CN221342904U - Adsorption device for producing power chip attenuation resistor - Google Patents

Abstract

The utility model belongs to the technical field of adsorption equipment, concretely relates to adsorption equipment that power chip type damping resistance production was used, including the organism, still include: a suction cup; a rotating mechanism; a resistor to be absorbed; the machine body drives the rotating mechanism to rotate while driving the rotating mechanism to adsorb the resistor to be sucked after the machine body moves downwards, so that the rotating mechanism pushes the resistor to be sucked and the rotating mechanism to rotate, and the orientation position of the resistor to be sucked is adjusted. The utility model discloses can drive sucking disc downwardly moving through slewing mechanism and adsorb the orientation position of waiting to inhale the resistance when waiting to inhale the resistance for the scattered resistance of waiting of putting before removing neatly puts after removing, so that subsequent processing production, be difficult to adjust after avoiding traditional absorption and wait to inhale the resistance orientation position and lead to removing and still need the operator to put the orderly condition with the resistance after waiting to inhale the resistance, improvement production efficiency.

Description

Adsorption device for producing power chip attenuation resistor

Technical Field

The utility model belongs to the technical field of adsorption equipment, concretely relates to adsorption equipment that power chip type damping resistance production was used.

Background

In the production process of the power chip type attenuation resistor, the resistor is required to be moved by the adsorption device, so that the resistor which is scattered before being moved is orderly placed after being moved, and the subsequent processing and production are facilitated. The adsorption device mainly comprises a machine body, a sucker and an air pump, wherein the sucker is arranged at the bottom of the machine body, and the air pump is connected with the sucker. When the sucking disc is used, the machine body is moved to the upper part of the resistor, the sucking disc is attached to the resistor, air in the sucking disc is pumped after the sucking pump works, negative pressure adsorption force is generated, the sucking disc and the resistor are limited, and therefore the resistor moves along with the movement of the adsorption device, and the resistor is placed neatly.

When the existing adsorption device for producing the power chip attenuation resistor is used, the sucker and the machine body are generally fixedly connected and cannot rotate, so that the direction position of the resistor is difficult to rotate and adjust after the sucker adsorbs the resistor, an operator is required to place the resistor neatly after the resistor is moved, the operation of the mode is complicated, the production speed is influenced, and the production efficiency is low.

Disclosure of utility model

The utility model aims to provide an adsorption device for producing a power chip type damping resistor, which can drive a sucker to downwards move by a rotating mechanism to adsorb the resistor to be adsorbed, and adjust the orientation position of the resistor to be adsorbed, so that the resistor to be adsorbed which is scattered before moving is orderly arranged after moving, thereby facilitating subsequent processing and production, avoiding the situation that operators are required to arrange the resistor orderly after moving the resistor to be adsorbed due to the difficulty in adjusting the orientation position of the resistor to be adsorbed after traditional adsorption, and improving the production efficiency.

The technical scheme adopted by the utility model is as follows:

the utility model provides an adsorption equipment that power chip type decay resistance production was used, includes the organism, still includes:

the sucking disc is rotationally connected to the bottom of the machine body;

The rotating mechanism is in threaded connection with the lower end of the machine body;

the resistor to be sucked is arranged in the rotating mechanism and is positioned below the sucker;

The machine body drives the rotating mechanism to rotate while driving the rotating mechanism to adsorb the resistor to be sucked after the machine body moves downwards, so that the rotating mechanism pushes the resistor to be sucked and the rotating mechanism to rotate, and the orientation position of the resistor to be sucked is adjusted.

The rotating mechanism comprises a cylinder body which is connected with the lower end of the machine body in a threaded mode, pushing components are arranged on two sides of the resistor to be absorbed, and the pushing components are fixedly connected with the cylinder body.

The pushing assembly comprises a connecting arm fixedly connected to the cylinder body, and a push rod is rotatably connected to one end, close to the resistor to be absorbed, of the connecting arm.

The upper part of the cylinder body is provided with a limiting plate which is in sliding connection with the machine body, and the internal thread of the limiting plate is connected with a limiting screw.

The inside of limiting plate has seted up the spout, fixedly connected with draw runner on the organism, draw runner and spout sliding fit.

A spring is arranged between the sucker and the machine body, and the lower end of the spring is abutted with the sucker.

