CN113983044B - Correction regulation formula nanocrystalline hot pressing laminating device - Google Patents

Abstract

The invention discloses a correction adjustment type nanocrystalline hot-pressing laminating device which comprises a support, a telescopic mechanism, a controller, a pressure sensor, a correction mechanism, an upper hot-pressing plate and a lower abutting seat, wherein the support is provided with a support base; according to the invention, the upper hot pressing plate is arranged below the connecting cover in a suspending manner through the suspension plate, the suspension support rods are arranged on the outer sides of the periphery of the suspension plate, and the suspension support rods are upwards and elastically pressed against the lower sides of the suspension support rods through the suspension elastic bodies, so that the suspension support rods have spaces for up-and-down floating, and the upper hot pressing plate can be accurately and horizontally corrected.

Description

Correction regulation formula nanocrystalline hot pressing laminating device

Technical Field

The invention relates to a correction adjustment type nanocrystalline hot-pressing laminating device.

Background

The application range of the nanocrystalline in the technical field of die cutting is very wide, in the existing bonding technology of nanocrystalline materials, a positioning column is generally used for assembling a hot melt adhesive and the nanocrystalline materials, then the assembled materials are subjected to hot pressing on a jig plate, and a product is taken down from the jig after the hot pressing is finished; present generally is flexible from top to bottom through last hot pressboard, make the hot melt adhesive that is located on the butt seat down carry out hot pressing laminating with nanocrystalline material, but because last hot pressboard is fixed mounting in telescopic machanism's lower extreme, so long-time reciprocal up-and-down motion, can make and go up the hot pressboard and can produce horizontal position's skew, so make and go up the hot pressboard and can not advance even hot pressing to the hot melt adhesive and the nanocrystalline material of below, influence product quality, hot melt adhesive and nanocrystalline material of different thickness go up the hot pressboard when carrying out the hot pressing and support the degree downwards and need suitable different regulation, in order to reach the best laminating, current laminating device butt degree is not adjustable.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the utility model provides a can carry out accurate level to last hot pressboard and correct regulation formula nanocrystalline hot pressing laminating device, that support and press the adjustable degree.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a correction adjustment type nanocrystalline hot-pressing laminating device comprises a support, a telescopic mechanism, a controller, a pressure sensor, a correction mechanism, an upper hot-pressing plate and a lower abutting seat; a lower abutting seat is arranged in the middle of the bottom of the support, and a plurality of pressure sensors are uniformly arranged on the periphery of the bottom of the support; a telescopic mechanism is arranged in the middle of the upper end of the support, and a controller is arranged on one side of the upper end of the support; the pressure sensors are connected with a controller, the controller is connected with the telescopic mechanism, and the controller is connected with a pressure numerical value display mechanism; the lower end of the telescopic mechanism is provided with a correcting mechanism; the correcting mechanism comprises a connecting cover, a suspension plate, a suspension support rod, a suspension elastic body, a correcting abutting screw, an abutting column and an abutting elastic body; the lower end of the telescopic mechanism is provided with a connecting cover; a suspension plate is arranged inside the lower end of the connecting cover; an upper hot pressing plate is arranged in the middle of the bottom of the suspension plate and is positioned right above the lower abutting seat; a plurality of suspension support rods are uniformly arranged on the outer sides of the periphery of the suspension plate; a plurality of suspension grooves are uniformly arranged on the periphery of the connecting cover; a suspension elastic body is respectively arranged at the lower side in the suspension groove; the upper ends of the suspension grooves are respectively provided with a threaded passage; the outer ends of the suspension support rods respectively penetrate through one suspension groove and extend to the outer side of the connecting cover; the suspension support rod is vertically connected to the suspension groove in a sliding mode; the upper ends of the suspension elastic bodies are respectively and elastically abutted against the lower sides of the suspension support rods; the threaded channels are respectively in threaded rotary connection with a correction abutting screw; the lower end of the correcting abutting screw abuts against the upper end of the suspension supporting rod; the lower sides of the outer ends of the suspension support rods are respectively provided with a pressing column; the lower ends of the abutting columns are respectively provided with an abutting elastic body; the lower ends of the abutting elastic bodies abut against one pressure sensor respectively.

