CN212171294U - Device for bending flat vacuum insulation panel - Google Patents

Device for bending flat vacuum insulation panel Download PDF

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Publication number
CN212171294U
CN212171294U CN202020737014.2U CN202020737014U CN212171294U CN 212171294 U CN212171294 U CN 212171294U CN 202020737014 U CN202020737014 U CN 202020737014U CN 212171294 U CN212171294 U CN 212171294U
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CN
China
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rod
roller
belt
driving
inverted
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CN202020737014.2U
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Chinese (zh)
Inventor
程学宇
高绍军
余耀
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Sichuan Micron Vip New Material Co ltd
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Sichuan Micron Vip New Material Co ltd
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Abstract

The utility model aims to solve the technical problem that a device for dull and stereotyped vacuum insulation panels bends that is convenient for bend, effectively reduces to the damage of vacuum barrier film, ensures supply of material efficiency is provided. The device comprises a first belt conveying line, a second belt conveying line and a bending device. The device is when using, adjust the distance between third cylinder to the first cylinder earlier, then start first belt transmission line, second belt transmission line, a drive arrangement, the vacuum insulation panel who will handle through first belt transmission line transmits between first cylinder and the third cylinder, vacuum insulation panel can bend under the common effort of third cylinder, first cylinder, second cylinder and form curved vacuum insulation panel, rethread second belt transmission line transports to next link. The operation is simple, and the method is suitable for popularization in the field of vacuum insulation panels.

