CN212171388U - Vacuum insulation panel indent and rubberizing integrative device - Google Patents

Abstract

The utility model aims to solve the technical problem that a realize vacuum insulation panels surface recess volume production, increase of production, lifting efficiency, have the vacuum insulation panels indent of surface sticker and the integrative device of rubberizing simultaneously concurrently. The device comprises a bracket, a headless conveyor belt, a conveyor belt assembly, a groove pressing processing assembly and a rubberizing device. When the device is used and used for pressing the groove, the distance between the groove pressing roller and the second driving roller is firstly adjusted, meanwhile, the height of the flattening roller is adjusted, the device is started, and then the vacuum insulation plate is flatly placed on the surface of the belt conveying; when the double-sided adhesive tape is pasted, after the double-sided adhesive tape is installed, the distance between the flattening roller and the first driving roller is adjusted, the grooving roller is adjusted to be high, then the vacuum heat-insulating plate is horizontally placed on the surface of the endless conveyor belt, one end of the double-sided adhesive tape is pulled out to be aligned with the vacuum heat-insulating plate and pasted on the surface of the endless conveyor belt, and the driving device and the power device of the endless conveyor belt are started. The operation is simple, and the method is suitable for popularization in the field of vacuum insulation panels.

Description

Vacuum insulation panel indent and rubberizing integrative device

Technical Field

The utility model relates to a vacuum insulation panels field, concretely relates to vacuum insulation panels indent and integrative device of rubberizing.

Background

The vacuum insulated panel has the characteristics of low heat conductivity coefficient, good heat insulation effect, small density and small occupied space, is widely applied to various household appliances, and has good effect when being partially applied to the field of building heat insulation. In the application process of the vacuum insulation panel, various problems of special-shaped design, such as grooving, perforating, bending and the like, need to be solved, and aiming at the grooving problem of the vacuum insulation panel, the method adopted by the same industry at present is mainly to perform pre-grooving treatment on the core material of the vacuum insulation panel, and the grooved core material is subjected to vacuum packaging to form the vacuum insulation panel with a specific groove on the surface. The method has low production efficiency and high reject ratio, and greatly limits the yield.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a realize vacuum insulation panels surface recess volume production, increase of production, lifting efficiency, have the vacuum insulation panels indent of surface sticker and the integrative device of rubberizing simultaneously concurrently.

The utility model provides a technical scheme that its technical problem adopted does: the vacuum insulation panel grooving and rubberizing integrated device comprises a support, a headless conveyor belt, a conveyor belt assembly, a grooving processing assembly and a rubberizing device, wherein the headless conveyor belt is fixed on the support through the conveyor belt assembly, the grooving processing assembly is fixed on the support and located at the rear end of the headless conveyor belt, the grooving processing assembly comprises a driving device, a headless chain, a first driving roller, a second driving roller, a flattening roller and a grooving roller, a plurality of grooving rings used for grooving are sleeved on the grooving roller, each grooving ring is in interference fit with the grooving roller, the first driving roller and the second driving roller are arranged in parallel, the distance between the first driving roller and the second driving roller is larger than zero, the highest point of the first driving roller and the highest point of the second driving roller are located at the same height as the upper surface of the headless conveyor belt on the upper layer, rolling shafts at two ends of the first driving roller are respectively fixed on two sides of the support through bearings, the roller shaft at one end of the first driving roller is sleeved with a first chain wheel, the first chain wheel is positioned at the outer side of the support, the first chain wheel and the second chain wheel have a gap, the roller shafts at the two ends of the second driving roller are fixed at the two sides of the support through bearings respectively, the roller shaft at one end of the second driving roller is sleeved with a second chain wheel, the second chain wheel and the first chain wheel are positioned in the same vertical plane, the output shaft of the driving device is sleeved with a driving chain wheel, a headless chain sequentially bypasses the driving chain wheel, the first chain wheel, the second chain wheel and the driving chain wheel, the driving device is connected with an external power supply, the flattening roller is arranged right above the first driving roller, the grooving roller is arranged right above the second driving roller, the flattening roller and the grooving roller are fixed on the support through a height adjusting device, and the support is further provided with a first supporting plate and a second supporting plate, first backup pad and the symmetrical both sides that set up at the support of second backup pad, the headless conveyer belt is located between first backup pad and the second backup pad, be provided with the rubber roll that is used for pasting double faced adhesive tape for vacuum insulation board surface between first backup pad and the second backup pad, the interval between rubber roll and the headless conveyer belt is 25 ~ 40 centimetres, the cover is equipped with the double faced film that matches with the rubber roll on the rubber roll.

