CN216902976U - Laminating frame of laminating machine and laminating machine thereof - Google Patents

Abstract

The utility model discloses a laminating frame of a laminating machine and the laminating machine thereof, comprising: the frame body is hollow and is used for accommodating a to-be-laminated piece; the adjusting piece is movably arranged on the frame body and is positioned on the peripheral side of the lamination piece; the driving piece is arranged on the frame body and used for driving the adjusting piece to move towards or away from the frame body. Through set up driving piece and regulating part on the frame body, can reduce on the one hand and treat that the lamination piece appears the conquassation, cracked probability to improve the yields, more importantly can adjust the relative position of regulating part on the frame body through the driving piece, with the upper surface of regulating part and the difference in height of treating the lamination piece when the adjustment lamination frame bears pressure, thereby avoid the lamination in-process, appear bad phenomena such as snowflake or bubble, improve the yields.

Description

Laminating frame of laminating machine and laminating machine thereof

Technical Field

The utility model relates to the field of laminating machines, in particular to a laminating frame of a laminating machine and the laminating machine.

Background

The laminator is used for exhausting air in the photovoltaic module placed in the laminator in the production process of the photovoltaic module; heating the lower plate to enable the adhesive film to generate a crosslinking reaction; air at the edge of the photovoltaic module is exhausted by the pressure of the silica gel plate (upper plate).

When being used for photovoltaic dual-glass photovoltaic module production, dual-glass photovoltaic module uses glass + glued membrane + glass's lamination mode, but dual-glass photovoltaic module atress is uneven when laminating, as shown in figure 1, in the correlation technique, uses the aluminium alloy integrated into one piece lamination frame to place under photovoltaic module, when the silica gel board pushed down, the border position was shared pressure, balanced dual-glass photovoltaic module pressure distribution by the lamination frame. But has the following disadvantages:

1. the pressure provided by the laminating frame is fixed, so that the laminating frame can not meet the processing requirements of photovoltaic modules with different specifications;

2. when the appearance problem appears in photovoltaic module, can not improve through adjusting the lamination frame.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a laminating frame of a laminating machine, which is adjustable in thickness, can meet the processing requirements of photovoltaic modules with different specifications, and can improve the appearance problem of the edge position of the photovoltaic module due to the thickness by adjusting the laminating frame.

The utility model further provides a laminating machine with the laminating frame.

A lamination frame of a laminator according to an embodiment of the first aspect of the present invention includes: the frame body is hollow and is used for accommodating a piece to be laminated; the adjusting piece is movably arranged on the frame body and is positioned on the peripheral side of the lamination piece; the driving piece is arranged on the frame body and used for driving the adjusting piece to move towards or away from the frame body.

According to the laminating frame of the laminating machine, the frame body is provided with the adjusting piece and the driving piece, the driving piece is located below the adjusting piece, and the driving piece can drive the adjusting piece to move up and down on the frame body. Before the laminating machine carries out laminating, put into the laminating machine with a plurality of photovoltaic module that need carry out the laminating, the lamination frame is placed in photovoltaic module week side, because the supporting role of driving piece, the upper surface of regulating part is higher than the upper surface of photovoltaic module, and photovoltaic module is placed in frame body cavity. The driving piece can drive the regulating part and move towards or away from the frame body, from this through set up driving piece and regulating part on the frame body, can reduce to treat that the lamination piece appears the conquassation on the one hand, cracked probability, in order to improve the yields, more importantly, can adjust the relative position of regulating part on the frame body through the driving piece, with the upper surface of regulating part and the difference in height of treating the lamination piece when the adjustment lamination frame bears pressure, thereby avoid the lamination in-process, bad phenomena such as snowflake or bubble appear, improve the yields.

In some embodiments, the driving member is a plurality of driving members, and the plurality of driving members are arranged on the frame body at intervals.

In some embodiments, the driving member is configured as a stay bar, the stay bar is disposed on the frame body, and a free end of the stay bar is connected with the adjusting member.

In some embodiments, the driving member is configured as an elastic member, and the driving member is adapted to elastically push against the adjusting member.

Further, the driving member is configured as a spring, one end of which pushes against the adjusting member.