Description

Device for bending flat vacuum insulation panel
Technical Field
The utility model relates to a vacuum insulation panels field, concretely relates to a device that is used for dull and stereotyped vacuum insulation panels to bend.
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. The bending treatment of flat-plate VIP in the current vacuum insulation panel (VIP for short) industry mainly comprises the steps of preprocessing vacuum insulation panel core materials (VIP core materials for short), specifically, carrying out surface cutting grooving on the VIP core materials, drying the grooved VIP core materials, then loading the grooved VIP core materials into a vacuum blocking bag, sealing the vacuum blocking bag after vacuum pumping by a vacuum sealing device, compressing the VIP core materials and naturally bending the VIP core materials into arc-shaped VIP semi-finished products after sealing, and then folding four sides of the arc-shaped VIP semi-finished products manually to manufacture the arc-shaped VIP finished products.
The existing mode is that the arc-shaped VIP is manufactured by grooving the VIP core material, the VIP core material needs to be grooved, four edges of the vacuum-sealed arc-shaped VIP are folded more, folding is complex and difficult, the process is complex, the vacuum barrier film is damaged greatly, and the arc-shaped VIP is not beneficial to mass production and supply of the arc-shaped VIP.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a device for dull and stereotyped vacuum insulation panels bends that is convenient for bend, effectively reduces to the damage of vacuum barrier film, ensures supply of material efficiency is provided.
The utility model provides a technical scheme that its technical problem adopted does: the device for bending the flat-plate vacuum insulation panel comprises a first belt conveying line, a second belt conveying line and a bending device, wherein the first belt conveying line is arranged at the front end of the bending device, the second belt conveying line is arranged at the rear end of the bending device, the upper surface of an upper layer endless conveying belt of the first belt conveying line and the upper surface of an upper layer endless conveying belt of the second belt conveying line are located at the same height, the bending device comprises a support, a first roller, a second roller, a third roller, a first driving device and a second driving device, the first roller and the second roller are arranged in parallel, a gap exists between the first roller and the second roller, the first roller and the second roller are arranged along the width direction of the first belt conveying line, the diameters of the first roller and the second roller are the same, the highest point of the first roller and the highest point of the second roller are both located at the same height as the upper surface of the upper layer endless conveying belt of the first belt conveying line, the first roller and the second roller are fixed on the support through adjustable devices, a gap exists between the first roller and the first belt conveying line, a gap exists between the second roller and the second belt conveying line, the third roller is arranged above the second roller and the third roller, the distance from the central axis of the third roller to the central axis of the first roller is equal to the distance from the central axis of the third roller to the central axis of the second roller, the third roller is fixed on the support through a height adjustable device, the first driving device and the second driving device are respectively arranged below the support, a first driving belt pulley is arranged on an output shaft of the first driving device, a first driven belt pulley is arranged on the roller at one end of the first roller, a second driven belt pulley is arranged on the roller at one end of the second roller, and the first driving belt pulley, First driven pulley, second driven pulley all are located the same outside of support, still include first endless belt, first endless belt is around first drive pulley, first driven pulley, second driven pulley, first drive pulley in proper order, be provided with second drive pulley on second drive arrangement's the output shaft, be provided with third driven pulley on the roller bearing of third cylinder one end, second drive pulley, third driven pulley are located the same outside of support, second drive pulley and first drive pulley are located the both sides of support respectively, second drive pulley passes through the second endless belt with third driven pulley and is connected.
Further, the support comprises a first inverted U-shaped frame and a second inverted U-shaped frame, the first inverted U-shaped frame and the second inverted U-shaped frame are symmetrically arranged, the first inverted U-shaped frame comprises a first cross rod, a first vertical rod and a second vertical rod, one end of the first cross rod is fixed at the upper end of the first vertical rod and the first cross rod and the second vertical rod are perpendicular to each other, and the other end of the first cross rod is fixed at the upper end of the second vertical rod and the first cross rod and the second vertical rod are perpendicular to each other; the second inverted U-shaped frame comprises a second transverse rod, a third vertical rod and a fourth vertical rod, one end of the second transverse rod is fixed to the upper end of the third vertical rod, the first transverse rod and the second vertical rod are perpendicular to each other, the other end of the second transverse rod is fixed to the upper end of the fourth vertical rod, the second transverse rod and the fourth vertical rod are perpendicular to each other, a first fixed rod is arranged between the lower end of the first vertical rod and the lower end of the second vertical rod, a second fixed rod is arranged between the third vertical rod and the fourth vertical rod, the first fixed rod and the second fixed rod are located at the same height, the lower end of the first vertical rod and the lower end of the third vertical rod are connected through a first connecting rod, the lower end of the second vertical rod and the lower end of the fourth vertical rod are connected through a second connecting rod, and the first roller and.