Further, the height-adjustable device comprises a first inverted U-shaped frame, a first screw rod, a second screw rod, a first fixed block, a second inverted U-shaped frame, a third screw rod, a fourth screw rod, a third fixed block and a fourth fixed block, wherein the first inverted U-shaped frame and the second inverted U-shaped frame are the same in height and are symmetrically arranged on two sides of the bracket, the first fixed block is sleeved on a rolling shaft of the flattening roller close to one end of the first inverted U-shaped frame and is fixedly connected with the rolling shaft through a bearing, the second fixed block is sleeved on a rolling shaft of the pressure groove roller close to one end of the first inverted U-shaped frame and is fixedly connected with the rolling shaft through a bearing, a first thread through hole and a second thread through hole which penetrate through from top to bottom are arranged on a cross rod of the first inverted U-shaped frame, the lower end of the first screw rod penetrates through the first thread through hole and extends downwards to the upper end of the first fixed block and, the upper end of the first screw rod is provided with a first turntable for rotating the first screw rod, the lower end of the second screw rod passes through the second threaded through hole and extends downwards to the upper end of the second fixed block, the second threaded through hole and the second threaded through hole are fixedly connected through a bearing, and the upper end of the second screw rod is provided with a second turntable for rotating the second screw rod; the third fixed block cover is established on the roller bearing that the flattening roller is close to second frame one end of falling the U-shaped and the two passes through bearing fixed connection, the fourth fixed block cover is established on the roller bearing that the indent roller is close to second frame one end of falling the U-shaped and the two passes through bearing fixed connection, be provided with third screw through-hole and fourth screw through-hole that run through from top to bottom on the horizontal pole of second frame of falling the U-shaped, the lower extreme of third lead screw passes third screw through-hole downwardly extending to the upper end of third fixed block and the two passes through bearing fixed connection, the upper end of third lead screw is provided with the third carousel that is used for rotating the third lead screw, the lower extreme of fourth lead screw passes fourth screw through-hole downwardly extending to the upper end of fourth fixed block and the two passes through bearing fixed connection, the upper end of fourth lead screw is provided with the fourth carousel that is used for rotating the fourth lead screw, the length, The length of second lead screw, the length of third lead screw, the length of fourth lead screw are the same and all more than or equal to the height of first inverted U-shaped frame.

Further, a limiting plate is arranged above the endless conveyor belt, a gap exists between the lower end face of the limiting plate and the upper surface of the endless conveyor belt on the upper layer, the limiting plate is fixed on the support through a telescopic device, and the limiting plate is arranged along the conveying direction of the endless conveyor belt.

Further, the telescopic device comprises at least one sliding rod and at least one supporting block, the number of the sliding rods is the same as that of the supporting blocks, the lower end of each supporting block is fixed on the support, a through hole is formed in the surface of each supporting block, the central axis of each through hole is perpendicular to the limiting plate, the diameter of each through hole is matched with that of each sliding rod, one end of each sliding rod penetrates through the through hole to extend to the outer surface of the limiting plate and is fixedly connected with the corresponding through hole, the other end of each sliding rod extends to the outer side of the support, a threaded hole is formed in the upper end face of each supporting block, the central axis of each threaded hole is intersected with the central axis of each through hole and is perpendicular to the central axis of each through hole, the lower.

Furthermore, the number of the sliding rods and the number of the supporting blocks are two.

Further, two sliding rods are uniformly distributed on the outer side surface of the limiting plate.

Further, the driving device is a driving motor.

Further, be provided with first support column between first lead screw and the second lead screw, the upper end of first support column is fixed on the horizontal pole of first inverted U-shaped frame, the lower extreme of first support column is fixed on the support, be provided with the second support column between third lead screw and the fourth lead screw, the upper end of second support column is fixed on the horizontal pole of second inverted U-shaped frame, the lower extreme of second support column is fixed on the support.

