CN212305796U - Online pressfitting machine - Google Patents

Abstract

An in-line press comprising: the upper die mechanism and the lower die mechanism which correspond up and down and the runner mechanism positioned between the upper die mechanism and the lower die mechanism convey a product to be processed to the position between the upper die mechanism and the lower die mechanism, the lower die mechanism firstly supports the product, and then the upper die mechanism is pressed down to realize hot pressing; the upper die mechanism comprises: the upper die comprises an upper die cylinder, an upper die carrier plate fixedly connected with the upper die cylinder, and an upper die heat insulation plate, an upper die heating plate and an upper die pressing plate which are sequentially connected to the bottom of the upper die carrier plate, wherein the upper die pressing plate is driven to move downwards by the upper die cylinder; the lower die mechanism comprises: the lower die cylinder, the lower die carrier plate fixedly connected with the lower die cylinder, and the lower die heat insulation plate, the lower die heating plate and the lower die pressing plate which are sequentially connected to the top of the lower die carrier plate are driven by the lower die cylinder to move upwards, so that a product sent by the runner mechanism is supported and then falls back on the lower die base. The utility model discloses full automatization operation, each step action is smooth, the linking is accurate, need not manual operation, and machining efficiency is high.

Description

Online pressfitting machine

Technical Field

The utility model relates to a pressfitting machine is applied to the circuit board processing field.

Background

In the production and manufacturing process of the circuit board, thin film auxiliary materials such as pressure-sensitive adhesive and PI film are commonly used in the flexible circuit board mounting, PSA is torn off during assembly, double-sided adhesive tape is left, and the purpose of pressing is to avoid the phenomenon of adhesive dropping during the transferring process. At present, most factories adopt manual or semi-automatic mounting equipment and pressing equipment for processing, so that the efficiency is low and the precision is difficult to control; because the pressing needs to be matched with high-temperature operation, scalding is easily caused to a person, and certain risks exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome above-mentioned prior art not enough, provide an online pressfitting machine.

The utility model provides a technical scheme that above-mentioned technical problem adopted is: an in-line press comprising: the upper die mechanism and the lower die mechanism which correspond up and down and the runner mechanism positioned between the upper die mechanism and the lower die mechanism convey a product to be processed to the position between the upper die mechanism and the lower die mechanism, the lower die mechanism firstly supports the product, and then the upper die mechanism is pressed down to realize hot pressing;

the upper die mechanism comprises:

four upright posts standing on the machine bedplate, a slide bar shaft inserted at the top ends of the two upright posts at the left side and the right side,

the two sides of the plate surface are respectively connected with an upper die cylinder mounting plate of two slide bar shafts in an abutting mode, an upper die cylinder is fixed in the middle of the upper die cylinder mounting plate, an upper die carrier plate is fixedly connected to the end portion, extending downwards, of the power of the upper die cylinder,

the upper die heat insulation plate, the upper die heating plate and the upper die pressing plate are sequentially connected to the bottom of the upper die carrier plate, and the upper die pressing plate is driven to move downwards by the upper die air cylinder;

the lower die mechanism includes: the lower die comprises two lower die seats arranged on a machine platen in a left-right mode, a lower die cylinder mounting plate located between the two lower die seats, a lower die cylinder installed in the middle of the lower die cylinder mounting plate, a lower die support plate fixedly connected with the power end portion extending upwards from the lower die cylinder, and a lower die heat insulation plate, a lower die heating plate and a lower die pressing plate which are sequentially connected to the top of the lower die support plate, wherein two sides of the bottom of the lower die support plate can be lapped on the lower die seats, the lower die pressing plate is driven by the lower die cylinder to move upwards, and a product conveyed by a runner mechanism falls back and is.

The flow channel mechanism includes: the two ends of a product to be processed are lapped on the two belts, and the motor drives the belts to drive the products to move together.

The bottom of every die holder is provided with die holder translation subassembly, die holder translation subassembly includes: the two die holder cylinders face opposite directions, the power end parts of the two die holder cylinders are respectively connected with one side of the corresponding lower die holder, the die holder cylinders drive the lower die holders to move left and right on the second guide rail so as to enable the two lower die holders to move oppositely or oppositely, and a buffer is arranged on one side of each of the two lower die holders, which is opposite to each other; two parallel limiting blocks are arranged on the side face of the lower die base, a limiting clamping groove which is communicated horizontally is formed by the two limiting blocks in a surrounding mode, and the end portion of the die base cylinder is inserted from one end of the limiting clamping groove and can move back and forth in the groove.

