CN216266232U - Rubber coating machine for producing electronic element - Google Patents

Abstract

The utility model discloses a rubber coating machine for producing electronic elements, which relates to the field of automatic assembly and comprises a product rotating mechanism vertical plate and a rubber belt, wherein the product rotating mechanism vertical plate is connected with a rotating assembly for rotating the electronic elements; through the mode, after a group of products are encapsulated, the cross-sliding structure drives the scissors mechanism to move to the right end of the adhesive tape, the scissors mechanism moves the outer side of the adhesive tape, the scissors mechanism clamps the adhesive tape, and then the scissors mechanism cuts the adhesive tape, so that the adhesive tape is convenient to install and cut.

Description

Rubber coating machine for producing electronic element

Technical Field

The utility model relates to the field of automatic assembly, in particular to a rubber coating machine for producing electronic elements.

Background

The electronic components are components of electronic elements and small machines and instruments, are usually composed of a plurality of parts and can be commonly used in similar products; it is a general name of electronic devices such as capacitor, inductor, transistor, balance spring and spiral spring.

The surfaces of a magnetic ring, an inductor and an electronic element coil need to be encapsulated during production, and an encapsulating machine is designed for encapsulating, but the encapsulating machine is inconvenient for installing and cutting off an adhesive tape.

Therefore, an encapsulation machine for electronic component production is proposed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an encapsulating machine for producing electronic components, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the encapsulation machine for producing the electronic element comprises a product rotating mechanism vertical plate and an adhesive tape, wherein the product rotating mechanism vertical plate is connected with a rotating assembly used for rotating the electronic element, the front end of the product rotating mechanism vertical plate is connected with a transverse moving structure, the transverse moving structure is connected with a T-shaped plate, the T-shaped plate is connected with a Y-axis adjusting assembly, the Y-axis adjusting assembly is connected with a scissor mechanism used for clamping and cutting the adhesive tape, an adhesive tape pressing mechanism used for pressing the adhesive tape is arranged above the scissor mechanism of the T-shaped plate, an adhesive tape pulling-open mechanism is arranged on the pressing structure of the T-shaped plate, and the adhesive tape pulling-open mechanism is connected with the adhesive tape.

Furthermore, the rotating assembly comprises a product rotating motor, a product sensor, a product positioning pin and a motor origin sensor, the product rotating motor is fixedly connected to the front end and the rear end of the top of the vertical plate of the product rotating mechanism, the product positioning pin is fixedly connected to the telescopic end of the product rotating motor, and the product sensor and the motor origin sensor are fixedly connected to the upper portion and the lower portion of the front side of the vertical plate of the product rotating mechanism.

Furthermore, the transverse moving structure comprises a translation cylinder, a translation limit sensor, a translation limit column, a translation guide rail and a translation sliding block, the translation cylinder is installed at the bottom of the front end of the vertical plate of the product rotating mechanism, the telescopic end of the translation cylinder is fixedly connected with the T-shaped plate, the front side wall and the rear side wall of the right end of the translation cylinder are connected with the translation limit column and the translation limit sensor, the bottom of the T-shaped plate is fixedly connected with the translation sliding block, the translation sliding block is connected with the translation guide rail in a limiting sliding mode through a limiting groove, and the vertical plate of the product rotating mechanism and the translation guide rail are installed on an external rack.

Further, the Y-axis adjusting assembly comprises an upper and lower air cylinder of a rubber-sandwiched scissor mechanism, an upper and lower rubber-sandwiched scissor moving guide rail and a scissor moving connecting plate, the upper and lower air cylinder of the rubber-sandwiched scissor mechanism is mounted on the transverse position of the inverted T-shaped plate, the telescopic end of the upper and lower air cylinder of the rubber-sandwiched scissor mechanism is fixedly connected with the scissor moving connecting plate, the scissor moving connecting plate is slidably connected with the upper and lower rubber-sandwiched scissor moving guide rail through a limiting chute, and the upper and lower rubber-sandwiched scissor moving guide rail is mounted on the side wall of the upright position of the inverted T-shaped plate.