Further, the device also comprises a pressure regulating mechanism; the pressure regulating mechanism comprises an inner gear ring body, a driving ring and an external thread column; the upper end of the pressing column is vertically and slidably clamped inside the outer end of the suspension supporting rod; the upper end of the pressing column is provided with an external thread column; the external threaded column extends to the upper part of the suspension strut; the driving ring is sleeved on the outer side of the periphery of the external threaded column; the lower end of the driving ring is rotatably clamped at the upper end of the suspension support rod; an internal thread ring surface is arranged on the periphery of the inner side of the driving ring, and a ring gear is arranged on the periphery of the outer side of the driving ring; the driving ring is screwed with the external thread column through the internal thread ring surface, and the outer sides of the peripheries of the upper ends of the plurality of suspension supporting rods are jointly rotatably clamped and provided with an internal gear ring body; the inner gear ring body is meshed and connected with a ring gear on the outer side of the driving ring.

Furthermore, longitudinal sliding clamping grooves are respectively formed in the inner parts of the outer ends of the suspension support rods; the upper end of the pressing column is provided with a longitudinal sliding latch; the pressing column is connected to a longitudinal sliding clamping groove in the inner part of the outer end of the suspension supporting rod in a vertically sliding clamping mode through a longitudinal sliding clamping tooth at the upper end.

Furthermore, annular clamping strips are arranged on the periphery of the outer side of the inner gear ring body; the outer sides of the upper ends of the plurality of suspension support rods are provided with arc-shaped clamping grooves; the arc clamping grooves are encircled into a circular track; the inner gear ring body is rotationally clamped on the arc clamping grooves in the outer sides of the upper ends of the plurality of suspension supporting rods through the annular clamping strips on the periphery of the outer side.

Further, the lower end of the driving ring is provided with a rotary clamping ring; the upper end of the suspension strut is provided with a rotary clamping groove; the driving ring is rotationally clamped on the rotary clamping groove at the upper end of the suspension supporting rod through the rotary clamping ring at the lower end.

Furthermore, the lower sides of the suspension support rods are respectively provided with a pressing groove; the upper ends of the suspension elastic bodies are respectively and elastically abutted against the pressing grooves on the lower sides of the suspension support rods.

Furthermore, the lower ends of the correcting and pressing screws are respectively provided with a hemispherical pressing block; the correcting and pressing screw rod presses against the upper end of the suspension supporting rod through the hemispherical pressing block at the lower end.

Further, the longitudinal section of the connecting cover is of an inverted U-shaped structure.

Further, the telescopic mechanism is a telescopic cylinder.

The invention has the following beneficial effects:

1. the upper hot pressing plate is arranged below the connecting cover in a suspending mode through the suspending plate, the suspending support rods are arranged on the outer sides of the periphery of the suspending plate and upwards and elastically abut against the lower sides of the suspending support rods through the suspending elastic bodies, so that the suspending support rods have a space capable of floating up and down, before hot pressing and attaching are carried out, the connecting cover is driven to move downwards for a certain distance through the telescopic mechanism, the abutting columns on the lower sides of the outer ends of the suspending support rods are further driven to move downwards, the abutting elastic bodies are compressed, the pressure of the abutting elastic bodies which abut against the pressure sensors downwards is increased, pressure data are obtained and sent to the controller through the pressure sensors, observation is carried out through a pressure value display mechanism connected with the controller, when the data of each pressure sensor are within a reasonable error range, the upper hot pressing plate is laterally confirmed to be horizontal, normal work can be achieved, when the data of one or a plurality of the pressure sensors are higher, the correcting abutting screw rods can be adjusted, the correcting abutting screw rods move upwards, and the corresponding suspending elastic bodies below the upper correcting abutting against the suspending support rods upwards, so that the suspending support rods are slightly moved upwards, and the upper hot pressing plates are horizontally.

2. The invention can adjust different pressing degrees of the upper hot pressing plate aiming at hot melt adhesive and nanocrystalline materials with different thicknesses, synchronously drives the driving rings to rotate through the rotation of the inner gear ring body, further drives the external thread columns to move up and down, thereby driving the pressing columns to move up and down, so that the elastic compression amount of the pressing elastomer is telescopically adjusted, when the pressing elastomer is compressed downwards, the pressure borne by the pressure sensor can be increased, and further when the upper hot pressing plate is hot-pressed downwards and drives the pressing elastomer to compress downwards, the downward pressing force of the pressing elastomer borne by the pressure sensor can reach the preset pressure value of the controller in advance, and further the telescopic mechanism is driven to reset upwards, so that the downward pressing degree of the upper hot pressing plate is reduced, otherwise, the upward movement of the pressing elastomer is reduced, the downward pressing degree of the upper hot pressing plate is improved, and the adjustment is convenient.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of one side of the present invention.

