accomplishes the protection between the gypsum line. After the plurality of gypsum lines are stacked, the side surfaces and the width direction of the gypsum lines need to be attached with side surface protective films, the side surface film covering device pulls the side surface protective film at one end of the film covering support in the length direction to be attached to the side surfaces of the gypsum lines, the gypsum lines are bundled by a bundling machine, the plurality of gypsum lines and the protective films are bundled into a whole, and automatic film covering packaging of the gypsum lines is completed.

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 the structure of a surface film coating device in the automatic packaging machine for plaster line of the present invention;

FIG. 2 is a bottom view of the portion of the surface coating apparatus of FIG. 1;

FIG. 3 is a left side view of the portion of the surface coating apparatus of FIG. 1;

fig. 4 is an enlarged view of a portion of the cutting device of fig. 1.

Detailed Description

The utility model discloses a gypsum line tectorial membrane device has reduced the packing degree of difficulty of 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 3, fig. 1 is a front view of a structure of a surface film covering device portion in an automatic gypsum line packaging machine provided by the present invention; FIG. 2 is a bottom view of the portion of the surface coating apparatus of FIG. 1; FIG. 3 is a left side view of the portion of the surface coating apparatus of FIG. 1.

The utility model provides a plaster line film covering device which is used for film covering work of stacking plaster lines and comprises a film covering bracket for stacking and supporting a plurality of plaster lines; the surface film covering device walks in a reciprocating mode along the length direction of the film covering support and lays surface protective films on two sides of the adjacent gypsum line in the thickness direction in the stacking process; the side surface film covering device is arranged at one end of the film covering support in the length direction and used for drawing the side surface protective film to be attached to the side surface of the stacked gypsum line; and a plaster line binding machine which is arranged at one side of the width direction of the covered stent and binds the covered plaster line. Many gypsum lines are through stack packing, and the stack in-process, between the gypsum line to and the side of gypsum line all need attached protective film to protect after the stack. The stack of gypsum line adopts artifical transport mode, carries out the stack by the tectorial membrane support and supports, and when each layer of gypsum line was placed on the tectorial membrane support, pull attached length direction in the tectorial membrane support of surperficial protective film by surperficial tectorial membrane device, the surperficial protective film pulls the in-process and falls on gypsum line thickness direction surface, carries out the stack of gypsum line along with the reciprocal walking of surperficial protective film, accomplishes the protection between the gypsum line. After the plurality of gypsum lines are stacked, the side surfaces and the width direction of the gypsum lines need to be attached with side surface protective films, the side surface film covering device pulls the side surface protective film at one end of the film covering support in the length direction to be attached to the side surfaces of the gypsum lines, the gypsum lines are bundled by a bundling machine, the plurality of gypsum lines and the protective films are bundled into a whole, and automatic film covering packaging of the gypsum lines is completed.

When the surface coating device is used for laying the surface protection film between the gypsum lines, the surface coating device is adaptive to the stacking rhythm of the gypsum lines, and after each layer of gypsum line is placed, the surface coating device reciprocates along the length direction of the gypsum line to finish the laying of the surface protection film. When the surface protecting film stacks, the gypsum line compresses tightly lower floor's surface protecting film, and the tip of gypsum line length direction offsets with the reciprocal walking initiating terminal of gypsum line, and the surface protecting film can set up to continuous structure, the tectorial membrane beat accessible manual control mode of surface tectorial membrane device in the length direction of gypsum line. The thickness both sides unilateral of gypsum line is the outward appearance face, needs the protective film protection, and the opposite side is the installation face, can set up as required whether needs attached protective film. Preferably, only the outer appearance surface of the plaster line is covered with the film, the surface protective film is not covered on the installation side of the last layer of plaster line, the surface protective film is directly cut, and the side surface covering device starts to operate to pull the side surface protective film after the surface covering device finishes covering.

In an embodiment of the present application, the device further includes a gantry device 4 straddling the covered stent along the length direction thereof, the surface covering device is slidably disposed on the transverse portion 44 of the gantry device 4, and a film pulling device 3 extending from the surface covering device and pulling the surface protective film to cover the plurality of plaster lines is provided. Gypsum line stack is placed on tectorial membrane support 1, every one deck gypsum line of placing, control draws membrane device 3 to walk a gypsum line length, the surface protection membrane receives to pull and covers in the surface of gypsum line, continue to place the gypsum line, control draws membrane device 3 to return along the length direction of gypsum line, the stack of gypsum line and the reciprocal walking cooperation of drawing membrane device 3, place the 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 of stack transportation. Through tectorial membrane support 1 and draw membrane device 3, realize the automation of protective film and lay, reduce artifical intensity of labour, realize the effective protection to the gypsum line.

