CN217575742U - Automatic sticking film machine of potsherd - Google Patents

Abstract

The utility model discloses an automatic sticking film machine of potsherd, receive the board mechanism including potsherd feed mechanism, two-sided pad pasting mechanism and potsherd, the discharge end of potsherd feed mechanism with the feed end of two-sided pad pasting mechanism is connected, the discharge end of two-sided pad pasting mechanism with the feed end that the board mechanism was received to the potsherd is connected, two-sided pad pasting mechanism comprises upper end tectorial membrane subassembly and lower extreme tectorial membrane subassembly, upper end tectorial membrane subassembly with the structure of lower extreme tectorial membrane subassembly is the same, upper end tectorial membrane subassembly with lower extreme tectorial membrane subassembly symmetry sets up, potsherd feed mechanism with the potsherd transmission extremely upper end tectorial membrane subassembly with carry out the pad pasting between the lower extreme tectorial membrane subassembly, receive the potsherd unloading behind the pad pasting by the potsherd board mechanism again. The utility model discloses a charging equipment can improve feed work efficiency, and the two-sided pad pasting of potsherd can be accomplished automatically to the pad pasting equipment, and receives the board after the pad pasting automatically, and convenient to use reduces artifical intensity of labour.

Description

Automatic sticking film machine of potsherd

Technical Field

The utility model relates to a potsherd processing equipment especially relates to an automatic sticking film machine of potsherd.

Background

The ceramic plates are various in types and widely applied to electronic products, for example, the ceramic plates of batteries need to be pasted with films in the processing process, and film pasting equipment in the prior art is either manual film pasting or manual dry film cutting, namely the dry films are wasted, the manual work is wasted, and the efficiency is low; or the head and the tail of the board surface are easy to generate bubbles and wrinkle in the automatic film pasting process. And conventional pad pasting is the pad pasting of face under normal atmospheric temperature, the cohesion of membrane and face is relatively poor, and pad pasting equipment mostly can only carry out the pad pasting to the single face of potsherd, can not carry out two-sided pad pasting, and general pad pasting speed is slower, and the supplied materials process velocity of potsherd is all relatively fast, consequently, can cause and need the staff to last the material loading always, comparatively troublesome, work efficiency has been reduced, overall be difficult to accomplish the whole process of two-sided pad pasting automatically, and prior art's pad pasting equipment still has the risk of potsherd pad pasting end tip blistering, consequently, need a two-sided pad pasting equipment of efficient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic sticking film machine of potsherd.

In order to achieve the purpose, the utility model is implemented according to the following technical scheme:

the utility model discloses a ceramic chip feed mechanism, two-sided pad pasting mechanism and potsherd are received board mechanism, ceramic chip feed mechanism's discharge end with the feed end of two-sided pad pasting mechanism is connected, the discharge end of two-sided pad pasting mechanism with the feed end that the potsherd was received board mechanism is connected, two-sided pad pasting mechanism comprises upper end tectorial membrane subassembly and lower extreme tectorial membrane subassembly, upper end tectorial membrane subassembly with the structure of lower extreme tectorial membrane subassembly is the same, upper end tectorial membrane subassembly with lower extreme tectorial membrane subassembly symmetry sets up, the potsherd feed mechanism with potsherd transmission extremely upper end tectorial membrane subassembly with carry out the pad pasting between the lower extreme tectorial membrane subassembly, receive the potsherd unloading behind the pad pasting by potsherd board mechanism again.

Further, the ceramic sheet feeding mechanism comprises a feeding device rack, a feeding transmission roller assembly, a feeding device output roller assembly, a feeding device mechanical arm and a feeding device ceramic sheet sucker, wherein the feeding transmission roller assembly is arranged on one side of the feeding device rack, the feeding device output roller assembly is arranged on the other side of the feeding device rack, the feeding device rack and the feeding device output roller assembly transmit the ceramic sheets, the feeding device ceramic sheet sucker is fixedly arranged at the upper end of the feeding device rack, the operating end of the feeding device mechanical arm is provided with the feeding device ceramic sheet sucker, the feeding device ceramic sheet sucker can adsorb the ceramic sheets, the operating end of the feeding device mechanical arm is positioned above the feeding transmission roller assembly and the feeding device output roller assembly, and the feeding device output roller assembly is in butt joint with the feeding end of the double-sided film pasting mechanism.

