阅读说明：本技术 一种膜片加工支撑用压膜机及其制作方法 (Film pressing machine for processing and supporting film and manufacturing method thereof ) 是由 吴夏生 吴新园 于 2021-08-26 设计创作，主要内容包括：本申请公开了一种膜片加工支撑用压膜机及其制作方法,所述压膜机包括、压膜机壳、定位夹持机构、移动机构、切割机构、导向复位机构和粉碎机构；所述定位夹持机构包括支撑架、移动板和压板,所述支撑架内腔设有第一丝杠,所述第一丝杠表面套有第一移动套,所述第一移动套顶端贯穿支撑架固接移动板,所述移动板内腔设有第二滑杆,所述第二滑杆表面套有第二滑套,所述第二滑套一端贯穿移动板固接压板,所述第二滑杆顶端表面套有第二弹簧,所述第二弹簧顶部和底部分别连接移动板内腔顶部和第二滑套,所述支撑架顶部中央设有第一压膜模具,所述支撑架顶部设有压膜板。提供一种带有切割回收功能的膜片加工支撑用压膜机及其制作方法。(The application discloses a film pressing machine for processing and supporting a film and a manufacturing method thereof, wherein the film pressing machine comprises a film pressing machine shell, a positioning and clamping mechanism, a moving mechanism, a cutting mechanism, a guiding and resetting mechanism and a crushing mechanism; the utility model discloses a positioning clamping mechanism, including support frame, movable plate and clamp plate, support frame inner chamber is equipped with first lead screw, first lead screw surface cover has first removal cover, support frame rigid coupling movable plate is run through on first removal cover top, movable plate inner chamber is equipped with the second slide bar, second slide bar surface cover has the second sliding sleeve, movable plate rigid coupling clamp plate is run through to second sliding sleeve one end, second slide bar top surface cover has the second spring, movable plate inner chamber top and second sliding sleeve are connected respectively to second spring top and bottom, support frame top central authorities are equipped with first press mold utensil, the support frame top is equipped with the press mold plate. A film pressing machine with cutting and recycling functions for processing and supporting a membrane and a manufacturing method thereof are provided.)

1. The utility model provides a film pressing machine is used in diaphragm processing support which characterized in that: the film pressing machine comprises a film pressing machine shell, a positioning and clamping mechanism, a moving mechanism, a cutting mechanism, a guiding and resetting mechanism and a crushing mechanism;

the utility model discloses a press mold machine, including location fixture, support frame, movable plate, second slide bar, first lead screw surface cover, first removal cover top, movable plate top and second slide bar, second slide bar surface cover is equipped with the second slide bar, second slide bar surface cover has the second sliding sleeve, second sliding sleeve one end runs through movable plate rigid coupling clamp plate, second slide bar top surface cover has the second spring, movable plate inner chamber top and second sliding sleeve are connected respectively to second spring top and bottom, support frame top central authorities are equipped with first press mold mould, the support frame top is equipped with the press mold board, press mold board bottom central authorities installation second press mold mould press mold board top central authorities installation second electric putter, press mold machine shell inner chamber top is connected at second electric putter top.

2. The laminator for film processing support according to claim 1, wherein: moving mechanism includes drive plate and second slider, press mold inner chamber bottom central authorities installation drive plate, the drive plate inner chamber is equipped with the second lead screw, drive plate side-mounting second driving motor, second lead screw one end is rotated and is connected the drive plate inner wall, and the second lead screw other end connects the second driving motor output, second lead screw surface cover has the second and removes the cover, the second removes cover top and runs through the drive plate and connect spacing, two first slide rails of press mold inner chamber bottom symmetry installation, first slide rail surface mounting second slider, the drive plate is connected at second slider top.

3. The laminator for film processing support according to claim 1, wherein: cutting mechanism includes lifter plate and first drive box, the first drive box of press mold casing top installation, breach is seted up to first drive box top central authorities, first drive box inner chamber is equipped with reciprocal frame, reciprocal frame inner chamber central authorities are equipped with engaged with drive gear, the first driving motor of first drive box side-mounting, drive gear is connected to first driving motor one end, reciprocal frame bottom central authorities installation push rod, push rod bottom one side is run through first drive box and press mold casing and is extended to press mold casing inner chamber, and push rod bottom connection lifter plate top central authorities, two cutting knives of lifter plate bottom symmetry installation.

