CN218351298U - Capacitor core flattening mechanism - Google Patents

Abstract

The utility model relates to a flattening mechanism technical field especially relates to an electric capacity core flattening mechanism, and this mechanism includes: a conveying mechanism and a flattening mechanism; the conveying mechanism comprises a first power device, and the first power device is connected with the flattening mechanism and provides reciprocating power for the flattening mechanism; the flattening mechanism comprises a second power device, a fixed plate, a baffle plate and a movable plate; the second power device is fixed on the fixed plate, the driving rod of the second power device is connected with the guide rod through the connecting block, the guide rod penetrates through the fixed plate and is fixedly connected with the movable plate, the baffle is rotatably connected with the fixed plate and is obliquely arranged at a certain angle between the fixed plate and the baffle, one end of the second power device is a fixed end and is in contact with one side of the fixed plate, which is far away from the first power device, and the other end of the second power device is a free end and can move. The device has the advantages of simple structure, convenience in installation, simplified action flow, improved processing quality and reduced failure rate.

Description

Capacitor core flattening mechanism

Technical Field

The utility model relates to a flattening mechanism technical field especially relates to an electric capacity core flattening mechanism.

Background

In the manufacturing process of the capacitor, the capacitor is usually wound on a winding needle, the winding needle is drawn out to form a circular ring shape, and the wound core is sent to a flattening mechanism to be flattened and then subjected to the next process.

In the existing production equipment, the flattening mechanisms disclosed in patent documents CN215680428U and CN209843525U are complex in structure and large in occupied space, and meanwhile, the related structural design of the equipment makes the processes of material receiving, conveying and the like complicated, and the processing efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to the defect of background art, provide an electric capacity core flattening mechanism, this flattening mechanism simple structure, constitution spare part are less, and simple to operate is swift, occupation space is little, manufacturing cost is lower, and the process flow is more simple, improves processingquality and efficiency.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a condenser core flattening mechanism, comprising: a conveying mechanism and a flattening mechanism;

the conveying mechanism comprises a first power device, and the first power device is connected with the flattening mechanism and provides reciprocating power for the flattening mechanism;

the flattening mechanism comprises a second power device, a fixed plate, a baffle plate and a movable plate; the second power device is fixed on the fixed plate, a driving rod of the second power device is connected with a guide rod through a connecting block, the guide rod penetrates through the fixed plate and the movable plate and is fixedly connected with the fixed plate, the baffle is rotatably connected with the fixed plate and is obliquely arranged at a certain angle between the fixed plate and the baffle, one end of the fixed end is in contact with one side of the fixed plate, which is far away from the first power device, and the other end of the fixed end is a free end and can move.

Furthermore, an elastic resetting structure I is arranged on the upper end face of the fixing plate and connected with the baffle, the baffle is of an L-shaped structure, a first edge of the L-shaped structure is connected with the elastic resetting structure I, and a second edge of the L-shaped structure is obliquely arranged between the fixing plate and the baffle.

Furthermore, an adjusting block is arranged on the fixing plate, the adjusting block is arranged in the groove body on the fixing plate and abuts against the part, protruding out of the fixing plate, of the baffle plate, and the position of the adjusting block in the groove body is adjustable.

Furthermore, blocking pieces are arranged at two ends of the movable plate and protrude out of the surface of the movable plate facing the fixed plate.

Further, still include the scale, the scale is vertical to be installed between fixed plate and the fly leaf, the scale towards the fly leaf to the direction that the fly leaf removed extends.

Furthermore, an elastic resetting structure II is arranged on the guide rod, and is arranged on one section of the guide rod between the fixed plate and the movable plate to provide elastic resetting force for the movable plate.

Furthermore, a distance is reserved between the free end of the baffle and the movable plate and is used for the capacitor core to pass through after being flattened.

The discharging device is composed of a bottom plate and two side plates, is fixedly connected with the flattening mechanism through one end side plate, and is connected with the movable plate along the discharging direction of the capacitor core.

The flattening device comprises a first power device, a second power device and a flattening mechanism, wherein the first power device is used for driving the flattening mechanism to move along the sliding rail.