The utility model has the technical effects that:

The rotating mechanism provided by the utility model can adjust the orientation position of the resistor to be sucked when the machine body drives the sucker to move downwards to adsorb the resistor to be sucked, so that the orientation position of the resistor to be sucked is convenient to adjust in the process of adsorbing and moving the resistor to be sucked, the resistors to be sucked which are scattered before moving are orderly arranged after moving, the subsequent processing and production are convenient, the situation that operators are required to arrange the resistors orderly after moving the resistor to be sucked due to the fact that the orientation position of the resistor to be sucked is difficult to adjust after traditional adsorption is avoided, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model at an angle;

FIG. 2 is a schematic view of another angle of the whole structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of the body and the rotating mechanism of the present utility model;

Fig. 4 is an exploded view of the body and the rotating mechanism of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

10. A body; 11. a slide bar; 20. a suction cup; 21. an exhaust pipe; 30. a rotating mechanism; 31. a cylinder; 32. a pushing assembly; 321. a connecting arm; 322. a push rod; 40. a resistor to be absorbed; 50. a limiting plate; 51. a chute; 60. a limit screw; 70. and (3) a spring.

Detailed Description

In order that the objects and advantages of the utility model will become more apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof. It should be understood that the following text is used to describe only one or more specific embodiments of the present utility model and does not strictly limit the scope of protection of the specific claims.

As shown in fig. 1, 2 and 3, an adsorption device for producing a power chip attenuation resistor includes a body 10, and further includes:

The sucking disc 20 is rotationally connected to the bottom of the machine body 10;

the rotating mechanism 30, the rotating mechanism 30 is connected to the lower end of the machine body 10 in a threaded manner;

The resistor 40 to be sucked is arranged in the rotating mechanism 30, and the resistor 40 to be sucked is positioned below the sucker 20;

When the machine body 10 moves downwards to drive the rotating mechanism 30 to adsorb the resistor 40 to be sucked, the machine body 10 drives the rotating mechanism 30 to rotate, so that the rotating mechanism 30 pushes the resistor 40 to be sucked and the rotating mechanism 30 to rotate, and the orientation position of the resistor 40 to be sucked is adjusted.

It should be noted that, the suction cup 20 is further slidably connected with the machine body 10 along a vertical direction, an exhaust tube 21 is slidably provided in the machine body 10, the exhaust tube 21 is further rotationally connected with the machine body 10, one end of the exhaust tube 21 is fixedly connected with the suction cup 20, an air pump not shown in the drawing is mounted at the other end of the exhaust tube 21, a portion of the exhaust tube 21 extending out of the machine body 10 is subjected to bending treatment, a workbench is provided below the resistor 40 to be sucked in an initial state, and the resistor 40 to be sucked is placed on the workbench.

In this embodiment, the machine body 10 is moved to above the resistor 40 to be sucked, the machine body 10 moves downwards to drive the suction cup 20 and the rotating mechanism 30 to move downwards, so that the suction cup 20 contacts with the top of the resistor 40 to be sucked, the suction cup 20 absorbs the resistor 40 to be sucked after acting, the bottom end of the rotating mechanism 30 contacts with the workbench, at the moment, the workbench prevents the rotating mechanism 30 from continuing to move downwards, the resistor 40 to be sucked is placed in the rotating mechanism 30, the machine body 10 drives the rotating mechanism 30 to rotate due to the threaded connection between the machine body 10 and the rotating mechanism 30, the rotating mechanism 30 drives the resistor 40 to be sucked and the suction cup 20 to rotate together, so that the resistor 40 to be sucked rotates to a proper orientation position, meanwhile, the rotating mechanism 30 moves upwards along the machine body 10, so that the distance between the bottom of the machine body 10 and the workbench is reduced, the suction cup 20 slides upwards along the machine body 10, then the device drives the resistor 40 to be sucked to a proper place, the suction cup 20 releases the resistor 40 to be sucked and the device to be separated, and the resistor 40 to be sucked is placed.

The suction pump pumps gas inside the suction cup 20 through the suction tube 21, so that the suction cup 20 is convenient to adsorb the resistor 40 to be sucked.

Based on this, the device adsorbs and removes and wait to inhale resistance 40 and still carries out the adjustment of orientation position to wait to inhale resistance 40, and the scattered resistance 40 of waiting of putting before being convenient for make before removing is neatly put after removing to follow-up processing production, avoid traditional after adsorbing be difficult to adjust wait to inhale resistance 40 orientation position and lead to still need the operator to put the orderly condition of resistance after removing wait to inhale resistance 40, improve production efficiency.