Furthermore, the scissors mechanism comprises a rubber scissors, an upper L-shaped plate, a front and rear cylinder of the rubber-sandwiched scissors mechanism, a scissors opening and closing guide rail, a front and rear scissors moving guide rail, a rubber belt clamping post, a scissors opening and closing acting cylinder, a side plate, a rubber belt clamp, a rubber belt, a post and a blade fixing plate, wherein the front and rear cylinder of the rubber-sandwiched scissors mechanism, the front and rear scissors moving guide rail and the side plate are arranged on the side wall of the upper and lower scissors moving connecting plate, the left end of the side plate is connected with the rubber belt clamp, the front and rear cylinder of the rubber-sandwiched scissors mechanism is fixedly connected with the upper L-shaped plate, the side wall of the upper L-shaped plate is in limit sliding connection with the front and rear scissors moving guide rail through a limit slider, the left side wall of the upper L-shaped plate is fixedly connected with the scissors opening and closing acting cylinder, the rubber belt post and the blade fixing plate are fixedly connected with the rubber belt, the post and the blade fixing plate, the side wall of the rubber belt, the post and the blade fixing plate are in limit sliding connection with the scissors opening and closing guide rail through the limit slider, the adhesive tape, the pillars and the right side wall of the rear end of the blade fixing plate are uniformly and fixedly connected with adhesive tape clamping pillars, and the adhesive tape, the pillars and the bottom of the rear end of the blade fixing plate are fixedly connected with adhesive scissors.

Furthermore, the adhesive tape pressing mechanism comprises an adhesive tape pressing cylinder I, an adhesive tape pressing cylinder II, an adhesive tape pressing wheel moving to a guide rail, an adhesive tape pressing wheel rotating shaft and a transmission connecting plate, the adhesive tape pressing cylinder I, the adhesive tape pressing cylinder II and the adhesive tape pressing wheel moving to the guide rail are installed on the rear side wall of the inverted T-shaped plate, the adhesive tape pressing cylinder II and the adhesive tape pressing cylinder I are fixedly connected with the transmission connecting plate in a telescopic end mode, the inner wall of the transmission connecting plate is connected with the adhesive tape pressing wheel through a limiting slide block in a limiting sliding mode, the transmission connecting plate rotates the adhesive tape pressing wheel rotating shaft, and the adhesive tape pressing wheel rotating shaft is fixedly connected with the adhesive tape pressing wheel.

Further, the adhesive tape pulling mechanism comprises an adhesive tape non-detection sensor, an adhesive tape guide roller II, an adhesive tape pulling top plate, an adhesive tape pushing cylinder, an adhesive tape guide roller I, an adhesive tape guide non-stick adhesive roller, an adhesive tape guide contact bearing, an adhesive tape tension spring, an adhesive tape non-detection sensor fixing plate, an adhesive tape pulling upper and lower guide rail, an adhesive tape rotating bearing seat, an adhesive tape pulling mechanism vertical plate, an adhesive tape guide roller I fixing shaft, an adhesive tape guide non-stick adhesive roller fixing shaft, an adhesive tape guide roller II rotating shaft, an adhesive tape rotating shaft and a vertical plate fixing column, wherein the vertical plate fixing column is fixedly arranged at the rear end of the T-shaped plate, the adhesive tape pulling mechanism vertical plate is fixedly connected with the adhesive tape rotating bearing seat, the adhesive tape rotating shaft is fixedly arranged on the adhesive tape rotating bearing seat, and the adhesive tape rotating shaft is connected with an adhesive tape, the adhesive tape non-detection sensor fixing plate is fixedly connected to the top of the right end of a vertical plate of the adhesive tape pulling-opening mechanism, the adhesive tape non-detection sensor fixing plate is fixedly connected to the top of the adhesive tape non-detection sensor fixing plate, an adhesive tape ejecting cylinder is fixedly connected to the rear wall of the vertical plate of the adhesive tape pulling-opening mechanism, an adhesive tape pulling top plate is fixedly connected to the telescopic end of the adhesive tape ejecting cylinder, an adhesive tape pulling upper guide rail and an adhesive tape pulling lower guide rail are fixedly connected to the bottom of the adhesive tape pulling top plate, the vertical plate of the adhesive tape pulling-opening mechanism is connected with the adhesive tape pulling upper guide rail and the adhesive tape pulling lower guide rail in a limiting sliding mode through a limiting slide block, the upper end side wall of the adhesive tape pulling upper guide rail and the upper end side wall of the adhesive tape pulling upper guide rail are rotatably connected with an adhesive tape guide roller two rotating shaft, the adhesive tape guide roller two rotating shaft is fixedly connected with an adhesive tape guide roller two, the adhesive tape pulling upper guide rail and the adhesive tape guide rail are fixedly connected with an adhesive tape tensioning tension spring through an installation rod below the adhesive tape guide roller two rotating shaft, the bottom of the adhesive tape tensioning tension spring is mounted on the side wall of the adhesive tape pulling-up mechanism vertical plate, the left end of the adhesive tape pulling-up mechanism vertical plate is rotatably connected with an adhesive tape guide roller fixing shaft and an adhesive tape guide non-stick adhesive roller fixing shaft, the adhesive tape guide non-stick adhesive roller fixing shaft is fixedly connected with an adhesive tape guide non-stick adhesive roller, the adhesive tape guide non-stick adhesive roller fixing shaft is uniformly and fixedly connected with an adhesive tape guide roller I, and the adhesive tape guide roller I is uniformly and fixedly connected with an adhesive tape guide contact bearing.