A feeding sensor and a discharging sensor are respectively arranged at two ends of one side surface of one rail profile, a feeding cylinder is vertically arranged between the two rail profiles, a feeding material blocking block is arranged at the upward power end part of the feeding cylinder, the feeding cylinder is close to one end of the feeding sensor, and after the feeding sensor detects that a product is fed, the feeding cylinder acts to enable the feeding material blocking block to block the product behind; an optical fiber support is vertically arranged between the two track profiles, an in-place sensing optical fiber and an in-place cylinder are arranged on the optical fiber support, an in-place material blocking block is arranged at the upward power end part of the in-place cylinder, and the in-place cylinder acts after the in-place sensing optical fiber detects that a product is in place, so that the in-place material blocking block blocks the product to be positioned; and a code reader is also arranged on the track profile at one end of the feeding inductor through a bracket.

The slide bar axle is connected through last mould translation subassembly between the mould cylinder mounting panel of going up, it includes to go up mould translation subassembly: the bottom of the shaft sleeve sliding block and the bottom of the locking embracing ring are fixedly arranged on the plate surface of the upper die air cylinder mounting plate and close to two sides, and the upper die air cylinder mounting plate can move back and forth along the slide rod shaft.

Lower mould cylinder mounting panel bottom is provided with lower mould translation subassembly, lower mould translation subassembly includes: the first guide rail of parallel mount on the platen and the first slider of front and back slidable mounting on first guide rail, lower mould cylinder mounting panel fixed connection are on first slider, and lower mould cylinder mounting panel can be along first guide rail seesaw.

Two parallel lead screws are arranged below the track profile, one end of each lead screw is inserted into a lead screw mounting plate, the other end of each lead screw is inserted into an upright post, the lead screw mounting plate is fixed on the machine platen, the track profile corresponding to one side of the lead screw mounting plate is also mounted on the lead screw mounting plate, a track supporting plate is mounted at the bottom of the track profile on the other side of the lead screw mounting plate, the track supporting plate is fixedly connected with a nut sliding block sleeve on each lead screw, one end of each lead screw extending out of the lead screw mounting plate is connected with a hand wheel, and the track profile connected; and a track guide shaft is arranged between the screw rod mounting plate and the corresponding upright post, and a track guide sleeve is arranged in a hole of the track support plate in an inserting manner.

The upper die heating plate is characterized in that radiating fins are arranged on the upper die support plate, a plurality of upper die heat insulation plates are distributed at intervals, a plurality of jacks are formed in the peripheral side surface of the upper die heating plate, and upper die heating tubes are inserted in the jacks; the lower die heating plate and the upper die heating plate are identical in structure, and a fan is arranged on one side of the lower die heat insulation plate.

The side all around of going up the mould heating plate is provided with the bounding wall, and wherein the relative side bottom of controlling two bounding walls is provided with a guide block, and the base of two guide blocks extends relatively and is formed with the ka tai, goes up the mould heating plate both ends and puts up on the guide block, goes up the overlap joint of die pressing plate both ends and put up on the ka tai.

A plurality of upper die guide shafts which are distributed equally are fixed on the upper die carrier plate, upper die guide sleeves are arranged in holes which penetrate through the upper die cylinder mounting plate upwards, and the top ends of the two upper die guide shafts on the front side and the rear side of the same side are fixedly connected with a connecting rod; the lower die cylinder mounting plate is fixedly provided with a plurality of lower die guide shafts which are distributed equally, the lower die guide shafts are upwards inserted into the lower die guide sleeves, and the lower die guide sleeves are fixedly mounted at the bottom of the lower die carrier plate.

