CN221068741U - Automatic thermal shrinkage pipe sleeve machine for electronic element packaging - Google Patents

Abstract

The utility model discloses an automatic thermal shrinkage pipe sleeving machine for electronic element packaging, which comprises a feeding winding drum, a traction mechanism, a cutting sleeving mechanism, a material receiving clamping mechanism and a heating mechanism, wherein the cutting sleeving mechanism comprises a sleeve component and a cutting push-pull component, and the cutting push-pull component is used for cutting a thermal shrinkage pipe sleeved on the sleeve component and moving the sleeve component to the side end of the material receiving clamping mechanism. The traction mechanism can lead the heat shrinkage tube on the feeding winding drum to the cutting and sleeving mechanism, the cutting and sleeving mechanism can cut the heat shrinkage tube into sections and move to the station of the material receiving and clamping mechanism so as to sleeve the section-shaped heat shrinkage tube on the electronic component fixed by the material receiving and clamping mechanism, and then the heating mechanism can heat the heat shrinkage tube so as to enable the heat shrinkage tube to be tightly attached to the electronic component, thereby realizing insulation protection of the electronic component; the whole heat shrinkage pipe is cut into sections, sleeved in the heat shrinkage pipe and automatically heated, so that the processing efficiency is high.

Description

Automatic thermal shrinkage pipe sleeve machine for electronic element packaging

Technical Field

The utility model relates to the field of heat-shrinkable tube sleeving machines, in particular to an automatic heat-shrinkable tube sleeving machine for packaging electronic elements.

Background

The heat shrinkage tube has good flame retardance and insulating property, is very soft and elastic, has low shrinkage temperature and quick shrinkage, and can be widely applied to insulating protection of electronic elements such as resistors, capacitors and the like.

In the prior art, when the heat shrinkage tube is sleeved on the electronic element, the heat shrinkage tube is basically cut off manually and sleeved on the workpiece, so that the labor intensity of workers is high, the time and the labor are consumed, and the production efficiency is low; in addition, although some semiautomatic heat-shrinkable tube sleeving machines are available on the market, which can automatically sleeve heat-shrinkable tubes on electronic components after cutting, the subsequent heat-shrinkable process also needs to be manually operated by a heat gun to heat the heat-shrinkable tubes, which is very inconvenient.

Accordingly, the prior art has drawbacks and needs improvement.

Disclosure of utility model

The technical problems to be solved by the utility model are as follows: the automatic thermal shrinkage pipe sleeve machine for packaging the electronic elements is high in automation degree and improves production efficiency.

The technical scheme of the utility model is as follows: an automatic heat shrink tubing sleeve machine for electronic component packaging, comprising: the feeding winding drum is used for winding the heat shrinkage tube to be fed;

the traction mechanism is arranged at the discharge end of the feeding winding drum and used for drawing the heat shrinkage tube on the feeding winding drum to the outside;

The cutting and sleeving mechanism is arranged at the discharge end of the traction mechanism and is used for cutting the heat shrinkage tube into sections and sleeving the sections on the electronic element;

The material receiving clamping mechanism is arranged at the side end of the cutting and sleeving mechanism and is used for clamping the electronic element to be sleeved with the heat shrinkage tube; and

The heating mechanism is arranged above the material receiving clamping mechanism and is used for performing heat shrinkage treatment on the electronic element sleeved by the heat shrinkage tube;

Wherein, cut the telescoping mechanism and include:

The sleeve component is arranged at the discharge end of the traction mechanism, and the heat shrinkage pipe pulled out by the traction mechanism can be sleeved on the sleeve component; and

The cutting push-pull assembly is arranged between the material receiving clamping mechanism and the traction mechanism, and is used for cutting the heat shrinkage tube sleeved on the sleeve assembly and moving the sleeve assembly to the side end of the material receiving clamping mechanism;

the sleeve assembly includes:

The sleeve is connected with the cutting push-pull assembly through a connecting piece and is used for sleeving the heat shrink tube;

The sleeve moving block is sleeved at the tail end of the sleeve; and

And the movable end of the sleeve cylinder is connected with the sleeve moving block and is used for driving the sleeve moving block to move along the length direction of the sleeve so as to push and sleeve the segment-shaped heat-shrinkable tube on the sleeve on the electronic element.