As shown in fig. 2, 3 and 4, the rotating mechanism 30 includes a cylinder 31 screwed at the lower end of the machine body 10, pushing components 32 are disposed on two sides of the resistor 40 to be absorbed, and the pushing components 32 are fixedly connected with the cylinder 31.

The upper end of the inside of the cylinder 31 is provided with an internal thread, the lower end of the outside of the machine body 10 is provided with an external thread, the internal thread is in threaded engagement with the external thread, and the bottom of the cylinder 31 is rounded.

In this embodiment, the machine body 10 moves downward, so that the cylinder 31 is driven to rotate on the workbench, and the cylinder 31 drives the pushing component 32 to push the resistor 40 to be sucked to rotate, so that the machine body 10 drives the sucking disc 20 to adsorb the resistor 40 to be sucked, and the orientation position of the resistor 40 to be sucked is adjusted.

The bottom of the cylinder 31 is rounded, so that friction between the bottom of the cylinder 31 and the workbench is reduced, and the cylinder 31 can rotate on the surface of the workbench.

As shown in fig. 2 and 4, the pushing assembly 32 includes a connecting arm 321 fixedly connected to the cylinder 31, and a push rod 322 is rotatably connected to one end of the connecting arm 321 near the resistor 40 to be sucked.

It should be noted that, the push rods 322 are in abutting fit with the resistor 40 to be sucked, and the distance between the two push rods 322 is equal to the width dimension of the resistor 40 to be sucked.

In this embodiment, after the cylinder 31 rotates, the connecting arm 321 drives the push rod 322 to rotate, so that the push rod 322 pushes the resistor 40 to be sucked to rotate, so as to adjust the orientation position of the resistor 40 to be sucked.

Wherein, the push rod 322 is rotatably connected to the resistor 40 to be sucked, so that friction between the push rod 322 and the resistor 40 to be sucked is reduced during the pushing process of the push rod 322 to the resistor 40 to be sucked.

As shown in fig. 1, 3 and 4, a limiting plate 50 is arranged above the cylinder 31, the limiting plate 50 is slidably connected with the machine body 10, and a limiting screw 60 is connected with the inside of the limiting plate 50 in a threaded manner.

It should be noted that, the limiting plate 50 and the machine body 10 slide up and down along the vertical direction, and in the initial state, one end of the limiting screw 60 close to the machine body 10 is tightly attached to the limiting screw 60.

In this embodiment, the barrel 31 moves upward along the machine body 10 after rotating, so that the top end of the barrel 31 contacts with the bottom end of the limiting plate 50, and since the end of the limiting screw 60 close to the machine body 10 is tightly attached to the limiting screw 60, the limiting screw 60 limits the limiting plate 50 and the machine body 10, so that the relative positions of the limiting plate 50 and the machine body 10 are kept fixed, the limiting plate 50 prevents the barrel 31 from moving upward, the barrel 31 does not rotate any more, the distance between the two push rods 322 is kept fixed, and the direction position of the to-be-absorbed resistor 40 after rotating can be conveniently adjusted.

When the distance between the two push rods 322 needs to be adjusted, the limit screw 60 is rotated, so that the limit screw 60 moves along the limit plate 50 to a side far away from the machine body 10, one end of the limit screw 60 close to the machine body 10 is separated from the machine body 10, limiting between the machine body 10 and the limit plate 50 is released, the limit plate 50 slides up and down along the machine body 10, so that the limit plate 50 moves to a proper height position, the limit screw 60 is rotated to limit the limit plate 50 and the machine body 10, the limit plate 50 prevents the rotating mechanism 30 from continuously moving upwards along the machine body 10, the maximum height of the rotating mechanism 30 moving upwards along the machine body 10 is adjusted, after the rotating mechanism 30 stops rotating, the distance between the two push rods 322 is changed, and the resistance 40 with different width sizes is matched, so that the applicability is improved.

As shown in fig. 1, 3 and 4, a sliding groove 51 is formed in the limiting plate 50, a sliding bar 11 is fixedly connected to the machine body 10, and the sliding bar 11 is in sliding fit with the sliding groove 51.

The sectional shapes of the slide 11 and the chute 51 are dovetail-shaped or T-shaped.