Further, the upper end film covering component and the lower end film covering component of the double-sided film pasting mechanism are respectively composed of a film pasting feeding transmission roller, a film pasting discharging transmission roller, a film pasting material storage material roll, a film material drawing roller shaft, a tension control mechanism, a film material cutting component, a film pasting pressing film roller shaft, a film material separation plate, a film material guiding roller shaft, a film material rolling roller shaft, a rolling roller shaft driving motor, a storage material roll driving motor and a tension mechanism lifting motor, the upper end film covering component and the lower end film covering component are respectively arranged at the upper section and the lower section of the film pasting device rack, the film pasting feeding transmission roller and the film pasting discharging transmission roller are respectively arranged at the two sides of the middle section of the film pasting device rack, the film pasting material storage material roll and the film material rolling roller shaft are arranged at the upper section of the film pasting device rack, the film material draws the membrane roller with film material direction roller is located the below of pad pasting material storage roll material with film material rolling roller, tension control mechanism is located the below of film material drawing roller, pad pasting press mold roller set up in tension control mechanism's below, the film material separating plate set up in one side of pad pasting press mold roller, film material cutting component set up in one side of pad pasting press mold roller top, rolling roller driving motor, storage material roll driving motor and tension mechanism elevator motor all are fixed in on the pad pasting device frame, rolling roller driving motor's pivot with film material rolling roller hub connection, storage material roll driving motor's pivot with pad pasting material storage roll material is connected, tension mechanism elevator motor with tension control mechanism's lift drive end is connected, pad pasting material storage material roll material is rolled up the membrane material that storage pasted the protective layer, the film material on the material roll is wound by the film material, the film material is wound by the film material separating plate separating film after the lower ends of the film material pulling roll shaft and the tension control mechanism, and the film is wound by the film material winding roll shaft after the film material is wound by the film material pressing film roll shaft and the film material guiding roll shaft.

As an improvement, a synchronizing mechanism is arranged between the film laminating roller shafts of the upper end film laminating assembly and the lower end film laminating assembly, and the film laminating roller shaft of the upper end film laminating assembly and the film laminating roller shaft of the lower end film laminating assembly synchronously rotate through the synchronizing mechanism.

Specifically, lazytongs is by last die roller support frame, lower die roller support frame, go up synchronizing gear, lower synchronizing gear and flexible control cylinder and constitutes, go up die roller support frame with the one end of lower die roller support frame is rotated with the pad pasting device frame and is connected, the middle section of going up die roller support frame with the pad pasting press mold roller tip of upper end tectorial membrane subassembly rotates and connects, go up synchronizing gear with the pad pasting press mold roller tip fixed connection of upper end tectorial membrane subassembly, the middle section of lower die roller support frame with the pad pasting press mold roller tip of lower extreme tectorial membrane subassembly rotates and connects, lower synchronizing gear with the pad pasting press mold roller tip fixed connection of lower extreme tectorial membrane subassembly, go up die roller support frame with the other end of pad pasting device frame respectively with flexible end and the tail-end rotation of flexible control cylinder are connected, go up synchronizing gear with synchronizing gear can mesh and separation down.

As an improvement, an infrared heating device is arranged above the film pasting feeding conveying roller.

Specifically, the film material cutting assembly comprises a cutting knife moving slide rail, a cutting knife bearing slide block, a cutting knife driving motor, a cutting knife, a sliding knife moving conveyor belt, a conveyor belt driving motor, a sliding block stabilizing plate and a sliding block stabilizing guide wheel, wherein the cutting knife moving slide rail is arranged on one side of the tension control mechanism, the cutting knife bearing slide block is in sliding connection with the cutting knife moving slide rail, one side of the cutting knife bearing slide block is fixedly arranged on the cutting knife driving motor, the cutting knife is connected with a rotating shaft of the cutting knife driving motor, the cutting knife bearing slide block is fixedly connected with one side of the sliding knife moving conveyor belt, the sliding block moving conveyor belt passes through the conveyor belt driving motor and is in transmission connection between two ends of the cutting knife moving slide rail, the sliding block stabilizing plate is fixedly arranged between two ends of the cutting knife moving slide rail, the sliding block stabilizing guide wheel is arranged above the cutting knife bearing slide block, and the sliding block stabilizing guide wheel is close to the sliding block stabilizing plate.