4. The laminator for film processing support according to claim 1, wherein: the direction canceling release mechanical system includes second direction box and first direction box, the second direction box is installed at press mold casing inner chamber top, second direction box inner chamber is equipped with first slide bar, first slide bar surface cover has first sliding sleeve, and sliding connection between first slide bar and the first sliding sleeve, first spring is connected to first sliding sleeve one side, first spring housing is on first slide bar surface, and first spring and second direction box inner wall are connected, second direction box bottom is equipped with the connecting rod, first sliding sleeve and first slide bar are connected respectively through the connecting piece in connecting rod top and bottom, and the connecting rod rotates with the connecting piece and be connected, first direction box is all installed to press mold casing inner chamber both sides, first direction box inner chamber sliding installation first slider, the lifter plate is connected to first slider one side.

5. The laminator for film processing support according to claim 1, wherein: rubbing crusher constructs including smashing case, second drive box and second carriage, two crushing casees of press mold chassis bottom symmetry installation, smash incasement chamber side-mounting second drive box, it is equipped with two dwangs, two to smash the incasement chamber the dwang surface is equipped with the cutting tooth that interlocks each other, second carriage and first carriage are connected to dwang one side, first carriage one end extends to inside the second drive box, first carriage side-mounting third driving motor, second carriage top and bottom all with second slide rail block, smash the case both sides and all install first electric putter, first electric putter one end extends to smashes incasement internal connection second carriage.

6. The laminator for film processing support according to claim 1, wherein: one side of the first lead screw is rotatably connected with the inner wall of the support frame, one side of the support frame is provided with an adjusting knob, the adjusting knob is fixedly connected with one end of the first lead screw, the first lead screw is connected with a first moving sleeve through threads, a second sliding sleeve is slidably connected with a second sliding rod, and the surface of the support frame is provided with four moving plates.

7. A laminator for film processing support according to claim 2, wherein: the bottom of the second moving sleeve is symmetrically provided with two guide wheels, the guide wheels are in contact with the bottom of an inner cavity of the driving plate, the tangent plane of the limiting frame is of a concave structure, the inner wall of the limiting frame is attached to the side wall of the driving plate, the first sliding rail is in sliding connection with the second sliding block, a control plate is installed on one side of the press film machine shell, and discharge ports are formed in two sides of the bottom of the press film machine shell.

8. A laminator for film processing support according to claim 3, wherein: cutting knife top central authorities are equipped with the guide block, inside the guide block top extended to the lifter plate, and the guide block passes through the screw connection lifter plate bottom, two spacing wheels are all installed to reciprocal frame both sides, spacing wheel and the internal wall of first drive box contact mutually, two stoppers of pressure film casing inner chamber top symmetry installation, the stopper is located the push rod both sides, drive gear one side is rotated and is connected first drive box inner wall.

9. A laminator for film processing support according to claim 5, wherein: the slide is all seted up to second drive box both sides, first carriage both sides width all is greater than the slide width, second carriage and control panel sliding connection, dwang one end is rotated and is connected the second carriage, and the dwang other end connects third driving motor, smash the case and install on the collection box surface, the collection box inner chamber passes through fixture block installation screen cloth, two door leafs of collection box side symmetry installation.

10. A laminator for film processing support according to claims 1-9 to arrive at a laminator manufacturing method for film processing support, wherein: the manufacturing method comprises the following steps:

(1) installing a diaphragm raw material, placing the diaphragm raw material in the center of the top of a support frame and on the surface of a first film pressing mold, then screwing an adjusting knob to drive a first lead screw to rotate, wherein when the first lead screw rotates, the surface of the first lead screw starts to move through a first moving sleeve in threaded connection, the first moving sleeve drives a moving plate to move, then a second spring on the surface of the top end of a second slide bar pushes a second sliding sleeve to move, and when the second sliding sleeve drives a pressing plate to move, the diaphragm raw material can be pressed to be positioned;

(2) the diaphragm is processed, the second lead screw can be driven to rotate through the second driving motor, when the second moving sleeve moves on the surface of the second lead screw, the guide wheels at the bottom of the second moving sleeve also move simultaneously to play a stabilizing role, then the limiting frame can slide on the surface of the driving plate to facilitate the control of the movement of the supporting frame, when the supporting frame moves, the second sliding block also moves on the surface of the first sliding rail to play a guiding effect, and then the diaphragm can be processed or cut;

(3) the membrane is cut, when the membrane raw material is cut, the difficulty of subsequent trimming can be reduced, waste materials can be conveniently recycled, the first driving motor on one side of the first driving box can drive the driving gear to rotate, half of gear teeth are arranged on the surface of the driving gear, so that the reciprocating frame can be driven to reciprocate up and down during rotation, the reciprocating frame can play a limiting role through the limiting wheel during the moving process, when the reciprocating frame pushes the push rod, the limiting role is played through the limiting block, and then the two sides of the membrane are quickly cut by downward movement of the lifting plate and the cutting knife;

(4) cutting reset guide, wherein in the cutting process, the first sliding blocks on two sides of the lifting plate can slide in the first guide box, so that the lifting plate can stably move and accurately cut the diaphragm;

