CN116315968A - Semi-automatic capper of spring probe - Google Patents

Abstract

The utility model discloses a spring type probe semiautomatic sealing machine which comprises a mounting plate, wherein a substrate is contacted with the mounting plate, a fine adjustment assembly is contacted with the substrate, a fixed block is connected to the interior of the fine adjustment assembly in a sliding manner, the fixed block is fixedly connected with the substrate, a sliding assembly is contacted with the substrate, a dovetail block is fixedly connected to the sliding assembly, the dovetail block is connected with the substrate in a sliding manner, a mounting mechanism is arranged on the substrate, a limiting mechanism is arranged on the fine adjustment assembly, and a connecting mechanism is arranged on the sliding assembly. The utility model relates to a spring type probe semi-automatic sealing machine which has the characteristics of convenient installation and use and convenient disassembly, overhaul and maintenance of each component.

Description

Semi-automatic capper of spring probe

Technical Field

The utility model belongs to the technical field of sealing machines, and particularly relates to a spring type probe semi-automatic sealing machine.

Background

The spring type probe is formed by riveting and prepressing three basic components of a needle shaft, a spring and a sleeve through a precise instrument, wherein the needle shaft and the spring are preset in the sleeve. When in use, the probe is electrified or conducted, most of the probe is in inclined downward contact with the copper wall through one end of the needle shaft, and the spring bears a small amount of gravity, so that the inner wall of the needle tube (copper sleeve) is required to be smooth. Normally, the spring is in a compressed state within the sleeve. To prevent the spring from deforming and recovering, the sleeve needs to be sealed, and a small section of sleeve is pressed inwards to form a sealing groove, so that the spring is limited from being ejected. Common needle tube sealing modes are divided into two types: automatic sealing and manual sealing. The automatic sealing needs special automatic sealing equipment, the special equipment is high in price, the small-scale production cost is high, and the automatic sealing equipment is suitable for mass production; the manual sealing requires that operators have certain operation proficiency, the sealing precision cannot be ensured, and the production efficiency is low.

The utility model patent with publication number CN210838409U discloses a semi-automatic sealing machine of miniature spring type probe, comprising: the device comprises a base, a connecting block A, X shaft sliding assembly and a Z shaft fine adjustment assembly, wherein the connecting block A and the X shaft sliding assembly are arranged on the base, and the Z shaft fine adjustment assembly is arranged on the connecting block A; the X-axis sliding assembly includes: the X-axis sliding table is arranged on the fixed sliding table and can move along the fixed sliding table, the connecting plate C is arranged on the X-axis sliding table, the probe fixing base is arranged on the connecting plate C and used for placing a probe, and the probe fixing block is arranged on the probe fixing base and used for pressing the probe; the problem that current manual formula capper precision is poor, inefficiency can be solved to this patent.

However, in the above patent, when the sealing machine is used, the substrate is usually used after being mounted with the workbench by adopting a bolt mode, but the bolt mounting process is complicated, the mounting is also performed by means of a tool, and the fine adjustment assembly and the sliding assembly are inconvenient to detach from the substrate when the maintenance is required. Therefore, it is necessary to design a spring type probe semi-automatic sealer.

Disclosure of Invention

The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide a spring type probe semi-automatic sealing machine, which solves the above-mentioned problems of the related art.

In order to solve the problems, the utility model provides a technical scheme that:

the utility model provides a semi-automatic capper of spring probe, includes the mounting panel, the contact has the base plate on the mounting panel, the contact has the trimming subassembly on the base plate, the inside sliding connection of trimming subassembly has the fixed block, fixed block and base plate fixed connection, the contact has the sliding component on the base plate, fixedly connected with forked tail piece on the sliding component, forked tail piece and base plate sliding connection, be provided with installation mechanism on the base plate, be provided with stop gear on the trimming subassembly, be provided with coupling mechanism on the sliding component.

