CN115140608A

CN115140608A - Clamping and fixing device for solder wire winding production

Info

Publication number: CN115140608A
Application number: CN202210778036.7A
Authority: CN
Inventors: 江沙
Original assignee: Individual
Current assignee: Shenzhen Xinhongtai Tin Industry Co ltd
Priority date: 2022-07-04
Filing date: 2022-07-04
Publication date: 2022-10-04
Anticipated expiration: 2042-07-04
Also published as: CN115140608B

Abstract

The invention relates to a fixing device, in particular to a clamping and fixing device for solder wire winding production. The invention aims to provide a clamping and fixing device for solder wire winding production, which has more uniform winding and a heat dissipation function. The technical scheme is as follows: a clamping and fixing device for solder wire winding production comprises: a housing; the ventilation openings are formed in the two sides of the shell; the clamping components are symmetrically arranged on one side in the shell; the pushing assembly is arranged on the inner side of the shell and connected with the clamping assembly. People pass the direction drum with the tin wire and wind behind the reel, when direction drum reciprocating motion about constantly for the tin wire can more evenly wind on the reel, effectively improves people's work efficiency, makes things convenient for people's later stage to pack the reel better.

Description

Clamping and fixing device for solder wire winding production

Technical Field

The invention relates to a fixing device, in particular to a clamping and fixing device for solder wire winding production.

Background

The tin wire is composed of tin alloy and auxiliary agent, and is characterized by having a certain length and diameter, and can be used in cooperation with an electric soldering iron in the welding of electronic devices.

In the solder wire production industry, the solder wire is made the back, just can pack after need twining the solder wire on the reel and sell, at present, in current solder wire winding fixed equipment, the reel is at rotatory wire winding in-process, stability is lower, make the reel break away from easily, influence wire-wound speed and work efficiency, and it is inhomogeneous to wind, the solder wire gathers a department easily, increase people's intensity of labour, do not have the heat dissipation function, the solder wire is around the in-process of reel, the high temperature leads to the equipment to be difficult to carry out wire winding work scheduling problem.

To sum up, a clamping and fixing device for solder wire winding production, which has more uniform winding and a heat dissipation function, needs to be designed to solve the above problems.

Disclosure of Invention

In order to overcome the defects that in the existing solder wire winding and fixing equipment, the winding is not uniform, the solder wires are easy to gather at one position, the labor intensity of people is increased, the equipment does not have a heat dissipation function, and the equipment is difficult to wind due to overhigh temperature, the invention aims to provide the clamping and fixing device for solder wire winding production, which has more uniform winding and a heat dissipation function.

Technique of the scheme is as follows: the utility model provides a solder wire is centre gripping fixing device for coil production, including: a housing; the ventilation openings are formed in the two sides of the shell; the clamping components are symmetrically arranged on one side in the shell; the pushing assembly is arranged on the inner side of the shell and connected with the clamping assembly; eight jacking blocks are uniformly and slidably arranged on the clamping assembly at intervals; the supporting component is arranged on one side in the shell; the support assembly is provided with two placing groove blocks; the driving assembly is arranged between the supporting assembly and the shell.

Furthermore, it is particularly preferred that the clamping assembly comprises: the supporting shells are symmetrically and slidably arranged on the upper side in the shell and are slidably connected with the top block; the first springs are arranged between the top block and the supporting shell; the middle of the inside of the supporting shell is provided with the supporting frame; the first sliding rods are arranged on the supporting frame in a sliding mode at uniform intervals; the second springs are arranged between the first sliding rod and the supporting frame and sleeved on the supporting frame; the clamping blocks are arranged on the inner sides of the first sliding rods.

Furthermore, it is particularly preferred that the pushing assembly comprises: the middle of one side of the top of the shell is provided with the first distance sensor; the middle of the other side in the shell is provided with the first supporting block; the electric push rod is arranged on the inner side of the first supporting block; the first supporting rods are symmetrically arranged on one side in the shell; the first push rod is arranged between the first support rods in a sliding mode and is connected with a telescopic rod of the electric push rod; two second support rods are symmetrically arranged on one side in the shell; the sliding rods are arranged between the second supporting rods on the two sides in a sliding manner, and the first push rod is matched with the sliding rods; the third springs are symmetrically arranged between the sliding rod and the shell and are sleeved on the second supporting rod; the first rotation axis, the equal rotary type in slide bar upper portion inboard is equipped with first rotation axis, first rotation axis all with the support shell is connected.