Fig. 3 is a partially enlarged schematic view of the straightening mechanism of the present invention.

Fig. 4 is a partially enlarged schematic structural diagram of the pressure regulating mechanism of the present invention.

FIG. 5 is a schematic top view of the suspension plate, suspension strut, and pressure regulating mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, a correction adjustment type nanocrystalline hot pressing laminating device comprises a bracket 1, a telescopic mechanism 6, a controller 5, a pressure sensor 4, a correction mechanism 7, an upper hot pressing plate 3 and a lower abutting seat 2; a lower abutting seat 2 is arranged in the middle of the bottom of the support 1, and a plurality of pressure sensors 4 are uniformly arranged on the periphery of the bottom of the support 1; the middle of the upper end of the bracket 1 is provided with a telescopic mechanism 6, and one side of the upper end of the bracket 1 is provided with a controller 5; the pressure sensors 4 are connected with a controller 5, the controller 5 is connected with a telescopic mechanism 6, and the controller 5 is connected with a pressure numerical value display mechanism; the lower end of the telescopic mechanism 6 is provided with a correcting mechanism 7; the correcting mechanism 7 comprises a connecting cover 71, a suspension plate 72, a suspension support rod 73, a suspension elastic body 75, a correcting abutting screw 74, an abutting column 76 and an abutting elastic body 77; the lower end of the telescopic mechanism 6 is provided with a connecting cover 71; a suspension plate 72 is arranged inside the lower end of the connecting cover 71; the middle of the bottom of the suspension plate 72 is provided with an upper hot pressing plate 3, and the upper hot pressing plate 3 is positioned right above the lower abutting seat 2; a plurality of suspension struts 73 are uniformly arranged on the outer side of the periphery of the suspension plate 72; a plurality of suspension grooves 711 are uniformly arranged around the connecting cover 71; a suspension elastic body 75 is respectively arranged at the lower side of the interior of the suspension groove 711; the upper ends of the suspension grooves 711 are respectively provided with a threaded passage 712; the outer ends of the suspension struts 73 respectively pass through a suspension groove 711 and extend to the outer side of the connecting cover 71; the suspension support rod 73 is vertically slidably connected to the suspension groove 711; the upper ends of the suspension elastic bodies 75 are respectively elastically abutted against the lower sides of the suspension struts 73; the threaded channels 712 are respectively connected with a correcting and pressing screw 74 in a threaded rotation manner; the lower end of the correcting abutting screw 74 abuts against the upper end of the suspension strut 73; the lower sides of the outer ends of the suspension support rods 73 are respectively provided with a pressing column 76; the lower ends of the abutting columns 76 are respectively provided with an abutting elastic body 77; the lower ends of the abutting elastic bodies 77 abut against one pressure sensor 4 respectively.

As shown in fig. 1 to 5, further, a pressure regulating mechanism 8 is further included; the pressure regulating mechanism 8 comprises an internal gear ring body 81, a driving ring 82 and an external thread column 83; the upper end of the pressing column 76 is vertically slidably clamped inside the outer end of the suspension support rod 73; the upper end of the abutting column 76 is provided with an external thread column 83; the externally threaded post 83 extends above the suspension strut 73; the driving ring 82 is sleeved on the outer side of the periphery of the external thread column 83; the lower end of the driving ring 82 is rotatably clamped at the upper end of the suspension support rod 73; an internal thread ring surface is arranged around the inner side of the driving ring 82, and a ring gear is arranged around the outer side of the driving ring 82; the driving ring 82 is screwed with the external thread column 83 through an internal thread ring surface, and the outer sides of the peripheries of the upper ends of the plurality of suspension support rods 73 are jointly and rotatably clamped with an internal gear ring body 81; the inner gear ring 81 is in a snap-fit connection with a ring gear on the outside of the drive ring 82.