Preferably, the mounting mechanism comprises an inserting block, a sliding seat, a sliding block, a fixing rod, a first spring, a connecting rod, a pressing block, a guide block and a guide groove, wherein the inserting block is connected to the mounting plate in a sliding manner, the sliding seat is fixedly connected to the inserting block, the sliding seat is connected with the mounting plate in a sliding manner, the sliding seat is connected with the base plate in a sliding manner, the sliding block is fixedly connected to the sliding seat, the sliding block is connected with the base plate in a sliding manner, the fixing rod is fixedly connected with the base plate, the first spring is arranged on the outer side of the fixing rod, the connecting rod is fixedly connected to the sliding seat, the pressing block is fixedly connected to the connecting rod, the pressing block is connected with the base plate in a sliding manner, and the guide block is fixedly connected to the pressing block and is connected with the base plate in a sliding manner. When the base plate needs to be installed, the pressing block is pressed firstly, the pressing block drives the guide block to slide along the guide groove, the pressing block drives the connecting rod to horizontally move, the connecting rod drives the sliding seat to horizontally move, the sliding seat drives the sliding block to slide along the fixing rod, the sliding block can extrude the first spring, meanwhile, the sliding seat drives the inserting block to horizontally move, then the base plate is placed on the mounting plate, the pressing block is slowly loosened, the sliding seat is driven by the sliding block to reset through the elastic effect of the first spring, at the moment, the sliding seat drives the inserting block to horizontally move, the inserting block is inserted into the mounting plate, the base plate can be limited, the whole structure can be installed and used, the installation process is convenient and fast, and the operation is convenient.

Preferably, the limiting mechanism comprises a limiting groove, a limiting block, a push block, a slide rod and a second spring, wherein the limiting groove is formed in the fixed block, the limiting block is connected with the limiting block in a sliding mode, the limiting block is connected with the fine adjustment assembly in a sliding mode, the push block is fixedly connected with the limiting block, the push block is connected with the fine adjustment assembly in a sliding mode, the slide rod is fixedly connected with the push block, the slide rod is connected with the base plate in a sliding mode, and the second spring is arranged on the outer side of the slide rod. When the fine adjustment assembly is required to be disassembled, the push block is directly and horizontally pushed, the push block drives the sliding rod to horizontally move, the push block extrudes the second spring, and meanwhile, the push block drives the limiting block to horizontally move, so that the limiting block can slide out of the fixed block, and then the fine adjustment assembly can be disassembled by directly and upwardly moving the fine adjustment assembly, and overhaul and maintenance work of the fine adjustment assembly are convenient to carry out.

Preferably, the connecting mechanism comprises a dovetail groove, a stop block, a connecting rod and a third spring, wherein the dovetail groove is formed in the base plate, the dovetail block is slidably connected in the dovetail groove, the stop block is slidably connected with the sliding assembly, the stop block is slidably connected with the base plate, the connecting block is fixedly connected with the stop block, the connecting block is slidably connected with the sliding assembly, the connecting rod is slidably connected with the connecting block in the connecting block, the connecting rod is slidably connected with the sliding assembly, and the third spring is arranged on the outer side of the connecting rod. When the sliding assembly is required to be disassembled, the stop block is pushed upwards, the stop block drives the connecting block to move upwards, the connecting block slides along the sliding assembly and the connecting rod, the connecting block can extrude the third spring, the stop block is separated from the base plate at the moment, then the sliding assembly is horizontally slid, the sliding assembly drives the dovetail block to slide in the dovetail groove until the dovetail block completely slides out, and the sliding assembly can be disassembled, so that overhauling and maintenance work of the sliding assembly can be conveniently carried out.

Preferably, one end of the first spring is fixedly connected with the sliding block, and the other end of the first spring is fixedly connected with the sliding seat. By designing the first spring such that the force of the first spring can act on the slider.

Preferably, the base plate is provided with a guide groove, and the guide block is connected inside the guide groove in a sliding manner. By designing the guide slot, the guide block can slide in the guide slot.