The beneficial effects of the utility model are that: the capacitor core flattening mechanism is simplified in structure, few in component parts, more rapid and convenient to install and smaller in occupied space, in addition, the action flow in the production and machining process is reduced, a material receiving mechanism and a material feeding mechanism which are complex in structure are omitted, the quality is guaranteed, the working efficiency is improved, and the failure rate is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a capacitor core flattening mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another view angle of the capacitor core flattening mechanism according to the embodiment of the present invention;

FIG. 3 is a schematic view of a core receiving step of a capacitor core flattening mechanism;

FIG. 4 is a schematic diagram of a flattening step of a capacitor core flattening mechanism;

FIG. 5 is a schematic view of a pressure discharge step of the condenser core flattening mechanism;

reference numerals are as follows: 1. a transfer mechanism; 11. a first power unit; 12. a slide rail; 2. a flattening mechanism; 21. a second power unit; 22. a fixing plate; 221. an elastic reset structure I; 222. an adjusting block; 23. a baffle plate; 24. a movable plate 241, a baffle plate; 25. a guide bar; 251. a second elastic reset structure; 26. a scale; 3. and a discharging device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

A condenser core flattening mechanism, as shown in fig. 1 and 2, comprising: a conveying mechanism 1 and a flattening mechanism 2; the conveying mechanism 1 comprises a first power device 11, the first power device 11 is connected with the flattening mechanism 2, and the first power device 11 provides reciprocating power for the flattening mechanism 2; the flattening mechanism 2 comprises a second power device 21, a fixed plate 22, a baffle plate 23 and a movable plate 24; the second power device 21 is fixed on the fixed plate 22, a driving rod of the second power device 21 is connected with a guide rod 25 through a connecting block, the guide rod 25 penetrates through the fixed plate 22 and is fixedly connected with the movable plate 24, the baffle plate 23 is rotatably connected with the fixed plate 22 and is obliquely arranged between the fixed plate 22 and the baffle plate 23 at a certain angle, one end of the fixed end is in contact with one side of the fixed plate 22, which is far away from the first power device 11, and the other end of the fixed end is a free end and can move.

In the specific implementation process, as shown in fig. 3 to 5, the apparatus is inclined by a certain angle to be close to the winding mechanism, the first cylinder pushes the flattening mechanism 2 to move forward to the capacitor core between the winding pins, the capacitor core is located between the fixed plate 22 and the movable plate 24 at the moment, a certain distance is left between the fixed plate 22 and the movable plate 24 to form a feed inlet, a space of the feed inlet can accommodate the circular capacitor core, the baffle 23 is obliquely placed between the fixed plate 22 and the movable plate 24 at a certain angle to block the capacitor core from falling off, then the second power device 21 drives the movable plate 24 to move towards the fixed plate 22 to press the capacitor core, and the baffle 23 is rotationally connected with the fixed plate 22, so that the free end of the baffle 23 rotates under the pressure until the baffle 23 is attached to the fixed plate 22, the capacitor core is flattened, and the guide rod 25 is arranged to ensure that the movable plate 24 moves in the fixed direction without being offset in other directions, thereby enabling the flattening precision to be higher.

After a group of flattening processes are finished, the baffle plate 23 needs to return to an initial position to block the capacitor core in the next group of processing processes, the upper end surface of the fixed plate 22 is provided with an elastic resetting structure I221, the elastic resetting structure I221 is connected with the baffle plate 23, the baffle plate 23 is of an L-shaped structure, the first edge of the L-shaped structure is connected with the elastic resetting structure I221, the second edge of the L-shaped structure is obliquely arranged between the fixed plate 22 and the baffle plate 23, when the baffle plate 23 is pressed to be attached to the fixed plate 22 by the movable plate 24, the elastic resetting structure I221 is tensioned, when the movable plate 24 moves downwards, the capacitor core does not abut against the baffle plate 23 any more, and the baffle plate 23 returns to the initial position under the action of elastic resetting force.