(5) the crushing waste is recycled, the cut waste can fall into the crushing box through a discharge port at the bottom of the press film machine shell, when a third driving motor drives the rotating rods to rotate, the waste is crushed through the cutting teeth on the surfaces of the two rotating rods, the cutting teeth on the surfaces of the two rotating rods are mutually staggered, the second sliding frame can be pushed to move through the first electric push rod, the second sliding frame can slide on the surface of the second sliding rail, the first sliding frame can move through a slide rail at one side of the second driving box, and the size of the crushed particles can be conveniently controlled;

(6) the membrane is taken out and trimmed, the support frame is controlled through the second driving motor, then the processed membrane is conveniently taken down, fine trimming is convenient to carry out, crushed waste materials enter the recovery box and are screened through the screen, and then the waste materials are conveniently taken out and recycled.

Technical Field

The application relates to a diaphragm laminator, in particular to a laminator for processing and supporting diaphragms and a manufacturing method thereof.

Background

The dental diaphragm is made of resin, is pressed and formed by a thermoforming machine or a film pressing machine, can be used for trimming details by scissors after being formed, is used for dental treatment such as tooth correction, is a sheet material which is produced by adopting a high polymer material through an injection molding or rolling process, and is mainly used for manufacturing oral cavity movement tooth protection, soft and hard jaw pads, orthodontic appliances, orthodontic retainers and the like.

General dentistry diaphragm is when processing production through the film pressing machine, and general film pressing machine bearing structure is different stable, when carrying out the press mold, lacks the function of cutting the raw materials moreover, leads to influencing the press mold, in addition when follow-up adoption manual work is maintained, can increase the work degree of difficulty. Therefore, a laminator for supporting film processing and a method for manufacturing the same are provided to solve the above problems.

Disclosure of Invention

A film pressing machine for processing and supporting a film comprises a film pressing machine shell, a positioning and clamping mechanism, a moving mechanism, a cutting mechanism, a guiding and resetting mechanism and a crushing mechanism;

the utility model discloses a press mold machine, including location fixture, support frame, movable plate, second slide bar, first lead screw surface cover, first removal cover top, movable plate top and second slide bar, second slide bar surface cover is equipped with the second slide bar, second slide bar surface cover has the second sliding sleeve, second sliding sleeve one end runs through movable plate rigid coupling clamp plate, second slide bar top surface cover has the second spring, movable plate inner chamber top and second sliding sleeve are connected respectively to second spring top and bottom, support frame top central authorities are equipped with first press mold mould, the support frame top is equipped with the press mold board, press mold board bottom central authorities installation second press mold mould press mold board top central authorities installation second electric putter, press mold machine shell inner chamber top is connected at second electric putter top.

Further, moving mechanism includes drive plate and second slider, press mold chassis inner chamber bottom central authorities installation drive plate, the drive plate inner chamber is equipped with the second lead screw, drive plate side-mounting second driving motor, second lead screw one end is rotated and is connected the drive plate inner wall, and the second lead screw other end connects the second driving motor output, second lead screw surface cover has the second and removes the cover, the second removes cover top and runs through the drive plate and connect spacing, two first slide rails of press mold chassis inner chamber bottom symmetry installation, first slide rail surface mounting second slider, the drive plate is connected at second slider top.

Further, cutting mechanism includes lifter plate and first drive box, the first drive box of press mold casing top installation, breach is seted up to first drive box top central authorities, first drive box inner chamber is equipped with reciprocal frame, reciprocal frame inner chamber central authorities are equipped with engaged with drive gear, the first driving motor of first drive box side-mounting, drive gear is connected to first driving motor one end, reciprocal frame bottom central authorities installation push rod, push rod bottom one side is run through first drive box and press mold casing and is extended to press mold casing inner chamber, and push rod bottom connection lifter plate top central authorities, two cutting knives of lifter plate bottom symmetry installation.

Further, direction canceling release mechanical system includes second direction box and first direction box, the second direction box is installed at press mold casing inner chamber top, second direction box inner chamber is equipped with first slide bar, first slide bar surface cover has first sliding sleeve, and sliding connection between first slide bar and the first sliding sleeve, first spring is connected to first sliding sleeve one side, first spring housing is on first slide bar surface, and first spring is connected with second direction box inner wall, second direction box bottom is equipped with the connecting rod, first sliding sleeve and first slide bar are connected respectively through the connecting piece in connecting rod top and bottom, and the connecting rod rotates with the connecting piece to be connected, first direction box is all installed to press mold casing inner chamber both sides, first direction box inner chamber sliding installation first slider, lifter plate is connected to first slider one side.