The utility model has the advantages that: when the device integrating the grooving and the rubberizing of the vacuum insulation panel is used, grooving treatment is firstly carried out, the distance between a grooving roller and a second driving roller is adjusted through a height adjusting device to adapt to the vacuum insulation panel to be treated, meanwhile, the height of a flattening roller is adjusted to ensure that the flattening roller does not touch the vacuum insulation panel, a driving device and a power device of a headless conveyor belt are started to rotate a headless conveyor belt, a first driving roller and a second driving roller, then the vacuum insulation panel is flatly placed on the surface of the headless conveyor belt on the upper layer, the headless conveyor belt conveys the vacuum insulation panel to the position between the grooving roller and the second driving roller, the second driving roller is always in a rotating state, the vacuum insulation panel is driven to pass under the grooving roller until the vacuum insulation panel is separated from the second driving roller, the surface of the vacuum insulation panel is pressed out of a groove through the acting force of a grooving ring, and a vacuum insulation groove plate with a set rule is, furthermore, the plurality of pressure groove rings are in interference fit with the pressure groove roller, and the distance between two adjacent pressure groove rings can be changed through external force, so that the requirements of grooves with different specifications can be met; when the double-sided adhesive tape is pasted on the vacuum heat-insulating plate, a double-sided adhesive tape matched with the adhesive tape is installed on the adhesive tape, then the distance between the flattening roller and the first driving roller is adjusted by the height adjusting device to be equal to the thickness of the vacuum heat-insulating plate to which the double-sided adhesive tape is to be pasted, the grooving roller is adjusted to be higher than the position where the grooving roller cannot touch the surface of a product, then the vacuum heat-insulating plate is flatly placed on the surface of a headless conveyor belt on the upper layer, one end of the double-sided adhesive tape is pulled out to be aligned with the vacuum heat-insulating plate to be pasted on the surface of the vacuum heat-insulating plate, a driving device and a power device of the headless conveyor belt are started, the headless conveyor belt conveys the vacuum heat-insulating plate to pass through the flattening roller and the first driving roller, then the vacuum heat-insulating plate continues to move under the driving of.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of a device for integrating grooving and rubberizing of a vacuum insulation panel according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is an enlarged view of a portion B of FIG. 1;

FIG. 4 is an enlarged view of a portion C of FIG. 1;