Further, the adjustable device comprises a first screw rod, a first slide block, a second slide block, a first T-shaped groove, a second T-shaped groove, a first chain wheel, a rotary disc, a second screw rod, a second slide rod, a third slide block, a fourth slide block, a third T-shaped groove, a fourth T-shaped groove, a second chain wheel and a first endless chain, wherein the first T-shaped groove is arranged at one end of the first slide rod, the second T-shaped groove is arranged at the other end of the first slide rod, the openings of the first T-shaped groove and the second T-shaped groove face oppositely, the first slide rod is arranged between a first vertical rod and a second vertical rod, the first vertical rod is positioned in the first T-shaped groove, the second vertical rod is positioned in the second T-shaped groove, a first threaded hole penetrating through the upper part and the lower part of the first screw rod is fixed on the lower surface of the first cross rod through a bearing, the lower end of the first screw rod extends to the upper surface of the first fixing rod, the lower end of the first screw rod is connected with the first fixed rod through a bearing, the first chain wheel is sleeved on the lower end of the first screw rod and is perpendicular to the first chain wheel, the rotary table is fixed at the lower end of the first screw rod and is positioned above the first chain wheel, the lower end of the first sliding block and the lower end of the second sliding block are respectively sleeved on the first sliding rod and are positioned on two sides of the first screw rod, the first sliding block and the second sliding block freely slide along the length direction of the sliding rods, a rolling shaft of the first roller, which is close to one end of the first cross rod, penetrates through the upper end of the first sliding block and extends to the outer side of the first sliding block, the rolling shaft of the second roller, which is close to one end of the first cross rod, penetrates through the upper end of the second sliding block and extends; the third T-shaped groove is formed in one end of the second sliding rod, the fourth T-shaped groove is formed in the other end of the second sliding rod, the opening directions of the third T-shaped groove and the fourth T-shaped groove are opposite, the second sliding rod is arranged between the third vertical rod and the fourth vertical rod, the third vertical rod is located in the third T-shaped groove, the fourth vertical rod is located in the fourth T-shaped groove, a second threaded hole which penetrates through the second sliding rod from top to bottom is formed in the middle of the second sliding rod, the upper end of the second lead screw is fixed to the lower surface of the second cross rod through a bearing, the lower end of the second lead screw penetrates through the second threaded hole and extends to the upper surface of the second fixing rod, the lower end of the second lead screw is connected with the second fixing rod through a bearing, the second chain wheel is sleeved on the second lead screw, the second chain wheel and the first chain wheel are located at the same height and connected through a first endless chain, and, The lower extreme of fourth slider overlaps respectively and establishes on the second slide bar and is located the both sides of second lead screw, third slider, fourth slider freely slide along the length direction of second slide bar, the roller bearing that first cylinder is close to second horizontal pole one end passes the upper end of third slider and the two is connected through the bearing, the roller bearing that the second cylinder opened into second horizontal pole one end passes the upper end of fourth slider and the two is connected through the bearing, all be provided with on first slider, second slider, third slider, the fourth slider and be used for spacing puller bolt.
Further, the height adjustable device comprises a third inverted U-shaped frame, a fourth inverted U-shaped frame, a third screw rod, a fourth screw rod, a first fixed block, a second fixed block, a third chain wheel, a fourth chain wheel, a second endless chain and a knob, wherein the third inverted U-shaped frame is arranged on the upper surface of the first cross rod, the fourth inverted U-shaped frame is arranged on the upper surface of the second cross rod, the third inverted U-shaped frame and the fourth inverted U-shaped frame are symmetrically arranged, the first fixed block is arranged on a rolling shaft of a third roller close to one end of the first cross rod and connected with the rolling shaft through a bearing, a first threaded through hole is arranged on the cross rod of the third inverted U-shaped frame, the central axis of the first threaded through hole is vertical to the upper surface of the first cross rod, the lower end of the third screw rod penetrates through the first threaded through hole and extends to the upper end surface of the first fixed block, and the lower end of the third screw rod is connected with the first fixed block through a bearing, the third chain wheel is fixed on a third screw rod, the third chain wheel is positioned above the cross rod of the third inverted U-shaped frame, and the knob is arranged at the upper end of the third screw rod; the second fixed block sets up on the third cylinder is close to the roller bearing of second horizontal pole one end and the two passes through the bearing and connects, be provided with second screw thread through-hole on the horizontal pole of fourth inverted U-shaped frame, the central axis of second screw thread through-hole and the last surface vertical of second horizontal pole, the lower extreme of fourth lead screw passes second screw thread through-hole and extends to the up end of second fixed block, the lower extreme and the second fixed block of fourth lead screw pass through the bearing and are connected, the fourth sprocket is fixed on the fourth lead screw, the fourth sprocket is located same height with the third sprocket, the fourth sprocket passes through the second endless chain with the third sprocket and is connected.
Further, an electric cabinet is arranged on the outer side of the first inverted U-shaped frame and used for controlling starting, stopping and rotating speed of the first driving device and the second driving device.
Furthermore, the first driving device and the second driving device both adopt speed reduction motors.
Further, the top of the upper headless conveyer belt of first belt transmission line is provided with the limiting plate, the direction of transfer of limiting plate along first belt transmission line sets up, be provided with the third fixed block in the belt line frame of first belt transmission line, the front side surface of third fixed block is provided with the through-hole, be provided with the slide bar in the through-hole, the one end of slide bar extends to limiting plate outside surface through the through-hole, the other end of slide bar passes the outside that the through-hole extends to the third fixed block, the up end of third fixed block is provided with the tight screw rod in top.
The utility model has the advantages that: when the device for bending the flat-plate vacuum insulation panel is used, the distance between a third roller and a first roller is adjusted according to the thickness of a vacuum insulation panel to be processed, the third roller is fixed on a bracket through a height adjusting device, the distance between the third roller and the first roller can be adjusted through the height adjusting device, then the vacuum insulation panel to be processed is placed at the front end of a first belt conveying line, then the first belt conveying line, a second belt conveying line, a first driving device and a second driving device are started, the vacuum insulation panel to be processed is conveyed between the first roller and the third roller through the first belt conveying line, a first driving belt pulley is arranged on an output shaft of the first driving device, a first driven belt pulley is arranged on a rolling shaft at one end of the first roller, a second driven belt pulley is arranged on a rolling shaft at one end of the second roller, the first driving belt wheel, the first driven belt wheel and the second driven belt wheel are positioned on the same outer side of the support, the first