Further, rubbing crusher constructs including smashing case, second drive box and second carriage, two crushing casees of press mold chassis bottom symmetry installation, smash incasement chamber side-mounting second drive box, it is equipped with two dwangs, two to smash the incasement chamber the dwang surface is equipped with crisscross cutting tooth each other, second carriage and first carriage are connected to dwang one side, first carriage one end extends to inside the second drive box, first carriage side-mounting third driving motor, second carriage top and bottom all with second slide rail block, smash first electric putter all to install in the case both sides, first electric putter one end extends to smashes incasement internal connection second carriage.

Furthermore, first lead screw one side is connected with the support frame inner wall rotation, support frame one side is equipped with adjust knob, adjust knob and first lead screw one end looks rigid coupling, first lead screw passes through the first cover that removes of threaded connection, second sliding sleeve and second slide bar sliding connection, the support frame surface is equipped with four movable plates.

Further, the bottom of the second moving sleeve is symmetrically provided with two guide wheels, the guide wheels are in contact with the bottom of an inner cavity of the driving plate, the tangent plane of the limiting frame is of a concave structure, the inner wall of the limiting frame is attached to the side wall of the driving plate, the first sliding rail is in sliding connection with the second sliding block, a control panel is installed on one side of the press film machine shell, and discharge ports are formed in two sides of the bottom of the press film machine shell.

Further, cutting knife top central authorities are equipped with the guide block, the guide block top extends to inside the lifter plate, and the guide block passes through the screw connection lifter plate bottom, two spacing wheels are all installed to reciprocal frame both sides, spacing wheel and the contact of first drive box inner wall mutually, two stoppers of press mold casing inner chamber top symmetry installation, the stopper is located the push rod both sides, drive gear one side is rotated and is connected first drive box inner wall.

Further, the slide is all seted up to second drive box both sides, first carriage both sides width all is greater than the slide width, second carriage and control panel sliding connection, dwang one end is rotated and is connected the second carriage, and the dwang other end connects third driving motor, smash the case and install on the collection box surface, the collection box inner chamber passes through fixture block installation screen cloth, two door leafs of collection box side symmetry installation.

The manufacturing method comprises the following steps:

(1) installing a diaphragm raw material, placing the diaphragm raw material in the center of the top of a support frame and on the surface of a first film pressing mold, then screwing an adjusting knob to drive a first lead screw to rotate, wherein when the first lead screw rotates, the surface of the first lead screw starts to move through a first moving sleeve in threaded connection, the first moving sleeve drives a moving plate to move, then a second spring on the surface of the top end of a second slide bar pushes a second sliding sleeve to move, and when the second sliding sleeve drives a pressing plate to move, the diaphragm raw material can be pressed to be positioned;

(2) the diaphragm is processed, the second lead screw can be driven to rotate through the second driving motor, when the second moving sleeve moves on the surface of the second lead screw, the guide wheels at the bottom of the second moving sleeve also move simultaneously to play a stabilizing role, then the limiting frame can slide on the surface of the driving plate to facilitate the control of the movement of the supporting frame, when the supporting frame moves, the second sliding block also moves on the surface of the first sliding rail to play a guiding effect, and then the diaphragm can be processed or cut;

(3) the membrane is cut, when the membrane raw material is cut, the difficulty of subsequent trimming can be reduced, waste materials can be conveniently recycled, the first driving motor on one side of the first driving box can drive the driving gear to rotate, half of gear teeth are arranged on the surface of the driving gear, so that the reciprocating frame can be driven to reciprocate up and down during rotation, the reciprocating frame can play a limiting role through the limiting wheel during the moving process, when the reciprocating frame pushes the push rod, the limiting role is played through the limiting block, and then the two sides of the membrane are quickly cut by downward movement of the lifting plate and the cutting knife;

(4) cutting reset guide, wherein in the cutting process, the first sliding blocks on two sides of the lifting plate can slide in the first guide box, so that the lifting plate can stably move and accurately cut the diaphragm;

(5) the crushing waste is recycled, the cut waste can fall into the crushing box through a discharge port at the bottom of the press film machine shell, when a third driving motor drives the rotating rods to rotate, the waste is crushed through the cutting teeth on the surfaces of the two rotating rods, the cutting teeth on the surfaces of the two rotating rods are mutually staggered, the second sliding frame can be pushed to move through the first electric push rod, the second sliding frame can slide on the surface of the second sliding rail, the first sliding frame can move through a slide rail at one side of the second driving box, and the size of the crushed particles can be conveniently controlled;

(6) the membrane is taken out and trimmed, the support frame is controlled through the second driving motor, then the processed membrane is conveniently taken down, fine trimming is convenient to carry out, crushed waste materials enter the recovery box and are screened through the screen, and then the waste materials are conveniently taken out and recycled.

