CN117864653A - Film rack based on articulated can adjust - Google Patents

Abstract

The invention relates to the technical field of a placing frame, in particular to a thin film placing frame capable of being adjusted based on a hinge. The rack comprises a rack body, wherein a plurality of placing cavities are formed in the surface of the rack body, a transmission groove is formed in one side of the rack body, a placing height guiding mechanism is arranged in the transmission groove and at least comprises a transmission adjusting component which rotates in the transmission groove in a reciprocating mode, a plurality of hinged supporting components are arranged on the surface of the transmission adjusting component, and a guiding control component is arranged on the inner wall of the placing cavity. According to the invention, the film roll to be placed is placed on the hinged support assembly, so that the transmission adjusting assembly drives the hinged support assembly to drive upwards, the film roll is driven to be lifted, the hinged support assembly is driven to incline through the guide control assembly until the film roll is positioned in the placing cavity, the film roll can be rolled into the placing cavity for storage, the convenience is improved, and the film roll can be easily placed on a higher placing frame body.

Description

Film rack based on articulated can adjust

Technical Field

The invention relates to the technical field of a placing frame, in particular to a thin film placing frame capable of being adjusted based on a hinge.

Background

In the production and processing of some articles, articles are required to be placed and stored by virtue of a placing rack, so that the articles are tidied, wherein the film is a thin and soft transparent sheet. The film winding machine is made of plastic, adhesive, rubber or other materials, the film winding machine is wound on a winding rod to form film rolls, and in order to enable a plurality of film rolls to be placed orderly, a plurality of placing frames are needed to be used, however, the placing frames in the prior art are of multi-layer structures, so that a plurality of groups of film rolls can be placed in each layer for storage, the whole placing frames are high, workers are difficult to lift the film rolls when placing the film rolls at high positions, time and labor are wasted when the film rolls are placed at high positions, the film rolls can be stored, the cost of the machine is increased, and when the film rolls are brought to the high positions, the whole placing frames are long, the film rolls are inconvenient to guide and place, so that the stored film rolls are unstable to stack.

Disclosure of Invention

The present invention aims to provide a hinge-based adjustable film rack, which solves the problems set forth in the background art.

In order to achieve the above object, the invention provides a film rack capable of being adjusted based on hinge, comprising a rack body, wherein a plurality of placing cavities for placing film rolls are formed on the surface of the rack body, a transmission groove is formed on one side of the rack body, a placing height guiding mechanism is arranged in the transmission groove, the placing height guiding mechanism at least comprises a transmission adjusting component which reciprocally rotates in the transmission groove, a plurality of hinge type supporting components are arranged on the surface of the transmission adjusting component, and the transmission adjusting component sequentially drives the hinge type supporting components to reciprocally move in the placing cavities, wherein:

the inner wall of the placing cavity is provided with a guide control assembly, and the guide control assembly is used for driving the hinged support assembly to incline the film roll to roll into the placing cavity for storage when the hinged support assembly supports the film roll to be transmitted to one of the placing cavities.

As a further improvement of the technical scheme, the transmission adjusting assembly at least comprises two symmetrical transmission rollers rotating in the transmission groove, the outer walls of the two transmission rollers are meshed with a transmission belt, and one end part of one transmission roller is connected with an output shaft of a motor.

As a further improvement of the technical scheme, the hinged support assemblies comprise connecting frames, the connecting frames are fixed on the outer wall of the transmission belt at equal intervals, and support plates for placing film rolls are arranged inside the connecting frames.

As the further improvement of this technical scheme, the extension board tip is in through loose axle swing joint inside the link, just the link is close to the inner chamber of bottom still is equipped with the support piece that is used for changing extension board holding surface angle, wherein:

the placing height guiding mechanism further comprises a guiding control assembly, wherein the guiding control assembly is used for driving the supporting piece to incline inwards in the transmission process, and the supporting support plate inclines outwards when being taken down.