By adopting the technical scheme, in the automatic thermal shrinkage pipe sleeve machine for packaging electronic elements, the cutting push-pull assembly comprises:

The sliding rod frame is arranged between the material receiving clamping mechanism and the traction mechanism;

the sliding seat is arranged on the sliding rod frame and can reciprocate along the sliding rod frame;

The rotary shaft is provided with a cavity groove in the middle of the sliding seat, and the rotary shaft is transversely arranged to penetrate through the cavity groove;

The cutting knife is connected with the end part of the rotating shaft and is positioned right below the head end of the sleeve;

The movable end of the push-pull cylinder is connected with the rotating shaft through a connecting rod and is used for driving the rotating shaft to rotate, so that the cutting knife is driven to cut or reset, and meanwhile, the sliding seat is pushed to reciprocate on the sliding rod frame.

By adopting the technical schemes, in the automatic thermal shrinkage pipe sleeve machine for packaging electronic elements, the traction mechanism comprises:

The mounting seat is arranged at the discharge end of the feeding winding drum, and an avoidance groove is formed in the mounting seat along the conveying direction of the heat shrinkage pipe;

The two traction gears are arranged on the left side and the right side of the mounting seat, the bottoms of the two traction gears are provided with gear parts which are in meshed connection with each other, and a rotary column is arranged above the gear parts;

the pipe supporting die is arranged between the rotary columns at the left side and the right side and is used for sleeving the heat shrinkage pipe and supporting the heat shrinkage pipe into a columnar shape;

traction pulleys are arranged on the left side and the right side of the pipe supporting die, and the traction pulleys are in fit contact with rotating columns positioned at the same side end;

The driving motor is arranged at the bottom of the mounting seat, and an output shaft of the driving motor is connected with a traction gear and is used for driving the traction gear to rotate so as to drive the traction pulley to rotate, so that traction and conveying of the heat shrinkage tube are realized.

By adopting the technical schemes, in the automatic thermal shrinkage pipe sleeve machine for packaging electronic elements, the material receiving and clamping mechanism comprises:

the material receiving pipe is provided with an arc-shaped material receiving groove for placing electronic elements;

the rotary driving assembly is connected with the material receiving pipe and is used for driving the material receiving pipe to realize overturning action;

And the clamping assembly is arranged above the arc-shaped receiving groove and used for limiting and clamping the electronic element on the arc-shaped receiving groove.

By adopting the technical schemes, in the automatic thermal shrinkage pipe sleeve machine for packaging electronic elements, the clamping component comprises:

The end part of the material receiving pipe is provided with a rotary disk, and the telescopic cylinder is arranged on the rotary disk;

The lifting cylinder is connected with the movable end of the telescopic cylinder; and

The clamping block is connected with the movable end of the lifting cylinder, and a bulge for abutting against the electronic element is arranged at the bottom of the clamping block.

By adopting the technical schemes, in the automatic thermal shrinkage pipe sleeve machine for packaging electronic elements, the heating mechanism comprises:

a mounting frame;

The hot air gun is connected to the mounting frame through a movable pin roll and is used for spraying hot air to heat the electronic element which is sleeved by the heat shrinkage sleeve; and

The movable end of the overturning cylinder is hinged with the hot air gun through a floating joint and is used for driving the hot air gun to carry out overturning angle adjustment so as to adjust the distance between the hot air gun and the electronic element.

By adopting the technical schemes, the automatic thermal shrinkage pipe sleeve machine for packaging the electronic elements further comprises a blanking conveying belt, and the blanking conveying belt is positioned under the material receiving clamping mechanism.