The ceramic wafer receiving mechanism is composed of a receiving mechanism frame, a receiving mechanism mechanical arm, a receiving mechanism ceramic wafer sucker, a receiving mechanism material receiving roller and a handling mechanism conveyor belt, the receiving mechanism material receiving roller is in butt joint with a discharge end of the double-sided film pasting mechanism, the receiving mechanism material receiving roller is arranged on one side of the receiving mechanism frame, the receiving mechanism mechanical arm is arranged on the receiving mechanism frame, the handling mechanism conveyor belt is arranged on the other side of the receiving mechanism frame, an operating end of the receiving mechanism mechanical arm is connected with the receiving mechanism ceramic wafer sucker, and the operating end of the receiving mechanism mechanical arm is located above the receiving mechanism material receiving roller and the handling mechanism conveyor belt.

The utility model has the advantages that:

the utility model relates to an automatic sticking film machine of potsherd, compared with the prior art, the utility model discloses a charging equipment can improve feed work efficiency, and the two-sided pad pasting of potsherd can be accomplished automatically to the pad pasting equipment, and receive the board automatically behind the pad pasting, high durability and convenient use, reduce artifical intensity of labour, and the cooperation has the drawing membrane mechanism, the bellied technical problem of prior art pad pasting has been solved, and at first heat the face before the pad pasting, and stabilize at certain temperature, cohesion between membrane and potsherd has been increased like this, the difficult possibility that causes the circuit break of back process and short circuit, the value that has popularization and application.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall internal structure of the present invention;

fig. 3 is a schematic structural view of the feeding mechanism of the present invention;

FIG. 4 is a schematic structural view of one side of the film sticking mechanism of the present invention;

FIG. 5 is a schematic view of the other side of the film sticking mechanism of the present invention;

FIG. 6 is an enlarged view of a portion A of FIG. 5;

fig. 7 is a schematic view of the internal structure of the film sticking mechanism of the present invention;

fig. 8 is a partial enlarged view of a portion B of fig. 7 according to the present invention;

fig. 9 is a schematic view of the internal structure of the cutting assembly of the present invention;

fig. 10 is a schematic structural view of a board collecting mechanism according to the present invention.

In the figure: the device comprises a ceramic sheet feeding mechanism 1, a double-sided film pasting mechanism 2, a ceramic sheet receiving mechanism 3, a ceramic sheet 4, a feeding device rack 11, a feeding transmission roller assembly 12, a feeding device output roller assembly 13, a feeding device manipulator 14, a feeding device ceramic sheet sucker 15, a film pasting device rack 201, a film pasting feeding transmission roller 202, a film pasting discharging transmission roller 203, a film pasting material storage roll 204, a film material drawing roller shaft 205, a tension control mechanism 206, a film material cutting assembly 207, a film pasting pressing film roller shaft 208, a film material separating plate 209, a film material guiding roller shaft 210, a film material winding roller shaft 211, an infrared heating device 212, a winding roller shaft driving motor 213, a storage roll driving motor 214, a tension mechanism lifting motor 215, an upper die roller supporting frame 216, a lower die roller supporting frame 217, an upper synchronous gear 218, a lower synchronous gear 219, a telescopic control cylinder 220, a cutting knife moving sliding rail 2071, a cutting knife bearing slider 2072, a cutting knife driving motor 2073, a cutting blade 2074, a slider moving transmission belt 5, a transmission belt driving motor 6, a slider stabilizing guide wheel 7, a slider stabilizing guide wheel 8, a plate receiving mechanism rack 31, a plate receiving mechanism 31, a ceramic sheet receiving mechanism 34 and a sucker mechanism 34.

