CN215323448U - Diode braid forming device - Google Patents

Abstract

The utility model provides a diode braid forming device, which comprises a base, wherein a base is arranged on the base; the top of the base is provided with two groups of supporting parts which are fixedly connected to the left side and the right side of the top surface of the base; the base further comprises a driving roller, a turning roller and a collecting roller, the driving roller is arranged at the tops of the right group of supporting parts through hinge connection, the turning roller is arranged above the left group of supporting parts through hinge connection, and the collecting roller is arranged on the left side of the left group of supporting parts through hinge connection; a braid conveying structure is arranged above the base; a diode laying structure is arranged on the right side above the base; after the diodes are conveyed to the lower end of the left side of the auxiliary conveyor belt, the metal wires on the two sides of the diodes are in contact with the grooves in the top of the bearing piece on the top of the operating main conveyor belt, so that the diodes can be conveyed to the top of the main conveyor belt, and the diodes can be borne by the clamping blocks which are shorter on the right side, and the clamping shells can be prevented from occurring in the process of conveying the diodes to the top of the bearing piece.

Description

Diode braid forming device

Technical Field

The utility model belongs to the technical field of diode braids, and particularly relates to a diode braid forming device.

Background

T/R generally refers to the abbreviation of the taped form of the electronic tube product in the form of a chip, most of which are such taped packages.

As disclosed in publication No.: CN207225747U discloses a diode braid forming device, which comprises a base and a diode braid, wherein the base is provided with a forming compression roller which is arranged in an abutting manner, both sides of the forming compression roller are provided with belt discs, belt tapes are wound on the belt discs, one side of the forming compression roller is provided with a feeding device, the feeding device is arranged close to the belt tapes, the base is provided with a punching box, a baffle plate matched with the punching box is arranged on the base, the punching box and the baffle plate are respectively arranged on both sides of the diode braid, the base is provided with a pressing roller which is arranged in an abutting manner, the diode braid penetrates through the compression roller, the base is also provided with a storage box, the diode braid is arranged in the storage box, the punching box is of a hollow structure, and a cam is arranged in the punching box, the diode braid forming device has the advantages of simple structure and convenient operation, and can improve the efficiency of the diode braid, the production benefit is increased.

Based on the aforesaid, traditional diode braid forming device is mainly for compression roller structure, generally does not set up the structure of being convenient for carry out the equidistance transmission to the diode, does not set up the structure of unifying fixedly to the diode level, is not convenient for carry out the braid and handles, does not set up the structure that prevents that the diode from conveying to accepting the piece top in-process and taking place the card shell.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a diode braid forming device, which aims to solve the problems that the traditional diode braid forming device is mainly of a compression roller structure, generally has no structure for facilitating equidistant transmission of diodes, has no structure for uniformly fixing the horizontal height of the diodes, is inconvenient for braid treatment, and has no structure for preventing the diodes from being clamped in the process of being conveyed to the top of a bearing piece.

The utility model relates to a diode braid forming device, which is achieved by the following specific technical means:

a diode braid forming device comprises a base;

the top of the base is provided with two groups of supporting parts which are fixedly connected to the left side and the right side of the top surface of the base;

the base further comprises a driving roller, a turning roller and a collecting roller, the driving roller is arranged at the tops of the right group of supporting parts through hinge connection, the turning roller is arranged above the left group of supporting parts through hinge connection, and the collecting roller is arranged on the left side of the left group of supporting parts through hinge connection;

a braid conveying structure is arranged above the base;

and a diode laying structure is arranged on the right side above the base.

Further, the braid conveying structure includes:

the main conveying belt is sleeved outside the driving roller;

the bearing piece is fixedly connected to the outer side surface of the main conveyor belt.

Further, the braid conveying structure further includes:

the top fixing seat is arranged above the main conveying belt;

and the belt storage rollers A are arranged on the left side and the right side of the top fixing seat through hinged connection.

Further, the braid conveying structure further includes:

the butt joint roller A is arranged at the bottom end of the top fixed seat through hinged connection;

store up and take roller B, store up and take roller B and establish in a set of supporting part left side on the right side through the hinge, store up and take roller B and connect through the belt and drive roller looks transmission.

Further, the braid conveying structure further includes:

and the butt joint roller B is arranged above the belt storage roller B through hinge connection.

Further, the diode arrangement structure includes:

the double-layer extrusion wheel is arranged above the right end of the main conveyor belt through hinged connection, and the rear end of the double-layer extrusion wheel is provided with a stepping motor through coaxial connection.

Further, the diode arrangement structure further includes:

the variable speed motor is fixedly connected to the front ends of the group of supporting parts on the right side and is coaxial with the transmission roller;

and the transmission rod is arranged on the right side of the group of supporting parts on the right side through hinge connection and is in transmission with the variable-speed motor through a belt.