As the further improvement of this technical scheme, support piece is in including rotating at least the laminating board of link inner chamber, laminating board upper surface laminating the extension board lower surface is used for supporting, just the laminating board with the movable part of link is equipped with movable gear dish, movable gear dish with direction control assembly is connected, direction control assembly is used for driving the laminating board and outwards inclines when the laminating board just gets into and places the intracavity portion, when the laminating board gets into completely and places the intracavity portion, drives the laminating board and resets to inwards inclining.

As a further improvement of the technical scheme, regulating and controlling grooves are formed in the inner wall of the placing rack body close to the placing cavity, the guiding control assembly at least comprises a sliding plate positioned in the regulating and controlling grooves, two symmetrical racks are arranged on the surface, facing the driving belt, of the sliding plate, the racks on the lower side are used for meshing and driving the movable gear disc to rotate anticlockwise by 45-90 degrees, and the racks on the upper side are used for meshing and driving the movable gear disc to rotate clockwise and reset to an included angle of 45-80 degrees with the vertical surface.

As a further improvement of the technical scheme, the sliding plate slides in the regulating groove, a screw is rotationally arranged on the rear surface of the sliding plate, and the end threads of the screw extend out of the regulating groove.

As a further improvement of the technical scheme, the inner wall of the connecting frame is provided with a groove, an elastic buckle is arranged in the groove in a sliding mode, a plurality of clamping grooves are formed in the side wall, close to the end portion, of the attaching plate at equal intervals, and the end portion of the elastic buckle is matched with the inner portion of the clamping groove in a clamping mode.

As a further improvement of the technical scheme, the bottom of the inner cavity of the placing cavity, which is close to the transmission groove, is provided with a sliding groove, a blocking limiting component is arranged in the sliding groove and used for blocking the film roll when the film roll rolls into the placing cavity, and the stress slides into the sliding groove and blocks the film roll when the film roll rolls out of the placing cavity.

As a further improvement of the technical scheme, the blocking limiting assembly comprises a baffle plate sliding in the chute, an elastic piece is fixedly connected between the bottom of the baffle plate and the end part of the inner cavity of the chute, and the top of the baffle plate is an inclined surface inclined to the transmission groove.

Compared with the prior art, the invention has the beneficial effects that:

1. this film rack based on articulated formula can be adjusted is through placing the film book of waiting to place on articulated supporting component, makes transmission adjusting component drive articulated supporting component upwards transmission, is favorable to driving the film and rolls up, until the film book is located and places the intracavity portion after, drives articulated supporting component slope through direction control assembly, makes the film book roll into place the intracavity and stores, improves the convenience, is favorable to carrying out light placing film book to higher rack body.

2. In the film rack based on the hinged type can be adjusted, the support plate is supported by the support piece, when the support surface of the support piece is inclined inwards, the support plate is inclined inwards under the action of the movable shaft, the film roll positioned at the top of the support plate is limited to be attached to the driving belt, the film roll is prevented from falling off in the driving process, the stability is improved, when the film roll is driven to the inside of a proper placing cavity, the support piece is driven to incline outwards by the guide control assembly, the support plate is inclined outwards, the film roll rolls into the inside of the placing cavity along the inclined surface, the film roll is guided, and the placing efficiency is improved;

and when the transmission belt drives a plurality of link transmission to the outside, make the extension board under the effect of loose axle, the back plane is folded downwards, reduces holistic occupation space, simultaneously, shakes the impurity that drops at back plane top, improves life.

3. This thin film rack based on articulated can adjust drives the slide and slides at regulation and control inslot portion through twisting the screw rod along regulation and control inslot wall back and forth, can be at the position that need not make the film roll-in, makes the slide drive rack and movable gear dish dislocation, at this moment, when the laminating board slides in and places the intracavity portion, movable gear dish can not rotate, otherwise, rotates the screw rod, drives the slide and slides to the position that rack and movable gear dish can mesh, when the laminating board slides in and places the intracavity portion, movable gear dish can be connected with two rack meshing in proper order, satisfies the purpose of adjusting the inclined plane, improves the controllability of placing the film roll.