the notation in the figure is: the device comprises a support 1, a endless conveyor belt 2, a driving device 3, an endless chain 4, a first driving roller 5, a second driving roller 6, a flattening roller 7, a groove pressing roller 8, a groove pressing ring 9, a first chain wheel 10, a second chain wheel 11, a driving chain wheel 12, a first supporting plate 13, a second supporting plate 14, a rubber roller 15, a first inverted U-shaped frame 16, a first screw rod 17, a second screw rod 18, a first fixed block 19, a second fixed block 20, a second inverted U-shaped frame 21, a third screw rod 22, a fourth screw rod 23, a third fixed block 24, a fourth fixed block 25, a first rotary disk 26, a second rotary disk 27, a third rotary disk 28, a fourth rotary disk 29, a limiting plate 30, a sliding rod 31, a supporting block 32, a tightening screw rod 33, a first supporting column 34 and a second supporting column 35.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-4, the device for integrating grooving and rubberizing of a vacuum insulation panel comprises a bracket 1, a headless conveyor belt 2, a conveyor belt assembly, a grooving processing assembly and a rubberizing device, wherein the headless conveyor belt 2 is fixed on the bracket 1 through the conveyor belt assembly, the grooving processing assembly is fixed on the bracket 1 and is located at the rear end of the headless conveyor belt 2, the grooving processing assembly comprises a driving device 3, a headless chain 4, a first driving roller 5, a second driving roller 6, a flattening roller 7 and a grooving roller 8, a plurality of grooving rings 9 for grooving are sleeved on the grooving roller 8, each grooving ring 9 is in interference fit with the grooving roller 8, the first driving roller 5 and the second driving roller 6 are arranged in parallel, the distance between the first driving roller 5 and the second driving roller 6 is greater than zero, the highest point of the first driving roller 5 and the highest point of the second driving roller 6 are located at the same height as the upper surface of the headless conveyor belt 2, the roller bearing at 5 both ends of first drive roll is fixed in the both sides of support 1 through the bearing respectively, the cover is equipped with first sprocket 10 on the roller bearing of 5 one ends of first drive roll, first sprocket 10 is located the outside of support 1 and there is the clearance in the two, the roller bearing at 6 both ends of second drive roll is fixed in the both sides of support 1 through the bearing respectively, the cover is equipped with second sprocket 11 on the roller bearing of 6 one end of second drive roll, second sprocket 11 is located same vertical plane with first sprocket 10, the cover is equipped with driving sprocket 12 on the output shaft of drive arrangement 3, driving sprocket 12, first sprocket 10, second sprocket 11, driving sprocket 12 are walked around in proper order to headless chain 4, drive arrangement 3 links to each other with external power supply, flattening roller 7 sets up directly over first drive roll 5, indent roller 8 sets up directly over second drive roll 6, flattening roller 7, indent roller 8 are all fixed on support 1 through height-adjustable device, still be provided with first backup pad 13 and second backup pad 14 on support 1, first backup pad 13 sets up the both sides at support 1 with second backup pad 14 symmetry, headless conveyer belt 2 is located between first backup pad 13 and the second backup pad 14, be provided with between first backup pad 13 and the second backup pad 14 and be used for giving the rubber roll 15 of vacuum insulation board surface sticker double faced adhesive tape, the interval between rubber roll 15 and the headless conveyer belt 2 is 25 ~ 40 centimetres, the cover is equipped with the double faced adhesive tape that matches with rubber roll 15 on the rubber roll 15. When the device integrating the grooving and the rubberizing of the vacuum insulation panel is used, grooving treatment is firstly carried out, the distance between a grooving roller 8 and a second driving roller 6 is adjusted through a height adjusting device to adapt to the vacuum insulation panel to be treated, meanwhile, the height of a flattening roller 7 is adjusted to ensure that the flattening roller 7 does not touch the vacuum insulation panel, a power device of a driving device 3 and a headless conveyor belt 2 is started to enable a headless conveyor belt 2, a first driving roller 5 and a second driving roller 6 to rotate, then the vacuum insulation panel is flatly placed on the surface of the headless conveyor belt 2 on the upper layer, the headless conveyor belt 2 conveys the vacuum insulation panel to the position between the grooving roller 8 and the second driving roller 6, the second driving roller 6 is always in a rotating state, the vacuum insulation panel is driven to pass under the grooving roller 8 until the vacuum insulation panel is separated from the second driving roller 6, the surface of the vacuum insulation panel is pressed out of a groove through the acting force of a grooving ring, a vacuum heat insulation groove plate with a set rule is formed, and further, a plurality of groove pressing rings 9 are in interference fit with the groove pressing roller 8, and the distance between two adjacent groove pressing rings 9 can be changed through external force to meet the requirements of different specifications; when the double-sided adhesive tape is pasted on the vacuum insulated panel, the double-sided adhesive tape matched with the adhesive tape is arranged on the adhesive tape roller 15, then the distance between the flattening roller 7 and the first driving roller 5 is adjusted by a height adjusting device to be equal to the thickness of the vacuum insulation board to be stuck with the double faced adhesive tape, meanwhile, the groove pressing roller 8 is adjusted to a position where the groove pressing roller can not touch the surface of the product, then, a vacuum insulation plate is flatly placed on the surface of the upper endless conveyor belt 2, one end of the double-sided film is pulled out to be aligned with the vacuum insulation plate and attached to the surface of the endless conveyor belt 2, a driving device 3 and a power device of the endless conveyor belt 2 are started, the endless conveyor belt 2 conveys the vacuum insulation plate to pass between a flattening roller 7 and a first driving roller 5, then the vacuum insulation panel continues to move under the driving of the first driving roller 5 until the vacuum insulation panel is separated from the second driving roller 6, the double-sided adhesive tape is flatly and firmly attached to the surface of the vacuum heat insulation plate under the action of the flattening roller 7 and the first driving roller 5.

