CN219520787U - Soldering tin ring releasing device - Google Patents

Abstract

The utility model provides a solder ring releasing device, which comprises: a rotary table, a cylindrical surface of which is connected to a rotary motor, the rotary motor is arranged on a telescopic rod of the air cylinder; the placement components are symmetrically arranged and comprise a placement ring pipe, a push ring sleeve, a pusher and a telescopic rod; a support template, a spring and a spring seat are arranged in the pipe cavity of the ring pipe; the push ring sleeve is sleeved on the outer surface of the ring placing pipe; the pusher is symmetrically arranged along the center of the push ring sleeve, the pusher is movably arranged on a rectangular guide rail, the rectangular guide rail is connected with the turntable, and the pusher is vertically connected with the push ring sleeve; the telescopic link has arranged a pair of along pushing away ring cover central symmetry, and its middle part rotates to be connected on the connecting axle, and the carousel is connected to the connecting axle, and the pusher is connected to telescopic link one end, and the other end rotates actuating lever one end, and the actuating lever other end stretches into in putting the ring canal and connects the bearing template. The device utilizes the mechanical rod piece to complete the positioning of the soldering tin ring, and the cylinder and the rotating motor are matched to complete the placement of the soldering tin ring, so that the automatic and accurate ring placement is realized, and the production efficiency is improved.

Description

Soldering tin ring releasing device

Technical Field

The utility model relates to a production process of a solder ring heat shrinkage tube, in particular to a solder ring releasing device.

Background

When meeting the condition that needs to connect the cable in daily life and industrial production, often utilize insulating tape to twine two cables fixedly and accomplish the wiring, this nevertheless operation is very loaded down with trivial details, and the waterproof, stretch-proofing, the insulating performance of cable after accomplishing the wiring is all lower, and practicality and security are not high.

The soldering tin ring heat-shrinkable tube is a novel wiring tool, and the heat-shrinkable tube can shrink and cover the surface of the cable when heated, so that the protection effects of sealing, water resistance, insulation and stretching resistance are provided; the soldering tin ring is heated and can be fused on the surface of the metal wire inside the cable, so that the conductivity is enhanced, and the connection of the wires is firmer.

At present, the production process of the solder ring heat shrinkable tube comprises ring placement, sleeve pipe, heating and cooling; in the ring placing process, the placing position of the soldering tin ring on the die must be accurate, so that the soldering tin ring in the product is ensured to be positioned at the center of the inner wall of the heat-shrinkable tube, and the produced soldering tin ring heat-shrinkable tube is attractive in appearance and optimal in wiring performance; however, the traditional manual ring-placing is difficult to ensure the accurate ring-placing position, the efficiency is lower, the labor cost is higher, and the practical value and the economic benefit are not great.

Disclosure of Invention

In order to solve the defects of the related prior art, the utility model provides a solder ring placing device, wherein a mechanical rod is used for positioning a solder ring, and the positioning of the solder ring is completed through the cooperation of an air cylinder and a rotating motor, so that automatic and accurate ring placing is realized, and the production efficiency is improved.

In order to achieve the above object, the present utility model adopts the following technique:

a solder ring release device comprising:

a rotary disc, a cylindrical surface of which is connected to a rotary motor through a rod-shaped element, the rotary motor is arranged on a telescopic rod of an air cylinder;

the placing components are symmetrically arranged at the center of the central shaft of the turntable and are connected with the turntable, and each placing component comprises a placing ring pipe, a pushing ring sleeve, a pusher and a telescopic rod;

a support template is arranged in the pipe cavity of the ring pipe, one side of the support template is connected with a spring seat through a spring, and the spring seat is fixed on the inner wall of the ring pipe;

the push ring sleeve is sleeved on the outer surface of the ring placing pipe, and the head of the push ring sleeve is provided with a section of vacant position for placing the soldering tin ring from the head of the ring placing pipe;

the pusher is symmetrically arranged along the center of the push ring sleeve, the pusher is movably arranged on a rectangular guide rail, the rectangular guide rail is connected with the turntable, the pusher is vertically connected with a connecting column, and the connecting column is vertically connected with the push ring sleeve;

the telescopic link has been arranged a pair of along pushing away ring cover central symmetry, and wherein rotates to be connected on the connecting axle, and the connecting axle is connected the carousel, and telescopic link both ends are the expansion end, and the pusher is connected to one expansion end, and another expansion end rotates to be connected actuating lever one end, and the actuating lever other end stretches into in putting the ring pipe and connects and hold template one side.