Compared with the prior art, the thermal shrinkage tube to be fed is wound on the feeding winding drum, the traction mechanism can draw the thermal shrinkage tube on the feeding winding drum into the cutting and sleeving mechanism, the cutting and sleeving mechanism can cut the thermal shrinkage tube into sections and move to the station of the material receiving clamping mechanism so as to sleeve the section-shaped thermal shrinkage tube on the electronic component fixed by the material receiving clamping mechanism, and then the heating mechanism can heat the thermal shrinkage tube so as to enable the thermal shrinkage tube to shrink and cling to the electronic component, thereby realizing insulation protection of the electronic component; the whole heat shrinkage pipe cutting, sleeving and heating shrinkage process is automatically carried out, so that the complicated manual operation is omitted, the time and the labor are saved, and the processing efficiency of sleeving the electronic component into the heat shrinkage pipe is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only embodiments of the present application, and other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a traction mechanism and a cutting and sleeving mechanism according to the present utility model;

FIG. 3 is a schematic diagram of an exploded construction of the traction mechanism of the present utility model;

FIG. 4 is a schematic view of a cutting and sheathing mechanism according to the present utility model;

FIG. 5 is an enlarged partial schematic view of area A in FIG. 1;

FIG. 6 is a schematic view of a heating mechanism according to the present utility model.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some of the embodiments of the present application, but not all of the embodiments. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without undue burden are within the scope of the present patent application. Accordingly, the following detailed description of the embodiments of the present patent application, as provided in the accompanying drawings, is not intended to limit the scope of the claimed patent application, but is merely representative of selected embodiments of the present patent application. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without undue burden are within the scope of the present patent application.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "inside", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 6, the present embodiment provides an automatic heat shrinkage pipe sleeve machine for packaging electronic components, comprising: and the feeding reel 1 is used for winding the heat shrinkage tube to be fed.

The traction mechanism 2 is arranged at the discharge end of the feeding reel 1 and is used for drawing the heat shrinkage tube on the feeding reel 1 to the outside;

The cutting and sleeving mechanism 3 is arranged at the discharge end of the traction mechanism 2 and is used for cutting the heat shrinkage tube into sections and sleeving the heat shrinkage tube on the electronic component;

the material receiving clamping mechanism 4 is arranged at the side end of the cutting and sleeving mechanism 3 and is used for clamping the electronic element to be sleeved with the heat shrinkage tube;

And the heating mechanism 5 is arranged above the material receiving clamping mechanism 4 and is used for performing heat shrinkage treatment on the electronic element sleeved by the heat shrinkage tube.

The working flow of the automatic thermal shrinkage pipe sleeve machine is as follows: the thermal shrinkage tube to be fed is wound on the feeding winding drum 1, the traction mechanism 2 can draw the thermal shrinkage tube on the feeding winding drum 1 into the cutting and sleeving mechanism 3, the cutting and sleeving mechanism 3 can cut the thermal shrinkage tube into sections and move to the station of the material receiving and clamping mechanism 4 so as to sleeve the section-shaped thermal shrinkage tube on the electronic component fixed by the material receiving and clamping mechanism 4, and then the heating mechanism 5 can heat the thermal shrinkage tube so as to enable the thermal shrinkage tube to shrink and cling to the electronic component, thereby realizing insulation protection of the electronic component.

As shown in fig. 2 and 4, the cutting and nesting mechanism 3 includes:

The sleeve component 31 is arranged at the discharge end of the traction mechanism 2, and a heat shrinkage tube pulled out by the traction mechanism 2 can be sleeved on the sleeve component 31; and a cutting push-pull assembly 32, which is arranged between the material receiving clamping mechanism 4 and the traction mechanism 2, and is used for cutting the heat shrinkage tube sleeved on the sleeve assembly 31 and moving the sleeve assembly 31 to the side end of the material receiving clamping mechanism 4.