The utility model has the beneficial effects that:

after a group of products are encapsulated, the cross-sliding structure drives the scissor mechanism to move to the right end of the adhesive tape, the scissor mechanism moves the outer side of the adhesive tape, the scissor mechanism clamps the adhesive tape, then the scissor mechanism cuts the adhesive tape to conveniently install and cut the adhesive tape, the Y-axis adjusting assembly drives the clamped adhesive tape to move downwards, a new product is installed on the product positioning pin, the adhesive tape pressing mechanism presses the adhesive tape clamped by the scissor mechanism on the product to facilitate the adhesive tape to be attached to the product, the scissor mechanism is separated from the adhesive tape, and finally the rotating assembly drives the new product to rotate to encapsulate the adhesive tape, so that the products are conveniently encapsulated.

Drawings

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

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a perspective view of the adhesive tape opening mechanism of the present invention;

FIG. 5 is a perspective view of the scissors mechanism of the present invention;

FIG. 6 is a perspective view of the tape pressing mechanism of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1. the product rotating motor 2, the product sensor 3, the product positioning pin 4, the motor origin sensor 5, the product rotating mechanism vertical plate 6, the translation cylinder 7, the translation limit sensor 8, the translation limit column 9, the translation guide rail 10, the translation slide block 11, the rubber scissors 12, the upper and lower cylinder 13 of the rubber-clamping scissors mechanism, the T-reversing plate 14, the rubber belt pressing mechanism 15, the upper and lower guide rail 16 of the rubber-clamping scissors, the upper L-shaped plate 17, the rubber belt 18, the rubber belt non-detection sensor 19, the rubber belt guide roller II 20, the rubber belt pull-open top plate 21, the rubber belt push-open cylinder 22, the rubber belt guide roller I23, the rubber belt guide non-adhesive roller 24, the rubber belt guide contact bearing 25, the rubber belt tension spring 26, the rubber belt non-detection sensor fixing plate 27, the rubber belt pull-open upper and lower guide rail 28, the rubber belt rotating bearing seat 29, the rubber belt scissors pull-open mechanism vertical plate 30, the front and rear cylinder of the rubber-clamping mechanism 31. The adhesive tape pressing cylinder I32, the adhesive tape pressing cylinder II 33, the scissors opening and closing guide rail 34, the scissors forward and backward movement guide rail 35, the adhesive tape guide roller I fixed shaft 36, the adhesive tape guide non-stick adhesive roller fixed shaft 37, the scissors up and down movement connecting plate 38, the adhesive tape pressing wheel moves to the guide rail 39, the adhesive tape pressing wheel 40, the adhesive tape pressing wheel rotating shaft 41, the transmission connecting plate 42, the adhesive tape guide roller II rotating shaft 43, the adhesive tape rotating shaft 44, the vertical plate fixed column 45, the adhesive tape clamping column 46, the scissors opening and closing action cylinder 47, the side plate 48, the adhesive tape clamp 49, the adhesive tape, the column and the blade fixed plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

The present invention will be further described with reference to the following examples.