As shown in fig. 1 to 5, further, longitudinal sliding slots 732 are respectively formed inside the outer ends of the suspension struts 73; the upper end of the abutting column 76 is provided with a longitudinal sliding latch 762; the pressing column 76 is slidably engaged with the longitudinal sliding engaging groove 732 inside the outer end of the suspension strut 73 through a longitudinal sliding engaging tooth 762 at the upper end. Furthermore, annular clamping strips 811 are arranged on the periphery of the outer side of the inner gear ring body 81; the outer sides of the upper ends of the plurality of suspension struts 73 are provided with arc clamping grooves 733; the arc-shaped clamping grooves 733 enclose a circular track; the inner gear ring body 81 is rotatably clamped in the arc clamping grooves 733 in the outer sides of the upper ends of the plurality of suspension struts 73 through the annular clamping strips 811 on the periphery of the outer side. Further, a rotary snap ring 821 is provided at the lower end of the drive ring 82; the upper end of the suspension strut 73 is provided with a rotary clamping groove 734; the driving ring 82 is rotatably clamped on a rotary clamping groove 734 at the upper end of the suspension strut 73 through a rotary clamping ring 821 at the lower end. Further, the lower sides of the suspension struts 73 are respectively provided with a pressing groove 731; the upper ends of the floating elastic bodies 75 respectively elastically abut against the pressing grooves 731 on the lower side of the floating support rods 73. Further, the lower ends of the correcting abutting screws 74 are respectively provided with hemispherical abutting blocks 741; the correcting and pressing screw 74 presses against the upper end of the suspension strut 73 through the hemispherical pressing block 741 at the lower end. Further, the longitudinal section of the connecting cover 71 is in an inverted U-shaped structure. Further, the telescopic mechanism 6 is a telescopic cylinder.

According to the invention, the upper hot pressing plate 3 is arranged below the connecting cover 71 in a suspending manner through the suspending plate 72, the suspending support rods 73 are arranged on the outer side of the periphery of the suspending plate 72, and are elastically pressed against the lower sides of the suspending support rods 73 upwards through the suspending elastic bodies 75, so that the suspending support rods 73 have a space floating up and down, before hot pressing and attaching are carried out, the connecting cover 71 is driven to move downwards for a certain distance through the telescopic mechanisms 6, the pressing columns 76 on the lower sides of the outer ends of the suspending support rods 73 are driven to move downwards, the pressing elastic bodies 77 are compressed, the pressure of the pressing elastic bodies 77 pressing against the pressure sensors 4 downwards is increased, pressure data are obtained and sent to the controller 5 through the pressure sensors 4, and are observed through a pressure value display mechanism connected with the controller 5, when the data of each pressure sensor 4 are within a reasonable error range, the upper hot pressing plate 3 is confirmed to be horizontal, normal operation can be realized, when the data of one or a plurality of the pressure sensors 4 are high, the correcting pressing screw 74 can be adjusted, so that the correcting pressing screw 74 moves upwards, and the suspending support rods 73 move upwards correspondingly, and the suspending support rods 73 are horizontally moved upwards, so that the suspending support rods 73 are slightly moved.

The invention can adjust different pressing degrees of the upper hot pressing plate 3 aiming at hot melt adhesives and nanocrystalline materials with different thicknesses, synchronously drives the driving rings 82 to rotate through the rotation of the inner gear ring body 81, further drives the external thread columns 83 to move up and down, thereby driving the pressing columns 76 to move up and down, so that the elastic compression amount of the pressing elastic body 77 is telescopically adjusted, when the pressing elastic body 77 is compressed downwards, the pressure received by the pressure sensor 4 can be increased, further when the upper hot pressing plate 3 is hot-pressed downwards and drives the pressing elastic body 77 to compress downwards, the downward pressing force of the pressing elastic body 77 received by the pressure sensor 4 can reach the pressure value preset by the controller 5 in advance, further the telescopic mechanism 6 is driven to reset upwards, so that the downward pressing degree of the upper hot pressing plate 3 is reduced, otherwise, the elastic compression amount of the pressing elastic body 77 moves upwards, so that the downward pressing amount of the pressure sensor 4 is reduced, and the downward pressing degree of the upper hot pressing plate 3 is improved, and the adjustment is convenient.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. A correction adjustment type nanocrystalline hot-pressing laminating device is characterized by comprising a support, a telescopic mechanism, a controller, a pressure sensor, a correction mechanism, an upper hot-pressing plate and a lower abutting seat; a lower abutting seat is arranged in the middle of the bottom of the support, and a plurality of pressure sensors are uniformly arranged on the periphery of the bottom of the support; a telescopic mechanism is arranged in the middle of the upper end of the support, and a controller is arranged on one side of the upper end of the support; the pressure sensors are connected with a controller, the controller is connected with the telescopic mechanism, and the controller is connected with a pressure numerical value display mechanism; the lower end of the telescopic mechanism is provided with a correcting mechanism; the correcting mechanism comprises a connecting cover, a suspension plate, a suspension support rod, a suspension elastic body, a correcting abutting screw, an abutting column and an abutting elastic body; the lower end of the telescopic mechanism is provided with a connecting cover; a suspension plate is arranged inside the lower end of the connecting cover; an upper hot pressing plate is arranged in the middle of the bottom of the suspension plate and is positioned right above the lower abutting seat; a plurality of suspension support rods are uniformly arranged on the outer sides of the periphery of the suspension plate; a plurality of suspension grooves are uniformly arranged on the periphery of the connecting cover; a suspension elastic body is respectively arranged at the lower side in the suspension groove; the upper ends of the suspension grooves are respectively provided with a threaded passage; the outer ends of the suspension support rods respectively penetrate through one suspension groove and extend to the outer side of the connecting cover; the suspension support rod is vertically connected to the suspension groove in a sliding mode; the upper ends of the suspension elastic bodies are respectively and elastically abutted against the lower sides of the suspension support rods; the threaded channels are respectively in threaded rotary connection with a correction abutting screw; the lower end of the correcting abutting screw abuts against the upper end of the suspension supporting rod; the lower sides of the outer ends of the suspension support rods are respectively provided with a pressing column; the lower ends of the abutting columns are respectively provided with an abutting elastic body; the lower ends of the abutting elastic bodies abut against one pressure sensor respectively.