Further comprising: the box body is used for being installed in each mechanism, the machine table plate is a bottom plate of the box body, the box body is provided with an access door, an observation window, an operation key and an indicator lamp, the left side and the right side of the box body are provided with through openings corresponding to the flow channel mechanisms, and the bottom of the machine table plate is further provided with a distribution box.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses an online pressfitting machine full automatization operation, the product that will wait to process is transported to between the upper and lower die mechanism by runner mechanism earlier, and lower die mechanism holds up the product, then goes up the die mechanism and pushes down, realizes the hot pressing, and each step action is smooth, links up accurately, need not manual operation, and machining efficiency is high;

2. the bottom of the lower die mechanism is provided with a pair of lower die seats which can move oppositely or back to back, so that the stability during hot-pressing force application is ensured, and the hot-pressing effect is ensured;

3. the front-back relation of each mechanism can be adjusted, the front-back positions of the upper die mechanism and the lower die mechanism can be adjusted, the front-back width of the runner mechanism can be adjusted, the runner mechanism is suitable for products of different models, the universality is higher, and the adjustment is convenient;

4. in order to monitor the conveying state of the products and ensure the feeding accuracy, various sensors and material control cylinders are arranged on the flow channel mechanism, so that the products can be controlled more conveniently, the one-by-one feeding is ensured, and the feeding is accurate in place.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced, wherein:

FIG. 1 is a general view of the structure of the preferred embodiment of the present invention;

FIG. 2 is a schematic view of an upper mold mechanism according to a preferred embodiment of the present invention;

FIG. 3 is a schematic view of a lower mold mechanism according to a preferred embodiment of the present invention;

FIG. 4 is an internal view of a lower mold mechanism according to a preferred embodiment of the present invention;

fig. 5 is a schematic view of a flow channel mechanism according to a preferred embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description. In the preferred embodiments, the terms "upper", "lower", "left", "right", "middle" and "a" are used for the sake of clarity only, and are not intended to limit the scope of the invention, its relative relationship between the terms and their derivatives, and the scope of the invention should be understood as being limited by the claims.

Referring to fig. 1, an on-line laminating machine according to a preferred embodiment of the present invention mainly includes: the upper die mechanism and the lower die mechanism correspond to each other in an up-down mode and can be pressed together, and the runner mechanism is located between the upper die mechanism and the lower die mechanism and used for conveying a product to be processed. The runner mechanism conveys the product to be processed to a position between the upper die mechanism and the lower die mechanism, the lower die mechanism firstly supports the product, and then the upper die mechanism is pressed down, so that the hot pressing action is realized.

Referring to fig. 1 and 2, the upper mold mechanism includes:

four upright posts 101 standing on the bedplate 001, wherein a slide rod shaft 102 is inserted at the top ends of the two upright posts 101 on the left side and the right side;

the two sides of the plate surface are respectively in butt joint with upper die cylinder mounting plates 103 of the two slide rod shafts 102, an upper die cylinder 104 is fixed in the middle of the upper die cylinder mounting plates 103, and an upper die carrier plate 105 is fixedly connected to the power end part of the upper die cylinder 104 extending downwards;

and an upper mold heat insulation plate 106, an upper mold heating plate 107 and an upper mold pressing plate 108 which are connected to the bottom of the upper mold carrier plate 105 in sequence, wherein the upper mold cylinder 104 drives the whole upper mold carrier plate 105, the upper mold heat insulation plate 106, the upper mold heating plate 107 and the upper mold pressing plate 108 to move downwards, and the whole upper mold carrier plate, the upper mold heat insulation plate 106, the upper mold heating plate 107 and the upper mold pressing plate 108.

Slide bar axle 102 is connected through last mould translation subassembly between mould cylinder mounting panel 103 with last, goes up mould translation subassembly and includes: the sliding mechanism comprises a shaft sleeve sliding block 109 sleeved on the slide rod shaft 102 in a front-back sliding mode and a locking hoop 110 capable of being fixedly sleeved on the slide rod shaft 102 in a positioning mode, wherein the bottoms of the shaft sleeve sliding block 109 and the locking hoop 110 are fixedly installed on the plate surface of the upper die air cylinder installation plate 103 and are close to two sides. When the locking clasp 110 is released, the upper die cylinder mounting plate 103 can move back and forth along the slide rod shaft 102, and when the locking clasp is locked, the upper die cylinder mounting plate 103 is fixed. The upper die translation assembly can conveniently adjust the front and back horizontal positions of the upper die mechanism, and meets the use requirements of different models of products. Four upper die guide shafts 111 which are distributed equally are fixed on the upper die carrier plate 105, an upper die guide sleeve 112 is arranged in a hole of the upper die guide shaft 111 which upwards penetrates through the upper die cylinder mounting plate 103, the top ends of the two upper die guide shafts 111 on the same front side and the back side are fixedly connected with a connecting rod 113, and the upper die guide shaft guide sleeves are used for ensuring the upper die cylinders 104 to run stably.