Examples

As shown in fig. 1, the encapsulation machine for producing electronic components comprises a product rotating mechanism vertical plate 5 and an adhesive tape 17, wherein the product rotating mechanism vertical plate 5 is connected with a rotating assembly for rotating the electronic components, the rotating assembly comprises a product rotating motor 1, a product sensor 2, a product positioning pin 3 and a motor origin sensor 4, the product rotating motor 1 is fixedly connected with the front end and the rear end of the top of the product rotating mechanism vertical plate 5, the product positioning pin 3 is fixedly connected with the telescopic end of the product rotating motor 1, the product sensor 2 and the motor origin sensor 4 are fixedly connected with the upper side and the lower side of the front side of the product rotating mechanism vertical plate 5, the product sensor 2 is arranged above the product positioning pin 3, and the motor origin sensor 4 is arranged below the product positioning pin 3;

the product is conveniently driven to rotate.

As shown in fig. 1, the front end of a product rotating mechanism vertical plate 5 is connected with a transverse moving structure, the transverse moving structure comprises a translation cylinder 6, a translation limit sensor 7, a translation limit column 8, a translation guide rail 9 and a translation slide block 10, the translation cylinder 6 is installed at the bottom of the front end of the product rotating mechanism vertical plate 5, the telescopic end of the translation cylinder 6 is fixedly connected with a T-shaped plate 13, the front side wall and the rear side wall of the right end of the translation cylinder 6 are connected with the translation limit column 8 and the translation limit sensor 7, the bottom of the T-shaped plate 13 is fixedly connected with the translation slide block 10, the translation slide block 10 is connected with the translation guide rail 9 in a limiting sliding manner through a limit groove, and the product rotating mechanism vertical plate 5 and the translation guide rail 9 are installed on an external rack;

the adhesive tape 17 is conveniently driven to be close to the vertical plate 5 of the product rotating mechanism.

As shown in fig. 1, the traverse structure is connected with a reverse T plate 13, the reverse T plate 13 is connected with a Y-axis adjusting assembly, the Y-axis adjusting assembly comprises an upper and lower rubber-sandwiched scissors mechanism cylinder 12, an upper and lower rubber-sandwiched scissors moving guide rail 15 and a scissors moving connecting plate 37, the upper and lower rubber-sandwiched scissors mechanism cylinder 12 is installed on the transverse part of the reverse T plate 13, the telescopic end of the upper and lower rubber-sandwiched scissors mechanism cylinder 12 is fixedly connected with the scissors moving connecting plate 37, the scissors moving connecting plate 37 is slidably connected with the upper and lower rubber-sandwiched scissors moving guide rail 15 through a limit chute, and the upper and lower rubber-sandwiched scissors moving guide rail 15 is installed on the side wall of the vertical part of the reverse T plate 13;

the scissor mechanism is convenient to adjust to move up and down;