Detailed Description

The invention will be further described with reference to the drawings and specific embodiments, illustrative embodiments and description of which are provided herein to explain the invention, but not as a limitation thereof.

As shown in fig. 1-10: the utility model discloses a ceramic chip feed mechanism 1, two-sided pad pasting mechanism 2 and potsherd receive board mechanism 3, ceramic chip feed mechanism 1's discharge end with the feed end of two-sided pad pasting mechanism 2 is connected, two-sided pad pasting mechanism 2's discharge end with the feed end that the potsherd received board mechanism 3 is connected, two-sided pad pasting mechanism 2 comprises upper end tectorial membrane subassembly and lower extreme tectorial membrane subassembly, upper end tectorial membrane subassembly with the structure of lower extreme tectorial membrane subassembly is the same, upper end tectorial membrane subassembly with lower extreme tectorial membrane subassembly symmetry sets up, ceramic chip feed mechanism 1 transmits potsherd 4 extremely upper end tectorial membrane subassembly with carry out the pad pasting between the lower extreme tectorial membrane subassembly, receive the potsherd 4 unloading behind the pad pasting of board mechanism 3 by the potsherd again.

Further, the ceramic sheet feeding mechanism 1 is composed of a feeding device frame 11, a feeding transmission roller assembly 12, a feeding device output roller assembly 13, a feeding device manipulator 14 and a feeding device ceramic sheet sucker 15, wherein the feeding transmission roller assembly 12 is arranged on one side of the feeding device frame 11, the feeding device output roller assembly 13 is arranged on the other side of the feeding device frame 11, the feeding device frame 11 and the feeding device output roller assembly 13 transmit the ceramic sheet 4, the feeding device ceramic sheet sucker 15 is fixedly arranged at the upper end of the feeding device frame 11, the operating end of the feeding device manipulator 14 is provided with the feeding device sucker 15, the feeding device ceramic sheet sucker 15 can adsorb the ceramic sheet 4, the operating end of the feeding device manipulator 14 is positioned above the feeding transmission roller assembly 12 and the feeding device output roller assembly 13, and the feeding device output roller assembly 13 is in butt joint with the feeding end of the double-sided film pasting mechanism 2.

Further, the upper end film covering assembly and the lower end film covering assembly of the double-sided film pasting mechanism 2 are composed of a film pasting feeding conveying roller 202, a film pasting discharging conveying roller 203, a film pasting material storage roll 204, a film material film drawing roller shaft 205, a tension control mechanism 206, a film material cutting assembly 207, a film pasting pressing film roller shaft 208, a film material separating plate 209, a film material guiding roller shaft 210, a film material winding roller shaft 211, a winding roller shaft driving motor 213, a storage material roll driving motor 214 and a tension mechanism lifting motor 215, the upper end film covering assembly and the lower end film covering assembly are respectively arranged at the upper section and the lower section of the film pasting device frame 201, the film pasting feeding conveying roller 202 and the film pasting discharging conveying roller 203 are respectively arranged at the two sides of the middle section of the film pasting device frame 201, the film pasting material storage material roll 204 and the film material winding roller shaft 211 are arranged at the upper section of the film pasting device frame 201, the membrane material draws membrane roller 205 with membrane material direction roller 210 is located the below of laminating material storage material book 204 with membrane material rolling roller 211, tension control mechanism 206 is located the below of membrane material drawing membrane roller 205, laminating film pressing roller 208 set up in the below of tension control mechanism 206, membrane material separating plate 209 set up in one side of laminating film pressing roller 208, membrane material cutting component 207 sets up in one side above laminating film pressing roller 208, rolling roller driving motor 213, storage material book driving motor 214 and tension mechanism elevator motor 215 all are fixed in on laminating device frame 201, rolling roller driving motor 213's pivot with membrane material rolling roller 211 is connected, storage material book driving motor 214's pivot with laminating material storage material book 204 is connected, tension mechanism elevator motor 215 with tension control mechanism 206's lift drive end is connected, the membrane material that the storage of pad pasting material storage material roll 204 pasted the protective layer, the membrane material on the pad pasting material storage material roll 204 is walked around the protective layer through membrane material separator 209 release film behind the lower extreme of membrane material film drawing roller 205 and tension control mechanism 206, the protective layer of membrane is walked around by membrane material rolling roller 211 rolling behind pad pasting press mold roller 208 and the membrane material direction roller 210.

