CN216161695U - Hand-operated diode forming device - Google Patents

Abstract

The utility model provides a hand-operated diode forming device, which comprises a supporting device, a driving device and a control device, wherein the supporting device is arranged on the driving device; the supporting device is fixedly connected to the four mounting feet; the adjusting structure is connected to the supporting device in a sliding manner; the forming device is sleeved in the supporting device; the telescopic extrusion part is fixedly connected to the forming device; the placing device is fixedly connected to the supporting device; advancing device, advancing device fixed connection sets up forming device at the placer top, has adopted the drive threaded rod to carry out driven mode more stable high-efficient, and the axial reciprocating motion of shaping movable block can be realized to the shaping lead screw that sets up simultaneously, and the staff only need the syntropy rotatory drive threaded rod can, it is more simple and convenient to operate, and the flexible extrusion portion that sets up simultaneously adopts telescopic sleeve to connect the removal regulation that slide adjusting plate can realize slide adjusting plate.

Description

Hand-operated diode forming device

Technical Field

The utility model belongs to the technical field of diode processing, and particularly relates to a hand-operated diode forming device.

Background

A diode is an electronic device made of semiconductor material (silicon, selenium, germanium, etc.). It has one-way conducting performance, that is, when positive voltage is applied to the anode and cathode of the diode, the diode is conducted. When a reverse voltage is applied to the anode and the cathode, the diode is turned off. Therefore, the on/off of the diode corresponds to the on/off of the switch, and the diode is one of the most recently produced semiconductor devices and is widely used. In particular, in various electronic circuits, diodes and components such as resistors, capacitors and inductors are reasonably connected to form circuits with different functions, so that various functions such as alternating current rectification, modulation signal detection, amplitude limiting and clamping, and power supply voltage stabilization can be realized. The trace of the diode can be found in common radio circuits and other household appliance products or industrial control circuits, and a hand-operated diode forming device is particularly important in the practical application process of the diode.

Based on the above, the inventor finds that the existing diode forming device is not provided with a forming size adjusting device capable of being adjusted in a linkage mode, cannot be applied to flexible adjustment among different forming sizes, is not provided with a portable and flexible hand-cranking forming cycle driving device, depends on electric power, is inconvenient to use, is not provided with a two-pole placing device capable of freely adjusting the number, cannot realize simultaneous forming of a plurality of diodes in a higher efficiency, and is low in working efficiency.

In view of the above, the present invention provides a hand-operated diode forming apparatus, which is developed and improved in view of the existing structure and defects, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a hand-operated diode forming device.

The purpose and the effect of the hand-operated diode forming device are achieved by the following specific technical means:

a hand-operated diode forming device comprises a supporting device;

the supporting device is fixedly connected to the four mounting feet;

the adjusting structure is connected to the supporting device in a sliding manner;

the forming device is sleeved in the supporting device;

the telescopic extrusion part is fixedly connected to the forming device;

the placing device is fixedly connected to the supporting device;

and the propelling device is fixedly connected to the top of the placing device.

Further, the adjusting structure includes:

the adjusting plate is connected to the mounting base in a sliding manner through two sliding shafts;

the adjusting screw rod is rotatably connected to the adjusting plate through a rotating shaft, and is rotatably connected to the mounting base through threads;

the linkage shifting piece is fixedly connected to the adjusting plate.

Further, the placement device comprises:

the placing box body is fixedly connected to the mounting base;

the pushing sliding plate is inserted into the placing box body in a sliding mode, and the bottom of the pushing sliding plate is connected to the sliding connecting groove in a sliding mode.

Further, the supporting device includes:

the mounting base is fixedly connected to the four mounting feet;

the sliding connection groove is fixedly arranged on the mounting base.

Further, the telescopic pressing portion includes:

four telescopic sleeves are arranged, and springs are sleeved in the four telescopic sleeves; the four telescopic sleeves are respectively and fixedly connected to the forming moving block;

and the sliding adjusting plate is fixedly connected to the four telescopic sleeves.

Further, the propulsion device comprises:

the two propelling supports are respectively and fixedly connected to two sides of the top of the placing box body;

the propelling plate is fixedly connected to the bottom of the propelling shaft;

the two propelling shafts are respectively connected to the two propelling supports in a sliding manner; springs are sleeved outside the two propelling shafts.