In the above embodiment, the height adjustable device is preferably of a structure including a first inverted U-shaped frame 16, a first screw rod 17, a second screw rod 18, a first fixing block 19, a second fixing block 20, a second inverted U-shaped frame 21, a third screw rod 22, a fourth screw rod 23, a third fixing block 24, and a fourth fixing block 25, the first inverted U-shaped frame 16 and the second inverted U-shaped frame 21 are at the same height and symmetrically disposed at both sides of the bracket 1, the first fixing block 19 is sleeved on the roller shaft of the flattening roller 7 near one end of the first inverted U-shaped frame 16 and fixedly connected with the same through a bearing, the second fixing block 20 is sleeved on the roller shaft of the grooved roller 8 near one end of the first inverted U-shaped frame 16 and fixedly connected with the same through a bearing, the cross rod of the first inverted U-shaped frame 16 is provided with a first threaded through hole and a second threaded through hole which are penetrated up and down, the lower end of the first screw rod 17 passes through the first thread through hole and extends downwards to the upper end of the first fixed block 19, and the first screw rod and the first fixed block are fixedly connected through a bearing, the upper end of the first screw rod 17 is provided with a first rotary disc 26 for rotating the first screw rod 17, the lower end of the second screw rod 18 passes through the second thread through hole and extends downwards to the upper end of the second fixed block 20, the first rotary disc and the second rotary disc are fixedly connected through a bearing, and the upper end of the second screw rod 18 is provided with a second rotary disc 27 for rotating the second screw rod 18; the third fixed block 24 is sleeved on the roller shaft of the flattening roller 7 close to one end of the second inverted U-shaped frame 21 and the two are fixedly connected through a bearing, the fourth fixed block 25 is sleeved on the roller shaft of the flattening roller 8 close to one end of the second inverted U-shaped frame 21 and the two are fixedly connected through a bearing, a cross rod of the second inverted U-shaped frame 21 is provided with a third thread through hole and a fourth thread through hole which are penetrated from top to bottom, the lower end of the third lead screw 22 penetrates through the third thread through hole to extend downwards to the upper end of the third fixed block 24 and the two are fixedly connected through a bearing, the upper end of the third lead screw 22 is provided with a third turntable 28 for rotating the third lead screw 22, the lower end of the fourth lead screw 23 penetrates through the fourth thread through hole to extend downwards to the upper end of the fourth fixed block 25 and the two are fixedly connected through a bearing, the upper end of the fourth lead screw 23 is provided with a fourth turntable 29 for rotating the, the length of the first screw rod 17, the length of the second screw rod 18, the length of the third screw rod 22 and the length of the fourth screw rod 23 are all the same and are all larger than or equal to the height of the first inverted U-shaped frame 16. The height of the flattening roller 7 can thus be adjusted by rotating the first turntable 26 and the third turntable 28, and the height of the grooved roller 8 can be adjusted by rotating the second turntable 27 and the fourth turntable 29.

In order to ensure the set position of the vacuum insulation panel in the conveying process, a limiting plate 30 is arranged above the endless conveyor belt 2, a gap exists between the lower end face of the limiting plate 30 and the upper surface of the endless conveyor belt 2 on the upper layer, the limiting plate 30 is fixed on the bracket 1 through a telescopic device, and the limiting plate 30 is arranged along the conveying direction of the endless conveyor belt 2. The trajectory of the vacuum insulation panel during transportation can be limited by the limiting plate 30.

From the point of view of simplicity and practicality, the telescopic device is preferably of a structure comprising at least one sliding bar 31, at least one supporting block 32, the number of the sliding rods 31 is the same as that of the supporting blocks 32, the lower ends of the supporting blocks 32 are fixed on the bracket 1, the surface of the supporting block 32 is provided with a through hole, the central axis of the through hole is perpendicular to the limiting plate 30, the diameter of the through hole is matched with that of the sliding rod 31, one end of the sliding rod 31 passes through the through hole to extend to the outer surface of the limit plate 30 and is fixedly connected with the limit plate, the other end of the sliding rod 31 extends to the outside of the bracket 1, the upper end surface of the supporting block 32 is provided with a threaded hole, the central axis of the threaded hole is intersected with the central axis of the through hole and is mutually vertical, the lower end of the threaded hole extends to the side wall of the through hole and is mutually communicated with the side wall of the through hole, and a jacking screw rod 33 is arranged in the threaded hole. Thus, the expansion and contraction distance of the sliding rod 31 can be adjusted by loosening and fastening the jacking screw 33, and the position of the limit plate 30 is further adjusted to adapt to vacuum insulation panels of various specifications.

According to practical conditions, the number of the sliding rods 31 and the number of the supporting blocks 32 are both optimal.