As a modification, a synchronization mechanism is provided between the film laminating roller shafts 208 of the upper and lower end film laminating assemblies, and the film laminating roller shaft 208 of the upper end film laminating assembly and the film laminating roller shaft 208 of the lower end film laminating assembly rotate synchronously through the synchronization mechanism.

Specifically, the synchronizing mechanism comprises an upper die roller support frame 216, a lower die roller support frame 217, an upper synchronizing gear 218, a lower synchronizing gear 219 and a telescopic control cylinder 220, the upper die roller support frame 216 and one end of the lower die roller support frame 217 are rotatably connected with a laminating device frame 201, the middle section of the upper die roller support frame 216 is rotatably connected with the end of a laminating film pressing film roller shaft 208 of an upper end laminating assembly, the upper synchronizing gear 218 is fixedly connected with the end of a laminating film pressing film roller shaft 208 of the upper end laminating assembly, the middle section of the lower die roller support frame 217 is rotatably connected with the end of a laminating film pressing film roller shaft 208 of a lower end laminating assembly, the lower synchronizing gear 219 is fixedly connected with the end of a laminating film pressing film roller shaft 208 of the lower end laminating assembly, the upper die roller support frame 216 and the other end of the laminating device frame 201 are respectively rotatably connected with the telescopic end and the tail end of the telescopic control cylinder 220, and the upper synchronizing gear 218 and the lower synchronizing gear 219 can be engaged and disengaged.

As a modification, an infrared heating device 212 is arranged above the film-sticking feeding and conveying roller 202.

Specifically, the film material cutting assembly 207 is composed of a cutting knife moving slide rail 2071, a cutting knife carrier block 2072, a cutting knife driving motor 2073, a cutting blade 2074, a slider moving conveyor belt 2075, a conveyor belt driving motor 2076, a slider stabilizing plate 2077 and a slider stabilizing guide wheel 2078, wherein the cutting knife moving slide rail 2071 is arranged at one side of the tension control mechanism 206, the cutting knife carrier block 2072 is in sliding connection with the cutting knife moving slide rail 2071, one side of the cutting knife carrier block 2072 is fixedly arranged with the cutting knife driving motor 2073, the cutting blade 2074 is connected with a rotating shaft of the cutting knife driving motor 2073, the cutting knife carrier block 2072 is in fixed connection with one side of the slider moving conveyor belt 2075, the slider moving conveyor belt 2075 is in transmission connection between two ends of the cutting knife moving slide rail 2071 through the conveyor belt driving motor 2076, the slider stabilizing plate 2077 is fixedly arranged between two ends of the cutting knife moving slide rail 2071, the slider stabilizing guide wheel 2078 is arranged above the cutting knife carrier block stabilizing guide wheel 2072, and the slider stabilizing guide wheel 2078 is close to the slider stabilizing guide wheel 2077.

Further, the ceramic sheet receiving mechanism 3 comprises a receiving mechanism frame 31, a receiving mechanism manipulator 32, a receiving mechanism ceramic sheet sucker 33, a receiving mechanism receiving roller 34 and a handling mechanism conveyor belt 35, the receiving mechanism receiving roller 34 is abutted with the discharge end of the double-sided film sticking mechanism 2, the receiving mechanism receiving roller 34 is arranged on one side of the receiving mechanism frame 31, the receiving mechanism manipulator 32 is arranged on the receiving mechanism frame 31, the handling mechanism conveyor belt 35 is arranged on the other side of the receiving mechanism frame 31, the operating end of the receiving mechanism manipulator 32 is connected with the receiving mechanism ceramic sheet sucker 33, and the operating end of the receiving mechanism manipulator 32 is located above the receiving mechanism receiving roller 34 and the handling mechanism conveyor belt 35.