The application has the advantages that: a film pressing machine with cutting and recycling functions for processing and supporting a membrane and a manufacturing method thereof are provided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic diagram of a laminator for processing and supporting a film and a method of making the same according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of the laminator of the embodiment shown in FIG. 1;

FIG. 3 is a schematic view of the moving mechanism and positioning clamp configuration of the embodiment of FIG. 2;

FIG. 4 is a perspective view of the positioning and clamping structure of the embodiment shown in FIG. 2;

FIG. 5 is a schematic perspective view of the guiding and returning mechanism of the embodiment of FIG. 2;

FIG. 6 is an enlarged view of a portion of the embodiment A shown in FIG. 2;

FIG. 7 is a schematic perspective view of the interior of the first drive cartridge in the embodiment of FIG. 2;

FIG. 8 is a schematic view of the shredder mechanism of the embodiment of FIG. 1;

FIG. 9 is a perspective view of the second carriage and second slide rail of the embodiment of FIG. 8;

fig. 10 is a schematic view of the internal structure of the recycling bin in the embodiment shown in fig. 1.

The meaning of the reference symbols in the figures: the film laminator comprises a film laminator 100, a support frame 101, an adjusting knob 1011, a first lead screw 1012, a first moving sleeve 1013, a pressing plate 102, a first guide box 103, a film laminator shell 104, a lifting plate 105, a push rod 106, a first driving box 107, a reciprocating frame 1071, a driving gear 1072, a limiting wheel 1073, a first driving motor 108, a limiting block 109, a second guide box 110, a first spring 1101, a first sliding sleeve 1102, a connecting member 1103, a connecting rod 1104, a first sliding rod 1105, a first sliding block 111, a guiding block 112, a cutting knife 113, a moving plate 114, a second sliding rod 1141, a second spring 1142, a second sliding sleeve 1143, a second sliding block 115, a first film laminating mold 116, a driving plate 117, a second lead screw 1171, a second moving sleeve 1172, a guiding wheel 1173, a second driving motor 118, a limiting frame 119, a first sliding rail 120, a crushing box 121, a cutting tooth 1211, a third driving motor 1212, a second driving box 1213, a first sliding frame 1214, a rotating rod 1215, the second sliding frame 1216, the second sliding rail 1217, the first electric push rod 122, the recycling bin 123, the screen 1231, the film pressing plate 124, the second film pressing mold 125, the second electric push rod 126, and the control plate 127.

Detailed Description

In order to make the purpose, features and advantages of the present application more obvious and understandable, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the embodiments described below are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical scheme of the application is further explained by the specific implementation mode in combination with the attached drawings.

In the description of the present application, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

Referring to fig. 1 to 4, a film pressing machine for supporting film processing, wherein the film pressing machine 100 comprises a film pressing machine shell 104, a positioning and clamping mechanism, a moving mechanism, a cutting mechanism, a guiding and resetting mechanism and a crushing mechanism;

the positioning and clamping mechanism comprises a support frame 101, a moving plate 114 and a pressing plate 102, wherein a first lead screw 1012 is arranged in an inner cavity of the support frame 101, a first moving sleeve 1013 is sleeved on the surface of the first lead screw 1012, the top end of the first moving sleeve 1013 penetrates through the support frame 101 and is fixedly connected with the moving plate 114, a second sliding bar 1141 is arranged in the inner cavity of the moving plate 114, a second sliding sleeve 1143 is sleeved on the surface of the second sliding bar 1141, one end of the second sliding sleeve 1143 penetrates through the moving plate 114 and is fixedly connected with the pressing plate 102, a second spring 1142 is sleeved on the surface of the top end of the second sliding bar 1141, the top and the bottom of the second spring 1142 are respectively connected with the top of the inner cavity of the moving plate 114 and the second sliding sleeve 1143, a first film pressing mold 116 is arranged in the center of the top of the support frame 101, a second film pressing mold 125 is arranged in the center of the bottom of the film pressing plate 124, and a second electric push rod 126 is arranged in the center of the top of the film pressing plate 124, the top of the second electric push rod 126 is connected with the top of the inner cavity of the film pressing machine shell 104.

By the technical scheme, the membrane raw material can be positioned and clamped;

the second driving motor 118, the second lead screw 1171, the second moving sleeve 1172, the guide wheel 1173, the driving plate 117, the limiting frame 119, the first slide rail 120 and the second slide block 115 are used for controlling the supporting frame 101 to move, so that the film raw materials arranged on the surface of the supporting frame 101 can be conveniently moved to the bottoms of the film pressing plate 124 and the lifting plate 105, and the film pressing plate and the lifting plate can be conveniently cut and processed.