4. This film rack based on articulated can adjust, when making the film roll up the inclined plane at baffle top, press on the inclined plane, make the baffle slide into the spout inside, the film roll up can roll into along the inclined plane and place the intracavity portion, and when the film roll up outwards rolls down, under the elasticity of elastic component, make the bellied being located of baffle place the intracavity chamber bottom, the baffle lateral wall blocks the film roll up and continues outwards roll down, improves the effect of placing the film roll.

Drawings

FIG. 1 is a schematic diagram of the overall structure assembly of the present invention;

FIG. 2 is a cut-away view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of the overall structure of the present invention;

FIG. 4 is a schematic view of a rack body according to the present invention;

FIG. 5 is a schematic view of a placement height guide mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the articulating support assembly of the present invention;

FIG. 7 is a partial cutaway view of the connector and support of the present invention;

FIG. 8 is a schematic diagram of the structure of FIG. 4B according to the present invention;

FIG. 9 is an exploded view of the body of the rack of the present invention;

fig. 10 is a schematic diagram of the structure of fig. 2 a according to the present invention.

The meaning of each reference sign in the figure is:

100. a rack body; 110. a transmission groove; 120. a placement cavity; 121. a chute; 130. a blocking and limiting assembly; 131. a baffle; 132. an elastic member; 140. a regulating groove;

200. placing a height guiding mechanism; 210. a transmission adjustment assembly; 211. a driving roller; 212. a transmission belt; 213. a motor; 220. a hinged support assembly; 221. a connecting frame; 222. a support plate; 223. a support; 2231. bonding plates; 2232. a movable gear plate; 2233. a clamping groove; 2234. an elastic buckle; 230. a pilot control assembly; 231. a slide plate; 232. a rack; 233. and (3) a screw.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the production and processing of some articles, articles are required to be placed and stored by virtue of a placing rack, so that the articles are tidied, wherein the film is a thin and soft transparent sheet. Is made of plastic, adhesive, rubber or other materials, and is wound on a winding rod after the film is produced and processed to form film rolls, and a placing frame is also needed to be used for orderly placing a plurality of film rolls.

Example 1

Referring to fig. 1-8, the embodiment provides a film rack capable of being adjusted based on hinge, which comprises a rack body 100, wherein a plurality of placing cavities 120 for placing film rolls are formed on the surface of the rack body 100, a transmission groove 110 is formed on one side of the rack body 100, a placing height guiding mechanism 200 is arranged inside the transmission groove 110, the placing height guiding mechanism 200 at least comprises a transmission adjusting component 210 which reciprocally rotates inside the transmission groove 110, a plurality of hinge type supporting components 220 are arranged on the surface of the transmission adjusting component 210, and the plurality of hinge type supporting components 220 are reciprocally moved in the plurality of placing cavities 120 through the transmission adjusting component 210, wherein:

the inner wall of the placing cavity 120 is provided with a guiding control component 230, and the guiding control component 230 is used for driving the hinged support component 220 to tilt and guide the film roll to roll into the placing cavity 120 for storage when the hinged support component 220 supports the film roll to be transmitted into one of the placing cavities 120.

In consideration of the fact that the whole of the prior art of the rack is relatively high, workers can lift the film roll and place the film roll at a high level more difficult, time and labor are wasted when the film roll is stored, although the film roll can be lifted by means of a lifting machine and placed at a high level, the cost of a machine is increased, and when the film roll is brought to the high level, the whole rack is relatively long, the film roll is inconvenient to place in a guiding manner, and the stored film roll is unstable in stacking, therefore, as shown in fig. 1, 2 and 3, the film roll to be placed is placed on the hinged supporting component 220, the transmission adjusting component 210 drives the hinged supporting component 220 to drive upwards, so that the film roll is driven to lift until the film roll is positioned in the placing cavity 120, the hinged supporting component 220 is driven to incline by the guiding control component 230, the film roll can be rolled into the placing cavity 120 for storage, convenience is improved, and the film roll can be easily placed for the higher rack body 100.