The utility model discloses a theory of operation as follows:

the feed end of ceramic wafer feed mechanism 1 is put into to the staff with the potsherd 4 of not laminating, transmits potsherd 4 to the feed end of two-sided laminating mechanism 2 through potsherd feed mechanism 1, all is provided with by two sides from top to bottom of two-sided laminating mechanism 2 upper end tectorial membrane subassembly with lower extreme tectorial membrane subassembly to the potsherd 4 laminating when going on two sides from top to bottom, receive board mechanism 3 through the potsherd and carry out the unloading to potsherd 4 of accomplishing the laminating after the laminating.

On ceramic chip feed mechanism 1, the staff puts into material loading transmission roller subassembly 12 with ceramic wafer 4 and transmits, be close to loading attachment manipulator 14 with ceramic wafer 4, adsorb ceramic wafer 4 through loading attachment ceramic wafer sucking disc 15 on the loading attachment manipulator 14, place the feed end of transmitting to two-sided sticking film mechanism 2 on loading attachment output roller subassembly 13, the width broad of material loading transmission roller subassembly 12, can hold a plurality of ceramic wafers 4, thereby can realize once only putting into more ceramic wafers 4, the sticking film speed can not be greater than material loading speed, the material loading transmission roller subassembly 12 of broad can improve material loading speed, reduce the delay of material loading.

The film material is rolled on a film material storage material roll 204, the storage material roll is driven by a storage material roll driving motor 214 to rotate for feeding, the film material bypasses a film material drawing roll shaft 205 to realize the adjustment of the force, the film is ensured to be straightened by a film tension control mechanism 206, the film material passes through the lower end of the tension control mechanism 206 and is adjusted in the flatness of the film by adjusting the tension control mechanism 206 to move up and down, when the film passes through the position of a film laminating roll shaft 208, a protective layer of the film is separated by a film material separating plate 209, so that the lower end face of the film material is ensured, a material carrier of the protective film bypasses the film laminating roll shaft 208 and is connected onto the film material rolling roll shaft 211 through a film material guiding roll shaft 210, the protective layer material of the film is rolled up by the film material rolling roll shaft 211, the ceramic plate 4 passes between the two film laminating roll shafts 208, so that the film is laminated on the upper and the lower faces of the ceramic plate 4, when the film is supplied with enough size, the film is cut by the film material cutting assembly 207, an infrared heating device is arranged above the film feeding and can heat when the ceramic plate 4 enters, so that the film can be well laminated with the ceramic plate 4.

Film material cutting subassembly 207 is when the cutting, rotate through cutting knife driving motor 2073 drive cutting blade 2074, move the transmission of conveyer belt 2075 through conveyer belt driving motor 2076 drive slider to drive cutting knife carrier block 2072 and make a round trip to slide on cutting knife removal slide rail 2071, thereby make cutting blade 2074 draw the membrane surface, thereby cut the film material, set up slider stabilising plate 2077 and the slider and stabilize guide pulley 2078 and be used for stabilizing the slip of cutting knife carrier block 2072 and keep stable.

The ceramic wafer collecting mechanism 3 is connected with the ceramic wafer 4 which is output by the film pasting discharging and conveying roller 203 and is pasted with a film through a collecting mechanism material receiving roller 34, a plate collecting mechanism mechanical arm 32 is used for operating a plate collecting mechanism ceramic wafer sucker 33 to move, the plate collecting mechanism ceramic wafer sucker 33 is used for sucking the electrode plate 4, and the electrode plate 4 is moved to a handheld mechanism conveying belt 35 to be stacked and conveyed, so that the film pasting is completed.

The utility model discloses not only can the monolithic pad pasting, conveying and pad pasting when can also accomplishing biplate or multi-disc, and do not have near the head of board and afterbody and produce the risk that the five wrinkles of bubble torn open. As an improvement, a wet pressing device can be arranged on the ceramic chip feeding mechanism 1, and the device is suitable for wet pressing and film sticking of an FPC.

The technical scheme of the utility model is not limited to the restriction of above-mentioned specific embodiment, all according to the utility model discloses a technical scheme makes technical deformation, all falls into within the protection scope of the utility model.