As a further optimized scheme, as shown in fig. 2 to fig. 3, the moving mechanism includes a driving plate 117 and a second slider 115, the driving plate 117 is installed at the center of the bottom of the inner cavity of the squeeze film machine shell 104, a second lead screw 1171 is installed in the inner cavity of the driving plate 117, a second driving motor 118 is installed on one side of the driving plate 117, one end of the second lead screw 1171 is rotatably connected to the inner wall of the driving plate 117, the other end of the second lead screw 1171 is connected to the output end of the second driving motor 118, a second moving sleeve 1172 is sleeved on the surface of the second lead screw 1171, the top end of the second moving sleeve 1172 penetrates through the driving plate 117 and is connected to a limiting frame 119, two first slide rails 120 are symmetrically installed at the bottom of the inner cavity of the squeeze film machine shell 104, the second slider 115 is installed on the surface of the first slide rails 120, and the top of the second slider 115 is connected to the driving plate 117.

By the scheme, the diaphragm can be controlled to move for processing and production;

the two moving plates 114 are controlled to move by the support frame 101, the adjusting knob 1011, the first lead screw 1012 and the first moving sleeve 1013, so as to be convenient for adjusting according to the size of the raw material, and the film raw material is positioned and clamped by the second sliding rod 1141, the second spring 1142, the second sliding sleeve 1143 and the pressing plate 102, and is processed and produced by the second film pressing mold 134, the second film pressing mold 125, the second electric push rod 126 and the first film pressing mold 116.

Referring to fig. 2, 5 and 7, cutting mechanism includes lifter plate 105 and first drive box 107, the first drive box 107 of press mold casing 104 top installation, the breach is seted up to first drive box 107 top central authorities, first drive box 107 inner chamber is equipped with reciprocal frame 1071, reciprocal frame 1071 inner chamber central authorities are equipped with engaged with drive gear 1072, first drive box 107 one side installation first driving motor 108, drive gear 1072 is connected to first driving motor 108 one end, reciprocal frame 1071 bottom central authorities installation push rod 106, push rod 106 bottom one side is run through first drive box 107 and press mold casing 104 and is extended to press mold casing 104 inner chamber, and push rod 106 bottom is connected lifter plate 105 top central authorities, two cutting knives 113 of lifter plate 105 bottom symmetry installation.

By the scheme, redundant corners can be removed conveniently, and subsequent membrane trimming is also facilitated;

the lifting plate 105 can be controlled to move up and down through the first driving box 107, the first driving motor 108, the reciprocating frame 1071, the driving gear 1072, the limiting wheel 1073 and the push rod 106, and then the lifting plate 105 is limited and guided through the first sliding block 111 and the first guide box 103, so that the excess parts on the two sides of the raw material are cut off.

As shown in fig. 2 and 6, the guide resetting mechanism includes a second guide box 110 and a first guide box 103, the second guide box 110 is installed at the top of the inner cavity of the lamination machine housing 104, the inner cavity of the second guide box 110 is provided with a first sliding bar 1105, the surface of the first sliding bar 1105 is sleeved with a first sliding sleeve 1102, the first sliding bar 1105 is slidably connected with the first sliding sleeve 1102, one side of the first sliding sleeve 1102 is connected with a first spring 1101, the first spring 1101 is sleeved on the surface of the first sliding bar 1105, the first spring 1101 is connected with the inner wall of the second guide box 110, the bottom of the second guide box 110 is provided with a connecting rod 1104, the top and the bottom of the connecting rod 1104 are respectively connected with the first sliding sleeve 1102 and the first sliding bar 1105 through a connecting piece 1103, the connecting rod 1104 is rotatably connected with the connecting piece 1103, the two sides of the inner cavity of the lamination machine housing 104 are both provided with the first guide boxes 103, the inner cavity of the first guide box 103 is slidably installed with the first slider 111, one side of the first slider 111 is connected with the lifting plate 105.

By the scheme, the reset function is conveniently realized during cutting;

through the second guide box 110, the first spring 1101, the first sliding sleeve 1102, the connecting member 1103, the connecting rod 1104 and the first sliding bar 1105, not only a guiding effect is achieved when the membrane is cut, but also a resetting effect is achieved for the lifting plate 105.

As a further optimization, as shown in fig. 8 to 9, the crushing mechanism includes a crushing box 121, a second driving cassette 1213 and a second carriage 1216, two crushing boxes 121 are symmetrically arranged at the bottom of the film pressing machine shell 104, a second driving box 1213 is arranged at one side of the inner cavity of each crushing box 121, the inner cavity of the crushing box 121 is provided with two rotating rods 1215, the surfaces of the two rotating rods 1215 are provided with cutting teeth 1211 which are staggered with each other, the rotating rod 1215 side connects the second carriage 1216 and the first carriage 1214, one end of the first carriage 1214 extends into the interior of the second drive case 1213, a third drive motor 1212 is mounted to one side of the first carriage 1214, the top and the bottom of the second sliding rack 1216 are engaged with the second sliding rail 1217, the two sides of the crushing box 121 are provided with the first electric push rod 122, one end of the first electric push rod 122 extends to the inside of the crushing box 121 and is connected with a second sliding frame 1216.