The film drawing device 3 walks in a reciprocating mode above the covered stent 1 and is provided with a portal device of a portal structure, the portal device spans two ends of the covered stent 1 in the length direction, the film drawing device 3 is located on a transverse portion 44 of the portal device 4, a reciprocating driving device is arranged on the transverse portion 44 at the same time, the film drawing device 3 is driven to walk in a reciprocating mode between a first vertical portion 42 and a second vertical portion 43 of the portal device, and reciprocating film covering action of a gypsum line in the length direction of the gypsum line is achieved.

The film drawing device 3 can travel with the door frame device 4 through the guide rail 41 and the guide slider 31, and can also travel through the guide rail and the traveling wheel. Specifically, the top of the gantry device 4 is provided with a guide rail 44 arranged along the length direction of the gantry device, the film drawing device 3 is provided with a guide slide block 31 in sliding fit with the guide rail 41, 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 44 in a reciprocating manner.

In one embodiment of the scheme, a winding disc 32 for mounting the surface protection film coiled material extends out of the top of the film drawing device 3; the film drawing device 3 also comprises a guide frame 34 which extends to the upper part of the covered film bracket 1 and guides the stretching of the surface protective film; the end part of the guide frame 34 is provided with a film drawing frame which is respectively in press fit with two end surfaces of the surface protective film in the thickness direction.

The surface protective film is made of pearl wool, has good shock resistance and protective capacity, is of a coiled material structure, and is wound and unwound in a rotating mode in the winding and unwinding process. The coiled material structure of adaptation surface protective film, protective film coiled material are erect by coiling dish 32 and are propped up coiling dish 32 by coiling dish support 33, and surface protective film drags coiling dish 32 to rotate in-process, realizes receiving and releasing of protective film. Coiling dish 32 and coiling dish support 33 set up in the top of drawing membrane device 3, and along with drawing the reciprocal walking synchronization action of membrane device 3, avoid occupying independent operating space, make the surface protecting film take out the in-process on drawing membrane device 3 simultaneously, coiling dish 32 is in relative static position on drawing membrane device 3 for the surface protecting film is in the state of straining all the time, avoids the tectorial membrane process to cause the inconsistent problem of surface protecting film traction elasticity.

The height difference is arranged between the gantry device 4 and the covered stent 1, an operation space for the plaster line is reserved, the film drawing device 3 is provided with a guide frame 34, and the end part of the guide frame 34 is close to the supporting end face of the covered stent 1, so that the phenomenon that the height difference of the drawn surface protective film is high to influence the stacking work of the plaster line is avoided. Meanwhile, considering that the surface protecting film is repeatedly drawn and coated by the film drawing device 3 in one gypsum line stacking work, the guide frame 34 needs to be simultaneously pressed on two sides of the thickness direction of the surface protecting film, the film drawing frame 35 is arranged at the end part of the guide frame 34, the surface protecting film extends out from the middle of the film drawing frame 35, and in the film coating process, two opposite end surfaces of the film drawing frame 35 are simultaneously pressed with two surfaces of the surface protecting film in the thickness direction, so that the surface protecting film is ensured to be coated smoothly. The pressing end face of the film drawing frame 35 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.

Fig. 4 is a partially enlarged view of the cutting device of fig. 1, as shown in fig. 4.

In a specific embodiment of the present disclosure, the guiding frame 34 is further provided with a cutting device 36 for cutting the stretched protective film, the cutting device 36 includes a supporting seat 361 fixedly mounted on the guiding frame, and a guiding hole is arranged on the supporting seat 361 in a penetrating manner; a guide rod 362 arranged in the guide hole in a sliding manner, a cutting tool matched with the surface protective film in cutting is arranged at the cutting end of the guide rod 362, and a pressing handle 363 for pressing the guide rod 362 in the axial direction is arranged at the stirring end of the guide rod 362; the guide rod 362 is further sleeved with a return spring 364, one end of which abuts against the supporting seat 361, 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 surface protection film is coated between two adjacent gypsum lines, so that the protection film needs to be cut off after the gypsum lines are stacked. The cutting device 36 is arranged on the guide frame 34, and is fixedly arranged on the guide frame 34 through a support seat 361, and guide holes are formed in the support seat 361 and are arranged in a penetrating manner, so that the preparation is facilitated. Guide bar 362 sliding arrangement is in the guiding hole, is supported guide bar 361 by supporting seat 361 simultaneously, and the one end that guide bar 362 is close to surface protecting film and takes out is the cutting end, installs cutting tool on it, slides from top to bottom on supporting seat 361 through guide bar 362 for cutting tool cuts the cooperation with the surperficial protecting film that tightens, cuts off the protecting film.