Further, the diode arrangement structure further includes:

the auxiliary conveyor belt is arranged above the right sides of the right group of supporting parts;

the fixture block is fixedly connected to the outer side surface of the auxiliary conveying belt, the fixture block on the left side is relatively long, and the fixture block on the right side is relatively short.

Further, the diode arrangement structure further includes:

the double-layer feeding plate is arranged above the top end of the right side of the auxiliary conveyor belt;

receive the flitch, receive flitch fixed connection in double-deck feeding plate left and right sides top.

Further, the diode arrangement structure further includes:

the linkage stepping motor is fixedly connected to the outer sides of the front end vertical surfaces and the rear end vertical surfaces of the double-layer feeding plates;

and the limiting sheet is arranged at the top end of the linkage stepping motor through coaxial connection.

The utility model at least comprises the following beneficial effects:

1. according to the utility model, the double-layer extrusion wheel is arranged, the stepping motor is coaxially connected and arranged at the rear end of the double-layer extrusion wheel, and the metal wires at two sides of the diode at the top of the bearing piece can be extruded through the rubber extrusion bulge on the outer curved side surface of the double-layer extrusion wheel by rotating the double-layer extrusion wheel, so that the horizontal height of the diode at the top of the main conveyor belt can be uniformly fixed, and the braid treatment is convenient.

2. According to the utility model, by arranging the auxiliary conveyor belt, after the metal wires at two sides of the diode are received by the inner sides of the two groups of clamping blocks, in the transmission process of the diode, when the diode is transmitted to the lower end of the left side of the auxiliary conveyor belt, the metal wires at two sides of the diode are contacted with the groove at the top of the receiving piece at the top of the operating main conveyor belt, so that the diode can be transmitted to the top of the main conveyor belt, and the diode can be received by the clamping block at the shorter right side, and the clamping shell is prevented from occurring in the process of transmitting the diode to the top of the receiving piece.

3. The diode feeding device is also provided with the double-layer feeding plate, diode raw materials are collected by the material receiving plate and then slide into the inner side of the double-layer feeding plate, the diodes can be limited by the two groups of limiting pieces, the diodes can be prevented from falling out of order, the rotating angle of the limiting pieces is driven to rotate at a constant speed of one hundred eighty degrees through the operation of the linkage stepping motor, the diodes on the inner side of the double-layer feeding plate can fall into the inner side of the clamping block in order, and equidistant transmission of the diodes is facilitated.

Drawings

Fig. 1 is a right side perspective view of the present invention as a whole.

Fig. 2 is a partially enlarged view of a in fig. 1 according to the present invention.

Fig. 3 is a partially enlarged view of B of fig. 1 according to the present invention.

Fig. 4 is a schematic left-side perspective view of the present invention as a whole.

Fig. 5 is a schematic perspective view of another embodiment of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a base;

101. a support portion; 1011. a driving roller; 102. a turning roller; 103. a collection roller;

2. a main conveyor belt;

201. a receiving member;

3. a top fixing seat;

301. a belt storage roller A; 302. a butt joint roller A; 303. a belt storage roller B; 304. a butt joint roller B;

4. a double-layer extrusion wheel;

5. a variable speed motor;

501. a transmission rod; 502. a secondary conveyor belt; 5021. a clamping block; 503. a double-layer feeding plate; 5031. a material collecting plate; 5032. a linkage stepping motor; 5033. a limiting sheet.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and are not intended to indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be understood broadly, and for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Example (b):

as shown in figures 1 to 5:

the utility model provides a diode braid forming device, which comprises a base 1;

the top of the base 1 is provided with two groups of supporting parts 101, and the supporting parts 101 are fixedly connected to the left side and the right side of the top surface of the base 1;

the base 1 further comprises a driving roller 1011, a turning roller 102 and a collecting roller 103, wherein the driving roller 1011 is arranged at the tops of the right group of supporting parts 101 through hinge connection, the turning roller 102 is arranged above the left group of supporting parts 101 through hinge connection, and the collecting roller 103 is arranged on the left side of the left group of supporting parts 101 through hinge connection;

a braid conveying structure is arranged above the base 1;

the right side above the base 1 is provided with a diode laying structure.

The braid conveying structure includes:

the main conveyor belt 2 is sleeved outside the driving roller 1011;

a socket 201, the socket 201 is fixedly connected to the outer surface of the main conveyor 2.

The braid conveying structure further includes:

the top fixing seat 3 is arranged above the main conveyor belt 2;

the belt storage rollers A301 are arranged on the left side and the right side of the top fixing seat 3 through hinged connection.

The braid conveying structure further includes:

the butt joint roller A302 is arranged at the bottom end of the top fixing seat 3 through hinged connection;

the belt storage roller B303 is arranged on the left side of the right group of supporting parts 101 through hinge connection, and the belt storage roller B303 is connected with the driving roller 1011 through a belt to drive.