Further, the molding apparatus includes:

the driving threaded rod is rotatably connected to the mounting base;

the two forming screw rods are arranged, and the bottoms of the two forming screw rods are meshed with the driving threaded rod through gears; the two driving threaded rods are respectively connected to the driving threaded rods in a rotating mode;

and the forming moving block is in threaded rotary connection with the two forming lead screws.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, by arranging the forming device, the mode of driving the threaded rod is more stable and efficient, the formed lead screw can realize the axial reciprocating motion of the formed moving block, a worker only needs to rotate the driven threaded rod in the same direction, the operation is simpler and more convenient, the telescopic extrusion part is connected with the sliding adjusting plate by the telescopic sleeve to realize the moving adjustment of the sliding adjusting plate, and meanwhile, the spring arranged in the telescopic sleeve can realize the active reset of the sliding adjusting plate.

2. According to the diode forming device, the adjusting structure is arranged, the mounting base is adopted for connection, the adjusting structure is adjusted in a mode of adjusting screw rod rotation adjustment, the adjusting precision is higher, the linkage shifting piece is arranged in a mode of attaching to the sliding adjusting plate, the sliding adjusting plate can be linked to adjust the forming size in the process of driving the adjusting plate to move along with the rotation of the sliding adjusting screw rod, meanwhile, the forming device cannot be influenced to move up and down, the forming sizes of different diodes can be adjusted conveniently, the forming die does not need to be replaced, and the diode forming device is more practical.

3. The LED packaging box is provided with the placing device, the pushing sliding plate is adopted to push, the stability and the efficiency are high, meanwhile, the pushing device is arranged, the pushing plate is adopted to push and fix the diodes, the stability of the pushing plate is ensured, the vibration is reduced, the diodes are prevented from being damaged, the fixation can be ensured to be more balanced by arranging the two pushing shafts, the stress is more uniform, the free adjustment of the number of the led-out diodes is realized by matching the arranged pushing sliding plate, the batch forming of the diodes with the same size is more convenient, the use is more flexible, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic structural view of the supporting device of the present invention.

Fig. 4 is a schematic view of the adjustment mechanism of the present invention.

FIG. 5 is a schematic view of the structure of the molding apparatus of the present invention.

Fig. 6 is a schematic view of the structure of the telescopic extrusion part of the present invention.

Fig. 7 is a schematic view of the placement device of the present invention.

Fig. 8 is a schematic view of the propulsion device of the present invention.

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

1. a support device;

101. installing a base; 102. a sliding connecting groove;

2. an adjustment structure;

201. an adjusting plate; 202. adjusting the screw rod; 203. a linkage shifting sheet;

3. a molding device;

301. driving the threaded rod; 302. forming a lead screw; 303. forming a moving block;

4. a telescopic extrusion part;

401. a telescopic sleeve; 402. a slide adjusting plate;

5. a placement device;

501. placing the box body; 502. propelling the sliding plate;

6. a propulsion device;

601. pushing the bracket; 602. a propulsion plate; 603. a propeller shaft;

7. and (6) mounting ground feet.

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 "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the utility model provides a hand-operated diode forming device, which comprises a supporting device 1;

the supporting device 1 is fixedly connected to the four mounting feet 7;

the adjusting structure 2 is connected to the supporting device 1 in a sliding mode;

the forming device 3 is sleeved in the supporting device 1;

the telescopic extrusion part 4 is fixedly connected to the forming device 3;

the placing device 5 is fixedly connected to the supporting device 1;

and the propelling device 6 is fixedly connected to the top of the placing device 5.

As shown in fig. 3, the supporting device 1 includes:

the mounting base 101 is fixedly connected to the four mounting feet 7;

and a sliding coupling groove 102, the sliding coupling groove 102 being fixedly opened in the mounting base 101.

The adjustment structure 2 includes:

the adjusting plate 201 is connected to the mounting base 101 in a sliding mode through two sliding shafts;

the adjusting screw rod 202, the rotating shaft of the adjusting screw rod 202 is connected to the adjusting plate 201, and the adjusting screw rod 202 is connected to the mounting base 101 in a threaded rotating manner;

linkage plectrum 203, linkage plectrum 203 fixed connection is on regulating plate 201, set up regulation structure 2, adopt installation base 101 to connect, and regulation structure 2 who sets up adopts accommodate the mode of lead screw 202 rotation regulation, it is higher to adjust the precision, set up the mode of linkage plectrum 203 laminating at slide adjusting plate 402 simultaneously, can realize along with the in-process that rotation accommodate the lead screw 202 drove regulating plate 201 and remove, slide adjusting plate 402 can be linked and the regulation of shaping size is carried out, need not to change forming die, and is more practical.