as shown in fig. 1-3 and 5, the Y-axis adjusting assembly is connected with a scissors mechanism for clamping and cutting off the adhesive tape 17, the scissors mechanism comprises an adhesive scissors 11, an upper L-shaped plate 16, a front and rear cylinder 30 of the adhesive scissors mechanism, a scissors opening and closing guide rail 33, a front and rear movement guide rail 34 of the scissors, an adhesive tape clamping post 45, a scissors opening and closing cylinder 46, a side plate 47, an adhesive tape clamp 48, an adhesive tape, a post and a blade fixing plate 49, the front and rear cylinder 30 of the adhesive scissors mechanism, the front and rear movement guide rail 34 of the scissors and the side plate 47 are mounted on the side wall of the upper and lower movement connecting plate 37 of the scissors, the left end of the side plate 47 is connected with the adhesive tape clamp 48, the front and rear cylinder 30 of the adhesive scissors mechanism is fixedly connected with the upper L-shaped plate 16, the side wall of the upper L-shaped plate 16 is connected with the front and rear movement guide rail 34 of the scissors in a limiting sliding manner through a limiting slider, the left side wall of the upper L-shaped plate 16 is fixedly connected with the scissors opening and closing cylinder 46, the telescopic end of the scissors opening and closing action cylinder 46 is fixedly connected with an adhesive tape, a post and a blade fixing plate 49, the side wall of the adhesive tape, the post and the blade fixing plate 49 is in limited sliding connection with the scissors opening and closing guide rail 33 through a limiting slide block, the right side wall of the rear end of the adhesive tape, the post and the blade fixing plate 49 is uniformly and fixedly connected with an adhesive tape clamping post 45, and the bottom of the rear end of the adhesive tape, the post and the blade fixing plate 49 is fixedly connected with an adhesive scissors 11;

the adhesive tape 17 is clamped by the scissors mechanism, and then the adhesive tape 17 is cut by the scissors mechanism, so that the adhesive tape is convenient to mount and cut.

As shown in fig. 1-3 and 6, a tape pressing mechanism 14 for pressing the tape 17 is arranged above the scissors mechanism on the inverted T plate 13, the tape pressing mechanism 14 includes a first tape pressing cylinder 31, a second tape pressing cylinder 32, a first tape pressing wheel moving to a guide rail 38, a second tape pressing wheel 39, a rotating shaft 40 of the first tape pressing wheel and a transmission connecting plate 41, the first tape pressing cylinder 31, the second tape pressing cylinder 32 and the second tape pressing wheel moving to the guide rail 38 are mounted on the rear side wall of the inverted T plate 13, the second tape pressing cylinder 32 and the first tape pressing cylinder 31 are fixedly connected with the transmission connecting plate 41 at the telescopic end, the inner wall of the transmission connecting plate 41 is connected with the first tape pressing wheel moving to the guide rail 38 in a limiting sliding manner through a limiting slider, the transmission connecting plate 41 rotates the rotating shaft 40 of the first tape pressing wheel, and the rotating shaft 40 of the first tape pressing wheel is fixedly connected with the first tape pressing wheel 39;

a new product is arranged on the product positioning pin 3, and the adhesive tape pressing mechanism 14 presses the adhesive tape 17 clamped by the scissor mechanism on the product, so that the adhesive tape 17 is convenient to attach to the product.