2. The corrective regulating type nanocrystalline hot pressing laminating device according to claim 1, further comprising a pressure regulating mechanism; the pressure regulating mechanism comprises an inner gear ring body, a driving ring and an external thread column; the upper end of the pressing column is vertically slidably clamped inside the outer end of the suspension support rod; the upper end of the abutting column is provided with an external thread column; the external threaded column extends to the upper part of the suspension strut; the driving ring is sleeved on the outer side of the periphery of the external threaded column; the lower end of the driving ring is rotatably clamped at the upper end of the suspension support rod; the periphery of the inner side of the driving ring is provided with an internal thread ring surface, and the periphery of the outer side of the driving ring is provided with a ring gear; the driving ring is in threaded connection with the external threaded column through an internal threaded ring surface, and an internal gear ring body is installed on the outer sides of the peripheries of the upper ends of the plurality of suspension support rods in a co-rotating and clamping manner; the inner gear ring body is meshed and connected with a ring gear on the outer side of the driving ring.

3. The correction adjustment type nanocrystalline hot pressing laminating device according to claim 2, wherein longitudinal sliding clamping grooves are respectively formed inside outer ends of the suspension supporting rods; the upper end of the pressing column is provided with a longitudinal sliding latch; the pressing column is connected to a longitudinal sliding clamping groove in the inner part of the outer end of the suspension supporting rod in a vertically sliding clamping mode through a longitudinal sliding clamping tooth at the upper end.

4. The correction-adjusting type nanocrystalline hot-pressing laminating device according to claim 2, wherein annular clamping strips are arranged on the periphery of the outer side of the inner gear ring body; the outer sides of the upper ends of the plurality of suspension support rods are provided with arc clamping grooves; the arc clamping grooves are encircled into a circular track; the inner gear ring body is rotationally clamped on the arc clamping grooves in the outer sides of the upper ends of the plurality of suspension supporting rods through the annular clamping strips on the periphery of the outer side.

5. The corrective regulation type nanocrystalline hot pressing laminating device according to claim 2, wherein a rotary snap ring is provided at a lower end of the drive ring; the upper end of the suspension strut is provided with a rotary clamping groove; the driving ring is rotationally clamped on the rotary clamping groove at the upper end of the suspension supporting rod through the rotary clamping ring at the lower end.

6. The corrective regulation type nanocrystalline hot pressing laminating device according to claim 1, wherein the lower sides of the suspension struts are respectively provided with a pressing groove; the upper ends of the suspension elastic bodies are respectively and elastically abutted in the abutting grooves on the lower sides of the suspension support rods.

7. The correcting and adjusting type nanocrystalline hot pressing and fitting device according to claim 1, wherein hemispherical pressing blocks are respectively arranged at the lower ends of the correcting pressing screw rods; the correcting and pressing screw rod presses against the upper end of the suspension supporting rod through the hemispherical pressing block at the lower end.

8. The corrective adjustment type nanocrystalline hot-pressing laminating device according to claim 1, wherein the longitudinal section of the connecting cover is of an inverted U-shaped structure.

9. The corrective adjustment type nanocrystalline hot-pressing laminating device according to claim 1, wherein the stretching mechanism is a stretching cylinder.

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