Furthermore, it is particularly preferred that the support assembly comprises: the middle of one side of the inner lower part of the shell is symmetrically provided with two first guide rods; the sliding frames are arranged between the first guide rods on the two sides in a sliding mode and are connected with the placing groove blocks; the fourth springs are arranged between the sliding frame and the first guide rod and are sleeved on the first guide rod; the second sliding rod is arranged between the inner sides of the lower parts of the sliding frames; the middle inside the shell is symmetrically provided with the second supporting block; the ejector rod is arranged between the second supporting blocks in a sliding mode and matched with the second sliding rod, and the first push rod is matched with the second sliding rod; and the fifth springs are arranged between the ejector rods and the second supporting blocks and sleeved on the ejector rods.

Furthermore, it is particularly preferred that the drive assembly comprises: the middle of one side of the lower part in the shell is provided with the third supporting block; the second distance sensor is arranged on the other side of the top of the third supporting block; the driving motor is arranged in the middle of the lower side in the shell; the fourth supporting block is symmetrically arranged on one side of the lower side in the shell; the second rotating shaft is rotatably arranged between the inner sides of the fourth supporting blocks; the middle part of the second rotating shaft and the output shaft of the driving motor are respectively provided with the first bevel gears, and the first bevel gears are meshed with each other; the other side of the upper part in the shell is symmetrically provided with the fifth supporting block; the shaft sleeves are rotatably arranged on the inner sides of the fifth supporting blocks; the sliding shafts are arranged on the inner sides of the shaft sleeves in a sliding mode and are connected with the first rotating shaft; the first transmission wheels are arranged on the outer sides of the shaft sleeves, and the first transmission wheels are arranged on two sides of the second rotating shaft; the first transmission belts are wound between the first transmission wheels on the two sides; and the sixth spring is arranged between the sliding shaft and the shaft sleeve.

In addition, it is particularly preferable that the guide assembly further includes: the other side of the inside of the shell, which is close to one side of the driving motor, is provided with the stepping motor; the other side in the shell is symmetrically provided with the sixth supporting block; the third rotating shaft is rotatably arranged between the inner sides of the sixth supporting blocks; the middle part of the third rotating shaft and the output shaft of the stepping motor are both provided with second bevel gears which are meshed with each other; the other side of the upper part in the shell is symmetrically and rotatably provided with the chute barrel; the second transmission wheels are arranged on the outer sides of the chute barrels, and the second transmission wheels are also arranged on two sides of the third rotating shaft; the second transmission belt is wound between the second transmission wheels on the two sides; the other side of the upper part in the shell is symmetrically provided with the second guide rod; the third sliding rod is arranged between the inner sides of the second guide rods in a sliding manner and is matched with the sliding groove barrel in a sliding manner; and one side of the top of the third sliding rod is provided with the guide cylinder.

In addition, it is particularly preferable that the heat radiation device further includes a heat radiation component, and the heat radiation component includes: the heat dissipation button is arranged in the middle of one side in the shell, the ejector rod is matched with the heat dissipation button, and the heat dissipation button is positioned on the upper side of the third supporting block; the fixed block, the shell inboard with all be equipped with between the vent the fixed block: the fan, the inboard equal rotary type of fixed block is equipped with the fan.

In addition, it is especially preferred that the device further comprises a control box, the control box is arranged in the middle of one side of the shell, a switching power supply, a power module and a control module are installed in the control box, the switching power supply supplies power to the device, the output end of the switching power supply is electrically connected with the power module, the power module is connected with a power main switch through a circuit, the power module is electrically connected with the control module, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, the first distance sensor, the second distance sensor and the heat dissipation button are electrically connected with the control module, and the electric push rod, the stepping motor, the driving motor and the fan are connected with the control module through a peripheral circuit.

The beneficial effects are that: 1. according to the winding drum, after the clamping block moves inwards to the inner side of the winding drum, when the clamping block moves outwards, the clamping block clamps the winding drum, the stabilizing effect of the winding drum is increased, the winding drum is prevented from falling off during winding, and the winding efficiency of the winding drum is effectively improved.