driving belt wheel, the second driven belt wheel and the second driven belt wheel are sequentially wound around the first driving belt wheel, the second driving belt wheel and the first driving belt wheel, the second driving belt wheel is arranged on an output shaft of the second driving device, the third driven belt wheel is arranged on a rolling shaft at one end of the third roller, the second driving belt wheel and the third driven belt wheel are positioned on the same outer side of the support, the second driving belt wheel and the first driving belt wheel are respectively positioned on two sides of the support, the second driving belt wheel and the third driven belt wheel are connected through the second endless belt, the first driving device and the second driving device can drive the first roller, the second roller and the third roller to rotate, and the third roller is arranged above the second roller and the third roller, the distance from the central axis of the third roller to the central axis of the first roller is equal to the distance from the central axis of the third roller to the central axis of the second roller, the vacuum insulation panels to be processed can be bent under the common acting force of the third roller, the first roller and the second roller to form arc-shaped vacuum insulation panels, the bent and formed arc-shaped vacuum insulation panels are conveyed to the front end of the second belt conveying line through the rolling of the second roller, and then the bent and formed arc-shaped vacuum insulation panels are conveyed to the next link through the second belt conveying line.
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 diagram of a device for bending a flat vacuum insulation panel according to the present invention;
fig. 2 is a schematic structural view of the bending apparatus of the present invention;
fig. 3 is a front view of a bending apparatus according to the present invention;
fig. 4 is a rear view of the bending apparatus according to the present invention;
fig. 5 is a schematic structural view of the first belt conveyor line according to the present invention;
FIG. 6 is an enlarged view of a portion of FIG. 5;
the notation in the figure is: a first belt conveying line 1, a second belt conveying line 2, a bending device 3, a first roller 4, a second roller 5, a third roller 6, a first driving device 7, a second driving device 8, a first driving pulley 9, a first driven pulley 10, a second driven pulley 11, a first scalp-free belt 12, a second driving pulley 13, a third driven pulley 14, a second head-free belt 15, a first cross bar 16, a first vertical bar 17, a second vertical bar 18, a second cross bar 19, a third vertical bar 20, a fourth vertical bar 21, a first fixing bar 22, a second fixing bar 23, a first connecting bar 24, a second connecting bar 25, a first lead screw 26, a first slide bar 27, a first slide block 28, a second slide block 29, a first T-shaped groove 30, a second T-shaped groove 31, a first chain wheel 32, a rotary table 33, a second lead screw 34, a second slide bar 35, a third slide block 36, a fourth slide block 37, a third T-shaped groove 38, a first T-shaped groove 30, a second T, The device comprises a fourth T-shaped groove 39, a second chain wheel 40, a first endless chain 41, a third inverted U-shaped frame 42, a fourth inverted U-shaped frame 43, a third screw rod 44, a fourth screw rod 45, a first fixing block 46, a second fixing block 47, a third chain wheel 48, a fourth chain wheel 49, a second endless chain 50, a knob 51, an electric cabinet 52, a limit plate 53, a sliding rod 54, a tightening screw 55 and a third fixing block 56.
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. 1-6, the device for bending a flat vacuum insulation panel comprises a first belt conveying line 1, a second belt conveying line 2, a bending device 3 and a bracket, wherein the first belt conveying line 1 comprises a first endless conveying belt, a first driving roller, a first driven roller, a first power device and a first belt line rack, the first driving roller and the first driven roller are respectively fixed at the front end and the rear end of the first belt line rack, the first endless conveying belt sequentially bypasses the first driving roller, the first driven roller and the first driving roller, the first driving roller is driven by the first power device, the second belt conveying line 2 comprises a second endless conveying belt, a second driving roller, a second driven roller, a second power device and a second belt line rack, the second driving roller and the second driven roller are respectively fixed at the front end and the rear end of the second belt line rack, the second endless conveyor belt sequentially bypasses a second driving roller, a second driven roller and a second driving roller, the second driving roller is driven by a second power device, the first belt conveyor belt 1 is arranged at the front end of the bending device 3, the second belt conveyor belt 2 is arranged at the rear end of the bending device 3, the upper surface of the upper endless conveyor belt of the first belt conveyor belt 1 and the upper surface of the upper endless conveyor belt of the second belt conveyor belt 2 are positioned at the same height, the bending device 3 comprises a support, a first roller 4, a second roller 5, a third roller 6, a first driving device 7 and a second driving device 8, the first roller 4 and the second roller 5 are arranged in parallel, a gap exists between the first roller 4 and the second roller 5, the first roller 4 and the second roller 5 are arranged along the width direction of the first belt conveyor belt 1, the diameters of the first roller 4 and the second roller 5 are the same, the highest point of the first roller 4 and the highest point of the second roller 5 are both located at the same height with the upper surface of the upper layer endless conveyor belt of the first belt conveyor line 1, the first roller 4 and the second roller 5 are fixed on a bracket through an adjustable device, a gap exists between the first roller 4 and the first belt conveyor line 1, a gap exists between the second roller 5 and the second belt conveyor line 2, the third roller 6 is arranged above the second roller 5 and the third roller 6, the distance from the central axis of the third roller 6 to the central axis of the first roller 4 is equal to the distance from the central axis of the third roller 6 to the central axis of the second roller 5, the third roller 6 is fixed on the bracket through a height adjustable device, the first driving device 7 and the second driving device 8 are respectively arranged below the bracket, a first driving belt pulley 9 is arranged on an output shaft of the first driving device 7, a first driven belt pulley 10 is arranged on the roller at one end of the first roller 4, a second driven belt pulley 11 is arranged on the roller at one end of the second roller 5, the first driving belt pulley 9, the first driven belt pulley 10 and the second driven belt pulley 11 are positioned on the same outer side of the support, the first endless belt 12 sequentially bypasses the first driving belt pulley 9, the first driven belt pulley 10, the second driven belt pulley 11 and the first driving belt pulley 9, a second driving belt pulley 13 is arranged on an output shaft of the second driving device 8, a third