As shown in fig. 1-4, the inverted T plate 13 is provided with a tape opening mechanism on the pressing structure, the tape opening mechanism includes a tape non-detection sensor 18, a tape guide roller II 19, a tape opening top plate 20, a tape opening cylinder 21, a tape guide roller I22, a tape guide non-stick roller 23, a tape guide contact bearing 24, a tape tension spring 25, a tape presence detection sensor fixing plate 26, a tape opening upper and lower guide rails 27, a tape rotation bearing seat 28, a tape opening mechanism plate 29, a tape guide roller I fixing shaft 35, a tape guide non-stick roller fixing shaft 36, a tape guide roller II rotation shaft 42, a tape rotation shaft 43 and a vertical plate fixing post 44, the vertical plate fixing post 44 is fixedly mounted at the rear end of the inverted T plate 13, the vertical plate fixing post 44 is fixedly connected with a tape opening mechanism vertical plate 29, the right end of the tape opening mechanism vertical plate 29 is fixedly connected with the tape rotation shaft seat 28, the adhesive tape rotating bearing seat 28 is fixedly provided with an adhesive tape rotating shaft 43, the adhesive tape rotating shaft 43 is connected with an adhesive tape 17, the top of the right end of the adhesive tape pulling mechanism vertical plate 29 is fixedly connected with an adhesive tape non-detection sensor fixing plate 26, the top of the adhesive tape non-detection sensor fixing plate 26 is fixedly connected with an adhesive tape non-detection sensor 18, the rear wall of the adhesive tape pulling mechanism vertical plate 29 is fixedly connected with an adhesive tape ejecting cylinder 21, the telescopic end of the adhesive tape ejecting cylinder 21 is fixedly connected with an adhesive tape pulling top plate 20, the bottom of the adhesive tape pulling top plate 20 is fixedly connected with an adhesive tape pulling upper and lower guide rail 27, the adhesive tape pulling mechanism vertical plate 29 is in limiting sliding connection with the adhesive tape pulling upper and lower guide rail 27 through a limiting slide block, the upper end side wall of the adhesive tape pulling upper and lower guide rail 27 is rotatably connected with an adhesive tape guide roller second rotating shaft 42, the adhesive tape guide roller second rotating shaft 42 is fixedly connected with an adhesive tape guide roller second 19, and the adhesive tape pulling upper and lower guide rail 27 is fixedly connected with an adhesive tape pulling through a mounting rod below the adhesive tape guide roller second rotating shaft 42 The bottom of the adhesive tape tension spring 25 is mounted on the side wall of the vertical plate 29 of the adhesive tape pulling-out mechanism, the left end of the vertical plate 29 of the adhesive tape pulling-out mechanism is rotatably connected with a first adhesive tape guide roller fixing shaft 35 and a first adhesive tape guide non-stick roller fixing shaft 36, the first adhesive tape guide roller fixing shaft 35 and the first adhesive tape guide non-stick roller fixing shaft 36 are arranged in a staggered mode, the first adhesive tape guide roller fixing shaft 35 is fixedly connected with an adhesive tape guide non-stick roller 23, the first adhesive tape guide roller fixing shaft 36 is uniformly and fixedly connected with an adhesive tape guide roller 22, the first adhesive tape guide roller 22 is uniformly and fixedly connected with an adhesive tape guide contact bearing 24, the top of the second adhesive tape guide roller 19, the side wall of the adhesive tape guide non-stick roller 23 and the adhesive tape guide contact bearing 24 are in contact with the adhesive tape guide contact part (17), the adhesive tape 17 can be conveniently provided, and the adhesive tape 17 can be conveniently kept in a tensioned state.

When the rubber coating machine is used, after a group of products are coated with rubber, the transverse moving structure drives the scissor mechanism to move to the right end of the rubber belt 17, the scissor mechanism moves the outer side of the rubber belt 17 to clamp the rubber belt 17, then the scissor mechanism cuts the rubber belt 17 to facilitate installation and cutting of the rubber belt, the rubber coating mechanism translation cylinder 6 extends out to enable the rubber belt to be far away from the products, the Y-axis adjusting assembly drives the clamped rubber belt 17 to move downwards, a new product is installed on the product positioning pin 3, the rubber coating mechanism translation cylinder 6 retracts to enable the rubber belt to be close to the products, the rubber belt pressing mechanism 14 presses the rubber belt 17 clamped by the scissor mechanism on the products to facilitate the rubber belt 17 to be attached to the products, the scissor mechanism is separated from the rubber belt 17, and finally the rotating assembly drives the new products to rotate to coat the rubber, so that the products are coated with rubber.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not exhaustive and do not limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (7)

1. Rubber coating machine of electronic component production usefulness, including product rotary mechanism riser (5) and sticky tape (17), its characterized in that: the product rotating mechanism comprises a product rotating mechanism vertical plate (5) and is characterized in that a rotating assembly used for rotating an electronic element is connected to the product rotating mechanism vertical plate (5), the front end of the product rotating mechanism vertical plate (5) is connected with a transverse moving structure, the transverse moving structure is connected with a T-falling plate (13), the T-falling plate (13) is connected with a Y-axis adjusting assembly, the Y-axis adjusting assembly is connected with a scissors mechanism used for clamping and cutting off an adhesive tape (17), an adhesive tape pressing mechanism (14) used for pressing the adhesive tape (17) is arranged above the scissors mechanism on the T-falling plate (13), an adhesive tape pulling-open mechanism is arranged on the pressing structure on the T-falling plate (13), and the adhesive tape pulling-open mechanism is connected with the adhesive tape (17).