Based on the above, specific structures need to be disclosed in detail:

firstly, to realize that the transmission adjusting assembly 210 can drive the plurality of hinged supporting assemblies 220 to drive, so that the hinged supporting assemblies 220 support the film roll to drive, please refer to fig. 5, further disclose the transmission adjusting assembly 210, so that the transmission adjusting assembly 210 at least comprises two symmetrical driving rollers 211 rotating in the transmission groove 110, the outer walls of the two driving rollers 211 are meshed with a driving belt 212, one end of one driving roller 211 is connected with an output shaft of a motor 213, the motor 213 is powered on to work, and the output shaft of the motor 213 drives one driving roller 211 to rotate, so that the transmission is performed along the rotation direction of the two driving rollers 211 through the driving belt 212.

Specifically, when the hinged support assembly 220 supports the film roll, the film roll to be lifted is lifted to the inside of the higher placement cavity 120 along with the movement of the driving belt 212, as shown in fig. 5 again, the structure of the hinged support assembly 220 is disclosed in detail, the hinged support assemblies 220 all comprise connecting frames 221, the connecting frames 221 are fixed on the outer wall of the driving belt 212 at equal intervals, supporting plates 222 for placing the film roll are arranged in the connecting frames 221, the connecting frames 221 are driven to sequentially drive when the driving belt 212 drives the connecting frames 221 to sequentially drive when the driving belt 212 drives the driving belt 110, the film roll to be lifted is placed at the top of the supporting plates 222 when the supporting plates 222 are horizontally positioned at a low position, the supporting plates 222 are driven to move upwards along with the driving belt 212, the film roll is lifted, and the driving is stopped until the film roll is positioned in the proper placement cavity 120, so that the film roll is rolled into the placement cavity 120 for storage.

It should be noted that, since the support plate 222 is kept in a horizontal state completely, the film roll is easy to roll down along with jolt in the transmission process, so, in order to limit the roll down in the transmission process, the film roll is guided when rolling into the placement cavity 120, as shown in fig. 5 and 6, the end of the support plate 222 is movably connected inside the connecting frame 221 through a movable shaft, and a supporting member 223 for changing the angle of the supporting surface of the support plate 222 is further provided in the inner cavity of the connecting frame 221 near the bottom, wherein:

the placing height guiding mechanism 200 further comprises a guiding control component 230, the guiding control component 230 is used for driving the supporting piece 223 to incline inwards in the transmission process, when the supporting piece 223 is removed, the supporting piece 222 inclines outwards, as shown in fig. 2, the supporting piece 222 is supported by the supporting piece 223, when the supporting surface of the supporting piece 223 inclines inwards, the supporting piece 222 inclines inwards under the action of the movable shaft, a film roll positioned at the top of the supporting piece 222 is limited to be attached to the transmission belt 212, the film roll is prevented from falling in the transmission process, the stability is improved, when the film roll is transmitted into a proper placing cavity 120, the supporting piece 223 is driven to incline outwards by the guiding control component 230, the supporting piece 222 inclines outwards, and the film roll rolls into the placing cavity 120 along the inclined surface, so that the film roll is guided and the placing efficiency is improved;

and, when the transmission belt 212 drives a plurality of link 221 to the outside, make extension board 222 under the effect of loose axle, the back-up surface is folded down, reduces holistic occupation space, simultaneously, shakes the impurity that drops at back-up surface top, improves life.