The sleeve assembly 31 includes: the sleeve 311 is connected with the cutting push-pull assembly 32 through a connecting piece and is used for sleeving a heat shrink tube; a sleeve moving block 312 sleeved at the tail end of the sleeve 311; and a sleeve cylinder 313, the movable end of which is connected with the sleeve moving block 312, for driving the sleeve moving block 312 to move along the length direction of the sleeve 311, so as to push and sleeve the segment-shaped heat shrinkage tube on the sleeve 311 on the electronic component. When the heat shrink tube is sleeved on the sleeve 311 by the traction mechanism 2, the cutting push-pull assembly 32 can cut the redundant heat shrink tube on the sleeve 311 and then is transferred to the material receiving clamping mechanism 4, and then the sleeve cylinder 313 acts to push the heat shrink tube on the sleeve 311 to the electronic component on the material receiving clamping mechanism 4 through the sleeve moving block 312, so that the automatic sleeve operation on the electronic component is completed.

As shown in fig. 4, further, the cutting push-pull assembly 32 includes: a slide rod frame 321 arranged between the material receiving clamping mechanism 4 and the traction mechanism 2; a sliding seat 322 provided on the sliding rod frame 321 and reciprocally movable along the sliding rod frame 321; a rotating shaft 323, a cavity groove is arranged in the middle of the sliding seat 322, and the rotating shaft 323 is transversely arranged and penetrates through the cavity groove; a cutter 324 connected to an end of the rotating shaft 323 and located right below the head end of the sleeve 311; the movable end of the push-pull cylinder 325 is connected with a rotating shaft 323 through a connecting rod, and is used for driving the rotating shaft 323 to rotate, so that the cutting knife 324 is driven to perform cutting or resetting actions, and simultaneously the sliding seat 322 is pushed to reciprocate on the sliding rod frame 321. Specifically, when the cutting or moving operation is required, the push-pull cylinder 325 is pushed out outwards, the rotating shaft 323 is driven to rotate by the connecting rod, so that the cutting knife 324 is driven to overturn to cut the heat shrinkage tube at the outer redundant part of the sleeve 311, meanwhile, the push-pull cylinder 325 is pushed out outwards continuously and pushes the slide seat 322 to slide on the slide rod frame 321, and the sleeve 311 connected with the slide seat 322 is driven to move to the station of the material receiving clamping mechanism 4.

As shown in fig. 2 and 3, the traction mechanism 2 further includes:

The mounting seat 21 is arranged at the discharge end of the feeding roller 1, the mounting seat 21 is provided with an avoidance groove 210 along the conveying direction of the heat shrinkage tube, and the heat shrinkage tube can be supported and conveyed through the avoidance groove 210 under the action of the traction mechanism 2;

Two traction gears 22 provided on both left and right sides of the mounting base 21, wherein gear parts 221 engaged with each other are provided at bottoms of the two traction gears 22, and a rotation column 222 is provided above the gear parts 221;

The pipe supporting mould 23 is arranged between the rotary columns 222 on the left side and the right side and is used for sleeving the heat shrinkage pipe and supporting the heat shrinkage pipe to form a columnar shape, so that the heat shrinkage pipe is prevented from being in a shrunken state and is not beneficial to sleeving;

Traction pulleys 24 provided on both left and right sides of the stay tube mold 23, and the traction pulleys 24 are in contact with a rotation column 222 positioned at the same side end;

The driving motor 25 is arranged at the bottom of the mounting seat 21, and an output shaft of the driving motor 25 is connected with a traction gear 22 and is used for driving the traction gear 22 to rotate so as to drive the traction pulley 24 to rotate, thereby realizing traction and conveying of the heat shrinkable tube. Specifically, the driving motor 25 can drive the traction gear 22 to rotate, and the traction gear 22 is tightly contacted with the traction pulley 24, and the outer surface of the heat-shrinkable tube is attached to the traction gear 22, and the inner surface of the heat-shrinkable tube is attached to the traction pulley 24, so as to push the heat-shrinkable tube to be conveyed onto the sleeve 311.