Optionally, the driving member is configured as a spring piece, and the spring piece is disposed on the frame body and pushes against the adjusting member.

Optionally, the spring is configured as a V-shaped spring or a W-shaped spring.

In some embodiments, the driver further comprises: the other end of the driving piece is connected with the adjusting rod, the adjusting rod penetrates through the frame body and is in threaded connection with the frame body, and the adjusting rod is used for adjusting the maximum extending position of the adjusting piece.

In some embodiments, the lamination frame of the laminator further comprises: the limiting plate is arranged on the outer edge of the frame body in a surrounding mode and/or the inner edge of the frame body in a surrounding mode so as to limit the adjusting piece.

The laminating machine according to the second aspect of the embodiment of the utility model comprises the laminating frame of the laminating machine according to the embodiment.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a prior art lamination frame.

Fig. 2 is a schematic view of a laminated frame according to an embodiment of the present invention in a relaxed state when the driving member is a stay bar.

Fig. 3 is a schematic view of a lamination frame according to an embodiment of the present invention in a compressed state when the driving member is a stay bar.

Fig. 4 is a schematic perspective view of a driving member of a lamination frame according to an embodiment of the present invention.

Fig. 5 is a schematic view of a lamination frame according to the first embodiment of the present invention in a relaxed state.

Fig. 6 is a schematic view of a lamination frame according to the first embodiment of the present invention in a compressed state.

Fig. 7 is a schematic perspective view of a lamination frame according to an embodiment of the present invention.

Fig. 8 is a schematic top view of a laminated frame base plate and adjustment bar according to an embodiment of the utility model.

Fig. 9 is a schematic view of a relaxed state of the laminated frame driving portion according to the second embodiment of the present invention.

Fig. 10 is a schematic view of the lamination frame driving part according to the second embodiment of the present invention in a compressed state when the lamination frame driving part is a V-shaped elastic sheet.

Fig. 11 is a schematic view of a relaxed state of the driving portion of the lamination frame according to the second embodiment of the utility model.

Fig. 12 is a schematic view of the lamination frame driving part according to the second embodiment of the present invention in a compressed state when the lamination frame driving part is a W-shaped elastic sheet.

Reference numerals:

a laminating frame 100,

Frame body 10, limiting plate 11

An adjusting part 20,

A driving member 30, a stay 31, a spring 32, a spring plate 33,

Adjusting lever 40

To be laminated 200.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

A lamination frame 100 of a laminator according to an embodiment of the present invention is described below with reference to fig. 1 to 12, including: a frame body 10, an adjusting member 20 and a driving member 30.

The frame body 10 is hollow and serves to accommodate the member to be laminated 200. The regulating member 20 is movably provided on the frame body 10 at the peripheral side of the to-be-laminated member 200. The driving member 30 is disposed on the frame body 10 and is used to drive the adjusting member 20 to move toward or away from the frame body 10.

It should be noted that the area of the hollow area of the frame body 10 is not particularly limited, and can be adjusted according to the size of the to-be-laminated member 200. The width and thickness of the regulating member 20 are not particularly limited as long as it is ensured that the regulating member 20 does not overlap with the member to be laminated 200 when the laminating process is performed.

Specifically, the laminating machine includes an upper plate and a lower plate, wherein the lower plate is heated during the laminating process, the upper plate is configured as a silicone plate, the silicone plate moves towards the lower plate and gradually compresses a to-be-laminated member (for example, a photovoltaic module) between the upper plate and the lower plate, a plurality of laminating frames 100 are disposed above the lower plate, the plurality of laminating frames 100 are arranged above the lower plate in an array, and the to-be-laminated member 200 is disposed in a hollow region of a frame body 10 of each laminating frame 100.

An adjusting part 20 and a driving part 30 are arranged above the frame body 10, the driving part 30 is located below the adjusting part 20, and the driving part 30 can drive the adjusting part 20 to move towards or away from the frame body 10 above the frame body 10. Before the laminating machine performs laminating, a plurality of to-be-laminated members 200 are put into the laminating machine, each to-be-laminated member 200 is arranged corresponding to one laminating frame 100, the to-be-laminated member 200 is arranged in the hollow of the frame body 10, and the upper surface of the adjusting member 20 is higher than the upper surface of the to-be-laminated member 200 due to the supporting function of the driving member 30. Because wait that lamination piece 200 locates the hollow of frame body 10, can prevent that adjacent lamination piece 200 of waiting from appearing the overlap joint phenomenon each other to avoid the lamination in-process, appear crushing, cracked probability, improve the yields.