The two sliding rods 31 are uniformly distributed on the outer side surface of the limit plate 30 in view of force balance. This allows the two slide bars 31 to be evenly stressed.

The driving device 3 is preferably a driving motor according to the requirements of the actual situation.

In order to further strengthen the stability of the first inverted-U-shaped frame 16 and the second inverted-U-shaped frame 21, a first supporting column 34 is arranged between the first screw rod 17 and the second screw rod 18, the upper end of the first supporting column 34 is fixed on a cross rod of the first inverted-U-shaped frame 16, the lower end of the first supporting column 34 is fixed on the support 1, a second supporting column 35 is arranged between the third screw rod 22 and the fourth screw rod 23, the upper end of the second supporting column 35 is fixed on a cross rod of the second inverted-U-shaped frame 21, and the lower end of the second supporting column 35 is fixed on the support 1. Thus, the stability of the first and second inverted U-shaped brackets 16 and 21 can be enhanced by the first and second support columns 34 and 35.

Claims (8)

1. The utility model provides a vacuum insulation panels indent and integrative device of rubberizing which characterized in that: including support (1), headless conveyer belt (2), conveyer belt subassembly, indent processing assembly, rubberizing device, headless conveyer belt (2) are fixed on support (1) through conveyer belt subassembly, indent processing assembly fixes on support (1) and is located the rear end of headless conveyer belt (2), indent processing assembly includes drive arrangement (3), headless chain (4), first drive roll (5), second drive roll (6), flattening roller (7), indent roller (8), the cover is equipped with a plurality of indent rings (9) that are used for the indent on indent roller (8), and every indent ring (9) all with indent roller (8) interference fit, first drive roll (5) and second drive roll (6) parallel arrangement, the interval between first drive roll (5) and second drive roll (6) is greater than zero, the peak of first drive roll (5), The peak of second drive roll (6) all is located same height with the upper surface of the endless conveyer belt (2) on upper strata, the roller bearing at first drive roll (5) both ends is fixed the both sides in support (1) through the bearing respectively, the cover is equipped with first sprocket (10) on the roller bearing of first drive roll (5) one end, first sprocket (10) are located the outside of support (1) and the two has the clearance, the roller bearing at second drive roll (6) both ends is fixed the both sides in support (1) through the bearing respectively, the cover is equipped with second sprocket (11) on the roller bearing of second drive roll (6) one end, second sprocket (11) and first sprocket (10) are located same vertical plane, the cover is equipped with drive sprocket (12) on the output shaft of drive arrangement (3), endless chain (4) are walked around drive sprocket (12), first sprocket (10) in proper order, Second sprocket (11), driving sprocket (12), drive arrangement (3) links to each other with external power supply, flattening roller (7) set up directly over first drive roll (5), indent roller (8) set up directly over second drive roll (6), flattening roller (7), indent roller (8) all fix on support (1) through height-adjustable device, still be provided with first backup pad (13) and second backup pad (14) on support (1), first backup pad (13) and second backup pad (14) symmetry set up the both sides in support (1), headless conveyer belt (2) are located between first backup pad (13) and second backup pad (14), be provided with between first backup pad (13) and second backup pad (14) and be used for giving the rubber roll (15) of vacuum insulation board surface rubberizing, the interval between rubber roll (15) and headless conveyer belt (2) is 25 ~ 40 centimetres, the rubber roller (15) is sleeved with a double-sided film matched with the rubber roller (15).