Further, the rotary table is connected with an auxiliary rotary table through a round rod on the cylindrical surface of the rotary motor.

Further, a connecting hole is formed in one side face of the rectangular guide rail, the rectangular guide rails on the same horizontal plane are connected through guide rail connecting rods penetrating through the connecting hole, an auxiliary rotating rod penetrates through the side wall of the auxiliary rotating disc, and two ends of the auxiliary rotating rod are vertically connected with the guide rail connecting rods.

Further, the main rotating rod is arranged on the side wall of the turntable in a penetrating way, and two ends of the main rotating rod are vertically connected with the connecting shaft.

Further, the pusher comprises at least two limit heads and at least one limit rod connected with the limit heads.

Further, when the spring is in an original state, the telescopic rod is perpendicular to the ring setting pipe.

The utility model has the beneficial effects that:

1. the automatic ring taking and releasing technology is adopted, so that the automatic ring taking and releasing are realized, and the production efficiency of the solder ring heat shrinkage tube is improved;

2. the ring-releasing operation is completed through the mechanical movement of the rod body, so that the ring is precisely released, and the qualification rate of the heat-shrinkable ring of the produced soldering tin tube is higher.

Drawings

Fig. 1 is a side view of an embodiment of the present utility model.

Fig. 2 is a perspective view of the overall structure of an embodiment of the present utility model.

Fig. 3 is a partial view of a top view of an embodiment of the present utility model.

FIG. 4 is a cross-sectional view of the A-A plane of FIG. 3 in accordance with an embodiment of the present utility model.

The marks in the figure: 1-turntable, 11-auxiliary turntable, 111-main rotating rod, 112-auxiliary rotating rod, 12-rotating motor, 13-cylinder, 2-placing component, 21-placing ring pipe, 211-supporting template, 212-spring, 213-spring seat, 22-pushing ring sleeve, 23-pusher, 231-limit head, 232-limit rod, 233-rectangular guide rail, 234-connecting hole, 235-guide rail connecting rod, 24-telescopic rod, 241-driving rod, 242-connecting shaft and 3-soldering tin ring.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

As shown in fig. 1, the embodiment provides a solder ring placing device, which comprises a turntable 1 and a placing assembly 2.

Specifically, as shown in fig. 2, the turntable 1 is in a short cylindrical shape, a rod-shaped element is fixed at the center of one cylindrical surface of the turntable, the other end of the rod-shaped element is connected to the center of an output shaft of the rotary motor 12, the rotary motor 12 is fixed on a telescopic shaft of the air cylinder 13, the rotary motor 12 is responsible for the circular motion of the device, and the air cylinder 13 is responsible for the axial motion of the device. The other cylindrical surface of the turntable 1 is connected with a secondary turntable 11 through a round rod. Preferably, in order to align the ring setting pipe 21 with the solder ring heat shrinkage pipe die and the solder ring conveying device, an infrared transmitter is arranged on the cylindrical surface of the turntable 1 facing the rotary motor 12, a signal receiver is arranged on the rotary motor 12, a signal decoder is arranged inside the rotary motor 12, the signal decoder controls the rotary motor 12 to stop rotating when the signal receiver receives a signal, and a timer is arranged in the infrared transmitter and the air cylinder 13 to transmit infrared rays and telescopic connecting rods according to a specified frequency.