In addition, taking processing photovoltaic modules as an example, the photovoltaic modules of different specifications have different required pressures when being laminated, and at this time, the relative position of the adjusting piece 20 on the frame body 10 can be adjusted through the driving piece 30, so as to adjust the pressure applied to the photovoltaic modules by the upper plate, and realize the lamination of the photovoltaic modules of different thickness specifications.

Specifically, in the lamination process of the photovoltaic module, if the pressure borne by the lamination frame 100 is too large, the upper plate may generate a large pressure on the photovoltaic module, which may cause an increase in the glue overflow amount (excessive glue overflow) of the photovoltaic module, reduce the thickness and cause snowflake inside the photovoltaic module, and if the pressure borne by the lamination frame 100 is too small, the upper plate may not sufficiently press the photovoltaic module, may cause insufficient glue overflow of the photovoltaic module, and cause an excessive thickness and cause air bubbles inside the photovoltaic module.

Illustratively, when the pressure of the laminating machine borne by the photovoltaic module is larger, the height of the adjusting piece 20 above the frame body 10 can be increased, in the laminating process, the height difference between the adjusting piece 20 and the upper surface of the photovoltaic module is larger, so that the component force borne by the adjusting piece 20 is larger, so as to reduce the pressure borne by the photovoltaic module, so as to avoid the defects of excessive glue overflow, snowflake generation and the like, when the pressure of the laminating machine borne by the photovoltaic module is smaller, the height of the adjusting piece 20 above the frame body 10 can be reduced, in the laminating process, the height difference between the adjusting piece 20 and the upper surface of the photovoltaic module is smaller, so as to reduce the component force borne by the adjusting piece 20, so as to increase the pressure borne by the photovoltaic module, ensure sufficient glue overflow, avoid the generation of bubbles inside the photovoltaic module, namely, so as to avoid the phenomenon of excessive pressure or insufficient pressure, so as to avoid the snowflake phenomenon or glue overflow phenomenon of the laminated photovoltaic module, the processing precision and the yield are improved.

According to the laminating frame 100 of the laminating machine provided by the embodiment of the utility model, the driving member 30 and the adjusting member 20 are arranged on the frame body 10, on one hand, the probability of crushing and breaking of the photovoltaic module can be reduced, so that the yield is improved, and more importantly, the relative position of the adjusting member 20 on the frame body 10 can be adjusted through the driving member 30, so that the height difference between the upper surface of the adjusting member 20 and the upper surface of the photovoltaic module when the laminating frame 100 bears the pressure is adjusted, and therefore, the bad phenomena such as snowflakes or bubbles and the like in the laminating process are avoided, and the yield is improved.

As shown in fig. 2 to 7, in some embodiments, the driving member 30 is plural, and the plural driving members 30 are disposed on the frame body 10 at intervals.

Wherein, set up a plurality of driving pieces 30 at the interval on frame body 10, guarantee that regulating part 20 can keep the level on frame body 10 to through the even support upper plate of regulating part 20, make photovoltaic module atress more even on whole plane, and then can avoid because photovoltaic module appearance atress concentrates and lead to bubble or snowflake line phenomenon in the lamination process.

As shown in fig. 2 to 4, in some embodiments, the driving member 30 is configured as a stay 31, the stay 31 is disposed on the frame body 10, and a free end of the stay 31 is connected with the adjusting member 20.

That is to say, before laminating in the laminating machine, the stay bar 31 is in a free state, the weight of the adjusting piece 20 is smaller than the thrust of the stay bar 31 itself, the adjusting piece 20 is not enough to compress the stay bar 31, the upper surface of the adjusting piece 20 is higher than the upper surface of the photovoltaic module, the thickness of the laminated frame 100 is integrally increased, at this time, the photovoltaic module is placed in the hollow part of the frame body 10, and the laminated frame 100 can be prevented from being in contact with the adjacent laminated frame 100, the photovoltaic modules in the two laminated frames 100, and the laminated frame 100 is prevented from being in contact with the photovoltaic modules in the adjacent laminated frame 100, so that the probability of overlapping is reduced.