Preferably, one end of the second spring is fixedly connected with the fine adjustment assembly, and the other end of the second spring is fixedly connected with the pushing block. By designing the second spring such that the force of the second spring can act on the push block.

Preferably, one end of the third spring is fixedly connected with the connecting block, and the other end of the third spring is fixedly connected with the sliding component. By designing the third spring, the force of the third spring can act on the connecting block.

The beneficial effects of the utility model are as follows: the utility model relates to a spring type probe semi-automatic sealing machine, which has the characteristics of convenient installation and use and convenient disassembly, overhaul and maintenance of each component, and in the specific use, compared with the traditional spring type probe semi-automatic sealing machine, the spring type probe semi-automatic sealing machine has the following two beneficial effects:

firstly, through the sliding connection of the sliding seat and the mounting plate, the sliding seat and the horizontal direction of the substrate can be limited, and through the insertion of the insertion block and the mounting plate, the vertical direction of the sliding seat can be limited, so that the purpose of connecting and fixing the substrate and the mounting plate is achieved, the mounting and the use of the whole structure can be completed, the mounting process is convenient and quick, and the operation is convenient;

secondly, through the grafting of design stopper and fixed block, can carry out spacingly to the trimming subassembly, can be fixed with being connected with the base plate, and can realize the separation of stopper and fixed block through promoting the ejector pad, can be convenient dismantle the trimming subassembly, through the cooperation of dovetail and dovetail, can carry out spacingly with the vertical direction of sliding subassembly, and the dog can carry out spacingly to the horizontal direction of sliding subassembly with the base plate contact, and then can be fixed with the sliding subassembly installation, and the dog can directly promote with the base plate separation, conveniently carry out the dismantlement of sliding subassembly, make the dismantlement of trimming subassembly, sliding subassembly that can be convenient under the circumstances that does not carry out the base plate and demolish, the going on of convenient maintenance work.

Drawings

For ease of illustration, the utility model is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a front cross-sectional view of FIG. 1 of the present utility model;

FIG. 3 is a top cross-sectional view of a portion of the slide assembly of FIG. 2 in accordance with the present utility model;

FIG. 4 is an enlarged view of the utility model at A of FIG. 2;

FIG. 5 is an enlarged view of the utility model at B of FIG. 2;

fig. 6 is an enlarged view of fig. 2 at C in accordance with the present utility model.

In the figure: 1. a mounting plate; 2. a substrate; 3. a fixed block; 4. a fine tuning assembly; 5. a sliding assembly; 6. dovetail blocks; 7. a mounting mechanism; 8. a limiting mechanism; 9. a connecting mechanism; 71. inserting blocks; 72. a slide; 73. a slide block; 74. a fixed rod; 75. a first spring; 76. a connecting rod; 77. pressing the blocks; 78. a guide block; 79. a guide groove; 81. a limit groove; 82. a limiting block; 83. a pushing block; 84. a slide bar; 85. a second spring; 91. a dovetail groove; 92. a stop block; 93. a connecting block; 94. a connecting rod; 95. and a third spring.

Detailed Description

As shown in fig. 1-6, the present embodiment adopts the following technical scheme:

examples:

the utility model provides a semi-automatic capper of spring probe, includes mounting panel 1, the contact has base plate 2 on the mounting panel 1, the contact has fine setting subassembly 4 on the base plate 2, the inside sliding connection of fine setting subassembly 4 has fixed block 3, fixed block 3 and base plate 2 fixed connection, the contact has sliding component 5 on the base plate 2, fixedly connected with forked tail piece 6 on the sliding component 5, forked tail piece 6 and base plate 2 sliding connection, be provided with installation mechanism 7 on the base plate 2, be provided with stop gear 8 on the fine setting subassembly 4, be provided with coupling mechanism 9 on the sliding component 5.