Two heat sinks 114 are disposed on the upper mold carrier 105 to dissipate heat of the upper mold carrier 105 and surrounding devices. Three upper mold heat insulation plates 106 are distributed at intervals, and gaps among the three plates are used for heat insulation and convenient flowing air heat dissipation. A plurality of jacks are formed in the peripheral side face of the upper die heating plate 107, an upper die heating tube is inserted in each jack, and the upper die heating plate 107 is heated through the upper die heating tube.

The surrounding side edges of the upper die heating plate 107 are provided with coamings 115, and holes or grooves are also formed on the coamings 115 corresponding to the upper die heating tubes. Wherein, the relative side bottom of two bounding walls 115 about is provided with a guide block 116, and the relative extension in base of two guide blocks 116 is formed with the ka tai 117, and the both ends of going up mould heating plate 107 are lapped on guide block 116, and the both ends of going up mould laminated board 108 then overlap joint on ka tai 117, through taking out the plug-in dismouting mould laminated board 108, convenient the change comes the cooperation different model products.

Referring to fig. 3 and 4, the lower mold mechanism includes: the hot pressing die comprises two lower die seats 201 arranged on a machine platen 001 in the left-right direction, a lower die cylinder mounting plate 202 located between the two lower die seats 201, a lower die cylinder 203 arranged in the middle of the lower die cylinder mounting plate 202, a lower die carrier plate 204 fixedly connected with a power end part extending upwards from the lower die cylinder 203, a lower die heat insulation plate 205 connected to the top of the lower die carrier plate 204 in sequence, a lower die heating plate 206 and a lower die pressing plate 207, wherein two sides of the bottom of the lower die carrier plate 204 can be lapped on the lower die seats 201, the lower die cylinder 203 drives the whole lower die carrier plate 204, the lower die heat insulation plate 205, the lower die heating plate 206 and the lower die pressing plate 207 to move upwards, products sent by a runner mechanism are lifted and then fall back on the.

The bottom of lower mould cylinder mounting panel 202 is provided with lower mould translation subassembly, and lower mould translation subassembly includes: a first guide rail 208 which is arranged on the machine platform board 001 in parallel and a first slide block 209 which is arranged on the first guide rail 208 in a front-back sliding way, wherein the lower die cylinder mounting plate 202 is fixedly connected on the first slide block 209, and the lower die cylinder mounting plate 202 can move back and forth along the first guide rail 208. The lower die translation assembly is convenient for adjusting the front and back horizontal positions of the lower die mechanism, and is used for matching with the use requirements of different models of products. Four lower die guide shafts 210 which are equally distributed are fixed on the lower die cylinder mounting plate 202, the lower die guide shafts 210 are upwards inserted into the lower die guide sleeves 211, the lower die guide sleeves 211 are fixedly mounted at the bottom of the lower die carrier plate 204, and the lower die guide shaft guide sleeves are used for ensuring that the lower die cylinders 203 run stably.

The bottom of every die holder 201 is provided with die holder translation subassembly respectively, and die holder translation subassembly includes: the second guide rail 212 is arranged on the machine platen 001 in parallel, the second sliding block 213 is arranged on the second guide rail 212 in a left-right sliding mode, and the die holder cylinders 214 are arranged on the lower die cylinder mounting plate 202, the die holder cylinders 214 corresponding to the two lower die bases 201 are opposite in direction, the power end portions of the die holder cylinders 214 are respectively connected with one side of the corresponding lower die bases 201, and the die holder cylinders 214 drive the lower die bases 201 to move on the second guide rail 212, so that the two lower die bases 201 move oppositely or oppositely. When the lower die cylinder mounting plate 202 moves back and forth on the lower die translation assembly, in order to prevent the die holder cylinder 214 and the lower die holder 201 from being fixedly connected to influence the movement, two parallel limiting blocks 215 are arranged on one side surface of the lower die holder 201, a limiting clamping groove which is horizontally communicated is defined between the two limiting blocks 215, and the end part of the die holder cylinder 214 is inserted from one end of the limiting clamping groove and can move back and forth in the groove, so that the movement of the lower die translation assembly is not influenced. The buffer 216 is arranged on the opposite side of the two lower die bases 201 and is matched with the die base cylinder 214 to enable the lower die bases 201 to move stably.