2. People pass the direction drum with the tin wire and wind behind the reel, when direction drum reciprocating motion about constantly for the tin wire can more evenly wind on the reel, effectively improves people's work efficiency, makes things convenient for people's later stage to pack the reel better.

3. After the ejector pin extrudees the heat dissipation button, just can start fan work to reach radiating effect, keep away from the heat dissipation button back at the ejector pin, just can close the fan, so, make this device at the during operation, the work of dispelling the heat that can be fine avoids the inside high temperature of shell.

Drawings

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

Fig. 2 is a schematic perspective view of another perspective structure according to the present invention.

Fig. 3 is a schematic internal perspective view of the present invention.

Fig. 4 is a schematic internal perspective view of another aspect of the present invention.

Fig. 5 is a schematic view of the clamp assembly of the present invention.

Fig. 6 is a partial schematic view of the clamp assembly of the present invention.

FIG. 7 is a schematic view of a pushing assembly according to the present invention.

FIG. 8 is a schematic structural view of the support assembly of the present invention.

Fig. 9 is a partial structural view of the support assembly of the present invention.

Fig. 10 is a schematic structural diagram of the driving assembly of the present invention.

Fig. 11 is a schematic view of another driving assembly according to the present invention.

Fig. 12 is a schematic view of the structure of the guide assembly of the present invention.

Fig. 13 is a schematic view of another perspective structure of the guide assembly of the present invention.

Fig. 14 is a schematic view of a first partial structure of the heat dissipation assembly of the present invention.

Fig. 15 is a second partial structural schematic diagram of the heat dissipation assembly of the present invention.

FIG. 16 is a block diagram of the circuit of the present invention.

Fig. 17 is a schematic diagram of the circuit of the present invention.

Wherein the figures include the following reference numerals: 1. a housing, 2, a vent, 3, a control box, 4, a top block, 5, a placing groove block, 6, a clamping component, 601, a supporting shell, 602, a first spring, 603, a supporting frame, 604, a first slide bar, 605, a second spring, 606, a clamping block, 7, a pushing component, 701, a first distance sensor, 702, a first supporting block, 703, an electric push rod, 704, a first supporting rod, 705, a first push rod, 706, a second supporting rod, 707, a slide bar, 708, a third spring, 709, a first rotating shaft, 8, a supporting component, 801, a first guide bar, 802, a sliding frame, 803, a fourth spring, 804, a second slide bar, 805, a second supporting block, 806, a top bar, 807, a fifth spring, 9, a driving component, 901, a third supporting block, 902, a second distance sensor, 903, a driving motor, 904, a first bevel gear, 905, a fourth supporting block, 906, a second rotating shaft, 907, a first driving wheel, 908, a first driving belt, 909, a fifth supporting block, 910, a shaft sleeve, 911, a sliding shaft, 912, a sixth spring, 10, a guide component, 1001, a stepping motor, 1002, a second bevel gear, 1003, a sixth supporting block, 1004, a third rotating shaft, 1005, a second driving wheel, 1006, a second driving belt, 1007, a chute cylinder, 1008, a second guide rod, 1009, a third sliding rod, 1010, a guide cylinder, 11, a heat dissipation component, 1101, a heat dissipation button, 1102, a fixed block, 1103 and a fan.

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.

Example 1

The utility model provides a solder wire is around rolling up production with centre gripping fixing device, as shown in fig. 1-11, including shell 1, vent 2, kicking block 4, place the groove piece 5, clamping component 6, promote subassembly 7, supporting component 8 and drive assembly 9, vent 2 is all installed to the shell 1 left and right sides, upside bilateral symmetry installs clamping component 6 before shell 1 is inside, shell 1 inboard is provided with promotes subassembly 7, it is connected with clamping component 6 to promote subassembly 7, eight kicking blocks 4 are installed to the even slidingtype of equal interval on the clamping component 6, the inside front side of shell 1 is connected with supporting component 8, be connected with two on the supporting component 8 and place groove piece 5, be connected with drive assembly 9 between supporting component 8 and the shell 1.