In the normal process of drawing the coating film on the surface protective film, the cutting tool should be dragged by the guide rod 362 away from the end of the guide frame 34, the guide rod 362 is sleeved with the return spring 364, the return spring 364 is positioned at one end of the guide rod 362 away from the cutting tool, one end of the two elastic ends of the return spring is abutted against the supporting seat 361, the other end of the return spring is abutted against the stirring end of the guide rod 362, the stirring end of the guide rod 362 is provided with the pressing handle 363, the guide rod 362 is elastically pushed by the return spring 364 in a normal state, the guide rod 362 is dragged to slide upwards on the supporting seat 361, and the guide rod 362 drags the coating end of the cutting tool away from the protective film. When the surface protective film needs to be cut, the guide rod 362 is pushed to extend downwards by pressing the handle 363, and the cutting tool is contacted with the surface protective film to separate the protective film. When the handle 363 is released, the return spring 364 pushes the guide rod 362 to slide upwards, and the cutter returns to the initial position.

In one embodiment of the present disclosure, the side-coating device includes a stent delivery member 2 disposed at one end of the stent graft 1 in the longitudinal direction, and configured to deliver a side protective film and guide the direction of extraction thereof. Many gypsum line stacks are packed on tectorial membrane support 1, and the back is accomplished to the stack, by sending the side protecting film that sees off on the membrane support 2, send attached in the side of gypsum line along gypsum line length direction pump, send membrane support 2 to be located 1 length direction tip of tectorial membrane support, avoid disturbing gypsum line stack work to carry out the pump to the protecting film and send the direction, avoid longer distance pump to send the jamming that leads to the protecting film to tear.

The guide frame 34 is further provided with a mounting bracket 37 which is telescopically arranged along the vertical direction, and the extending end of the mounting bracket 37 is provided with a film pulling clamp 38 for clamping and loosening the side protective film. The guide frame 34 is matched with the gantry device 4 in a walking mode, the mounting bracket 37 extends out of the guide frame 34, specifically, a driving air cylinder 39 extending out along the vertical direction is arranged on the guide frame 34, the mounting bracket 37 and the guide frame 34 extend up and down through a guide rod in the vertical direction, and the extending end of the driving air cylinder 39 drives the mounting bracket 37 to move up and down. The mounting support 37 is telescopic up and down, the extending end of the mounting support can be close to or far away from the film feeding support 2, the film pulling clamp 38 is arranged, the film pulling clamp 38 can clamp and loosen the protective film, after the mounting support 37 moves downwards, the protective film falls into the film pulling clamp 38, the film pulling clamp 38 clamps the protective film, and the protective film on the side face is pulled to move along with the walking of the film pulling device 3.

The film drawing fixture 38 includes a fixture support 381 fixedly mounted on the mounting bracket, a first clamping portion and a second clamping portion slidably disposed on the fixture support and close to or away from each other, and a clamping cylinder for driving the first clamping portion and the second clamping portion to move. The film drawing clamp 38 is fixedly connected with the mounting bracket 37 through a clamp support 381, the lower end of the clamp support 381 extends out of the first clamping portion 382 and the second clamping portion 383 which can move close to or away from each other in a relatively sliding mode, and the clamp support 381 is simultaneously provided with a clamping cylinder 384 which drives the first clamping portion 382 and the second clamping portion 383 to move so as to draw the side protective film. Preferably, since the gypsum line is coated with the film on the side by the film-drawing mechanism 3, the side protective film is vertically arranged in the width direction, which is beneficial to the clamping of the film-drawing clamp 38 and the attachment of the gypsum line. Meanwhile, the gypsum line film is made of pearl wool, the vertical arrangement is achieved, deformation is avoided, the lower ends of the first clamping portion 382 and the second clamping portion 383 are set to be of an opening structure, the lower ends automatically fall into two sides of the thickness direction of the protective film in the falling process, and the protective film can be automatically clamped.