2. The encapsulating machine for producing electronic components according to claim 1, characterized in that: the rotating assembly comprises a product rotating motor (1), a product sensor (2), a product positioning pin (3) and a motor origin sensor (4), wherein the product rotating motor (1) is fixedly connected to the front end and the rear end of the top of a product rotating mechanism vertical plate (5), the product positioning pin (3) is fixedly connected to the telescopic end of the product rotating motor (1), and the product sensor (2) and the motor origin sensor (4) are fixedly connected to the upper portion and the lower portion of the front side of the product rotating mechanism vertical plate (5).

3. The encapsulating machine for producing electronic components according to claim 2, characterized in that: the transverse moving structure comprises a translation cylinder (6), a translation limiting inductor (7), a translation limiting column (8), a translation guide rail (9) and a translation sliding block (10), wherein the translation cylinder (6) is installed at the bottom of the front end of a vertical plate (5) of the product rotating mechanism, the telescopic end of the translation cylinder (6) is fixedly connected with a T-shaped plate (13), the front side wall and the rear side wall of the right end of the translation cylinder (6) are connected with the translation limiting column (8) and the translation limiting inductor (7), the bottom of the T-shaped plate (13) is fixedly connected with the translation sliding block (10), the translation sliding block (10) is connected with the translation guide rail (9) in a limiting sliding mode through a limiting groove, and the vertical plate (5) of the product rotating mechanism and the translation guide rail (9) are installed on an external rack.

4. The encapsulating machine for producing electronic components according to claim 3, characterized in that: y axle adjusting part includes upper and lower cylinder (12) of doubling scissors mechanism, doubling scissors up-down moving guide (15) and scissors up-down moving connecting plate (37), upper and lower cylinder (12) of doubling scissors mechanism are installed on board (13) horizontal position of falling T, upper and lower cylinder (12) telescopic end fixedly connected with scissors up-down moving connecting plate (37) of doubling scissors mechanism, scissors up-down moving connecting plate (37) have doubling scissors up-down moving guide (15) through spacing spout sliding connection, doubling scissors up-down moving guide (15) are installed in board (13) upright position lateral wall of falling T.

5. The encapsulating machine for producing electronic components according to claim 4, characterized in that: the scissors mechanism comprises a pair of rubber scissors (11), an upper L-shaped plate (16), a front and rear cylinder (30) of the rubber-sandwiched scissors mechanism, a scissors opening and closing guide rail (33), a front and rear scissors movement guide rail (34), a rubber belt clamping post (45), a scissors opening and closing action cylinder (46), a side plate (47), a rubber belt clamp (48), a rubber belt, a post and a blade fixing plate (49), wherein the front and rear cylinder (30), the front and rear scissors movement guide rail (34) and the side plate (47) of the rubber-sandwiched scissors mechanism are installed on the side wall of a front and rear scissors movement connecting plate (37), the left end of the side plate (47) is connected with the rubber belt clamp (48), the front and rear cylinder (30) of the rubber-sandwiched scissors mechanism is fixedly connected with the upper L-shaped plate (16), the side wall of the upper L-shaped plate (16) is connected with the front and rear scissors movement guide rail (34) in a limiting sliding manner through a limiting sliding block, and the left side wall of the upper L-shaped plate (16) is fixedly connected with the scissors opening and closing action cylinder (46), scissors switching action cylinder (46) flexible end fixedly connected with sticky tape, post, blade fixed plate (49), sticky tape, post, blade fixed plate (49) lateral wall pass through spacing slider and the spacing sliding connection of scissors switching guide rail (33), the even fixedly connected with sticky tape of sticky tape, post, blade fixed plate (49) rear end right side wall presss from both sides tight post (45), sticky tape, post, blade fixed plate (49) rear end bottom fixedly connected with glues scissors (11).