The mounting mechanism 7 comprises an inserting block 71, a sliding seat 72, a sliding block 73, a fixing rod 74, a first spring 75, a connecting rod 76, a pressing block 77, a guide block 78 and a guide groove 79, wherein the inserting block 71 is connected with the inside of the mounting plate 1 in a sliding mode, the sliding seat 72 is fixedly connected with the sliding seat 72, the sliding seat 72 is connected with the mounting plate 1 in a sliding mode, the sliding seat 72 is fixedly connected with the sliding block 73, the sliding block 73 is connected with the substrate 2 in a sliding mode, the fixing rod 74 is fixedly connected with the substrate 2 in a sliding mode, the first spring 75 is arranged on the outer side of the fixing rod 74, the connecting rod 76 is fixedly connected with the sliding seat 72, the connecting rod 76 is connected with the substrate 2 in a sliding mode, the pressing block 77 is fixedly connected with the substrate 76 in a sliding mode, the pressing block 77 is fixedly connected with the guide block 78 is connected with the substrate 2 in a sliding mode, and the guide block 78 is connected with the substrate 2 in a sliding mode. When the substrate 2 needs to be mounted, the pressing block 77 is pressed firstly, the pressing block 77 drives the guide block 78 to slide along the guide groove 79, the pressing block 77 drives the connecting rod 76 to horizontally move, the connecting rod 76 drives the sliding seat 72 to horizontally move, the sliding seat 72 drives the sliding block 73 to slide along the fixing rod 74, the sliding block 73 can squeeze the first spring 75, meanwhile, the sliding seat 72 drives the inserting block 71 to horizontally move, then the substrate 2 is placed on the mounting plate 1, the pressing block 77 is slowly loosened, the sliding seat 73 drives the sliding seat 72 to reset through the elastic action of the first spring 75, at the moment, the sliding seat 72 drives the inserting block 71 to horizontally move, the inserting block 71 is inserted into the mounting plate 1, the substrate 2 can be limited, the mounting and the use of the integral structure can be completed, the mounting process is convenient and rapid, and the operation is convenient.

The limiting mechanism 8 comprises a limiting groove 81, a limiting block 82, a pushing block 83, a sliding rod 84 and a second spring 85, wherein the limiting groove 81 is formed in the fixed block 3, the limiting block 82 is connected with the limiting block 81 in a sliding mode, the limiting block 82 is connected with the fine adjustment assembly 4 in a sliding mode, the pushing block 83 is fixedly connected with the limiting block 82, the pushing block 83 is connected with the fine adjustment assembly 4 in a sliding mode, the sliding rod 84 is fixedly connected with the pushing block 83, the sliding rod 84 is connected with the base plate 2 in a sliding mode, and the second spring 85 is arranged on the outer side of the sliding rod 84. When the fine adjustment assembly 4 needs to be disassembled, the push block 83 is directly and horizontally pushed, the push block 83 drives the sliding rod 84 to horizontally move, the push block 83 extrudes the second spring 85, meanwhile, the push block 83 drives the limiting block 82 to horizontally move, the limiting block 82 can slide out of the fixed block 3, and then the fine adjustment assembly 4 can be directly and upwardly moved to be disassembled, so that the maintenance work of the fine adjustment assembly 4 is facilitated.