driven belt pulley 14 is arranged on the roller at one end of the third roller 6, the second driving belt pulley 13 and the third driven belt pulley 14 are positioned on the same outer side of the support, the second driving belt pulley 13 and the first driving belt pulley 9 are respectively positioned on two sides of the support, the second drive pulley 13 is connected to a third driven pulley 14 via a second endless belt 15. When the device for bending the flat-plate vacuum insulation panel is used, the distance between the third roller 6 and the first roller 4 is adjusted according to the thickness of the vacuum insulation panel to be processed, the third roller 6 is fixed on the bracket through the height adjustable device, the distance between the third roller 6 and the first roller 4 can be adjusted through the height adjustable device, then the vacuum insulation panel to be processed is placed at the front end of the first belt conveying line 1, then the first belt conveying line 1, the second belt conveying line 2, the first driving device 7 and the second driving device 8 are started, the vacuum insulation panel to be processed is transmitted between the first roller 4 and the third roller 6 through the first belt conveying line 1, the first driving pulley 9 is arranged on the output shaft of the first driving device 7, the first driven pulley 10 is arranged on the rolling shaft at one end of the first roller 4, a second driven belt pulley 11 is arranged on a rolling shaft at one end of the second roller 5, the first driving belt pulley 9, the first driven belt pulley 10 and the second driven belt pulley 11 are positioned on the same outer side of the support, the first endless belt 12 sequentially bypasses the first driving belt pulley 9, the first driven belt pulley 10, the second driven belt pulley 11 and the first driving belt pulley 9, a second driving belt pulley 13 is arranged on an output shaft of the second driving device 8, a third driven belt pulley 14 is arranged on a rolling shaft at one end of the third roller 6, the second driving belt pulley 13 and the third driven belt pulley 14 are positioned on the same outer side of the support, the second driving belt pulley 13 and the first driving belt pulley 9 are respectively positioned on two sides of the support, the second driving belt pulley 13 is connected with the third driven belt pulley 14 through a second endless belt 15, the first roller 4, the second roller 5 and the third roller 6 can be driven to rotate by the first driving device 7 and the second driving device 8, the third roller 6 is arranged above the second roller 5 and the third roller 6, the distance from the central axis of the third roller 6 to the central axis of the first roller 4 is equal to the distance from the central axis of the third roller 6 to the central axis of the second roller 5, the vacuum insulation panel to be processed can be bent under the common acting force of the third roller 6, the first roller 4 and the second roller 5 to form an arc-shaped vacuum insulation panel, and the bent arc-shaped vacuum insulation panel is conveyed to the front end of the second conveyor belt 2 by the rolling of the second roller 5 and conveyed to the next link through the second conveyor belt 2.
In the above embodiment, the support is preferably of a structure including a first inverted U-shaped frame and a second inverted U-shaped frame, the first inverted U-shaped frame and the second inverted U-shaped frame are symmetrically arranged, the first inverted U-shaped frame includes a first cross bar 16, a first vertical bar 17 and a second vertical bar 18, one end of the first cross bar 16 is fixed on the upper end of the first vertical bar 17 and the two are perpendicular to each other, and the other end of the first cross bar 16 is fixed on the upper end of the second vertical bar 18 and the two are perpendicular to each other; the second inverted U-shaped frame comprises a second cross rod 19, a third vertical rod 20 and a fourth vertical rod 21, one end of the second cross bar 19 is fixed on the upper end of the third vertical bar 20 and the two are perpendicular to each other, the other end of the second cross bar 19 is fixed on the upper end of the fourth vertical bar 21 and the two are vertical to each other, a first fixing rod 22 is arranged between the lower end of the first vertical rod 17 and the lower end of the second vertical rod 18, a second fixing rod 23 is arranged between the third vertical rod 20 and the fourth vertical rod 21, the first fixing rod 22 and the second fixing rod 23 are positioned at the same height, the lower end of the first vertical rod 17 is connected with the lower end of the third vertical rod 20 through a first connecting rod 24, the lower end of the second vertical rod 18 is connected with the lower end of the fourth vertical rod 21 through a second connecting rod 25, the first roller 4 and the second roller 5 are both positioned between the first cross bar 16 and the second cross bar 19.
The adjustable device comprises a first screw rod 26, a first sliding rod 27, a first sliding block 28, a second sliding block 29, a first T-shaped groove 30, a second T-shaped groove 31, a first chain wheel 32, a rotating disc 33, a second screw rod 34, a second sliding rod 35, a third sliding block 36, a fourth sliding block 37, a third T-shaped groove 38, a fourth T-shaped groove 39, a second chain wheel 40 and a first endless chain 41, wherein the first T-shaped groove 30 is arranged at one end of the first sliding rod 27, the second T-shaped groove 31 is arranged at the other end of the first sliding rod 27, the openings of the first T-shaped groove 30 and the second T-shaped groove 31 face oppositely, the first sliding rod 27 is arranged between the first vertical rod 17 and the second vertical rod 18, the first vertical rod 17 is arranged in the first T-shaped groove 30, the second vertical rod 18 is arranged in the second T-shaped groove 31, a first threaded hole penetrating through the first sliding rod 27 from top to bottom is arranged in the middle of the first sliding rod 27, the upper end of the first sliding rod 26 is fixed on the lower, the lower end of the first screw rod 26 passes through the first threaded hole and extends to the upper surface of the first fixing rod 22, the lower end of the first screw rod 26 is connected with the first fixing rod 22 through a bearing, the first chain wheel 32 is sleeved on the lower end of the first screw rod 26 and is perpendicular to the first screw rod, the rotary table 33 is fixed at the lower end of the first screw rod 26 and is located above the first chain wheel 32, the lower end of the first slide block 28 and the lower end of the second slide block 29 are respectively sleeved on the first slide bar 27 and are located at two sides of the first screw rod 26, the first sliding block 28 and the second sliding block 29 freely slide along the length direction of the sliding rod, the roller of the first roller 4 near one end of the first cross bar 16 passes through the upper end of the first sliding block 28 and extends to the outer side of the first sliding block 28, and the two are connected through a bearing, the roller shaft of the second roller 5 close to one end of the first cross bar 16 extends to the outer side of the second sliding block 29 through the upper end of the second sliding block 29 