6. The encapsulating machine for producing electronic components according to claim 5, characterized in that: the adhesive tape pressing mechanism (14) comprises an adhesive tape pressing cylinder I (31), an adhesive tape pressing cylinder II (32), an adhesive tape pressing wheel moving to a guide rail (38), an adhesive tape pressing wheel (39), an adhesive tape pressing wheel rotating shaft (40) and a transmission connecting plate (41), wherein the adhesive tape pressing cylinder I (31), the adhesive tape pressing cylinder II (32) and the adhesive tape pressing wheel moving to the guide rail (38) are installed on the rear side wall of the T-shaped plate (13), the adhesive tape pressing cylinder II (32) and the adhesive tape pressing cylinder I (31) are fixedly connected with the transmission connecting plate (41) in a telescopic end mode, the inner wall of the transmission connecting plate (41) is connected with the adhesive tape pressing wheel moving to the guide rail (38) in a limiting sliding mode through a limiting sliding block, the transmission connecting plate (41) rotates the adhesive tape pressing wheel rotating shaft (40), and the adhesive tape pressing wheel rotating shaft (40) is fixedly connected with the adhesive tape pressing wheel (39).

7. The encapsulating machine for producing electronic components according to claim 6, characterized in that: the adhesive tape pulling mechanism comprises an adhesive tape non-detection sensor (18), an adhesive tape guide roller II (19), an adhesive tape pulling top plate (20), an adhesive tape pushing cylinder (21), an adhesive tape guide roller I (22), an adhesive tape guide non-stick adhesive roller (23), an adhesive tape guide contact bearing (24), an adhesive tape tensioning tension spring (25), an adhesive tape non-detection sensor fixing plate (26), an adhesive tape pulling upper and lower guide rail (27), an adhesive tape rotating bearing seat (28), an adhesive tape pulling mechanism vertical plate (29), an adhesive tape guide roller I fixing shaft (35), an adhesive tape guide non-stick adhesive roller fixing shaft (36), an adhesive tape guide roller II rotating shaft (42), an adhesive tape rotating shaft (43) and a vertical plate fixing column (44), wherein the vertical plate fixing column (44) is fixedly arranged at the rear end of the inverted T plate (13), and the adhesive tape pulling mechanism vertical plate (29) is fixedly connected with the vertical plate (44), the adhesive tape pulling mechanism comprises an adhesive tape pulling mechanism vertical plate (29), an adhesive tape rotating bearing seat (28) is fixedly connected to the right end of the adhesive tape pulling mechanism vertical plate (29), an adhesive tape rotating shaft (43) is fixed on the adhesive tape rotating bearing seat (28), an adhesive tape (17) is connected to the adhesive tape rotating shaft (43), an adhesive tape non-detection sensor fixing plate (26) is fixedly connected to the top of the adhesive tape non-detection sensor fixing plate (26), an adhesive tape non-detection sensor (18) is fixedly connected to the top of the adhesive tape non-detection sensor fixing plate (26), an adhesive tape pushing cylinder (21) is fixedly connected to the rear wall of the adhesive tape pulling mechanism vertical plate (29), an adhesive tape pulling top plate (20) is fixedly connected to the bottom of the adhesive tape pulling top plate (20) and is fixedly connected to an adhesive tape pulling upper and lower guide rail (27), and the adhesive tape pulling mechanism vertical plate (29) is in limiting sliding connection with the adhesive tape pulling upper and lower guide rail (27) through a limiting slide block, the adhesive tape pull-open mechanism is characterized in that the side wall of the upper end of the adhesive tape pull-open upper and lower guide rails (27) is rotatably connected with a second adhesive tape guide roller rotating shaft (42), the second adhesive tape guide roller rotating shaft (42) is fixedly connected with a second adhesive tape tension spring (25) through a mounting rod, the bottom of the second adhesive tape tension spring (25) is mounted on the side wall of a vertical plate (29) of the adhesive tape pull-open mechanism, the left end of the vertical plate (29) of the adhesive tape pull-open mechanism is rotatably connected with a first adhesive tape guide roller fixing shaft (35) and a second adhesive tape guide non-stick roller fixing shaft (36), the first adhesive tape guide roller fixing shaft (35) is fixedly connected with an adhesive tape guide non-stick roller (23), and the first adhesive tape guide roller fixing shaft (36) is uniformly and fixedly connected with a first adhesive tape guide roller (22), the first adhesive tape guide roller (22) is uniformly and fixedly connected with an adhesive tape guide contact bearing (24).

Images