Wherein, as shown in fig. 3, the diode-laying structure further includes:

the double-layer feeding plate 503 is arranged above the top end of the right side of the auxiliary conveyor belt 502;

the material receiving plate 5031 is fixedly connected to the top ends of the left side and the right side of the double-layer feeding plate 503;

the linkage stepper motor 5032 is fixedly connected to the outer side of the front end and rear end vertical surfaces of the double-layer feeding plate 503, the circuit of the linkage stepper motor 5032 is coupled with the variable speed motor 5 and the rear end of the double-layer extrusion wheel 4 through a coaxially connected stepper motor circuit, the stepper motor is an open-loop control element stepper motor part for converting an electric pulse signal into angular displacement or linear displacement, under the condition of non-overload, the rotating speed and the stopping position of the motor only depend on the frequency and the pulse number of the pulse signal and are not influenced by load change, when a stepper driver receives a pulse signal, the stepper motor is driven to rotate by a fixed angle in a set direction, namely a 'step angle', the rotation of the stepper motor is operated by one step at the fixed angle, and the angular displacement can be controlled by controlling the number of pulses, so that the purpose of accurate positioning is achieved; meanwhile, the rotating speed and the rotating acceleration of the motor can be controlled by controlling the pulse frequency, so that the aim of speed regulation is fulfilled;

the limiting sheet 5033 and the limiting sheet 5033 are coaxially connected to the top of the linkage stepper motor 5032, the diode raw material is collected by the material receiving plate 5031, and then slides into the inner side of the double-layer feeding plate 503, and is limited by the two sets of limiting sheets 5033, so that the diode raw material can be prevented from falling out of order, and the linkage stepper motor 5032 operates to drive the limiting sheets 5033 to rotate at a uniform rotation angle of one hundred eighty degrees, so that the diodes on the inner side of the double-layer feeding plate 503 can fall into the inner side of the fixture block 5021 in order, and equidistant transmission of the diodes is facilitated.

The braid conveying structure further includes:

and the butt joint roller B304 is arranged above the belt storage roller B303 through hinge connection.

As shown in fig. 2, the diode-laid structure includes:

double-deck extrusion wheel 4, double-deck extrusion wheel 4 is established in 2 right-hand members tops of main conveyor belt through the hinge, and 4 rear ends of double-deck extrusion wheel are provided with step motor through coaxial coupling, rotate through its rubber system extrusion arch of outer curved side through double-deck extrusion wheel 4, can extrude the diode both sides wire at adapting piece 201 top, can make the diode level at 2 tops of main conveyor belt unify fixedly, are convenient for carry out the braid and handle.

The diode-laid structure further includes:

the variable speed motor 5 is fixedly connected to the front ends of the right group of supporting parts 101, and the variable speed motor 5 is coaxial with the transmission roller 1011;

and the transmission rod 501 is arranged on the right side of the right group of supporting parts 101 through hinge connection, and is in transmission with the variable speed motor 5 through a belt.

Wherein, as shown in fig. 2, the diode-laying structure further includes:

the auxiliary conveyor belt 502 is arranged above the right side of the right group of supporting parts 101, and the inclination angle of the auxiliary conveyor belt 502 is forty-five degrees;

the fixture block 5021 and the fixture block 5021 are fixedly connected to the outer side surface of the auxiliary conveyor belt 502, the fixture block 5021 on the left side is relatively long, the fixture block 5021 on the right side is relatively short, after the metal wires on the two sides of the diode are received by the inner sides of the two fixture blocks 5021, the metal wires are transmitted to the lower end on the left side of the auxiliary conveyor belt 502 through the auxiliary conveyor belt 502 in the transmission process, the metal wires on the two sides of the diode are in contact with the groove on the top of the receiving part 201 on the top of the main conveyor belt 2 in operation, the diode can be transmitted to the top of the main conveyor belt 2, and the diode can be received by the short fixture block 5021 on the right side and can be prevented from being clamped by the diode in the process of being transmitted to the top of the receiving part 201.

In another embodiment, as shown in fig. 5, a motor is coaxially connected to the left end of the docking roller a302, and the rotation speed of the motor is synchronous with the variable speed motor 5, so as to facilitate the top and bottom belts to synchronously form the diodes.