In a specific embodiment of the scheme, a film feeding clamp which guides the thickness direction of the side protective film to the same direction as the width direction of the gypsum line is arranged on the film feeding support 2, and a feeding channel which clamps and conveys the protective film along the thickness direction is arranged in the film feeding clamp.

The far end of the outer side of the film covering of the film feeding clamp is hinged with a first swing bracket, and the near end of the first swing bracket is connected with an opening mechanism for driving the film feeding clamp to open outwards. Send membrane support 2 to carry out the output direction of side protective film to gypsum line width direction both sides simultaneously, send membrane support 21 and second including first membrane support 22 of sending, the side protective film receives self weight or blows and takes place distortion easily, for guaranteeing its and the centre gripping convenience of drawing membrane anchor clamps 3, set up and send membrane support 2 by sending membrane anchor clamps 211 (taking first membrane support 21 as an example) to carry out along its thickness direction's centre gripping and transport to the side protective film, the protective film passes and exposes behind the pay-off passageway, because the length that exposes is short, can effectively guarantee the protective film, for the cotton of pearl, level and smooth. The film feeding clamp 211 is only used for ensuring the smoothness of the protective film, and the clamping force provided by the film feeding clamp does not influence the pumping of the protective film. The protective film feeding device is fixedly connected through plates oppositely arranged in the thickness direction, and a feeding channel through which a protective film passes is formed between the plates.

It can be understood that, send membrane anchor clamps 211 equally including being located gypsum line width direction both sides, the two have certain thickness, when the gypsum line was derived by tectorial membrane support 1 through output channel, in order to avoid sending membrane anchor clamps 211 to the damage of colliding with of gypsum line, set up the membrane anchor clamps into open structure with sending membrane anchor clamps, the width between two membrane anchor clamps is greater than the width of gypsum line, send the distal end and the near-end of membrane anchor clamps 211, indicate respectively that membrane anchor clamps 211 keeps away from and is close to the one end of tectorial membrane support 1, the tectorial membrane outside corresponds the protective film and covers in the outside of gypsum line.

In this embodiment, the film feeding clamp 211 is adapted to the long strip structure of the pellicle (taking the film feeding clamp on the second film feeding holder 22 as an example), and may include a first clamping plate 221 and a second clamping plate 222 arranged oppositely in the thickness direction, a pressing plate 223 is arranged between the first clamping plate 221 and the second clamping plate 222, the pressing plate 223 and the first clamping plate 221 clamp the pellicle, and the pressing plate 223 and the second clamping plate 222 are connected through a compression spring 224, so as to ensure that the film feeding clamp maintains a fixed clamping force on the pellicle, and prevent the pellicle from coming out of the film feeding clamp 211 in the drawing or cutting process.

The far end of sending membrane support 2 is articulated through first swing support 214, and its near-end is connected through opening mechanism, and when the gypsum line was exported, opening mechanism drove and send membrane anchor clamps 211 to open along the swing of protective film thickness direction, and the interval grow of two sending membrane anchor clamps near-ends effectively avoids sending the damage of membrane anchor clamps to the gypsum line.

Specifically, the opening mechanism includes a pulling link 212 that pulls the film feeding jig 211 to swing, and a pulling cylinder 213 that drives the pulling link 212 to operate. The outer side of the film feeding clamp 211 is connected with a traction connecting rod 212, the traction connecting rod 212 is driven by a traction air cylinder 213, and an extension rod of the traction air cylinder 213 extends and retracts to drive the film feeding clamp to rotate around the hinged end of the film feeding clamp and the first swing support 214. The swing of the film feeding clamp 211 is used for adjusting the width of a gypsum line output channel between the two film feeding clamps, and the connection position and the driving mode of the traction cylinder and the traction connecting rod are not limited, so that the two film feeding clamps are adjusted to be close to each other in the film pulling process, and the function of being far away from each other in the gypsum line output process is a basic adjusting structure.

In one embodiment of the present disclosure, the stent graft 2 includes a first stent graft 21 and a second stent graft 22 respectively located on both sides of the stent graft in the width direction, and the stent graft fixture includes a first stent graft fixture 38-1 and a second stent graft fixture 38-2 respectively matched with the first stent graft 21 and the second stent graft fixture 22.

A plaster line output channel for leading out the coated plaster line is arranged between the first film drawing clamp 38-1 and the second film drawing clamp 38-2.