As shown in fig. 1 and 5, the material receiving and clamping mechanism 4 further includes: a receiving pipe 41, wherein an arc-shaped receiving groove 410 for placing electronic components is arranged on the receiving pipe 41; the rotary driving assembly 42 is connected with the material receiving pipe 41 and is used for driving the material receiving pipe 41 to realize overturning action; the clamping assembly 43 is disposed above the arc-shaped receiving slot 410, and is used for limiting and clamping the electronic components on the arc-shaped receiving slot 410. Electronic components can be placed on the arc-shaped material receiving groove 410 and are limited and fixed through the material clamping component 43, so that the electronic components are prevented from being shifted in the heat shrinkage pipe sleeving process, the material clamping component 43 is loosened after the heat shrinkage pipe sleeving is completed, the material receiving pipe 41 can be driven to rotate 180 degrees by the rotary driving component 42, and the electronic components fall from the arc-shaped material receiving groove 410 under the action of gravity, so that discharging is realized.

As shown in fig. 1, further, a blanking conveyer belt 6 is further included, and the blanking conveyer belt 6 is located right below the receiving clamping mechanism 4. When the electronic components fall from the arc-shaped receiving groove 410 under the action of gravity, the electronic components can be received by the blanking conveying belt 6 and transferred to the next processing procedure by the blanking conveying belt 6.

As shown in fig. 5, further, the clamping assembly 43 includes: the end part of the material receiving pipe 41 is provided with a rotary disk 411, and the telescopic cylinder 431 is arranged on the rotary disk 411; the lifting cylinder 432 is connected with the movable end of the telescopic cylinder 431; and a clamping block 433 connected with the movable end of the lifting cylinder 432, wherein a protrusion 4331 for abutting against the electronic element is arranged at the bottom of the clamping block 433. The telescopic cylinder 431 and the lifting cylinder 432 can drive the clamping block 433 to realize biaxial movement, so as to switch and adjust the contact or separation operation between the clamping block 433 and the electronic element.

As shown in fig. 1 and 6, the heating mechanism 5 further includes: a mounting frame 51; a heat gun 52 connected to the mounting frame 51 through a movable pin, for spraying hot air to heat the electronic components sleeved by the heat shrinkage tube; and the movable end of the turnover cylinder 53 is hinged with the heat gun 52 through a floating joint and is used for driving the heat gun 52 to perform turnover angle adjustment so as to adjust the distance between the heat gun 52 and the electronic component.

Compared with the prior art, the thermal shrinkage tube to be fed is wound on the feeding winding drum, the traction mechanism can draw the thermal shrinkage tube on the feeding winding drum into the cutting and sleeving mechanism, the cutting and sleeving mechanism can cut the thermal shrinkage tube into sections and move to the station of the material receiving clamping mechanism so as to sleeve the section-shaped thermal shrinkage tube on the electronic component fixed by the material receiving clamping mechanism, and then the heating mechanism can heat the thermal shrinkage tube so as to enable the thermal shrinkage tube to shrink and cling to the electronic component, thereby realizing insulation protection of the electronic component; the whole heat shrinkage pipe cutting, sleeving and heating shrinkage process is automatically carried out, so that the complicated manual operation is omitted, the time and the labor are saved, and the processing efficiency of sleeving the electronic component into the heat shrinkage pipe is greatly improved.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. An automatic thermal shrinkage pipe sleeve machine for electronic element packaging, which is characterized in that: comprising the following steps:

The feeding winding drum is used for winding the heat shrinkage tube to be fed;

the traction mechanism is arranged at the discharge end of the feeding winding drum and used for drawing the heat shrinkage tube on the feeding winding drum to the outside;

The cutting and sleeving mechanism is arranged at the discharge end of the traction mechanism and is used for cutting the heat shrinkage tube into sections and sleeving the sections on the electronic element;

The material receiving clamping mechanism is arranged at the side end of the cutting and sleeving mechanism and is used for clamping the electronic element to be sleeved with the heat shrinkage tube; and

The heating mechanism is arranged above the material receiving clamping mechanism and is used for performing heat shrinkage treatment on the electronic element sleeved by the heat shrinkage tube;

Wherein, cut the telescoping mechanism and include:

The sleeve component is arranged at the discharge end of the traction mechanism, and the heat shrinkage pipe pulled out by the traction mechanism can be sleeved on the sleeve component; and

The cutting push-pull assembly is arranged between the material receiving clamping mechanism and the traction mechanism, and is used for cutting the heat shrinkage tube sleeved on the sleeve assembly and moving the sleeve assembly to the side end of the material receiving clamping mechanism;

the sleeve assembly includes:

The sleeve is connected with the cutting push-pull assembly through a connecting piece and is used for sleeving the heat shrink tube;

The sleeve moving block is sleeved at the tail end of the sleeve; and

And the movable end of the sleeve cylinder is connected with the sleeve moving block and is used for driving the sleeve moving block to move along the length direction of the sleeve so as to push and sleeve the segment-shaped heat-shrinkable tube on the sleeve on the electronic element.