and is connected with the second sliding block 29 through a bearing; the third T-shaped groove 38 is disposed at one end of the second slide bar 35, the fourth T-shaped groove 39 is disposed at the other end of the second slide bar 35, the opening directions of the third T-shaped groove 38 and the fourth T-shaped groove 39 are opposite, the second slide bar 35 is disposed between the third vertical bar 20 and the fourth vertical bar 21, the third vertical bar 20 is disposed in the third T-shaped groove 38, the fourth vertical bar 21 is disposed in the fourth T-shaped groove 39, the middle portion of the second slide bar 35 is provided with a second threaded hole penetrating vertically, the upper end of the second lead screw 34 is fixed on the lower surface of the second cross bar 19 through a bearing, the lower end of the second lead screw 34 penetrates through the second threaded hole to extend to the upper surface of the second fixing rod 23, the lower end of the second lead screw 34 is connected with the second fixing rod 23 through a bearing, the second chain wheel 40 is sleeved on the second lead screw 34, the second chain wheel 40 and the first chain wheel 32 are disposed at the same height, and the two are connected through a first endless chain, the lower extreme of third slider 36, the lower extreme of fourth slider 37 are established respectively and are established on second slide bar 35 and are located the both sides of second lead screw 34, third slider 36, fourth slider 37 freely slide along the length direction of second slide bar 35, the roller that first cylinder 4 is close to second horizontal pole 19 one end passes the upper end of third slider 36 and the two passes through the bearing and connects, the roller that second cylinder 5 opened into second horizontal pole 19 one end passes the upper end of fourth slider 37 and the two passes through the bearing and connects, all be provided with on first slider 28, second slider 29, third slider 36, the fourth slider 37 and be used for spacing puller bolt. Through rotating the carousel 33, alright drive first lead screw 26 and rotate, and then drive second lead screw 34 and rotate, just adjust the height of first cylinder 4 and second cylinder 5 simultaneously, through first slider 28, the position of first cylinder 4 can be removed to third slider 36, through second slider 29, the position of second cylinder 5 can be removed to fourth slider 37, just so can conveniently change not unidimensional first cylinder 4 and second cylinder 5, the arc vacuum insulation panels of more specifications of adaptation have been further, further all be provided with on first slider 28, second slider 29, third slider 36, the fourth slider 37 and be used for spacing puller bolt, alright fix the slider that corresponds through puller bolt.
According to practical requirements, the height adjustable device is preferably of a structure comprising a third inverted U-shaped frame 42, a fourth inverted U-shaped frame 43, a third screw 44, a fourth screw 45, a first fixed block 46, a second fixed block 47, a third chain wheel 48, a fourth chain wheel 49, a second endless chain 50 and a knob 51, wherein the third inverted U-shaped frame 42 is arranged on the upper surface of the first cross rod 16, the fourth inverted U-shaped frame 43 is arranged on the upper surface of the second cross rod 19, the third inverted U-shaped frame 42 and the fourth inverted U-shaped frame 43 are symmetrically arranged, the first fixed block 46 is arranged on a roller of the third roller 6 close to one end of the first cross rod 16 and connected with the first roller through a bearing, a first threaded through hole is arranged on the cross rod of the third inverted U-shaped frame 42, the central axis of the first threaded through hole is perpendicular to the upper surface of the first cross rod 16, the lower end of the third screw 44 passes through the first threaded through hole and extends to the upper end surface of the first fixed block 46, the lower end of the third screw rod 44 is connected with a first fixing block 46 through a bearing, the third chain wheel 48 is fixed on the third screw rod 44, the third chain wheel 48 is positioned above the cross bar of the third inverted U-shaped frame 42, and the knob 51 is arranged at the upper end of the third screw rod 44; the second fixed block 47 sets up on the third cylinder 6 is close to the roller bearing of second horizontal pole 19 one end and the two passes through the bearing and connects, be provided with second screw thread through-hole on the horizontal pole of fourth inverted U-shaped frame 43, the central axis of second screw thread through-hole and the upper surface of second horizontal pole 19 are perpendicular, the lower extreme of fourth lead screw 45 passes second screw thread through-hole and extends to the up end of second fixed block 47, the lower extreme of fourth lead screw 45 passes through the bearing with second fixed block 47 and is connected, fourth sprocket 49 is fixed on fourth lead screw 45, fourth sprocket 49 is located same height with third sprocket 48, fourth sprocket 49 is connected through second endless chain 50 with third sprocket 48. By rotating the knob 51, the third screw 44 rotates to drive the fourth screw 45 to rotate, thereby adjusting the height of the third roller 6.
In order to conveniently and simultaneously control the first driving device 7 and the second driving device 8, an electric cabinet 52 is arranged on the outer side of the first inverted U-shaped frame, the electric cabinet 52 is used for controlling the starting, stopping and rotating speed of the first driving device 7 and the second driving device 8, and according to requirements, the first power device of the first belt conveying line 1 and the second power device of the second belt conveying line 2 can be controlled together through the electric cabinet 52.
According to actual requirements, the first driving device 7 and the second driving device 8 both adopt a speed reduction motor, the first power device of the first belt conveying line 1 and the second power device of the second belt conveying line 2 also adopt a speed reduction motor, and in operation, the rotating speeds of the first driving device 7, the first power device of the first belt conveying line 1 and the second power device of the second belt conveying line 2 are adjusted to be in a consistent state.
In order to guarantee the established position of vacuum insulation panel in the transportation process, the top of the upper headless conveyer belt of first belt transmission line 1 is provided with limiting plate 53, limiting plate 53 sets up along the direction of transfer of first belt transmission line 1, be provided with third fixed block 56 in the belt line frame of first belt transmission line 1, the front side surface of third fixed block 56 is provided with the through-hole, be provided with slide bar 54 in the through-hole, the one end of slide bar 54 extends through-hole and extends to limiting plate 53 outside surface, the other end of slide bar 54 passes the through-hole and extends to the outside of third fixed block 56, the up end of third fixed block 56 is provided with the tight screw rod 55 in top. The position of the limiting plate 53 can be adjusted by loosening the jacking screw 55, and the jacking screw 55 is fastened after the position is adjusted.