The specific use mode and function of the embodiment are as follows:

in the utility model, when in use, the diodes are placed on the top of the material receiving plate 5031 and naturally slide downwards, the diode raw materials are collected by the material receiving plate 5031 and then slide into the inner side of the double-layer feeding plate 503, the diodes can be limited by the two groups of limiting sheets 5033 to prevent the diodes from randomly falling off, the rotation angle of the limiting sheets 5033 is driven to rotate at one hundred eighty degrees and uniform speed by the operation of the linkage stepper motor 5032, the diodes on the inner side of the double-layer feeding plate 503 can orderly fall into the inner sides of the clamping blocks 5021 to facilitate the equidistant transmission of the diodes, the metal wires on the two sides of the diodes are received by the inner sides of the two groups of clamping blocks 5021, and are transmitted to the top of the main conveyor belt 2 by the auxiliary conveyor belt 502 when the diodes are transmitted to the lower end on the left side of the auxiliary conveyor belt 502, the metal wires on the two sides of the diodes are contacted with the groove on the top of the receiving piece 201 on the top of the main conveyor belt 2 in operation, so that the diodes can be transmitted to the top of the main conveyor belt 2, the variable-speed motor 5 runs to drive the butt joint roller B304 to rotate through belt transmission, the two ends of the diodes which are horizontally arranged can be braided and formed, the diode bank is turned backwards through the turning roller 102, and the diode bank can be wound through the collecting roller 103.

The utility model is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a diode braid forming device which characterized in that: comprises a base (1);

the top of the base (1) is provided with two groups of supporting parts (101), and the supporting parts (101) are fixedly connected to the left side and the right side of the top surface of the base (1);

the base (1) further comprises a driving roller (1011), a turning roller (102) and a collecting roller (103), wherein the driving roller (1011) is arranged at the tops of the right group of supporting parts (101) through hinge connection, the turning roller (102) is arranged above the left group of supporting parts (101) through hinge connection, and the collecting roller (103) is arranged on the left side of the left group of supporting parts (101) through hinge connection;

a braid conveying structure is arranged above the base (1);

and a diode laying structure is arranged on the right side above the base (1).

2. The diode braid molding apparatus as claimed in claim 1, wherein the braid transferring structure comprises:

the main conveyor belt (2), the main conveyor belt (2) is sleeved outside the transmission roller (1011);

the bearing piece (201), the bearing piece (201) is fixedly connected to the outer surface of the main conveyor belt (2).

3. The diode braid molding apparatus of claim 2, wherein the braid conveying structure further comprises:

the top fixing seat (3), the top fixing seat (3) is arranged above the main conveyor belt (2);

the belt storage rollers A (301) are arranged on the left side and the right side of the top fixing seat (3) through hinged connection.

4. The diode braid molding apparatus of claim 3, wherein the braid conveying structure further comprises:

the butt joint roller A (302), the butt joint roller A (302) is arranged at the bottom end of the top fixed seat (3) through hinged connection;

the belt storage roller B (303) is arranged on the left side of the group of supporting parts (101) on the right side through hinged connection, and the belt storage roller B (303) is connected with the driving roller (1011) through a belt and is driven.

5. The diode braid molding apparatus of claim 4, wherein the braid conveying structure further comprises:

and the butt joint roller B (304), the butt joint roller B (304) is arranged above the belt storage roller B (303) through hinge connection.

6. The diode braid molding apparatus as claimed in claim 1, wherein the diode laying structure comprises:

the double-layer extrusion wheel (4) is arranged above the right end of the main conveyor belt (2) through hinged connection, and the rear end of the double-layer extrusion wheel (4) is provided with a stepping motor through coaxial connection.

7. The diode braid molding apparatus as claimed in claim 6, wherein the diode laying structure further comprises:

the variable-speed motor (5), the variable-speed motor (5) is fixedly connected to the front ends of the group of supporting parts (101) on the right side, and the variable-speed motor (5) is coaxial with the transmission roller (1011);

the transmission rod (501) is arranged on the right side of the group of supporting parts (101) on the right side through hinge connection, and the transmission rod (501) is in transmission with the variable speed motor (5) through a belt.

8. The diode braid molding apparatus of claim 7, wherein the diode laying structure further comprises:

the auxiliary conveyor belt (502), the auxiliary conveyor belt (502) is arranged above the right side of the right group of supporting parts (101);

the fixture block (5021) is fixedly connected to the outer side surface of the auxiliary conveyor belt (502), the fixture block (5021) on the left side is relatively long, and the fixture block (5021) on the right side is relatively short.

9. The diode braid molding apparatus of claim 8, wherein the diode laying structure further comprises:

the double-layer feeding plate (503) is arranged above the top end of the right side of the auxiliary conveyor belt (502);

the material collecting plates (5031) are fixedly connected to the top ends of the left side and the right side of the double-layer feeding plate (503).

10. The diode braid molding apparatus as claimed in claim 9, wherein the diode laying structure further comprises:

the linkage stepping motor (5032) is fixedly connected to the outer sides of the front and rear end vertical surfaces of the double-layer feeding plate (503);

the limiting sheet (5033) and the limiting sheet (5033) are coaxially connected and arranged at the top end of the linkage stepping motor (5032).

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