2. The automatic heat shrink tubing set for electronic component packaging of claim 1, wherein: the cutting push-pull assembly comprises:

The sliding rod frame is arranged between the material receiving clamping mechanism and the traction mechanism;

the sliding seat is arranged on the sliding rod frame and can reciprocate along the sliding rod frame;

The rotary shaft is provided with a cavity groove in the middle of the sliding seat, and the rotary shaft is transversely arranged to penetrate through the cavity groove;

The cutting knife is connected with the end part of the rotating shaft and is positioned right below the head end of the sleeve;

The movable end of the push-pull cylinder is connected with the rotating shaft through a connecting rod and is used for driving the rotating shaft to rotate, so that the cutting knife is driven to cut or reset, and meanwhile, the sliding seat is pushed to reciprocate on the sliding rod frame.

3. The automatic heat shrink tubing set for electronic component packaging of claim 1, wherein: the traction mechanism comprises:

The mounting seat is arranged at the discharge end of the feeding winding drum, and an avoidance groove is formed in the mounting seat along the conveying direction of the heat shrinkage pipe;

The two traction gears are arranged on the left side and the right side of the mounting seat, the bottoms of the two traction gears are provided with gear parts which are in meshed connection with each other, and a rotary column is arranged above the gear parts;

the pipe supporting die is arranged between the rotary columns at the left side and the right side and is used for sleeving the heat shrinkage pipe and supporting the heat shrinkage pipe into a columnar shape;

traction pulleys are arranged on the left side and the right side of the pipe supporting die, and the traction pulleys are in fit contact with rotating columns positioned at the same side end;

The driving motor is arranged at the bottom of the mounting seat, and an output shaft of the driving motor is connected with a traction gear and is used for driving the traction gear to rotate so as to drive the traction pulley to rotate, so that traction and conveying of the heat shrinkage tube are realized.

4. The automatic heat shrink tubing set for electronic component packaging of claim 1, wherein: the receiving clamping mechanism comprises:

the material receiving pipe is provided with an arc-shaped material receiving groove for placing electronic elements;

the rotary driving assembly is connected with the material receiving pipe and is used for driving the material receiving pipe to realize overturning action;

And the clamping assembly is arranged above the arc-shaped receiving groove and used for limiting and clamping the electronic element on the arc-shaped receiving groove.

5. The automatic heat shrink tubing set for electronic component packaging as claimed in claim 4 wherein: the clamping assembly comprises:

The end part of the material receiving pipe is provided with a rotary disk, and the telescopic cylinder is arranged on the rotary disk;

The lifting cylinder is connected with the movable end of the telescopic cylinder; and

The clamping block is connected with the movable end of the lifting cylinder, and a bulge for abutting against the electronic element is arranged at the bottom of the clamping block.

6. The automatic heat shrink tubing set for electronic component packaging of claim 1, wherein: the heating mechanism includes:

a mounting frame;

The hot air gun is connected to the mounting frame through a movable pin roll and is used for spraying hot air to heat the electronic element which is sleeved by the heat shrinkage sleeve; and

The movable end of the overturning cylinder is hinged with the hot air gun through a floating joint and is used for driving the hot air gun to carry out overturning angle adjustment so as to adjust the distance between the hot air gun and the electronic element.

7. The automatic heat shrink tubing set for electronic component packaging of claim 1, wherein: the blanking device further comprises a blanking conveying belt, and the blanking conveying belt is positioned right below the receiving clamping mechanism.