Then, when the supporting member 223 supports the bottom of the supporting plate 222 and regulates the supporting surface angle of the supporting plate 222, as shown in fig. 6-7, the supporting member 223 at least comprises a jointing plate 2231 rotating in the inner cavity of the connecting frame 221, the upper surface of the jointing plate 2231 is jointed with the lower surface of the supporting plate 222 for supporting, a movable gear disc 2232 is arranged at the movable position of the jointing plate 2231 and the connecting frame 221, the movable gear disc 2232 is connected with the guiding control assembly 230, and the guiding control assembly 230 is used for driving the jointing plate 2231 to incline outwards when the jointing plate 2231 just enters the inner cavity 120, driving the jointing plate 2231 to incline inwards when the jointing plate 2231 completely enters the inner cavity 120, realizing the rotation of the end part of the supporting plate 2231 by the jointing plate 2231, lifting one end of the supporting plate 222 to incline inwards when the jointing plate 2231 inclines inwards, and switching to change the supporting surface angle of the supporting plate 222 to change the supporting surface of the jointing plate 2231 when the jointing plate 2231 inclines outwards, thus better controlling the jointing plate 2231 by the guiding control assembly 230.

Then, the detailed disclosure of the guiding control assembly 230 is that the guiding control assembly 230 can drive the movable gear disc 2232 to rotate when the attaching plate 2231 just slides into one of the placing cavities 120, so as to drive the attaching plate 2231 to rotate to incline outwards, therefore, as shown in fig. 8, firstly, regulating grooves 140 are formed on the inner wall of the placing rack body 100 near the placing cavity 120, the guiding control assembly 230 at least comprises a sliding plate 231 positioned in the regulating grooves 140, two symmetrical racks 232 are arranged on the surface of the sliding plate 231 facing to the driving belt 212, the lower rack 232 is used for meshing and driving the movable gear disc 2232 to rotate 45 ° -90 °, the upper rack 232 is used for meshing and driving the movable gear disc 2232 to rotate clockwise to reset to an included angle of 45 ° -80 ° with a vertical plane, the driving belt 212 drives the connecting frame 221, the supporting plate 222 and the supporting member 223 to move into the placing cavity 120 by adjusting the position of the sliding plate 231, and when the attaching plate 2231 just enters the placing cavity 120, the movable gear disc 2232 meshes with the lower rack 232 to rotate along with the supporting member 223, and the movable gear disc 2232 continuously rotates upwards along with the supporting member to enable the movable gear disc 223 to rotate along the inclined plane, so that the film 2231 can be placed in the inclined plane 120;

and, with the continuous transmission of the transmission belt 212, the movable gear wheel 2232 is separated from the rack 232 below, after the film roll is completely rolled out of the surface of the support plate 222, the movable gear wheel 2232 is meshed with the rack 232 above to drive the movable gear wheel 2232 to rotate clockwise to reset, at this time, the support plate 222 is reset to incline inwards, and the included angle between the support plate 222 and the vertical direction is smaller than 90 degrees, namely, in the transmission process, the film roll can be positioned on the inward inclined surface of the support plate 222, the film roll can be prevented from rolling down, and the transmission stability is improved.

Specifically, since the rack body 100 has a plurality of placing cavities 120, when a placing cavity 120 is reached, the film is not required to be rolled into, a proper position is required to be reached, and the film is controlled to roll off, because, in order to improve the controllable effect, the sliding plate 231 slides inside the regulating groove 140, and the rear surface of the sliding plate 231 rotates to be provided with the screw 233, the end threads of the screw 233 extend out of the regulating groove 140, the screw 233 slides back and forth along the inner wall of the regulating groove 140 by screwing, the sliding plate 231 is driven to slide inside the regulating groove 140, the position where the film is not required to roll in can be at a position where the sliding plate 231 drives the rack 232 to be misplaced with the movable gear disc 2232, at this moment, when the attaching plate 2231 slides into the placing cavity 120, the movable gear disc 2232 can not rotate, otherwise, the screw 233 is driven to slide to a position where the rack 232 can be meshed with the movable gear disc 2232, when the attaching plate 2231 slides into the placing cavity 120, the movable gear disc 2232 can be sequentially meshed with the two racks 232, the purpose of adjusting the inclined plane is satisfied, and the controllability of the film is improved.