In this embodiment, the sliding strip 11 cooperates with the sliding groove 51, so that the sliding process of the limiting plate 50 along the machine body 10 is more stable.

As shown in fig. 3, a spring 70 is provided between the suction cup 20 and the body 10, and the lower end of the spring 70 abuts against the suction cup 20.

The upper end of the spring 70 is in contact with the body 10.

In this embodiment, in the process that the machine body 10 drives the suction cup 20 to move downwards to adsorb the resistor 40 to be sucked, the distance between the bottom of the machine body 10 and the workbench is reduced, so that the suction cup 20 slides upwards along the machine body 10, at this time, the spring 70 is extruded to reduce the height, after the machine body 10 moves upwards, the distance between the bottom of the machine body 10 and the workbench is increased, and the spring 70 restores the height under the elastic action and pushes the suction cup 20 to move downwards, so that the suction cup 20 is convenient to reset.

The working principle of the utility model is as follows: when the machine body 10 drives the sucking disc 20 to move downwards and adsorb the resistor 40 to be sucked, the machine body 10 also drives the rotating mechanism 30 to move downwards, when the lower end of the rotating mechanism 30 is contacted with the workbench, the workbench prevents the rotating mechanism 30 from continuing to move downwards, the machine body 10 continues to move downwards, the rotating mechanism 30 moves upwards along the machine body 10 and rotates along the machine body 10, the rotating mechanism 30 drives the resistor 40 to be sucked to rotate so as to adjust the orientation position of the resistor 40 to be sucked, thereby being convenient for adjusting the orientation position of the resistor 40 to be sucked in the process of adsorbing and moving the resistor 40 to be sucked, enabling the resistors 40 to be scattered before moving to be orderly arranged after moving, facilitating subsequent processing and production, avoiding the situation that operators are required to place the resistor orderly after the resistor 40 to be sucked is moved due to the fact that the orientation position of the resistor 40 to be sucked is difficult to be adjusted after the traditional adsorption, and improving the production efficiency.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model. Structures, devices and methods of operation not specifically described and illustrated in the present application are all implemented by conventional means in the art unless specifically indicated and limited.

Claims (6)

1. An adsorption device for producing a power chip attenuation resistor is characterized in that,

Comprising a body (10), further comprising:

The sucking disc (20) is rotationally connected to the bottom of the machine body (10);

The rotating mechanism (30) is in threaded connection with the lower end of the machine body (10);

The resistor to be sucked (40) is arranged in the rotating mechanism (30), and the resistor to be sucked (40) is positioned below the sucker (20);

the machine body (10) drives the rotating mechanism (30) to adsorb the resistor (40) to be absorbed after moving downwards, and meanwhile, the machine body (10) drives the rotating mechanism (30) to rotate, so that the rotating mechanism (30) pushes the resistor (40) to be absorbed and the rotating mechanism (30) to rotate, and the orientation position of the resistor (40) to be absorbed is adjusted.

2. The adsorption device for producing a power chip attenuation resistor according to claim 1, wherein: the rotating mechanism (30) comprises a cylinder body (31) which is connected to the lower end of the machine body (10) in a threaded mode, pushing components (32) are arranged on two sides of the resistor (40) to be absorbed, and the pushing components (32) are fixedly connected with the cylinder body (31).

3. The adsorption device for producing a power chip attenuation resistor according to claim 2, wherein: the pushing assembly (32) comprises a connecting arm (321) fixedly connected to the cylinder body (31), and a push rod (322) is rotatably connected to one end, close to the resistor to be absorbed (40), of the connecting arm (321).

4. The adsorption device for producing a power chip attenuation resistor according to claim 3, wherein: the utility model discloses a barrel, including barrel (31), barrel, locating plate (50) are equipped with to the top of barrel (31), locating plate (50) and organism (10) sliding connection, the inside threaded connection of locating plate (50) has stop screw (60).

5. The adsorption device for producing a power chip resistor according to claim 4, wherein: the inside of limiting plate (50) has seted up spout (51), fixedly connected with draw runner (11) on organism (10), draw runner (11) and spout (51) sliding fit.

6. The adsorption device for producing a power chip attenuation resistor according to claim 1, wherein: a spring (70) is arranged between the sucker (20) and the machine body (10), and the lower end of the spring (70) is abutted against the sucker (20).