The clamping assembly 6 comprises a supporting shell 601, a first spring 602, a supporting frame 603, a first sliding rod 604, a second spring 605 and a clamping block 606, the supporting shell 601 is arranged on the upper side inside the shell 1 in a bilateral sliding mode, the supporting shell 601 is connected with the ejecting block 4 in a sliding mode, the first spring 602 is connected between the ejecting block 4 and the supporting shell 601, the supporting frame 603 is fixedly connected in the middle of the inside of the supporting shell 601, first sliding rods 604 are arranged on the front side and the rear side of the supporting frame 603 in a sliding mode, the second spring 605 is connected between the first sliding rod 604 and the supporting frame 603 in a sliding mode, the second spring 605 is sleeved on the supporting frame 603, and the clamping block 606 is fixedly connected to the inner side of the first sliding rod 604.

The pushing assembly 7 comprises a first distance sensor 701, a first supporting block 702, an electric push rod 703, a first supporting rod 704, a first push rod 705, a second supporting rod 706, a sliding rod 707, a third spring 708 and a first rotating shaft 709, the first distance sensor 701 is installed in the middle of the front side of the top of the housing 1, the first supporting block 702 is fixedly connected in the middle of the rear lower side of the inside of the housing 1, the electric push rod 703 is installed in the inner side of the first supporting block 702, the first supporting rod 704 is fixedly connected in the bilateral symmetry of the rear side of the inside of the housing 1, the first push rod 705 is connected in a sliding manner between the first supporting rods 704, the first push rod 705 is connected with the telescopic rod of the electric push rod 703, the two second supporting rods 706 are fixedly connected in the bilateral symmetry of the front side of the inside of the housing 1, the sliding rod 707 is connected in a sliding manner between the second supporting rods 706 on the front side and the rear side of the front side and the rear side, the first push rod 705 is matched with the sliding rod 707, the third spring 708 is connected in a rotating manner between the sliding rod 707, the third spring 708 is sleeved on the second supporting rod 706, the inner side of the sliding rod 709 is connected with the supporting shell 601.

A first preset value and a second preset value are arranged in the first distance sensor 701, the first preset value is larger than the second preset value, when a soldering tin reel needs to be wound, a power supply main switch is pressed down to electrify the device, then people place the reel on the placing groove block 5 to enable the first distance sensor 701 to sense the reel, after the distance between the reel and the first distance sensor 701 reaches the first preset value of the first distance sensor 701, the first distance sensor 701 sends out a signal, the control module receives the signal and controls the telescopic rod of the electric push rod 703 to extend for 3 seconds and then close, after the telescopic rod of the electric push rod 703 extends, the first push rod 705 is driven to move forwards to touch the sliding rod 707, the first rotating shaft 709, the supporting shell 601, the top block 4 and the clamping block 606 are driven to move inwards, the third spring 708 is compressed, the clamping block 606 moves inwards to the inner side of the reel, the top blocks 4 move inwards to contact with the reel, the top blocks 4 are driven to move outwards, the first spring 602 is stretched, so that the four top blocks 4 at intervals move outwards to contact with the first sliding rod 604, the first sliding rod 604 and the clamping block 606 are driven to move outwards, the second spring 605 is compressed, the clamping block 606 moves outwards to clamp the reel, and therefore, people can manually rotate the reel to work around a tin wire, the reel rotates to drive the clamping block 606, the top blocks 4, the supporting shell 601 and the first rotating shaft 709 to rotate, at the moment, air circulation is kept in the shell 1 under the action of the ventilation opening 2, when the tin wire wound on the reel gradually increases, the distance between the tin wire and the first distance sensor 701 reaches the second preset value of the first distance sensor 701, the first distance sensor 701 sends a signal, the control module receives the signal and controls the electric push rod 703 to shorten for 3 seconds and then to close, after the telescopic rod of the electric push rod 703 is shortened, the first push rod 705 is driven to move backwards to be far away from the sliding rod 707, the third spring 708 is reset to drive the sliding rod 707, the first rotating shaft 709, the supporting shell 601, the jacking block 4 and the clamping block 606 move outwards to enable the jacking block 4 to be far away from the reel, the first spring 602 is reset to drive the jacking block 4 to move inwards, the four jacking blocks 4 at intervals move inwards to be separated from the first sliding rod 604, the second spring 605 is reset to drive the first sliding rod 604 and the clamping block 606 to move inwards to reset, so that the clamping block 606 can not clamp the reel, so that people can take down the reel wound with the tin wire, when the device is not needed to be used, people press down the power master switch again, and power off can be performed on the device.