Example 2

Because the bonding plate 2231 is movably connected with the connecting frame 221, when the film roll is supported on the supporting plate 222, the bonding plate 2231 is subjected to downward pressure, if only friction force between the rotating shafts is used, the bonding plate 2231 is guaranteed to be positioned in a limited strength of fixing at one angle, therefore, a groove is formed in the inner wall of the connecting frame 221, an elastic buckle 2234 is slidably arranged in the groove, a plurality of clamping grooves 2233 are formed in the side wall of the bonding plate 2231 close to the end at equal intervals, the end of the elastic buckle 2234 is matched with the inner clamping of the clamping groove 2233, when the bonding plate 2231 is fixed at one angle by rotating between the bonding plate 2231 and the connecting frame 221, the elastic buckle 2234 and the clamping groove 2233 are used for limiting again, the strength of the holding angle is improved, and similarly, when the movable gear disc 2232 is rotated by the meshing force of the rack 232, the elastic buckle 2234 is forced to be compressed into the groove, and is separated from one clamping groove 2233, and is aligned with the other clamping groove 2233, and the other clamping groove 2233 is inserted into the clamping groove 2233 for clamping fixing at equal intervals, so that the rotation angle of the bonding plate 2231 is limited, and the stability of the film roll is improved.

Example 3

Because the film roll rolls into the placing cavity 120 from the support plate 222 to store, vibration is generated along with the working process of the driving belt 212, which is easy to cause the placed film roll to roll out of the placing cavity 120 to affect the placing effect, as shown in fig. 9-10, a chute 121 is provided at the bottom of the inner cavity of the placing cavity 120, which is close to the driving groove 110, a blocking and limiting component 130 is provided in the chute 121, and the blocking and limiting component 130 is used for preventing the film roll from sliding into the chute 121 when the film roll rolls into the placing cavity 120 and preventing the film roll when the film roll rolls out of the placing cavity 120.

Specifically, stop spacing subassembly 130 includes the baffle 131 of sliding in spout 121 inside, fixedly connected with elastic component 132 between baffle 131 bottom and the spout 121 inner chamber tip, and baffle 131 top is the inclined plane to transmission groove 110 slope, when making the film roll up through the inclined plane at baffle 131 top, press on the inclined plane, make baffle 131 slide into spout 121 inside, the film roll up can roll into place the intracavity portion 120 along the inclined plane, and when the film roll outwards rolls down, under the elasticity of elastic component 132, make baffle 131 bellied be located place intracavity 120 bottom, baffle 131 lateral wall blocks the film roll and continues outwards roll down, the effect of placing the film roll is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Film rack based on articulated can adjust, including rack body (100), its characterized in that: placement rack body (100) surface has seted up a plurality of placing cavity (120) that are used for placing the film roll, just rack body (100) one side is equipped with transmission groove (110), the inside high guiding mechanism (200) of placing that is equipped with of transmission groove (110), place high guiding mechanism (200) at least including reciprocating rotation be in transmission regulation subassembly (210) inside transmission groove (110), transmission regulation subassembly (210) surface is equipped with a plurality of articulated supporting component (220), through transmission regulation subassembly (210) drive a plurality of articulated supporting component (220) in proper order and place cavity (120) internal reciprocating motion, wherein:

the inner wall of the placing cavity (120) is provided with a guide control assembly (230), and the guide control assembly (230) is used for driving the hinged support assembly (220) to incline and guide the film roll to roll into the placing cavity (120) for storage when the hinged support assembly (220) supports the film roll to be transmitted into one of the placing cavities (120).