The connecting mechanism 9 comprises a dovetail groove 91, a stop block 92, a connecting block 93, a connecting rod 94 and a third spring 95, wherein the dovetail groove 91 is formed in the base plate 2, the dovetail block 6 is slidably connected to the inside of the dovetail groove 91, the stop block 92 is slidably connected to the sliding assembly 5, the stop block 92 is slidably connected with the base plate 2, the connecting block 93 is fixedly connected to the stop block 92, the connecting block 93 is slidably connected with the sliding assembly 5, the connecting rod 94 is slidably connected to the inside of the connecting block 93, the connecting rod 94 is slidably connected with the sliding assembly 5, and the third spring 95 is arranged on the outer side of the connecting rod 94. When the sliding component 5 needs to be disassembled, the stop block 92 is pushed upwards firstly, the stop block 92 drives the connecting block 93 to move upwards, the connecting block 93 slides along the sliding component 5 and the connecting rod 94, the connecting block 93 can squeeze the third spring 95, at the moment, the stop block 92 is separated from the base plate 2, then the sliding component 5 is horizontally slid, the sliding component 5 drives the dovetail block 6 to slide in the dovetail groove 91 until the dovetail block 6 completely slides out, the sliding component 5 can be disassembled, and overhaul and maintenance work of the sliding component 5 can be conveniently carried out.

One end of the first spring 75 is fixedly connected with the sliding block 73, and the other end of the first spring 75 is fixedly connected with the sliding seat 72. By designing the first spring 75, the urging force of the first spring 75 can act on the slider 73.

Wherein, the base plate 2 is provided with a guide groove 79, and a guide block 78 is connected inside the guide groove 79 in a sliding way. By designing the guide slot 79, the guide block 78 can slide within the guide slot 79.

One end of the second spring 85 is fixedly connected with the fine adjustment assembly 4, and the other end of the second spring 85 is fixedly connected with the push block 83. By designing the second spring 85 such that the force of the second spring 85 can act on the push block 83.

One end of the third spring 95 is fixedly connected with the connecting block 93, and the other end of the third spring 95 is fixedly connected with the sliding assembly 5. By designing the third spring 95, the urging force of the third spring 95 can act on the connection block 93.

The use state of the utility model is as follows: when the base plate 2 is required to be mounted, the pressing block 77 is pressed firstly, the pressing block 77 drives the guide block 78 to slide along the guide groove 79, the pressing block 77 drives the connecting rod 76 to horizontally move, the connecting rod 76 drives the sliding seat 72 to horizontally move, the sliding seat 72 drives the sliding block 73 to slide along the fixing rod 74, the sliding block 73 can squeeze the first spring 75, meanwhile, the sliding seat 72 drives the inserting block 71 to horizontally move, then the base plate 2 is placed on the mounting plate 1, the pressing block 77 is slowly loosened, the sliding seat 73 drives the sliding seat 72 to reset through the elastic action of the first spring 75, at the moment, the sliding seat 72 drives the inserting block 71 to horizontally move, the inserting block 71 is inserted into the mounting plate 1, the base plate 2 can be limited, and the mounting structure can be mounted and used. When the fine adjustment assembly 4 needs to be disassembled, the push block 83 is directly and horizontally pushed, the push block 83 drives the sliding rod 84 to horizontally move, the push block 83 extrudes the second spring 85, meanwhile, the push block 83 drives the limiting block 82 to horizontally move, the limiting block 82 can slide out of the fixed block 3, and then the fine adjustment assembly 4 can be directly and upwardly moved to be disassembled, so that the maintenance work of the fine adjustment assembly 4 is facilitated. When the sliding component 5 needs to be disassembled, the stop block 92 is pushed upwards firstly, the stop block 92 drives the connecting block 93 to move upwards, the connecting block 93 slides along the sliding component 5 and the connecting rod 94, the connecting block 93 can squeeze the third spring 95, at the moment, the stop block 92 is separated from the base plate 2, then the sliding component 5 is horizontally slid, the sliding component 5 drives the dovetail block 6 to slide in the dovetail groove 91 until the dovetail block 6 completely slides out, the sliding component 5 can be disassembled, and overhaul and maintenance work of the sliding component 5 can be conveniently carried out.