Claims (8)

1. The utility model provides an automatic sticking film machine of potsherd which characterized in that: receive board mechanism (3) including ceramic chip feed mechanism (1), two-sided pad pasting mechanism (2) and potsherd, the discharge end of ceramic chip feed mechanism (1) with the feed end of two-sided pad pasting mechanism (2) is connected, the discharge end of two-sided pad pasting mechanism (2) with the feed end that board mechanism (3) were received to the potsherd is connected, two-sided pad pasting mechanism (2) comprise upper end tectorial membrane subassembly and lower extreme tectorial membrane subassembly, upper end tectorial membrane subassembly with the structure of lower extreme tectorial membrane subassembly is the same, upper end tectorial membrane subassembly with lower extreme tectorial membrane subassembly symmetry sets up, potsherd piece feed mechanism (1) transmit potsherd (4) extremely upper end tectorial membrane subassembly with carry out the pad pasting between the lower extreme tectorial membrane subassembly, receive potsherd (4) unloading behind the pad pasting by potsherd board mechanism (3) again by the potsherd.

2. The ceramic wafer automatic film sticking machine of claim 1, characterized in that: the ceramic chip feeding mechanism (1) comprises a feeding device rack (11), a feeding transmission roller assembly (12), a feeding device output roller assembly (13), a feeding device mechanical arm (14) and a feeding device ceramic chip sucker (15), wherein the feeding transmission roller assembly (12) is arranged on one side of the feeding device rack (11), the feeding device output roller assembly (13) is arranged on the other side of the feeding device rack (11), the feeding device rack (11) and the feeding device output roller assembly (13) transmit the ceramic chip (4), the feeding device ceramic chip sucker (15) is fixedly arranged at the upper end of the feeding device rack (11), the operating end of the feeding device mechanical arm (14) is provided with the feeding device sucker (15), the feeding device ceramic chip (15) can adsorb the ceramic chip (4), the operating end of the feeding device mechanical arm (14) is positioned above the feeding transmission roller assembly (12) and the feeding device output roller assembly (13), and the abutting joint end of the feeding device ceramic chip sucker (13) and the double-face film pasting mechanism (2).

3. The ceramic wafer automatic film sticking machine of claim 1, characterized in that: the upper end tectorial membrane subassembly and the lower end tectorial membrane subassembly of two-sided pad pasting mechanism (2) are formed by pad pasting feeding transfer roller (202), pad pasting discharging transfer roller (203), pad pasting material storage roll (204), membrane material film-drawing roller (205), tension control mechanism (206), membrane material cutting assembly (207), pad pasting press mold roller (208), membrane material separating plate (209), membrane material guide roller (210), membrane material rolling roller (211), rolling roller driving motor (213), storage material roll driving motor (214) and tension mechanism elevator motor (215), upper end tectorial membrane subassembly and lower end tectorial membrane subassembly are respectively arranged at the upper section and the lower section of pad pasting device frame (201), pad pasting feeding transfer roller (202) and pad pasting discharging transfer roller (203) are respectively arranged at the two sides of the middle section of pad pasting device roll frame (201), pad pasting material storage roll (204) and membrane material roller (211) are arranged at the upper section of pad pasting device frame (201), membrane material drawing roller (205) and membrane material guide roller (210) are arranged at the roller (204) and the tension control mechanism (206) is arranged at the lower section of the roll rolling device frame (201), the tension control mechanism (206) and the tension control mechanism (206) is arranged at the lower section of the roller shaft of the roller (206), membrane material separating plate (209) set up in one side of pad pasting press mold roller (208), membrane material cutting assembly (207) set up in one side of pad pasting press mold roller (208) top, rolling roller driving motor (213) the storage is rolled up driving motor (214) and tension mechanism elevator motor (215) all are fixed in on pad pasting device frame (201), the pivot of rolling roller driving motor (213) with membrane material rolling roller (211) are connected, the pivot of storage material rolling driving motor (214) with pad pasting material storage material is rolled up (204) and is connected, tension mechanism elevator motor (215) with the lift drive end of tension control mechanism (206) is connected, the material of pad pasting material storage material roll (204) storage has pasted the material of protective layer, the membrane material on pad pasting material storage (204) is walked around the protective layer through membrane material separating plate (209) separating film behind the lower extreme of membrane material rolling roller (205) and tension control mechanism (206), the protective layer of pad pasting film material is walked around behind roll film material (208) and rolling roller (210) by direction roller (211).