When the driving member 30 is configured as the stay 31, the stay 31 possesses a self-restraining characteristic. The plurality of spacers 31 are provided to ensure that the adjusting member 20 keeps moving vertically on the frame body 10 while the spacers 31 provide support to the adjusting member 20. According to the self-limiting characteristic of the stay bar 31, the stay bar does not shake left and right, so that the adjusting piece 20 can be kept stable, and the overall stability of the laminating frame 100 is improved.

It is to be understood that the specific structure of the stay 31 in the embodiment of the present application is not exclusive, and the structure of the stay 31 may be a pneumatic stay or a hydraulic stay, and is not limited specifically herein.

As shown in fig. 5-8, in some embodiments, the driving member 30 is configured as an elastic member, and the driving member 30 is adapted to elastically push against the adjusting member 20.

That is to say, before the laminating machine performs lamination, the driving member 30 is in a relaxed state, the upper surface of the adjusting member 20 is higher than the upper surface of the photovoltaic module, the thickness of the laminating frame 100 is integrally increased, and at this time, the photovoltaic module is placed in the hollow portion of the frame body 10, so that the laminating frame 100 can be prevented from contacting with the photovoltaic modules in the adjacent laminating frame 100, the photovoltaic modules in the two laminating frames 100, and the laminating frame 100 and the photovoltaic modules in the adjacent laminating frame 100, and the probability of overlapping is reduced.

When the laminating machine starts to work, the laminating frame 100 is in a stressed state in the laminating machine, the driving part 30 is in an elastic compression state, the adjusting part 20 can move downwards on the frame body 10 and is finally flush with the upper surface of the photovoltaic assembly, at the moment, the silica gel plate is completely contacted with the upper surface of the photovoltaic assembly, the adjusting part 20 bears the pressure of a part of the silica gel plate and limits the pressing position of the silica gel plate, so that the pressure of the photovoltaic assembly is ensured to be uniform, the phenomenon that the pressure is too large or too small can be avoided, the phenomenon that snowflake patterns or glue overflow occur in the laminated photovoltaic assembly is avoided, the processing precision is improved, and the yield is improved.

It is understood that the driving member 30 of the present embodiment is configured as an elastic member, but the specific structure is not exclusive, and the specific structure of the driving member 30 of the present embodiment will be described in detail below in two possible embodiments.

The first embodiment:

as shown in fig. 5-6, in the first embodiment, the driving member 30 is configured as a spring 32, and one end of the spring 32 pushes against the adjusting member 20. From this, can adjust the elasticity of driving piece 30 through the parameter of adjustment spring 32 to adapt to the photovoltaic module of different sizes and weight, guarantee that photovoltaic module can be supported by regulating part 20 before the lamination and be higher than the photovoltaic module upper surface, can guarantee that regulating part 20 height flushes with the photovoltaic module upper surface during the lamination, can be in order to avoid appearing the phenomenon of pressure too big or undersize, in order to avoid the photovoltaic module after the lamination snowflake or overflow gluey phenomenon to appear, improve machining precision, yields.

Alternatively, the parameters of the spring 32 can be adjusted by changing the material and the wire diameter of the spring 32, for example, the material of the spring 32 can be carbon steel spring wire or alloy spring wire, and the carbon steel spring wire and the chrome molybdenum steel wire have different elastic properties and can be selected according to the actual use requirement. The wire diameter of the spring 32 influences the elastic force of the spring 32, and in the same material, the larger the wire diameter, the larger the elastic force of the spring 32, and during the use of the laminated frame 100, if the thickness of the photovoltaic module is thicker, the spring 32 with the larger wire diameter can be selected as the driving member 30 to provide a stronger elastic force. If the thickness of the photovoltaic module is thinner, the spring 32 with a thinner wire diameter can be selected as the driving piece 30, and the photovoltaic module is ensured not to have appearance problems.