By the scheme, the waste materials can be conveniently recycled and repeatedly processed and used;

the crushed material generated by cutting the membrane can be crushed by the crushing box 121, the third driving motor 1212, the second driving box 1213, the first sliding frame 1214, the rotating rod 1215 and the cutting teeth 1211, and then the distance between the two rotating rods 1215 is controlled by the second sliding rail 1217, the second sliding frame 1216 and the first electric push rod 122, so that the crushing degree of the crushed material can be controlled, the use is convenient, and then the recovery and screening can be performed by the screen 1231 and the recovery box 123.

Referring to fig. 3, one side of the first lead screw 1012 is rotatably connected to the inner wall of the support frame 101, one side of the support frame 101 is provided with an adjusting knob 1011, the adjusting knob 1011 is fixedly connected to one end of the first lead screw 1012, the first lead screw 1012 is connected to the first sliding sleeve 1013 through a thread, the second sliding sleeve 1143 is slidably connected to the second sliding rod 1141, and the surface of the support frame 101 is provided with four moving plates 114.

The movable plate 114 can be conveniently adjusted to position the membrane raw material;

the film raw material is placed in the center of the top of the support frame 101 and is located on the surface of the first film pressing mold 116, then the adjusting knob 1011 is screwed to drive the first lead screw 1012 to rotate, when the first lead screw 1012 rotates, the surface of the first lead screw 1012 starts to move through the first moving sleeve 1013 in threaded connection, the first moving sleeve 1013 drives the moving plate 114 to move, then the second spring 1142 on the top surface of the second sliding rod 1141 pushes the second sliding sleeve 1143 to move, and when the second sliding sleeve 1143 drives the pressing plate 102 to move, the film raw material can be pressed to be positioned.

As a further optimized scheme, as shown in fig. 3, two guide wheels 1173 are symmetrically arranged at the bottom of the second movable sleeve 1172, the guide wheels 1173 are in contact with the bottom of the inner cavity of the drive plate 117, the section of the limiting frame 119 is of a concave structure, the inner wall of the limiting frame 119 is attached to the side wall of the drive plate 117, the first slide rail 120 is in sliding connection with the second slide block 115, the control plate 127 is installed at one side of the film pressing machine shell 104, and discharge ports are formed at two sides of the bottom of the film pressing machine shell 104.

The supporting frame 101 and the diaphragm can be controlled to move, so that the cutting operation and the film pressing operation are convenient to perform;

the second lead screw 1171 can be driven to rotate by the second driving motor 118, when the second movable sleeve 1172 moves on the surface of the second lead screw 1171, the guide wheel 1173 at the bottom of the second movable sleeve 1172 can move simultaneously, the stabilizing effect can be achieved, then the limiting frame 119 can slide on the surface of the driving plate 117, the movement of the supporting frame 101 is convenient to control, when the supporting frame 101 moves, the second sliding block 115 can also move on the surface of the first sliding rail 120, the guiding effect can be achieved, then the diaphragm can be processed or cut

Referring to fig. 2, cutting knife 113 top center is equipped with guide block 112, inside guide block 112 top extended to lifter plate 105, and guide block 112 passes through bolted connection lifter plate 105 bottom, two spacing wheels 1073 are all installed to reciprocal frame 1071 both sides, spacing wheel 1073 contacts with first drive box 107 inner wall, two stopper 109 of press mold casing 104 inner chamber top symmetry installation, stopper 109 is located push rod 106 both sides, drive gear 1072 one side is rotated and is connected first drive box 107 inner wall.

Leftover materials can be taken out, so that the membrane can be conveniently trimmed;

when cutting the diaphragm raw materials, not only can reduce follow-up pruning difficulty, can also conveniently retrieve the waste material, first driving motor 108 through first drive box 107 one side can drive gear 1072 and rotate, drive gear 1072 surface is equipped with half the teeth of a cogwheel, so when rotating, can drive reciprocal frame 1071 up-and-down reciprocating motion, reciprocal frame 1071 can play limiting displacement through spacing wheel 1073 at the removal in-process, when reciprocal frame 1071 promotes push rod 106, play limiting displacement through stopper 109, then carry out the fly-cutting to the diaphragm both sides through lifter plate 105 and cutting knife 113 lapse

As a further optimized scheme, as shown in fig. 9, both sides of the second driving box 1213 are provided with slide ways, both sides of the first sliding frame 1214 are wider than the slide ways, the second sliding frame 1216 is slidably connected with the control board 127, one end of the rotating rod 1215 is rotatably connected with the second sliding frame 1216, the other end of the rotating rod 1215 is connected with the third driving motor 1212, the pulverizing box 121 is installed on the surface of the recycling box 123, the inner cavity of the recycling box 123 passes through a clamping block installation screen 1231, and two door leaves are symmetrically installed on one side of the recycling box 123.