As shown in fig. 5, the molding device 3 includes:

a driving threaded rod 301, wherein the driving threaded rod 301 is rotatably connected to the mounting base 101;

two molding screw rods 302 are arranged, and the bottoms of the two molding screw rods 302 are meshed with the driving threaded rod 301 through gears; the two driving threaded rods 301 are respectively connected to the driving threaded rods 301 in a rotating mode;

the forming moving block 303 is in threaded rotary connection with the two forming lead screws 302, and gear transmission refers to a device for transmitting motion and power by a gear pair, and is a mechanical transmission mode which is most widely applied in modern various devices. The gear transmission mechanism has the advantages of accurate transmission, high efficiency, compact structure, reliable work, long service life and many gear transmission types, and can be divided into different types according to different classification methods. The gear ratio is divided according to whether the gear ratio of a pair of gear transmissions is constant or not, and the gear transmissions can be divided into fixed gear ratios and variable gear transmissions. The gears in the gear transmission mechanism with variable transmission ratio are generally non-circular, so the gear transmission mechanism is also called non-circular gear transmission and is mainly used in some machines with special requirements. The gears in the gear transmission mechanism with the fixed transmission ratio are circular, so the gear transmission mechanism is also called circular gear transmission. The fixed ratio gear transmission has many types, and can be divided into two types, namely plane gear transmission and space gear transmission according to whether the rotation axes of a driving wheel and a driven wheel are parallel or not. According to the shape of the tooth profile, the tooth profile curves are different in shape, and the tooth profile curves can be divided into involute gear transmission, cycloid gear transmission, circular arc gear transmission, parabolic gear transmission and the like. Among them, involute gear drives are most widely used. According to the working conditions, the gear transmission can be divided into closed gear transmission, open gear transmission and semi-open gear transmission according to different working conditions of the gear transmission. In open gear transmission, gear teeth are exposed, and dust is easy to fall on the tooth surfaces; in closed gear transmission, gear teeth are closed in a box body, so that good working conditions can be ensured, and the application is wide; the semi-open gear transmission has better working conditions than the open gear transmission, the large gear part is immersed in an oil pool and is provided with a simple protective cover, but foreign objects still invade the large gear part. According to the hardness of the tooth surface, the soft tooth surface gear transmission and the hard tooth surface gear transmission are divided according to the hardness of the tooth surface. When the hardness of the tooth surface of two wheels (or one of the wheels) is less than or equal to 350HBW, the soft tooth surface transmission is called; when the tooth surface hardness of the two wheels is more than 350HBW, the two wheels are called hard tooth surface transmission. The soft tooth surface gear transmission is usually used for common medium and low speed gear transmission with low precision requirement, and the hard tooth surface gear transmission is usually used for gear transmission with strong bearing capacity and compact structure.

The telescopic extrusion portion 4 includes:

the number of the telescopic sleeves 401 is four, and springs are sleeved in the four telescopic sleeves 401; the four telescopic sleeves 401 are respectively and fixedly connected to the forming moving block 303;

slide adjusting plate 402, slide adjusting plate 402 fixed connection is on four telescopic sleeve 401, set up forming device 3, it is more stable high-efficient to have adopted drive threaded rod 301 to carry out the driven mode, the axial reciprocating motion of shaping movable block 303 can be realized to the shaping lead screw 302 that sets up simultaneously, the staff only need the syntropy rotatory drive screw thread 301 pole can, the operation is more simple and convenient, the flexible extrusion portion 4 that sets up simultaneously adopts telescopic sleeve 401 to connect slide adjusting plate 402 can realize slide adjusting plate 402's removal regulation, the inside spring that sets up of telescopic sleeve 401 can realize slide adjusting plate 402's initiative and reset simultaneously.

As shown in fig. 7, the placing device 5 includes:

the placing box body 501, and the placing box body 501 is fixedly connected to the mounting base 101;

impel slide 502, impel slide 502 slip cartridge and place the box 501 on, and impel slide 502 bottom sliding connection on sliding connection groove 102, impel slide 502 front side and be the rubber material, and yielding rubber is used for preventing vibration and impact transmission or the intensity of buffering vibration and impact. Vibration-damping rubbers are widely used in various motor vehicles, equipment instruments, automated office facilities, and household appliances. In recent years, some large buildings, bridges, computer rooms and the like are supported by laminated rubber mats for earthquake isolation, so as to reduce the earthquake response of the buildings. Vibration is generally controlled through three approaches: reducing the excitation force of the seismic source; isolating (shock isolating) the shock from the excitation source; the vibration of the vibrator is relaxed. The damping rubber is mainly used for the latter two.