Specifically, as shown in fig. 2, the placement components 2 are a pair, are symmetrically arranged on the central axis of the turntable 1, and are all connected with the turntable 1; the placement assembly 2 comprises a placement ring tube 21, a push ring sleeve 22, a pusher 23 and a telescopic rod 24.

Specifically, as shown in fig. 2 and fig. 4, a support plate 211 is disposed inside the cavity of the ring setting pipe 21, one surface of the support plate 211 is used for supporting a mold, and the other surface of the support plate 211 is connected to a spring seat 213 through a spring 212, specifically, in this example, two springs 212 and two spring seats 213 are used for restraining the axial movement of the support plate 211, and the spring seats 213 are fixed on the inner wall of the cavity of the ring setting pipe 21.

Specifically, as shown in fig. 2, the push ring sleeve 22 is sleeved on the outer surface of the ring setting pipe 21, and a free position is arranged at the head of the push ring sleeve 22 from the head of the ring setting pipe 21 for setting the solder ring 3, and the push ring sleeve 22 can axially reciprocate on the ring setting pipe 21 to push the solder ring 3 set at the free position to the corresponding position of the mold rod.

Specifically, as shown in fig. 2 and 4, the pusher 23 includes at least two limit heads 231 and at least one limit rod 232, and specifically, in this example, the pusher 23 includes two limit heads 231 and one limit rod 232, and the limit heads 231 are connected by the limit rods 232 disposed transversely. A rectangular guide rail 233 is arranged on one side of the pusher 23, specifically, the rectangular guide rail 233 is a cuboid, a strip-shaped chute is hollowed out on the side surface of the rectangular guide rail 233, the top surface and the side wall of one end of the limiting head 231 are attached to the inner wall of the rectangular guide rail 233, and the pusher 23 axially reciprocates under the constraint of the rectangular guide rail 233. The pusher 23 has a limiting head 231, and a lower side wall of one end of the limiting head away from the rectangular guide rail 233 is connected to an outer surface of the push ring 22 through a connecting column perpendicular to the push ring 22, so as to drive the push ring 3 to axially reciprocate. A side of the rectangular guide 233 is provided with a connection hole 234, and specifically, in this example, an upper surface of the rectangular guide 233 is provided with the connection hole 234. The rectangular guide rails 233 on the same horizontal plane are connected by guide rail connecting rods 235 penetrating through the connecting holes 234, the side walls of the auxiliary turntables 11 are penetrated with auxiliary turntables 112, and two ends of the auxiliary turntables are vertically connected with the guide rail connecting rods 235.

Specifically, as shown in fig. 2, the telescopic rods 24 are symmetrically arranged along the center of the push ring sleeve 22, and a collar is arranged at the middle of the telescopic rods and sleeved on the connecting shaft 242. The two ends of the rod body are movable ends, specifically, in the example, the movable ends are annular, one movable end and one end of the driving rod 241 are sleeved on the same shaft, and the other end of the driving rod 241 is connected with the other surface of the bearing template 21; the other movable end is sleeved on a limiting head 231. The side wall of the turntable 1 is penetrated with a main rotation rod 111, and both ends thereof are vertically connected to a connection shaft 242.

The present example, when applied, may operate as follows:

and when the receiver receives the signal of the infrared transmitter, the decoder controls the rotary motor 12 to stop rotating, and at the moment, the two ring setting pipes 21 respectively correspond to a mold rod needing ring setting and a mold rod used for providing the soldering tin ring 3 for the ring setting pipes. The telescopic rod of the air cylinder 13 extends forwards to enable the ring setting pipe 21 to receive the soldering tin ring 3, after the receiving is finished, the telescopic rod of the air cylinder 13 retracts, the rotary motor 12 rotates again, the transmitter stops rotating after receiving the signal, and at the moment, the ring setting pipe 21 which receives the soldering tin ring 3 rotates to be in the same straight line with the die rod. The connecting rod of the air cylinder 13 extends forwards to drive the ring setting pipe 21 to extend into the ring setting pipe 21 and prop against the bearing plate 211, the bearing plate 211 moves axially to drive the driving rod 241 to move after being stressed, and meanwhile, the spring 212 is compressed; the driving rod 241 moves to drive the telescopic rod 24 to do circular motion around the connecting shaft 242, the pusher 23 is driven to do axial motion under the constraint of the rectangular guide rail 233, and then the pushing ring sleeve 22 is driven to horizontally move through the connecting column, so that the soldering tin ring 3 is pushed onto the die rod; when the spring 212 is compressed to the bottom, the cylinder 13 stops the extension of the telescopic rod, starts to retract, and after the telescopic rod is retracted to a proper position, the spring 212 is restored to a natural state, the rotary motor 12 rotates again, so that the ring placing pipe without the solder ring 3 is aligned with the rod for providing the solder ring 3, the ring placing pipe 21 with the solder ring 3 is aligned with the mould rod with the ring needing to be placed, and the process is repeated.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the utility model, and it will be apparent to those skilled in the art that various modifications and variations can be made in the present utility model without departing from the spirit and scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. A solder ring release device, the device comprising:

a rotary table (1), a cylindrical surface of which is connected to a rotary motor (12) through a rod-shaped element, the rotary motor (12) is installed on a telescopic rod of an air cylinder (13);

the placing components (2) are arranged in a pair in a central symmetry way by the central shaft of the turntable (1) and are connected with the turntable (1), and the placing components (2) comprise a placing ring pipe (21), a pushing ring sleeve (22), a pusher (23) and a telescopic rod (24);

a support template (211) is arranged in the pipe cavity of the ring setting pipe (21), one side of the support template (211) is connected with a spring seat (213) through a spring (212), and the spring seat (213) is fixed on the inner wall of the ring setting pipe (21);

the push ring sleeve (22) is sleeved on the outer surface of the ring placing pipe (21), and the head of the push ring sleeve (22) is provided with a section of vacant position from the head of the ring placing pipe (21) for placing the soldering tin ring (3);

the pushing devices (23) are symmetrically arranged along the center of the pushing ring sleeve (22), the pushing devices (23) are movably arranged on the rectangular guide rail (233), the rectangular guide rail (233) is connected with the turntable (1), the pushing devices (23) are vertically connected with connecting columns, and the connecting columns are vertically connected with the pushing ring sleeve (22);

the telescopic rods (24) are symmetrically arranged along the center of the push ring sleeve (22), the middle parts of the telescopic rods are rotationally connected to the connecting shafts (242), the connecting shafts (242) are connected with the rotary table (1), two ends of each telescopic rod (24) are movable ends, one movable end is connected with the pusher (23), the other movable end is rotationally connected with one end of the driving rod (241), and the other end of the driving rod (241) extends into the ring tube (21) and is connected with one side of the support template (211).

2. Solder ring placing device according to claim 1, characterized in that the cylindrical surface of the turntable (1) facing away from the rotary motor (12) is connected with a secondary turntable (11) by means of a round bar.

3. The solder ring placing device according to claim 2, wherein a connecting hole (234) is provided on one side of the rectangular guide rail (233), the rectangular guide rail (233) on the same horizontal plane is connected by a guide rail connecting rod (235) penetrating through the connecting hole (234), a secondary rotating rod (112) is penetrated on the side wall of the secondary rotating disc (11), and two ends of the secondary rotating rod are vertically connected to the guide rail connecting rod (235).

4. Solder ring releasing device according to claim 1, characterized in that the side wall of the turntable (1) is provided with a main rotation rod (111) which is vertically connected to the connecting shaft (242) at both ends.

5. Solder ring release device according to claim 1, characterized in that the pusher (23) comprises at least two limit heads (231) and at least one limit rod (232) connected to the limit heads (231), the limit heads (231) being both slidingly fitted to the rectangular guide rail (233).

6. Solder ring release device according to claim 1, characterized in that the telescopic rod (24) is perpendicular to the ring setting pipe (21) when the spring (212) is in its natural state.