Because the gypsum line is after the stack, its width direction both sides all need to adhere to the side protecting film, carry the side protecting film by the side coil stock form, the side coil stock form includes first side coil stock form 51 and second side coil stock form 52 with first membrane support 21 and the cooperation of second membrane support 22 are sent respectively, can erect two rolls of side protecting film coiled material simultaneously by first side coil stock form 51 and second side coil stock form 52, the two is located respectively and send membrane support 21 and the cooperation of second membrane support 22 with first membrane support 21, can derive two protecting films and correspond the both sides of stack back gypsum line width direction respectively.

Meanwhile, the film drawing mechanism 3 comprises a first film drawing clamp 38-1 and a second film drawing clamp 38-2 which are respectively matched with the first film conveying support 21 and the second film conveying support 22, two rolls of side protective films are respectively conveyed to corresponding positions of two side faces of the stacked gypsum line through the first film conveying support 21 and the second film conveying support 22, the first film drawing clamp 38-1 and the second film drawing clamp 38-2 simultaneously draw the two side protective films, the protective films are drawn and attached to two side faces of the gypsum line while walking along the length direction of the gypsum line, namely, film coating work on the two side faces of the gypsum line is simultaneously realized, and the protective films are bound on the gypsum line through a subsequent binding process to complete the packaging of the gypsum line.

Consider that first membrane support and 21 second send membrane support 22 to correspond gypsum line width direction both sides position, can set up the gypsum line output channel who sets up to gypsum line behind the stack between the two, gypsum line weight is big behind the stack, and difficult transport, the accessible sets up tectorial membrane support 1 and gypsum line output channel and forms the production line to automatic packing of gypsum line and output, reduces the gypsum line output degree of difficulty, improve equipment to the transportation convenience in the gypsum line packaging process. Gypsum line output channel can set up the transfer roller structure, adapts to the surface texture of gypsum line, can correspond the cross-sectional shape of gypsum line with the cross-sectional structure of transfer roller, forms effective protection to the gypsum line.

In an embodiment of the present disclosure, the gantry device 4 further includes a first vertical portion 42 and a second vertical portion 43 respectively disposed at two ends of the film covering support in the length direction, and the first vertical portion 42 and the second vertical portion 43 are respectively provided with a first positioning device 7 and a second positioning device 8 for performing parallel and level limiting on stacking end faces at two ends of the gypsum line in the length direction. The portal device is supported by first vertical portion 42 and second vertical portion 43, simultaneously, considers the gypsum line stack in-process, need guarantee the flatting degree at many gypsum line length direction both ends, sets up first positioner 7 and second positioner 8, and is spacing to gypsum line length direction tip, avoids the collision damage of gypsum line tip.

And a positioning fork 11 for positioning the two side edges of the plaster line in the width direction is arranged on the body of the covered stent 1 in a telescopic manner along the vertical direction. The gypsum line adopts the form of stack, has laid the surperficial protecting film between the adjacent gypsum line, makes the gypsum line produce width direction's slope skew easily, utilizes tectorial membrane support 1's organism structure, sets up extending structure's location fork 11, and location fork 11 upwards stretches out by tectorial membrane support's organism at gypsum line stack in-process, and two yoke arms of location fork 11 carry on spacingly to gypsum line width direction respectively, guarantee the parallel and level degree of the width both sides of gypsum line stack in-process. After the gypsum line stacking is finished, the positioning fork automatically sinks into the body of the covered stent, and the gypsum line can be smoothly taken out of the covered stent. The weight is big after considering many gypsum lines stacks, and is difficult for carrying, can set up the backing roll that corresponds with the surface structure of gypsum line on the tectorial membrane support, and after the tectorial membrane is accomplished, the drive of backing roll is carried the gypsum line output to follow-up packing or manufacturing procedure.

In an embodiment of the present disclosure, the first positioning device 7 includes a first guide seat 71 fixedly mounted on the first vertical portion 42, a first guide rod 72 slidably engaged with the first guide seat 71, and a first driving cylinder 73 driving the first guide rod 72 to extend and retract; the first guide bar 72 has a first positioning plate 74 at its projecting end, which is positioned in abutment with a first end of the gypsum line in the longitudinal direction.