While the basic principles and main features of the present utility model and advantages of the present utility model have been shown and described, it will be understood by those skilled in the art that the present utility model is not limited by the foregoing embodiments, which are described in the foregoing specification merely illustrate the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a semi-automatic capper of spring probe, includes mounting panel (1), its characterized in that: the utility model discloses a mounting panel, including mounting panel (1), mounting panel (1) are gone up the contact and are had base plate (2), the contact has fine setting subassembly (4) on base plate (2), the inside sliding connection of fine setting subassembly (4) has fixed block (3), fixed block (3) and base plate (2) fixed connection, the contact has sliding component (5) on base plate (2), fixedly connected with forked tail piece (6) on sliding component (5), forked tail piece (6) and base plate (2) sliding connection, be provided with installation mechanism (7) on base plate (2), be provided with stop gear (8) on fine setting subassembly (4), be provided with coupling mechanism (9) on sliding component (5).

2. The spring probe semi-automatic capper of claim 1, wherein: the mounting mechanism (7) comprises an inserting block (71), a sliding seat (72), a sliding block (73), a fixing rod (74), a first spring (75), a connecting rod (76), a pressing block (77), a guide block (78) and a guide groove (79), wherein the inserting block (71) is connected with the inside of the mounting plate (1) in a sliding mode, the sliding seat (72) is fixedly connected with the sliding seat (72) and the mounting plate (1) in a sliding mode, the sliding seat (72) is connected with a base plate (2) in a sliding mode, the sliding block (73) is fixedly connected with the sliding block (73) in a sliding mode, the fixing rod (74) is connected with the base plate (2) in a sliding mode, the first spring (75) is arranged on the outer side of the fixing rod (74), the connecting rod (76) is fixedly connected with the connecting rod (76) in a sliding mode, the connecting rod (76) is fixedly connected with the base plate (2) in a sliding mode, the pressing block (77) is fixedly connected with the connecting rod (76) in a sliding mode, the pressing block (77) is fixedly connected with the base plate (2) in a sliding mode, the fixing rod (77) is fixedly connected with the base plate (78), the guide block (78) is slidably connected to the base plate (2).

3. The spring probe semi-automatic capper of claim 1, wherein: stop gear (8) are including spacing groove (81), stopper (82), ejector pad (83), slide bar (84), second spring (85), set up spacing groove (81) on fixed block (3), the inside sliding connection of spacing groove (81) has stopper (82), stopper (82) and trimming subassembly (4) sliding connection, fixedly connected with ejector pad (83) on stopper (82), ejector pad (83) and trimming subassembly (4) sliding connection, fixedly connected with slide bar (84) on ejector pad (83), slide bar (84) and base plate (2) sliding connection, the outside of slide bar (84) is provided with second spring (85).

4. The spring probe semi-automatic capper of claim 1, wherein: coupling mechanism (9) are including dovetail (91), dog (92), connecting block (93), connecting rod (94), third spring (95), dovetail (91) have been seted up on base plate (2), the inside sliding connection of dovetail (91) has dovetail (6), sliding connection has dog (92) on slider (5), dog (92) and base plate (2) sliding connection, fixedly connected with connecting block (93) on dog (92), connecting block (93) and slider (5) sliding connection, the inside sliding connection of connecting block (93) has connecting rod (94), connecting rod (94) and slider (5) sliding connection, the outside of connecting rod (94) is provided with third spring (95).

5. The spring probe semi-automatic capper of claim 2, wherein: one end of the first spring (75) is fixedly connected with the sliding block (73), and the other end of the first spring (75) is fixedly connected with the sliding seat (72).

6. The spring probe semi-automatic capper of claim 1, wherein: the base plate (2) is provided with a guide groove (79), and the inside of the guide groove (79) is connected with a guide block (78) in a sliding way.

7. A spring probe semi-automatic capper as defined in claim 3, wherein: one end of the second spring (85) is fixedly connected with the fine adjustment assembly (4), and the other end of the second spring (85) is fixedly connected with the pushing block (83).

8. The spring probe semi-automatic capper of claim 4, wherein: one end of the third spring (95) is fixedly connected with the connecting block (93), and the other end of the third spring (95) is fixedly connected with the sliding assembly (5).

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