The propulsion device 6 comprises:

two pushing brackets 601 are arranged, and the two pushing brackets 601 are respectively and fixedly connected to two sides of the top of the placing box body 501;

the propelling plate 602 is fixedly connected to the bottom of the propelling shaft 603;

two propelling shafts 603 are arranged, and the two propelling shafts 603 are respectively connected to the two propelling brackets 601 in a sliding manner; two propulsion axle 603 outside covers are equipped with the spring, set up placer 5, the mode that has adopted propulsion slide 502 to promote, it is stable high-efficient, set up advancing device 6 simultaneously, it impels fixedly to have adopted propulsion board 602 to the diode, ensure the stability of propulsion board, reduce vibrations, prevent to damage the diode, it can ensure fixed more balanced to set up two propulsion axles 603 simultaneously, the atress is more even, the propulsion slide 502 that the cooperation set up, realize the derivation number free regulation of diode, be convenient for more with the shaping of size in batches, and the work efficiency is improved.

In another embodiment, other structures are not changed, and this embodiment provides another structural form of the push plate 602, and an elastic sponge is fixedly connected to the bottom of the push plate 602, so that the diode can be better protected by the elastic sponge, and the diode can be prevented from being worn.

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

in the utility model, firstly, the device is arranged on the ground through four mounting feet 7, then the push plate 602 can be pulled out by pulling a handle at the middle part of the push plate 602, then the diode is placed in the placing box 501, the adjusting screw 202 is adjusted in a thread rotating mode, the adjusting plate 201 and the sliding adjusting plate 402 are driven to move simultaneously in the adjusting process of the adjusting screw 202, after the forming size is adjusted, the diode is pushed out from the placing box 501 in a sliding push sliding plate 502 mode, the pushing quantity can be freely controlled, after the diode is pushed out, the threaded rod 301 is driven to rotate, so that the two forming screw rods 302 are driven to rotate, further the forming moving blocks 303 on the two forming screw rods 302 are driven to move axially, the forming work of the diode is realized, meanwhile, after the forming is finished, the push sliding plate 502 can be pushed forward again, a lead-out diode is implemented.

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 (7)

1. The utility model provides a hand formula diode forming device which characterized in that: comprising a support device (1);

the supporting device (1) is characterized in that the supporting device (1) is fixedly connected to four mounting feet (7);

the adjusting structure (2), the adjusting structure (2) is connected to the supporting device (1) in a sliding manner;

the forming device (3), the forming device (3) is sleeved in the supporting device (1);

the telescopic extrusion part (4), the telescopic extrusion part (4) is fixedly connected to the forming device (3);

the placing device (5), the placing device (5) is fixedly connected to the supporting device (1);

the propelling device (6) is fixedly connected to the top of the placing device (5).

2. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the support device (1) comprises:

the mounting base (101), the mounting base (101) is fixedly connected to the four mounting feet (7);

and the sliding connecting groove (102), the sliding connecting groove (102) is fixedly arranged on the mounting base (101).

3. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the adjustment structure (2) comprises:

the adjusting plate (201), the adjusting plate (201) is connected to the mounting base (101) through two sliding shafts in a sliding mode;

the adjusting screw rod (202), the rotating shaft of the adjusting screw rod (202) is connected to the adjusting plate (201), and the adjusting screw rod (202) is in threaded rotation connection with the mounting base (101);

the linkage shifting piece (203), the linkage shifting piece (203) is fixedly connected on the adjusting plate (201).

4. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the molding device (3) comprises:

the driving threaded rod (301), the driving threaded rod (301) is connected to the mounting base (101) in a rotating mode;

two molding screw rods (302) are arranged, and the bottoms of the two molding screw rods (302) are meshed with the driving threaded rod (301) through gears; the two driving threaded rods (301) are respectively connected to the driving threaded rods (301) in a rotating mode;

and the forming moving block (303), and the forming moving block (303) is in threaded rotary connection with the two forming lead screws (302).

5. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the telescopic extrusion part (4) comprises:

the number of the telescopic sleeves (401) is four, and springs are sleeved in the four telescopic sleeves (401); the four telescopic sleeves (401) are respectively and fixedly connected to the forming moving block (303);

the sliding adjusting plate (402), the sliding adjusting plate (402) is fixedly connected on the four telescopic sleeves (401).

6. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the placement device (5) comprises:

the placing box body (501), the placing box body (501) is fixedly connected to the mounting base (101);

the pushing sliding plate (502), the pushing sliding plate (502) is inserted on the placing box body (501) in a sliding mode, and the bottom of the pushing sliding plate (502) is connected to the sliding connecting groove (102) in a sliding mode.

7. The hand-operated diode forming apparatus as claimed in claim 1, wherein: the propulsion device (6) comprises:

two pushing supports (601), wherein the two pushing supports (601) are respectively and fixedly connected to two sides of the top of the placing box body (501);

the propelling plate (602), the propelling plate (602) is fixedly connected to the bottom of the propelling shaft (603);

two propelling shafts (603) are arranged, and the two propelling shafts (603) are respectively connected to the two propelling supports (601) in a sliding manner; the outer sides of the two propelling shafts (603) are sleeved with springs.

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