The first positioning device 7 adopts a telescopic sliding mode of the first guide rod 72 and the first guide seat 71, a first positioning plate 74 at the end part of the first guide rod 72 extends out to the end part of the covered stent 1 in the length direction, the first guide rod 72 is driven by a first driving cylinder 73 to extend out or retract, the first guide seat 71 is fixedly arranged on the first vertical part 42 and is in sliding fit with the first guide rod 72, and the guide direction of the first guide seat 71 is along the length direction of the covered stent 1. Because have certain stack thickness behind many gypsum line stacks and set up first locating plate 74 with first guide bar 72 to the first end of gypsum line location, first drive actuating cylinder 73 drive first guide bar 72 and stretch out the back of targetting in place, the gypsum line uses first locating plate 74 as length direction's stack benchmark, and the length direction tip of many gypsum lines that the stack was arranged all offsets with first locating plate 74 to guarantee the parallel and level degree of gypsum line stack tip.

In an embodiment of the present disclosure, the second positioning device 8 includes a driving shaft 81 rotatably disposed on the second vertical portion 43, a swing rod 82 rotating synchronously with the driving shaft 81, and a swing end of the swing rod 82 is provided with a second positioning plate abutting against the second end of the gypsum line in the length direction for positioning; the power device for driving the driving shaft to rotate is further included.

The second positioning device 8 extends out of the second end of the gypsum line stacking length direction through the second positioning plate, and the second positioning device 8 which is provided with the guide rod structure the same as the first positioning device 7 is easy to interfere with the gypsum line conveying channel because the portal frame device 4 is provided with the gypsum line output channel on the second vertical part 43 to output the stacked gypsum lines.

The second positioning device 8 is arranged to be of a swing rod structure, the second positioning device is arranged on the second vertical portion 43 in a rotating mode through the driving shaft 81, the second positioning device is preferably arranged at the bottom of the second vertical portion 43, the shaft end of the driving shaft 81 is provided with a swing rod 82 which extends out along the radial direction and rotates synchronously, the swing end of the swing rod 82 corresponds to the second end of the tectorial membrane bracket 1 in the length direction, the swing end of the swing rod 82 is provided with a second positioning plate, the driving shaft 81 is driven by a power device to rotate to swing the second positioning plate to be sent to a preset position, and the power device can be matched with a gear.

Through to guide bar structure and pendulum rod structure, when the gypsum line stack, carry on spacingly to gypsum line stack length direction's both ends, guarantee the length tip parallel and level behind many gypsum line stacks, guarantee to transport safety in the follow-up transportation, avoid the tip inequality to cause and collide with.

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

1. A gypsum line film covering device is used for film covering work of stacking gypsum lines and is characterized by comprising a film covering support for stacking and supporting a plurality of gypsum lines;

2. The plaster line film covering device according to claim 1, further comprising a gantry device straddling the film covering support along the length direction thereof, wherein the surface film covering device is slidably disposed on a transverse portion of the gantry device, and a film pulling device for pulling the surface protection film to cover the plaster lines is protruded from the surface film covering device.

3. The gypsum line film covering device according to claim 2, wherein a winding disc for mounting the surface protection film coil extends out of the top of the film pulling device;

4. The gypsum line film covering device according to claim 3, 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 formed in the support seat in a penetrating manner;

5. The plaster line film covering device according to claim 4, wherein the side film covering device comprises a film feeding support which is arranged at one end of the film covering support in the length direction and used for conveying the side protective film and guiding the extraction direction of the side protective film;

6. The plaster line film covering device according to claim 5, wherein a film feeding clamp for guiding the thickness direction of the side protective film to the same direction as the width direction of the plaster line is arranged on the film feeding support, and a feeding channel for clamping and conveying the side protective film in the thickness direction is arranged in the film feeding clamp;

7. The plaster line film covering device according to claim 6, wherein the film feeding support comprises a first film feeding support and a second film feeding support which are respectively positioned at two sides of the width direction of the film covering support, and the film pulling clamp comprises a first film pulling clamp and a second film pulling clamp which are respectively matched with the first film feeding support and the second film feeding support;

8. The gypsum line film covering device according to claim 2, wherein the gantry device further comprises a first vertical portion and a second vertical portion which are respectively arranged at two ends of the film covering support in the length direction, and the first vertical portion and the second vertical portion are respectively provided with a first positioning device and a second positioning device which are used for carrying out level limiting on stacking end faces at two ends of the gypsum line in the length direction;

9. The gypsum line film covering device according to claim 8, 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 which is abutted and positioned with the first end in the length direction of the plaster line.

10. The plaster line film covering device according to claim 8, wherein the second positioning device comprises a driving shaft rotatably arranged on the second vertical part, a swing rod rotating synchronously with the driving shaft, and a second positioning plate positioned in abutment with the second end of the plaster line in the length direction is arranged at the swing end of the swing rod; the power device is used for driving the driving shaft to rotate.