The lower heating plate 206 is similar to the upper heating plate 107 in structure, and is also inserted with a lower heating tube. A fan 217 is further arranged on one side of the lower die insulation board 205 to improve air flow heat dissipation.

Referring to fig. 5, the flow path mechanism includes: the two parallel rail profiles 301, belt pulleys 302 arranged at two ends of one opposite surface of the rail profile 301, a stepping motor 303 arranged at the lower side of one end of the rail profile 301 through a motor base, and a driving wheel 304 connected to an output shaft of the stepping motor 303, wherein a belt 305 is used for winding and connecting the driving wheel 304, a tension wheel 318 and the belt pulleys 302, the tension wheels 318 are positioned above the driving wheel 304 and are symmetrically distributed, the tension wheels 318 are also arranged on the rail profile 301, two ends of a product to be processed are lapped on the two belts 305, and the belt 305 is driven by the stepping motor 303 to carry the product to move together.

In order to adapt to the transportation of products with different models, the distance between the two belts 305 can be adjusted, two parallel screw rods 306 are arranged below the track section 301, one ends of the screw rods 306 are installed through screw rod installation plates 307, the other ends of the screw rods 306 are installed through the upright posts 101, the track section 301 corresponding to one side of the screw rod installation plates 307 is also fixedly installed on the screw rod installation plates, track support plates 308 are installed at the bottoms of the track sections 301 on the other side, the track support plates 308 are fixedly connected with nut sliding blocks on the screw rods 306 in a sleeved mode, one ends of the screw rods 306 extending out of the screw rod installation plates 307 are connected with hand wheels 309, and the track section 301 connected with the track support plates 308 moves back and forth by rotating the. A track guide shaft 310 parallel to the screw 306 is arranged between the screw mounting plate 307 and the corresponding upright 101, a track guide sleeve 311 is arranged in a hole of the track support plate 308 in a penetrating way on the track guide shaft 310, and the track guide shaft guide sleeve has the function of ensuring that the screw 306 runs stably.

A feeding sensor 313 and a discharging sensor 314 are respectively arranged at two ends of one side surface of one rail profile 301, a feeding cylinder 312 is vertically arranged between the two rail profiles 301, a feeding material blocking block is fixedly connected to the upward power end part of the feeding cylinder 312, the feeding cylinder 312 is close to one end of the feeding sensor 313, and after the feeding sensor 313 detects the feeding of a product, the feeding cylinder 312 acts, and the feeding material blocking block blocks the latter product, so that only one product can enter. An optical fiber support 319 is erected between the two track profiles 301, the optical fiber support 319 is installed on the machine bedplate 001, an in-place sensing optical fiber 315 is arranged on the optical fiber support 319 and used for detecting whether a product above the optical fiber support is transported in place, an in-place cylinder 316 is further installed on the optical fiber support 319, an in-place material blocking block is fixedly connected to the upward power end portion of the in-place cylinder 316, and after the in-place sensing optical fiber 315 detects that the product is in place, the in-place cylinder 316 acts to block the product for positioning. After the hot pressing of the product is completed, the in-place cylinder 316 is reset, the product is discharged through the discharge inductor 314, and then the feeding of the next product is carried out. A code reader 317 is also arranged on the track profile 301 at one end of the feeding inductor 313 through a bracket, and the code reader 317 is used for reading a two-dimensional code on a product and identifying the model of the product.

This equipment still includes: a bottom for packing into each box of mechanism, machine platen 001 is the bottom plate of box, is equipped with access door, observation window, operation button and pilot lamp on the box, and the opening that has corresponding to runner mechanism both ends is opened to the left and right sides of box, and the bottom of machine platen 001 still is provided with the block terminal, provides electrical supply for each mechanism, and the block terminal bottom is supported by four stabilizer blades.