Example 2

On the basis of embodiment 1, as shown in fig. 12 to 17, the supporting component 8 includes a first guiding rod 801, a sliding frame 802, a fourth spring 803, a second sliding rod 804, a second supporting block 805, a top rod 806 and a fifth spring 807, two first guiding rods 801 are symmetrically fixedly connected to the middle of the front side of the lower portion in the housing 1 in a left-right manner, sliding frames 802 are slidably mounted between the first guiding rods 801 on the front and rear sides, the sliding frames 802 are connected with the placing groove blocks 5, the fourth springs 803 are connected between the sliding frame 802 and the first guiding rods 801, the fourth springs 803 are sleeved on the first guiding rods 801, the second sliding rods 804 are connected between the inner sides of the lower portion of the sliding frames 802, a second supporting block 805 is fixedly connected to the middle of the interior of the housing 1 in a left-right manner, top rods 806 are slidably disposed between the second supporting blocks 805, the top rods 806 are matched with the second sliding rods 804, the first pushing rods 705 are matched with the second sliding rods 804, the fifth springs 807 are connected between the top rods 806 and the second supporting blocks 805, and the fifth springs 807 are sleeved on the top rods 806.

The driving assembly 9 includes a third supporting block 901, a second distance sensor 902, a driving motor 903, a first bevel gear 904, a fourth supporting block 905, a second rotating shaft 906, a first driving wheel 907, a first driving belt 908, a fifth supporting block 909, shaft sleeves 910, a sliding shaft 911 and a sixth spring 912, the third supporting block 901 is fixedly connected to the middle of the front side of the inner lower portion of the housing 1, the second distance sensor 902 is installed on the rear side of the top of the third supporting block 901, the driving motor 903 is installed in the middle of the inner lower side of the housing 1, the fourth supporting block 905 is fixedly connected to the front side of the inner lower side of the housing 1 in a bilateral symmetry manner, the second rotating shaft 906 is rotatably arranged between the inner sides of the fourth supporting blocks 905, the first bevel gear 904 is connected to the output shaft of the second rotating shaft 906, the first bevel gear 904 is engaged with each other, the fifth supporting block 909 is fixedly connected to the front side of the inner upper side of the housing 1 in a bilateral symmetry manner, the shaft sleeves 910 are rotatably connected to sliding shafts 911, the sliding shaft 911 is connected to the first rotating shaft 709, the first driving wheel 906 is arranged on the outer side of the shaft sleeves 910, the left side and the second rotating shaft 906, the left side and the right side of the sliding shaft are also connected to the first driving wheel 911, the first driving wheel 907, and the sixth driving wheel 907 are connected to the first driving wheel 908, and the second rotating shaft 908 are arranged between the sliding shaft 908, and the sliding shaft 908.

The second distance sensor 902 is provided with a first preset value and a second preset value, the value of the first preset value is smaller than that of the second preset value, after a person presses a power main switch to power on the device, when the first rotating shaft 709 moves inwards, the sliding shaft 911 is driven to move inwards, the sixth spring 912 is stretched, when the first push rod 705 moves forwards, the first push rod 705 contacts with the push rod 806 to drive the push rod 806 to move forwards, the fifth spring 807 is compressed, the push rod 806 moves forwards to contact with the second slide rod 804 to drive the second slide rod 804, the sliding frame 802 and the placing groove block 5 to move downwards, the fourth spring 803 is compressed, the placing groove block 5 moves downwards to be far away from the winding drum, the second slide rod 804 moves downwards to be close to the second distance sensor 902, and after the distance between the first slide rod 604 and the second distance sensor reaches the first preset value of the second distance sensor 902, the second distance sensor 902 sends out a signal, the control module controls the driving motor 903 to be electrified to work after receiving the signal, the action of the output shaft of the driving motor 903 is realized, so that the first bevel gear 904, the second rotating shaft 906, the first driving wheel 907, the first driving belt 908 and the shaft sleeve 910 are driven to rotate, the sliding shaft 911, the first rotating shaft 709, the supporting shell 601 and the winding drum are driven to rotate, the automatic tin wire winding effect is achieved, the groove block 5 is placed to be far away from the winding drum, the winding drum can better perform the winding work, when the winding drum finishes the tin wire winding, the first rotating shaft 709 moves outwards, the sixth spring 912 resets, the sliding shaft 911 is driven to move outwards to reset, the first push rod 705 moves backwards to be far away from the push rod 806, the fifth spring 807 resets, the push rod 806 moves backwards to reset, the push rod 806 is far away from the second sliding rod 804, the fourth spring 803 resets, and the sliding frame 802 is driven, the second sliding rod 804 and the placing groove move upwards to reset, the second sliding rod 804 moves upwards to be away from the second distance sensor 902, after the distance between the second sliding rod 804 and the second distance sensor 902 reaches a second preset value of the second distance sensor 902, the second distance sensor 902 sends a signal, the control module receives the signal and then controls the driving motor 903 to stop working, and when the device is not needed, people press the power master switch again to power off the device.