2. The articulating-based adjustable film holder of claim 1, wherein: the transmission adjusting assembly (210) at least comprises two symmetrical transmission rollers (211) rotating in the transmission groove (110), a transmission belt (212) is meshed with the outer walls of the two transmission rollers (211), and one end part of one transmission roller (211) is connected with an output shaft of a motor (213).

3. The articulating-based adjustable film holder of claim 2, wherein: the hinged support assemblies (220) comprise connecting frames (221), the connecting frames (221) are fixed on the outer wall of the transmission belt (212) at equal intervals, and support plates (222) used for placing film rolls are arranged inside the connecting frames (221).

4. The articulating-based adjustable film holder of claim 3, wherein: the end part of the support plate (222) is movably connected inside the connecting frame (221) through a movable shaft, and a supporting piece (223) for changing the angle of the supporting surface of the support plate (222) is further arranged in an inner cavity of the connecting frame (221) close to the bottom, wherein:

the placement height guide mechanism (200) further comprises a guide control assembly (230), wherein the guide control assembly (230) is used for driving the supporting piece (223) to incline inwards in the transmission process, and the supporting plate (222) inclines outwards when being taken down.

5. The articulating-based adjustable film holder of claim 4, wherein: support piece (223) is in including rotating at least laminating board (2231) of link (221) inner chamber, laminating board (2231) upper surface laminating the extension board (222) lower surface is used for supporting, just laminating board (2231) with the movable department of link (221) is equipped with movable gear dish (2232), movable gear dish (2232) with direction control assembly (230) are connected, direction control assembly (230) are used for driving laminating board (2231) outwards slope when laminating board (2231) just gets into place chamber (120) inside, drive laminating board (2231) and reset to inwards slope when laminating board (2231) gets into place chamber (120) inside completely.

6. The articulating-based adjustable film holder of claim 5, wherein: the inner wall of the rack body (100) close to the placing cavity (120) is provided with a regulating groove (140), the guiding control assembly (230) at least comprises a sliding plate (231) positioned in the regulating groove (140), two symmetrical racks (232) are arranged on the surface of the sliding plate (231) facing the driving belt (212), the racks (232) below are used for meshing and driving the movable gear disk (2232) to rotate anticlockwise by 45-90 degrees, and the racks (232) above are used for meshing and driving the movable gear disk (2232) to rotate clockwise and reset to an included angle of 45-80 degrees with a vertical surface.

7. The articulating-based adjustable film holder of claim 6, wherein: the sliding plate (231) slides inside the regulating groove (140), a screw (233) is rotatably arranged on the rear surface of the sliding plate (231), and the end threads of the screw (233) extend out of the regulating groove (140).

8. The articulating-based adjustable film holder of claim 5, wherein: the inner wall of the connecting frame (221) is provided with a groove, an elastic buckle (2234) is arranged in the groove in a sliding mode, a plurality of clamping grooves (2233) are formed in the side wall, close to the end portion, of the attaching plate (2231) at equal intervals, and the end portion of the elastic buckle (2234) is matched with the inner portion of the clamping groove (2233) in a clamping mode.

9. The articulating-based adjustable film holder of claim 7, wherein: the utility model discloses a film roll, including placing chamber (120), inner chamber bottom that is close to transmission groove (110) is offered spout (121), spout (121) inside is equipped with stops spacing subassembly (130), stop spacing subassembly (130) are used for when film roll rolls into place chamber (120) inside, and atress slides into spout (121) inside, when film roll rolls out place chamber (120) inside, stop film roll.

10. The articulating-based adjustable film holder of claim 9, wherein: the blocking limiting assembly (130) comprises a baffle plate (131) sliding inside the sliding groove (121), an elastic piece (132) is fixedly connected between the bottom of the baffle plate (131) and the end part of the inner cavity of the sliding groove (121), and the top of the baffle plate (131) is an inclined surface inclined towards the transmission groove (110).