The particle size of the cut waste can be adjusted according to the requirement, so that the waste is convenient to use;

the cut waste material can fall into the crushing box 121 through the bottom discharge hole of the film pressing machine shell 104, when the third driving motor 1212 drives the rotating rod 1215 to rotate, the waste material is crushed through the cutting teeth 1211 on the surfaces of the two rotating rods 1215, the cutting teeth 1211 on the surfaces of the two rotating rods 1215 are staggered with each other, the second sliding frame 1216 can be pushed to move through the first electric push rod 122, the second sliding frame 1216 can slide on the surface of the second sliding rail 1217, the first sliding frame 1214 can move through a side slide way of the second driving box 1213, and the crushed particle size can be controlled conveniently

The installation method comprises the following steps:

(1) installing a film raw material, placing the film raw material in the center of the top of the support frame 101 and on the surface of the first film pressing mold 116, then screwing the adjusting knob 1011 to drive the first lead screw 1012 to rotate, when the first lead screw 1012 rotates, the surface of the first lead screw 1012 starts to move through the first moving sleeve 1013 in threaded connection, the first moving sleeve 1013 drives the moving plate 114 to move, then the second spring 1142 on the top surface of the second sliding rod 1141 pushes the second sliding sleeve 1143 to move, and when the second sliding sleeve 1143 drives the pressing plate 102 to move, the film raw material can be pressed to be positioned;

(2) the diaphragm is processed, the second lead screw 1171 can be driven to rotate by the second driving motor 118, when the second movable sleeve 1172 moves on the surface of the second lead screw 1171, the guide wheel 1173 at the bottom of the second movable sleeve 1172 can also move simultaneously to play a stabilizing role, then the limiting frame 119 can slide on the surface of the driving plate 117 to control the movement of the supporting frame 101, when the supporting frame 101 moves, the second sliding block 115 can also move on the surface of the first sliding rail 120 to play a guiding effect, and then the diaphragm can be processed or cut;

(3) cutting the membrane, when cutting the membrane raw materials, not only can reduce the difficulty of follow-up pruning, can also conveniently retrieve the waste material, can drive gear 1072 to rotate through the first driving motor 108 of first drive box 107 one side, the drive gear 1072 surface is equipped with half the teeth of a cogwheel, so when rotating, can drive reciprocal frame 1071 up-and-down reciprocating motion, reciprocal frame 1071 can play limiting displacement through spacing wheel 1073 in the course of moving, when reciprocal frame 1071 promotes push rod 106, play limiting displacement through stopper 109, then move down through lifter plate 105 and cutting knife 113 and carry out the fly-cutting to the membrane both sides;

(4) cutting reset guide, in the cutting process, the first sliding blocks 111 on two sides of the lifting plate 105 can slide in the first guide box 103, so that the lifting plate 105 can move stably and accurately to cut the film, and when the lifting plate 105 moves downwards, the connecting rod 1104 and the first guide box 103 drive the first sliding sleeve 1102 to slide on the surface of the first sliding rod 1105, at the moment, the first sliding sleeve 1102 can be provided with a stretching first spring 1101, and after the cutting of the lifting plate 105 and the cutting knife 113 is completed, the elasticity of the first spring 1101 can also facilitate the resetting of the lifting plate 105;

(5) recycling the crushed waste, wherein the cut waste can fall into the crushing box 121 through a discharge hole at the bottom of the film pressing machine shell 104, when the third driving motor 1212 drives the rotating rod 1215 to rotate, the waste is crushed through the cutting teeth 1211 on the surfaces of the two rotating rods 1215, and the cutting teeth 1211 on the surfaces of the two rotating rods 1215 are staggered with each other, the second sliding frame 1216 can be pushed by the first electric push rod 122 to move, the second sliding frame 1216 can slide on the surface of the second sliding rail 1217, and the first sliding frame 1214 can move through a slideway at one side of the second driving box 1213, so that the size of the crushed particles can be controlled conveniently;

(6) the membrane is taken out for trimming, the support frame 101 is controlled through the second driving motor 118, then the processed membrane is conveniently taken down, fine trimming is convenient to carry out, crushed waste materials enter the recovery box 123 and are screened through the screen 1231, and then the waste materials are conveniently taken out for recycling.

It is well within the skill of those in the art to implement, without undue experimentation, the present application is not directed to software and process improvements, as they relate to circuits and electronic components and modules.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.