The guide assembly 10 comprises a stepping motor 1001, a second bevel gear 1002, a sixth supporting block 1003, a third rotating shaft 1004, a second transmission wheel 1005, a second transmission belt 1006, a chute cylinder 1007, a second guide rod 1008, a third sliding rod 1009 and a guide cylinder 1010, the stepping motor 1001 is installed below the rear side inside the housing 1, the stepping motor 1001 is located behind the driving motor 903, the sixth supporting block 1003 is fixedly connected to the rear side of the inside of the housing 1 in a left-right symmetrical manner, the third rotating shaft 1004 is rotatably arranged between the inner sides of the sixth supporting blocks 1003, the second bevel gear 1002 is installed on the middle portion of the third rotating shaft 1004 and the output shaft of the stepping motor 1001, the second bevel gears 1002 are mutually engaged, the chute cylinder 1007 is rotatably connected to the rear side of the upper portion inside the housing 1 in a left-right symmetrical manner, the second transmission wheel 1005 is installed on the outer side of the chute cylinder 1007, the second transmission wheels 1005 are also installed on the left and right sides of the third rotating shaft 1004, the second transmission wheel 1009 is wound between the second transmission wheels 1009, the second sliding rod 1009 is fixedly connected to the rear side of the upper portion inside the housing 1 in a left-right symmetrical manner, the third sliding groove 1008 is arranged between the inner sides of the second guide rod 1008, the inner sides of the third sliding groove 1007, the third sliding groove 1007 and the guide rod 1009 are matched with the guide cylinder 1010, and the guide cylinder 1010 are installed on the top of the guide cylinder 1010.

When the winding drum needs to be broken for winding, a person penetrates a guide cylinder 1010 through a tin wire, then the tin wire is wound on the winding drum, after the distance between a second sliding rod 804 and a second distance sensor 902 reaches a first preset value of the second distance sensor 902, the second distance sensor 902 sends a signal, a control module receives the signal and controls an output shaft of a stepping motor 1001 to rotate forwards for 4 seconds and then close, when the output shaft of the stepping motor 1001 rotates forwards, the control module drives a second bevel gear 1002, a second rotating shaft 906, a second driving wheel 1005, a second driving belt 1006 and a chute cylinder 1007 to rotate forwards, and further drives a third sliding rod 1009 and the guide cylinder 1010 to move leftwards, under the action of the guide cylinder 1010, the tin wire is uniformly wound on the winding drum, after the stepping motor 1001 closes for 1 second, the control module controls the output shaft of the stepping motor 1001 to rotate backwards for 4 seconds and then closes, when the output shaft of the stepping motor 1001 rotates backwards, the second bevel gear 1002, the second rotating shaft 906, the second driving wheel 1005, the second driving wheel 1006 and the chute cylinder 1007 to rotate backwards, and further drive the third rotating shaft 1010 to move rightwards, so that the distance between the second sliding rod 1010 and the second distance sensor 804 controls the distance between the second distance sensor 902 after the second sliding rod 804 and the second distance sensor 804.

Still including radiator unit 11, radiator unit 11 is including heat dissipation button 1101, fixed block 1102 and fan 1103, installs heat dissipation button 1101 in the middle of the inside front side of shell 1, ejector pin 806 and the cooperation of heat dissipation button 1101, and heat dissipation button 1101 is located the third supporting shoe 901 upside, and equal rigid coupling has fixed block 1102 between the inboard of shell 1 and the vent 2, and fan 1103 is installed to the inboard equal rotary type of fixed block 1102.