Second embodiment:

as shown in fig. 9-12, in the second embodiment, the driving member 30 is configured as a spring piece 33, which is disposed on the frame body 10 and pushes against the adjusting member 20. From this, can guarantee to begin to carry out the during operation at the laminator, lamination frame 100 is in the stress state in the laminator, shell fragment 33 is in the elasticity and compresses tightly the state, regulating part 20 can move down on frame body 10, finally flush with the photovoltaic module upper surface, the silica gel board contacts with the photovoltaic module upper surface completely, regulating part 20 bears the pressure of a part silica gel board and restricts the pushing down position of silica gel board, in order to guarantee that photovoltaic module's pressure is even, can be in order to avoid appearing the phenomenon of pressure too big or undersize, in order to avoid the photovoltaic module after the lamination snowflake or overflow gluey phenomenon to appear, and the machining precision is improved, the yields.

Wherein, can adapt to the photovoltaic module of different sizes and weight through the material and the thickness of adjustment shell fragment 33, guarantee that photovoltaic module can be supported by regulating part 20 before the lamination and be higher than the photovoltaic module upper surface, can guarantee that regulating part 20 height flushes with the photovoltaic module upper surface during the lamination.

Alternatively, the spring 33 is configured as a V-shaped spring or a W-shaped spring.

As shown in fig. 9-10, when the elastic sheet 33 is configured as a V-shaped elastic sheet, the elastic force of the elastic sheet 33 can be adjusted by adjusting the included angle of the elastic sheet 33.

As shown in fig. 11-12, when the elastic sheet 33 is configured as a W-shaped elastic sheet, the number of turns of the elastic sheet 33 can be increased to control the elastic force, the number of turns of the W-shaped elastic sheet is increased, the elastic force of the elastic sheet 33 is increased to adapt to photovoltaic modules with different thicknesses, so that the thickness of the laminated frame 100 can be increased before lamination, and the problem of overlapping of the laminated frame 100 is prevented.

It should be noted that the second embodiment differs from the first embodiment in that the resilient sheet 33 is used as the driving member 30 to achieve the same technical effect as the spring 32.

In some embodiments, the lamination frame 100 further comprises: the adjusting rod 40 is connected with the other end of the driving part, the adjusting rod 40 penetrates through the frame body and is in threaded connection with the frame body 10, and the adjusting rod is used for adjusting the maximum extending position of the adjusting part 20. The height of the upper surface of the adjusting part 20 extending out can be controlled by adjusting the adjusting rod 40, so that when the driving part 30 is in a relaxed state, the whole height of the laminated frame 100 can be adjusted according to the adjustment of the adjusting rod 40, when the pressure of the laminating machine borne by the photovoltaic module is too large, the height of the adjusting part 20 above the frame body 10 can be increased, in the laminating process, the component force borne by the adjusting part 20 is larger, so that the pressure borne by the photovoltaic module is reduced, so that the defects of excessive glue overflow, snowflake generation and the like are avoided, when the pressure borne by the photovoltaic module is smaller, the height of the adjusting part 20 above the frame body 10 can be reduced, in the laminating process, the component force borne by the adjusting part 20 is smaller, so that the pressure borne by the photovoltaic module is increased, sufficient glue overflow is ensured, bubbles are avoided from being generated inside the photovoltaic module, and the laminating effect of the photovoltaic module is enhanced.

Wherein, through the adjustment of adjusting pole 40, when the laminator upper plate pushes down, regulating part 20 also can be less than photovoltaic module's upper surface, and at this moment, the pressure that the silica gel board was used in photovoltaic module is bigger, makes photovoltaic module's excessive volume of gluing increase, extrudes unnecessary glue under the prerequisite that has certain volume of gluing in guaranteeing photovoltaic module, prevents to appear the bubble among the photovoltaic module to increase photovoltaic module's lamination effect.

The adjusting rod 40 penetrates through the frame body 10 and is in threaded connection with the frame body 10. Adjust pole 40 through with frame body 10 threaded connection, can make the adjustment that becomes more meticulous to the biggest extended position of regulating part 20 to through screw-thread fit, can cross and play fixed action to adjusting pole 40, make adjust pole 40 adjust to be difficult to appear not hard up after the position needs, guarantee to adjust the regulation effect of pole 40.