For the convenience of understanding, the working process of the equipment is briefly described as follows:

feeding A, feeding a product 002 to be processed into the belt 302 from one end, detecting the product 002 by a feeding sensor 313, and stopping the rear product by the action of a feeding cylinder 312; the product 002 moves to a certain position along with the belt 302, and after the in-place sensing optical fiber 315 detects that the product 002 is in place, the in-place cylinder 316 acts to block and position the product 002, and the material is fed in place;

b, performing hot pressing, wherein the lower die air cylinder 203 acts, the lower die pressing plate 207 slightly moves upwards to support the product 002, so that the product 002 is separated from the belt 302, the lower die bases 201 on two sides move close to each other to the bottom of the lower die carrier plate 204, and the lower die air cylinder 203 returns to enable the lower die carrier plate 204 to be lapped on the lower die bases 201; the upper mold air cylinder 104 is operated, the upper mold press plate 108 moves downwards to press the lower mold press plate 207, and heating is carried out at the same time; after hot pressing is completed, the upper die air cylinder 104 returns, the lower die air cylinder 203 acts, the lower die pressing plate 207 slightly moves upwards to support the product 002, the lower die seats 201 on the two sides move away from each other to the outside of the lower die carrier plate 204, and the lower die air cylinder 203 returns to enable the product 002 to fall on the belt 302 again;

c discharging, the in-place cylinder 316 returning, the belt 302 driving the product 002 to continue moving until the discharging sensor 314 detects that the product 002 is discharged, and then the feeding cylinder 312 returning to allow the next product to be fed, carrying out hot pressing again, and processing the products one by one in a circulating manner.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any person skilled in the art can make any indirect modifications, equivalent changes and modifications to the above embodiments according to the technical spirit of the present invention without departing from the scope of the present invention, and still fall within the scope of the technical solution of the present invention.

Claims (10)

1. An in-line press, comprising: the upper die mechanism and the lower die mechanism which correspond up and down and the runner mechanism positioned between the upper die mechanism and the lower die mechanism convey a product to be processed to the position between the upper die mechanism and the lower die mechanism, the lower die mechanism firstly supports the product, and then the upper die mechanism is pressed down to realize hot pressing;

the upper die mechanism comprises:

four upright posts standing on the machine bedplate, a slide bar shaft inserted at the top ends of the two upright posts at the left side and the right side,

the two sides of the plate surface are respectively connected with an upper die cylinder mounting plate of two slide bar shafts in an abutting mode, an upper die cylinder is fixed in the middle of the upper die cylinder mounting plate, an upper die carrier plate is fixedly connected to the end portion, extending downwards, of the power of the upper die cylinder,

the upper die heat insulation plate, the upper die heating plate and the upper die pressing plate are sequentially connected to the bottom of the upper die carrier plate, and the upper die pressing plate is driven to move downwards by the upper die air cylinder;

the lower die mechanism includes: the lower die comprises two lower die seats arranged on a machine platen in a left-right mode, a lower die cylinder mounting plate located between the two lower die seats, a lower die cylinder installed in the middle of the lower die cylinder mounting plate, a lower die support plate fixedly connected with the power end portion extending upwards from the lower die cylinder, and a lower die heat insulation plate, a lower die heating plate and a lower die pressing plate which are sequentially connected to the top of the lower die support plate, wherein two sides of the bottom of the lower die support plate can be lapped on the lower die seats, the lower die pressing plate is driven by the lower die cylinder to move upwards, and a product conveyed by a runner mechanism falls back and is.

2. An in-line press according to claim 1, wherein said flow path mechanism comprises: the two ends of a product to be processed are lapped on the two belts, and the motor drives the belts to drive the products to move together.

3. The on-line laminating machine according to claim 2, wherein a feeding sensor and a discharging sensor are respectively arranged at two ends of one side surface of one rail section bar, a feeding cylinder is vertically arranged between the two rail section bars, a feeding material blocking block is arranged at the upward power end part of the feeding cylinder, the feeding cylinder is close to one end of the feeding sensor, and after the feeding sensor detects that a product is fed, the feeding cylinder acts to enable the feeding material blocking block to block the following product; an optical fiber support is vertically arranged between the two track profiles, an in-place sensing optical fiber and an in-place cylinder are arranged on the optical fiber support, an in-place material blocking block is arranged at the upward power end part of the in-place cylinder, and the in-place cylinder acts after the in-place sensing optical fiber detects that a product is in place, so that the in-place material blocking block blocks the product to be positioned; and a code reader is also arranged on the track profile at one end of the feeding inductor through a bracket.