When ejector pin 806 moves forward, ejector pin 806 presses heat dissipation button 1101 for control module control fan 1103 circular telegram work, make between the left and right sides fan 1103 rotatory toward opposite direction, left side fan 1103 carries the air to the shell 1 in through left vent 2, distribute away through right vent 2 with the steam in the shell 1 by right side fan 1103 again, reached radiating effect, after ejector pin 806 moves backward and keeps away from heat dissipation button 1101, make control module control fan 1103 stop work.

Still including control box 3, install control box 3 in the middle of the 1 front side of shell, install switching power supply in the control box 3, power module and control module, switching power supply is this device power supply, switching power supply's output and power module pass through electric connection, power module has the power master switch through the line connection, power module and control module pass through electric connection, last DS1302 clock circuit and the 24C02 circuit of being connected with of control module, first distance sensor 701, second distance sensor 902 and heat dissipation button 1101 all pass through electric connection with control module, electric putter 703, step motor 1001, driving motor 903 and fan 1103 all pass through peripheral circuit with control module and are connected.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims

1. The utility model provides a solder wire is around rolling up production with centre gripping fixing device, characterized by, including:

a housing (1);

the ventilation openings (2) are formed in the two sides of the shell (1);

the clamping components (6) are symmetrically arranged on one side inside the shell (1);

the pushing assembly (7) is arranged on the inner side of the shell (1), and the pushing assembly (7) is connected with the clamping assembly (6);

eight ejector blocks (4) are arranged on the clamping assembly (6) at intervals in a sliding manner;

the supporting component (8) is arranged on one side inside the shell (1);

the supporting component (8) is provided with two placing groove blocks (5);

the driving assembly (9) is arranged between the supporting assembly (8) and the shell (1).

2. The holding fixture for solder wire reel production as claimed in claim 1, characterized in that the clamping assembly (6) comprises:

the supporting shell (601) is symmetrically and slidably arranged on the upper side inside the shell (1), and the supporting shell (601) is slidably connected with the top block (4);

the first spring (602) is arranged between the top block (4) and the supporting shell (601);

the middle of the inside of the supporting shell (601) is provided with the supporting frame (603);

the first sliding rods (604) are arranged on the supporting frame (603) at equal intervals in a sliding manner;

the second springs (605) are arranged between the first sliding rod (604) and the supporting frame (603), and the second springs (605) are sleeved on the supporting frame (603);

the clamping blocks (606) are arranged on the inner sides of the first sliding rods (604).

3. A holding fixture for the production of solder wire coils as set forth in claim 2, characterized in that the pusher assembly (7) comprises:

the first distance sensor (701) is arranged in the middle of one side of the top of the shell (1);

the middle of the other side in the shell (1) is provided with the first supporting block (702);

the electric push rod (703) is arranged on the inner side of the first supporting block (702);

the first supporting rods (704) are symmetrically arranged on one side inside the shell (1);

the first push rod (705) is arranged between the first support rods (704) in a sliding mode, and the first push rod (705) is connected with an expansion link of the electric push rod (703);

two second support rods (706) are symmetrically arranged on one side inside the shell (1);

the sliding rods (707) are arranged between the second supporting rods (706) on the two sides in a sliding manner, and the first push rod (705) is matched with the sliding rods (707);

the third springs (708) are symmetrically arranged between the sliding rod (707) and the shell (1), and the third springs (708) are sleeved on the second supporting rod (706);

the first rotating shaft (709), the slide bar (707) upper portion inboard all is equipped with of equal rotary type the first rotating shaft (709), first rotating shaft (709) all with support shell (601) are connected.

4. Holding fixture for the production of solder wire coils as claimed in claim 3, characterized in that the support member (8) comprises:

the middle of one side of the inner lower part of the shell (1) is symmetrically provided with two first guide rods (801);

the sliding frames (802) are arranged between the first guide rods (801) on the two sides in a sliding mode, and the sliding frames (802) are connected with the placing groove blocks (5);

the fourth spring (803) is arranged between the sliding frame (802) and the first guide rod (801), and the fourth spring (803) is sleeved on the first guide rod (801);

a second slide bar (804), the second slide bar (804) being disposed between the inner sides of the lower portions of the carriages (802);

the second supporting block (805) is symmetrically arranged in the middle of the inside of the shell (1);

the ejector rod (806) is arranged between the second supporting blocks (805) in a sliding mode, the ejector rod (806) is matched with the second sliding rod (804), and the first push rod (705) is matched with the second sliding rod (804);

the fifth springs (807) are arranged between the top rod (806) and the second supporting block (805), and the fifth springs (807) are sleeved on the top rod (806).