Claims (7)

1. The utility model provides a device for dull and stereotyped vacuum insulation panels bends which characterized in that: comprises a first belt transmission line (1), a second belt transmission line (2) and a bending device (3), wherein the first belt transmission line (1) is arranged at the front end of the bending device (3), the second belt transmission line (2) is arranged at the rear end of the bending device (3), the upper surface of an upper layer endless transmission belt of the first belt transmission line (1) and the upper surface of an upper layer endless transmission belt of the second belt transmission line (2) are positioned at the same height, the bending device (3) comprises a bracket, a first roller (4), a second roller (5), a third roller (6), a first driving device (7) and a second driving device (8), the first roller (4) and the second roller (5) are arranged in parallel, a gap exists between the first roller (4) and the second roller (5), and the first roller (4) and the second roller (5) are arranged along the width direction of the first belt transmission line (1), the diameter of the first roller (4) is the same as that of the second roller (5), the highest point of the first roller (4) and the highest point of the second roller (5) are located at the same height as the upper surface of the upper layer endless conveyor belt of the first belt conveyor line (1), the first roller (4) and the second roller (5) are fixed on a support through an adjustable device, a gap exists between the first roller (4) and the first belt conveyor line (1), a gap exists between the second roller (5) and the second belt conveyor line (2), the third roller (6) is arranged above the second roller (5) and the third roller (6), the distance from the central axis of the third roller (6) to the central axis of the first roller (4) is equal to the distance from the central axis of the third roller (6) to the central axis of the second roller (5), and the third roller (6) is fixed on the support through a height adjustable device, the first driving device (7) and the second driving device (8) are respectively arranged below the support, a first driving belt pulley (9) is arranged on an output shaft of the first driving device (7), a first driven belt pulley (10) is arranged on a roller at one end of the first roller (4), a second driven belt pulley (11) is arranged on a roller at one end of the second roller (5), the first driving belt pulley (9), the first driven belt pulley (10) and the second driven belt pulley (11) are all positioned on the same outer side of the support, the first driving belt pulley (12) and the second driven belt pulley (11) are further arranged, the first endless belt (12) sequentially bypasses the first driving belt pulley (9), the first driven belt pulley (10), the second driven belt pulley (11) and the first driving belt pulley (9), a second driving belt pulley (13) is arranged on an output shaft of the second driving device (8), be provided with third driven pulley (14) on the roller bearing of third cylinder (6) one end, second drive pulley (13), third driven pulley (14) are located the same outside of support, second drive pulley (13) are located the both sides of support respectively with first drive pulley (9), second drive pulley (13) are connected through second endless belt (15) with third driven pulley (14).
2. The device for bending the flat vacuum insulation panel according to claim 1, wherein: the support comprises a first inverted U-shaped frame and a second inverted U-shaped frame, the first inverted U-shaped frame and the second inverted U-shaped frame are symmetrically arranged, the first inverted U-shaped frame comprises a first cross rod (16), a first vertical rod (17) and a second vertical rod (18), one end of the first cross rod (16) is fixed at the upper end of the first vertical rod (17) and the first cross rod and the second vertical rod are perpendicular to each other, the other end of the first cross rod (16) is fixed at the upper end of the second vertical rod (18) and the second cross rod and the second vertical rod are perpendicular to each other; the second inverted U-shaped frame comprises a second cross rod (19), a third vertical rod (20) and a fourth vertical rod (21), one end of the second cross rod (19) is fixed at the upper end of the third vertical rod (20) and the two are perpendicular to each other, the other end of the second cross rod (19) is fixed at the upper end of the fourth vertical rod (21) and the two are perpendicular to each other, a first fixing rod (22) is arranged between the lower end of the first vertical rod (17) and the lower end of the second vertical rod (18), a second fixing rod (23) is arranged between the third vertical rod (20) and the fourth vertical rod (21), the first fixing rod (22) and the second fixing rod (23) are located at the same height, the lower end of the first vertical rod (17) and the lower end of the third vertical rod (20) are connected through a first connecting rod (24), the lower end of the second vertical rod (18) and the lower end of the fourth vertical rod (21) are connected through a second connecting rod (25), the first roller (4) and the second roller (5) are both positioned between the first cross rod (16) and the second cross rod (19).
3. The device for bending the flat vacuum insulation panel according to claim 2, wherein: the adjustable device comprises a first screw rod (26), a first sliding rod (27), a first sliding block (28), a second sliding block (29), a first T-shaped groove (30), a second T-shaped groove (31), a first chain wheel (32), a rotary disc (33), a second screw rod (34), a second sliding rod (35), a third sliding block (36), a fourth sliding block (37), a third T-shaped groove (38), a fourth T-shaped groove (39), a second chain wheel (40) and a first endless chain (41), wherein the first T-shaped groove (30) is arranged at one end of the first sliding rod (27), the second T-shaped groove (31) is arranged at the other end of the first sliding rod (27), the openings of the first T-shaped groove (30) and the second T-shaped groove (31) face opposite directions, the first sliding rod (27) is arranged between a first vertical rod (17) and a second vertical rod (18), and the first vertical rod (17) is positioned in the first T-shaped groove (30), second montant (18) is located second T-shaped groove (31), the middle part of first slide bar (27) is provided with the first screw hole that runs through from top to bottom, the lower surface at first horizontal pole (16) is fixed through the bearing in the upper end of first lead screw (26), the lower extreme of first lead screw (26) passes first screw hole and extends to the upper surface of first dead lever (22), the lower extreme and first dead lever (22) of first lead screw (26) are connected through the bearing, first sprocket (32) cover is established on the lower extreme of first lead screw (26) and the two is perpendicular to each other, carousel (33) are fixed at the lower extreme of first lead screw (26) and are located first sprocket (32) top, the lower extreme of first slider (28), the lower extreme of second slider (29) are established respectively on first slide bar (27) and are located the both sides of first lead screw (26), first slider (28), The second sliding block (29) freely slides along the length direction of the sliding rod, a roller shaft at one end of the first roller (4) close to the first cross rod (16) penetrates through the upper end of the first sliding block (28) to extend to the outer side of the first sliding block (28) and is connected with the first sliding block (28) through a bearing, a roller shaft at one end of the second roller (5) close to the first cross rod (16) penetrates through the upper end of the second sliding block (29) to extend to the outer side of the second sliding block (29) and is connected with the second sliding block (29) through a bearing; the third T-shaped groove (38) is arranged at one end of the second sliding rod (35), the fourth T-shaped groove (39) is arranged at the other end of the second sliding rod (35), the opening directions of the third T-shaped groove (38) and the fourth T-shaped groove (39) are opposite, the second sliding rod (35) is arranged between the third vertical rod (20) and the fourth vertical rod (21), the third vertical rod (20) is positioned in the third T-shaped groove (38), the fourth vertical rod (21) is positioned in the fourth T-shaped groove (39), the middle part of the second sliding rod (35) is provided with a second threaded hole which penetrates through from top to bottom, the upper end of the second lead screw (34) is fixed on the lower surface of the second cross rod (19) through a bearing, the lower end of the second lead screw (34) penetrates through the second threaded hole to extend to the upper surface of the second fixing rod (23), and the lower end of the second lead screw (34) is connected with the second fixing rod (23) through a bearing, the second chain wheel (40) is sleeved on the second screw rod (34), the second chain wheel (40) and the first chain wheel (32) are located at the same height, the second chain wheel and the first chain wheel are connected through a first endless chain (41), the lower end of the third sliding block (36) and the lower end of the fourth sliding block (37) are respectively sleeved on the second sliding rod (35) and located on two sides of the second screw rod (34), the third sliding block (36) and the fourth sliding block (37) freely slide along the length direction of the second sliding rod (35), a roller shaft of one end, close to the second transverse rod (19), of the first roller (4) penetrates through the upper end of the third sliding block (36) and is connected with the upper end of the second transverse rod (19) through a bearing, a roller shaft of one end, opened into the second transverse rod (19), of the second roller (5) penetrates through the upper end of the fourth sliding block (37) and is connected with the upper end of the second sliding block through a bearing, the first sliding block (28), the, And the fourth sliding blocks (37) are provided with puller bolts for limiting.
4. The device for bending the flat vacuum insulation panel according to claim 3, wherein: the height adjustable device comprises a third inverted U-shaped frame (42), a fourth inverted U-shaped frame (43), a third screw rod (44), a fourth screw rod (45), a first fixed block (46), a second fixed block (47), a third chain wheel (48), a fourth chain wheel (49), a second endless chain (50) and a knob (51), wherein the third inverted U-shaped frame (42) is arranged on the upper surface of the first cross rod (16), the fourth inverted U-shaped frame (43) is arranged on the upper surface of the second cross rod (19), the third inverted U-shaped frame (42) and the fourth inverted U-shaped frame (43) are symmetrically arranged, the first fixed block (46) is arranged on a rolling shaft at one end, close to the first cross rod (16), of the third roller (6) and connected with the first cross rod (16) through a bearing, a first threaded through hole is arranged on the cross rod of the third inverted U-shaped frame (42), and the central axis of the first threaded through hole is vertical to the upper surface of the first cross rod (16), the lower end of the third screw rod (44) penetrates through the first threaded through hole to extend to the upper end face of the first fixing block (46), the lower end of the third screw rod (44) is connected with the first fixing block (46) through a bearing, the third chain wheel (48) is fixed on the third screw rod (44), the third chain wheel (48) is positioned above a cross rod of the third inverted U-shaped frame (42), and the knob (51) is arranged at the upper end of the third screw rod (44); the second fixed block (47) is arranged on a roller of a third roller (6) close to one end of a second cross rod (19), the second fixed block and the third roller are connected through a bearing, a second threaded through hole is formed in the cross rod of a fourth inverted U-shaped frame (43), the central axis of the second threaded through hole is perpendicular to the upper surface of the second cross rod (19), the lower end of a fourth screw rod (45) penetrates through the second threaded through hole to extend to the upper end face of the second fixed block (47), the lower end of the fourth screw rod (45) is connected with the second fixed block (47) through the bearing, a fourth chain wheel (49) is fixed on the fourth screw rod (45), the fourth chain wheel (49) and a third chain wheel (48) are located at the same height, and the fourth chain wheel (49) and the third chain wheel (48) are connected through a second endless chain (50).
5. The device for bending the flat vacuum insulation panel according to claim 4, wherein: an electric cabinet (52) is arranged on the outer side of the first inverted U-shaped frame, and the electric cabinet (52) is used for controlling the starting, the stopping and the rotating speed of the first driving device (7) and the second driving device (8).
6. The device for bending the flat vacuum insulation panel according to claim 5, wherein: and the first driving device (7) and the second driving device (8) both adopt speed reducing motors.
7. The device for bending the flat vacuum insulation panel according to claim 6, wherein: the top of the upper headless conveyer belt of first belt transmission line (1) is provided with limiting plate (53), the direction of transfer setting along first belt transmission line (1) is followed in limiting plate (53), be provided with third fixed block (56) in the belt line frame of first belt transmission line (1), the front side surface of third fixed block (56) is provided with the through-hole, be provided with slide bar (54) in the through-hole, the one end of slide bar (54) extends to limiting plate (53) outside surface through the through-hole, the other end of slide bar (54) passes the outside that the through-hole extends to third fixed block (56), the up end of third fixed block (56) is provided with top tight screw rod (55).
CN202020737014.2U 2020-05-07 2020-05-07 Device for bending flat vacuum insulation panel Active CN212171294U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020737014.2U CN212171294U (en) 2020-05-07 2020-05-07 Device for bending flat vacuum insulation panel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020737014.2U CN212171294U (en) 2020-05-07 2020-05-07 Device for bending flat vacuum insulation panel

Publications (1)

Publication Number Publication Date
CN212171294U true CN212171294U (en) 2020-12-18

Family

ID=73766149

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020737014.2U Active CN212171294U (en) 2020-05-07 2020-05-07 Device for bending flat vacuum insulation panel

Country Status (1)

Country Link
CN (1) CN212171294U (en)

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