4. An on-line laminating machine according to claim 2, wherein two parallel lead screws are arranged below the track section bar, one end of each lead screw is inserted into a lead screw mounting plate, the other end of each lead screw is inserted into a stand column, the lead screw mounting plate is fixed on the machine table plate, the track section bar corresponding to the side of the lead screw mounting plate is also mounted on the lead screw mounting plate, a track support plate is mounted at the bottom of the track section bar on the other side, the track support plate is fixedly connected with a nut slide block sleeve on the lead screw, one end of the lead screw extending out of the lead screw mounting plate is connected with a hand wheel, and the track section bar connected with the track; and a track guide shaft is arranged between the screw rod mounting plate and the corresponding upright post, and a track guide sleeve is arranged in a hole of the track support plate in an inserting manner.

5. The in-line press as recited in any one of claims 1 to 4, wherein the bottom of each lower die holder is provided with a die holder translation assembly, the die holder translation assembly comprising: the two die holder cylinders face opposite directions, the power end parts of the two die holder cylinders are respectively connected with one side of the corresponding lower die holder, the die holder cylinders drive the lower die holders to move left and right on the second guide rail so as to enable the two lower die holders to move oppositely or oppositely, and a buffer is arranged on one side of each of the two lower die holders, which is opposite to each other; two parallel limiting blocks are arranged on the side face of the lower die base, a limiting clamping groove which is communicated horizontally is formed by the two limiting blocks in a surrounding mode, and the end portion of the die base cylinder is inserted from one end of the limiting clamping groove and can move back and forth in the groove.

6. An in-line press as set forth in any one of claims 1 to 4, wherein the slide shaft is connected to the upper die cylinder mounting plate by an upper die translation assembly comprising: the bottom of the shaft sleeve sliding block and the bottom of the locking embracing ring are fixedly arranged on the plate surface of the upper die air cylinder mounting plate and close to two sides, and the upper die air cylinder mounting plate can move back and forth along the slide rod shaft.

7. An in-line press as set forth in any one of claims 1 to 4, wherein the lower die cylinder mounting plate is provided at a bottom thereof with a lower die translation assembly comprising: the first guide rail of parallel mount on the platen and the first slider of front and back slidable mounting on first guide rail, lower mould cylinder mounting panel fixed connection are on first slider, and lower mould cylinder mounting panel can be along first guide rail seesaw.

8. The on-line laminating machine according to any one of claims 1 to 4, wherein the upper die carrier plate is provided with heat radiating fins, the upper die heat insulating plate is distributed with a plurality of blocks at intervals, the peripheral side surface of the upper die heat generating plate is provided with a plurality of jacks, and upper die heat generating tubes are inserted into the jacks; the lower die heating plate and the upper die heating plate are identical in structure, and a fan is arranged on one side of the lower die heat insulation plate.

9. An on-line laminating machine as claimed in any one of claims 1 to 4, wherein the upper die heating plate is provided with surrounding plates at its peripheral sides, wherein the bottom of the opposite sides of the left and right surrounding plates is provided with a guide block, the bottom edges of the two guide blocks extend oppositely to form a clamping table, the two ends of the upper die heating plate are lapped on the guide blocks, and the two ends of the upper die laminating plate are lapped on the clamping table.

10. The on-line press according to any one of claims 1 to 4, wherein a plurality of upper die guide shafts are fixed on the upper die carrier plate, the upper die guide shafts are distributed equally, an upper die guide sleeve is arranged in a hole which penetrates through the upper die cylinder mounting plate upwards, and the top ends of the two upper die guide shafts on the same front and back sides are fixedly connected with a connecting rod; a plurality of lower die guide shafts which are distributed equally are fixed on the lower die air cylinder mounting plate, the lower die guide shafts are upwards inserted into the lower die guide sleeves, and the lower die guide sleeves are fixedly mounted at the bottom of the lower die carrier plate; the on-line laminating machine further comprises: the box body is used for being installed in each mechanism, the machine table plate is a bottom plate of the box body, the box body is provided with an access door, an observation window, an operation key and an indicator lamp, the left side and the right side of the box body are provided with through openings corresponding to the flow channel mechanisms, and the bottom of the machine table plate is further provided with a distribution box.

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