5. Holding fixture for the production of solder wire coils as defined in claim 4, characterized in that the drive assembly (9) comprises:

the middle of one side of the lower part in the shell (1) is provided with the third supporting block (901);

the second distance sensor (902) is arranged on the other side of the top of the third supporting block (901);

the driving motor (903) is arranged in the middle of the lower side in the shell (1);

the fourth supporting block (905) is symmetrically arranged on one side of the lower side in the shell (1);

the second rotating shaft (906) is rotatably arranged between the inner sides of the fourth supporting blocks (905);

the middle part of the second rotating shaft (906) and the output shaft of the driving motor (903) are provided with the first bevel gear (904), and the first bevel gears (904) are meshed with each other;

the fifth supporting block (909) is symmetrically arranged on the other side of the inner upper part of the shell (1);

the shaft sleeves (910) are rotatably arranged on the inner sides of the fifth supporting blocks (909);

the sliding shafts (911) are arranged on the inner sides of the shaft sleeves (910) in a sliding manner, and the sliding shafts (911) are connected with the first rotating shaft (709);

the first transmission wheels (907) are arranged on the outer sides of the shaft sleeves (910), and the first transmission wheels (907) are arranged on two sides of the second rotating shaft (906);

the first transmission belt (908) is wound between the first transmission wheels (907) on two sides;

and the sixth spring (912) is arranged between the sliding shaft (911) and the shaft sleeve (910).

6. The holding fixture for solder wire winding production as set forth in claim 5, characterized in that it further comprises a guide assembly (10), the guide assembly (10) comprising:

the other side of the inside of the shell (1), which is close to one side of the driving motor (903), is provided with the stepping motor (1001);

the other side in the shell (1) is symmetrically provided with the sixth supporting block (1003);

a third rotating shaft (1004), wherein the third rotating shaft (1004) is rotatably arranged between the inner sides of the sixth supporting blocks (1003);

the middle part of the third rotating shaft (1004) and the output shaft of the stepping motor (1001) are respectively provided with a second bevel gear (1002), and the second bevel gears (1002) are meshed with each other;

the sliding groove cylinder (1007) is symmetrically and rotatably arranged on the other side of the upper part in the shell (1);

the second transmission wheels (1005) are arranged on the outer sides of the chute barrels (1007), and the second transmission wheels (1005) are also arranged on two sides of the third rotating shaft (1004);

the second transmission belt (1006) is wound between the second transmission wheels (1005) at two sides;

the other side of the inner upper part of the shell (1) is symmetrically provided with the second guide rod (1008);

the third sliding rod (1009) is arranged between the inner sides of the second guide rods (1008) in a sliding manner, and the third sliding rod (1009) is matched with the chute tube (1007) in a sliding manner;

the guide cylinder (1010) is arranged on one side of the top of the third sliding rod (1009).

7. The holding fixture for solder wire winding production as set forth in claim 6, further comprising a heat dissipating assembly (11), wherein the heat dissipating assembly (11) comprises:

the heat dissipation button (1101) is arranged in the middle of one side inside the shell (1), the ejector rod (806) is matched with the heat dissipation button (1101), and the heat dissipation button (1101) is located on the upper side of the third supporting block (901);

a fixing block (1102), the fixing block (1102) is arranged between the inner side of the shell (1) and the ventilation opening (2):

the fan (1103), fixed block (1102) inboard equal rotary type is equipped with fan (1103).

8. The clamping and fixing device for solder wire winding production as claimed in claim 7, characterized by further comprising a control box (3), wherein the control box (3) is arranged in the middle of one side of the housing (1), a switching power supply, a power module and a control module are installed in the control box (3), the switching power supply supplies power to the device, an output end of the switching power supply is electrically connected with the power module, the power module is connected with a power master switch through a circuit, the power module is electrically connected with the control module, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, the first distance sensor (701), the second distance sensor (902) and the heat dissipation button (1101) are electrically connected with the control module, and the electric push rod (703), the driving motor (903), the stepping motor (1001) and the fan (1103) are connected with the control module through peripheral circuits.