2. The vacuum insulation panel indent and rubberizing integrated device according to claim 1, wherein: the height-adjustable device comprises a first inverted U-shaped frame (16), a first screw rod (17), a second screw rod (18), a first fixed block (19), a second fixed block (20), a second inverted U-shaped frame (21), a third screw rod (22), a fourth screw rod (23), a third fixed block (24) and a fourth fixed block (25), wherein the first inverted U-shaped frame (16) and the second inverted U-shaped frame (21) are same in height and symmetrically arranged on two sides of a support (1), the first fixed block (19) is sleeved on a roller shaft at one end, close to the first inverted U-shaped frame (16), of a flattening roller (7) and fixedly connected with the roller shaft through a bearing, the second fixed block (20) is sleeved on a roller shaft at one end, close to the first inverted U-shaped frame (16), of a groove pressing roller (8) and fixedly connected with the roller shaft through a bearing, a first thread through hole and a second thread through hole which penetrate through from top to bottom are arranged on a cross rod of the first inverted U-shaped frame (16), the lower end of the first screw rod (17) penetrates through the first thread through hole to extend downwards to the upper end of the first fixed block (19) and fixedly connected with the first screw rod and the first fixed block through a bearing, the upper end of the first screw rod (17) is provided with a first rotary table (26) used for rotating the first screw rod (17), the lower end of the second screw rod (18) penetrates through the second thread through hole to extend downwards to the upper end of the second fixed block (20) and fixedly connected with the second fixed block through a bearing, and the upper end of the second screw rod (18) is provided with a second rotary table (27) used for rotating the second screw rod (18); the third fixed block (24) is sleeved on the roller shaft of the flattening roller (7) close to one end of the second inverted U-shaped frame (21) and is fixedly connected with the roller shaft through a bearing, the fourth fixed block (25) is sleeved on the roller shaft of the grooving roller (8) close to one end of the second inverted U-shaped frame (21) and is fixedly connected with the roller shaft through a bearing, a transverse rod of the second inverted U-shaped frame (21) is provided with a third thread through hole and a fourth thread through hole which penetrate through from top to bottom, the lower end of the third screw rod (22) penetrates through the third thread through hole to extend downwards to the upper end of the third fixed block (24) and is fixedly connected with the second thread through a bearing, the upper end of the third screw rod (22) is provided with a third turntable (28) for rotating the third screw rod (22), the lower end of the fourth screw rod (23) penetrates through the fourth thread through hole to extend downwards to the upper end of the fourth fixed block (25) and is, a fourth turntable (29) used for rotating the fourth screw rod (23) is arranged at the upper end of the fourth screw rod (23), and the length of the first screw rod (17), the length of the second screw rod (18), the length of the third screw rod (22) and the length of the fourth screw rod (23) are the same and are all larger than or equal to the height of the first inverted U-shaped frame (16).

3. The vacuum insulation panel indent and rubberizing integrated device according to claim 2, wherein: the top of headless conveyer belt (2) is provided with limiting plate (30), there is the clearance lower terminal surface of limiting plate (30) and the upper surface of the upper strata headless conveyer belt (2), limiting plate (30) are fixed on support (1) through the telescoping device, limiting plate (30) set up along the direction of delivery of headless conveyer belt (2).

4. The vacuum insulation panel indent and rubberizing integrated device according to claim 3, wherein: the telescopic device comprises at least one sliding rod (31) and at least one supporting block (32), the number of the sliding rods (31) is the same as that of the supporting blocks (32), the lower end of each supporting block (32) is fixed on the support (1), a through hole is formed in the surface of each supporting block (32), the central axis of each through hole is perpendicular to the limiting plate (30), the diameter of each through hole is matched with that of the corresponding sliding rod (31), one end of each sliding rod (31) penetrates through the corresponding through hole to extend to the outer surface of the corresponding limiting plate (30) and be fixedly connected with the corresponding through hole, the other end of each sliding rod (31) extends to the outer side of the support (1), a threaded hole is formed in the upper end face of each supporting block (32), the central axis of each threaded hole is intersected with the central axis of the corresponding through hole and is perpendicular to the central, and a jacking screw rod (33) is arranged in the threaded hole.

5. The vacuum insulation panel indent and rubberizing integrated device according to claim 4, wherein: the number of the sliding rods (31) and the number of the supporting blocks (32) are both two.

6. The vacuum insulation panel indent and rubberizing integrated device according to claim 5, wherein: two sliding rods (31) are uniformly distributed on the outer side surface of the limit plate (30).

7. The vacuum insulation panel indent and rubberizing integrated device according to claim 6, wherein: the driving device (3) is a driving motor.

8. The vacuum insulation panel indent and rubberizing integrated device according to claim 7, wherein: be provided with first support column (34) between first lead screw (17) and second lead screw (18), the upper end of first support column (34) is fixed on the horizontal pole of first inverted U-shaped frame (16), the lower extreme of first support column (34) is fixed on support (1), be provided with second support column (35) between third lead screw (22) and fourth lead screw (23), the upper end of second support column (35) is fixed on the horizontal pole of second inverted U-shaped frame (21), the lower extreme of second support column (35) is fixed on support (1).

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