4. The ceramic wafer automatic film sticking machine of claim 3, characterized in that: be provided with lazytongs between upper end tectorial membrane subassembly and lower extreme tectorial membrane subassembly's pad pasting press mold roller (208), upper end tectorial membrane subassembly pad pasting press mold roller (208) with lower extreme tectorial membrane subassembly pad pasting press mold roller (208) rotate through lazytongs synchronization.

5. The ceramic wafer automatic film sticking machine of claim 4, characterized in that: the synchronizing mechanism comprises last die roller support frame (216), lower die roller support frame (217), last synchronizing gear (218), lower synchronizing gear (219) and flexible control cylinder (220), go up die roller support frame (216) with the one end and the pad pasting device frame (201) of lower die roller support frame (217) rotate and be connected, the middle section of going up die roller support frame (216) with the pad pasting press mold roller axle (208) tip of upper end tectorial membrane subassembly rotates and is connected, go up synchronizing gear (218) with the pad pasting press mold roller axle (208) tip fixed connection of upper end tectorial membrane subassembly, the middle section of lower die roller support frame (217) with the pad pasting press mold roller axle (208) tip of lower extreme tectorial membrane subassembly rotates and is connected, lower synchronizing gear (219) with the pad pasting press mold roller axle (208) tip fixed connection of lower extreme tectorial membrane subassembly, go up die roller support frame (216) with the other end of pad pasting device frame (201) respectively with the flexible end and the tail end of flexible control cylinder (220) rotate and connect, go up synchronizing gear (218) and synchronous meshing with lower press mold roller (219) can.

6. The ceramic wafer automatic film sticking machine of claim 3, characterized in that: an infrared heating device (212) is arranged above the film pasting feeding and conveying roller (202).

7. The automatic film sticking machine for ceramic wafers according to claim 3, wherein: membrane material cutting assembly (207) by cutting knife removal slide rail (2071), cutting knife carrier slider (2072), cutting knife driving motor (2073), cutting blade (2074), slider removal conveyer belt (2075), conveyer belt driving motor (2076), slider stabilising plate (2077) and slider stabilising guide (2078) constitute, cutting knife removal slide rail (2071) set up in one side of tension control mechanism (206), cutting knife carrier slider (2072) with sliding connection between cutting knife removal slide rail (2071), one side of cutting knife carrier slider (2072) is fixed to be set up cutting knife driving motor (2073), cutting blade (2074) with the pivot of cutting knife driving motor (2073) is connected, cutting knife carrier slider (2072) with one side fixed connection of slider removal conveyer belt (2075), slider removal conveyer belt (2075) passes through conveyer belt driving motor (2076) is in the transmission is connected between the both ends of cutting knife removal slide rail (2071), the fixed setting between the both ends of cutting knife removal slide rail (2071) stabilizing guide (2077), slider (2077) sets up the cutting knife stabilising plate (2078).

8. The ceramic wafer automatic film sticking machine of claim 1, characterized in that: the ceramic plate receiving mechanism (3) is composed of a plate receiving mechanism rack (31), a plate receiving mechanism mechanical arm (32), a plate receiving mechanism ceramic plate sucker (33), a plate receiving mechanism receiving roller (34) and a handheld mechanism conveyor belt (35), the plate receiving mechanism receiving roller (34) is in butt joint with the discharge end of the double-sided film pasting mechanism (2), the plate receiving mechanism receiving roller (34) is arranged on one side of the plate receiving mechanism rack (31), the plate receiving mechanism mechanical arm (32) is arranged on the plate receiving mechanism rack (31), the handheld mechanism conveyor belt (35) is arranged on the other side of the plate receiving mechanism rack (31), the operating end of the plate receiving mechanism mechanical arm (32) is connected with the plate receiving mechanism sucker (33), and the operating end of the plate receiving mechanism mechanical arm (32) is located above the plate receiving mechanism receiving roller (34) and the handheld mechanism conveyor belt (35).

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