The adjustment lever 40 can move the driving member 30 upward or downward by forward and reverse rotation. When the pressure of the laminating machine born by the photovoltaic module is larger, the driving piece 30 can move upwards through the adjusting rod 40, the height of the adjusting piece 20 above the frame body 10 is increased, and the component force born by the adjusting piece 20 is larger in the laminating process, so that the pressure born by the photovoltaic module is reduced, and the defects of excessive glue overflow, snowflake generation and the like are avoided. When the pressure of the laminating machine born by the photovoltaic module is small, the driving piece 30 can move downwards through the adjusting rod 40, the height of the adjusting piece 20 above the frame body 10 is reduced, and in the laminating process, the component force born by the adjusting piece 20 is smaller, so that the pressure born by the photovoltaic module is increased, sufficient glue overflow is ensured, and bubbles are prevented from being generated in the photovoltaic module. Therefore, the phenomenon of overlarge or undersize pressure can be avoided, the phenomenon of snowflake grains or glue overflow of the laminated photovoltaic module is avoided, and the processing precision and the yield are improved.

In some embodiments, the lamination frame 100 further comprises: and the limiting plate 11 is arranged around the outer edge of the frame body 10 and/or the inner edge of the frame body 10, so as to limit the adjusting piece 20.

This can form a complete framework, and when driving piece 30 structure was the elastic component, limiting plate 11 can play limiting displacement for the elastic component, prevented to rock about because the characteristic of elastic component self. Spacing through limiting plate 11 can make regulating part 20 keep the level, and through the regulatory action of driving piece 30, the holding power that makes regulating part 20 is more even to it is better to make photovoltaic module's lamination effect.

It should be noted that the shape of the frame body 10 enclosed by the limiting plate 11 is not particularly limited, for example, the frame body 10 may be a rectangular frame, a triangular frame or a circular frame, which corresponds to the specific shape of the photovoltaic module to be laminated, so that the laminating frame 100 can support the photovoltaic modules in various shapes in a laminating manner, and the application range of the laminating frame 100 can be increased.

The laminator according to the second aspect embodiment of the present invention includes the lamination frame 100 of the laminator of the above embodiments.

In the description of the present invention, it is to be understood that the terms "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the indicated orientations and positional relationships based on the drawings, merely to facilitate the description of the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting.

In the description of the present invention, "a plurality" means two or more.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A lamination frame of a laminator, comprising:

the frame body is hollow and is used for accommodating a piece to be laminated;

the adjusting piece is movably arranged on the frame body and is positioned on the peripheral side of the lamination piece;

the driving piece is arranged on the frame body and used for driving the adjusting piece to move towards or away from the frame body.

2. The lamination frame of the laminator according to claim 1, wherein the driving member is plural, and the plural driving members are provided on the frame body at intervals.

3. The lamination frame of the lamination machine of claim 2, wherein the drive member is configured as a strut disposed on the frame body, and a free end of the strut is coupled to the adjustment member.

4. The lamination frame of the lamination machine of claim 2, wherein the drive member is configured as an elastic member, and the drive member is adapted to elastically push against the adjustment member.

5. The lamination frame of the lamination machine of claim 4, wherein the drive member is configured as a spring, one end of the spring urging against the adjustment member.

6. The lamination frame of the lamination machine of claim 4, wherein the drive member is configured as a spring tab disposed on the frame body and pushing against the adjustment member.

7. The lamination frame of the lamination machine of claim 6, wherein the spring lamination is configured as a V-shaped spring lamination or a W-shaped spring lamination.

8. The lamination frame of the lamination machine of any one of claims 3 to 7, further comprising: the other end of the driving piece is connected with the adjusting rod, the adjusting rod penetrates through the frame body and is in threaded connection with the frame body, and the adjusting rod is used for adjusting the maximum extending position of the adjusting piece.

9. The lamination frame of the lamination machine of claim 1, further comprising: the limiting plate is arranged on the outer edge of the frame body in a surrounding mode and/or the inner edge of the frame body in a surrounding mode so as to limit the adjusting piece.

10. A laminating machine, comprising: a lamination frame for a laminator according to any of claims 1 to 9.

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