Preferably, the fixing plate 22 is provided with an adjusting block 222, the adjusting block 222 is mounted in a groove body on the fixing plate 22 and mounted on a part of the fixing plate 22 protruding from the baffle plate 23 in a propping manner, the position of the adjusting block 222 in the groove body can be adjusted, the position of the adjusting block 222 can be changed, the inclination angle of the baffle plate 23 between the fixing plate 22 and the movable plate 24 can be changed, capacitor cores with different widths can be flattened, and the applicability of the flattening mechanism 2 is further improved.

In order to prevent the circular capacitor element from rolling out when entering the collapsing mechanism 2, the movable plate 24 is provided with a blocking piece 241 at both ends, and the blocking piece 241 protrudes from the surface of the movable plate 24 facing the fixed plate 22.

As a preference of the above embodiment, the adjustable clamp further comprises a scale 26, the scale 26 is vertically installed between the fixed plate 22 and the movable plate 24, the scale is toward the movable plate 24 and extends toward the moving direction of the movable plate 24, and the scale 26 is arranged to facilitate the adjustment and calibration of the position of the movable plate 24, so that the adjustment precision of the movable plate 24 is improved, and the adjustment efficiency is improved.

As a preferable preference of the above embodiment, the second elastic restoring structure 251 is mounted on the guide rod 25, the second elastic restoring structure 251 is disposed on a section of the guide rod 25 between the fixed plate 22 and the movable plate 24, when the second power device 21 drives the movable plate 24 to move up, the second elastic restoring structure 251 between the movable plate 24 and the fixed plate 22 is compressed, after the second power device 21 releases the force, and the second elastic restoring structure 251 provides the elastic restoring force for the movable plate 24.

The free end of the baffle 23 is spaced from the movable plate 24, the height difference exists before and after the capacitor core is flattened, the flattened capacitor core can freely pass through the space, the equipment is obliquely arranged, so that the labor is not needed, an additional conveying and discharging structure is not needed, the capacitor core slides down from the free end to the movable plate 24 under the action of gravity, the flattening mechanism 2 is discharged, and the equipment and the process are simplified.

In order to facilitate discharging and collect the processed capacitor cores, the discharging device 3 is additionally arranged behind the movable plate 24, the discharging device 3 consists of a bottom plate and two side plates and is fixedly connected with the flattening mechanism 2 through one end side plate, the movable plate 24 is connected to the discharging device 3 along the discharging direction of the capacitor cores, and the capacitor cores slide out of the movable plate 24 and then slide into the collecting device or are processed on the next step through the discharging device 3.

Preferably, the embodiment further comprises a slide rail 12, the slide rail 12 is connected with the flattening mechanism 2, and the flattening mechanism 2 moves along the slide rail 12 under the driving of the first power device 11, so as to fix and guide the flattening mechanism 2.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A condenser core flattening mechanism, comprising: a conveying mechanism and a flattening mechanism;

the conveying mechanism comprises a first power device, and the first power device is connected with the flattening mechanism and provides reciprocating power for the flattening mechanism;

the flattening mechanism comprises a second power device, a fixed plate, a baffle plate and a movable plate; the second power device is fixed on the fixed plate, a driving rod of the second power device is connected with a guide rod through a connecting block, the guide rod penetrates through the fixed plate and the movable plate and is fixedly connected with the fixed plate, the baffle is rotatably connected with the fixed plate and is obliquely arranged at a certain angle between the fixed plate and the baffle, one end of the fixed end is in contact with one side of the fixed plate, which is far away from the first power device, and the other end of the fixed end is a free end and can move.

2. The condenser core flattening mechanism of claim 1, wherein a first elastic resetting structure is arranged on the upper end surface of the fixing plate, the first elastic resetting structure is connected with the baffle plate, the baffle plate is in an L-shaped structure, a first edge of the L-shaped structure is connected with the first elastic resetting structure, and a second edge of the L-shaped structure is obliquely arranged between the fixing plate and the baffle plate.

3. The capacitor core flattening mechanism according to claim 1, wherein an adjusting block is arranged on the fixing plate, the adjusting block is arranged in a groove body on the fixing plate and abuts against a part of the baffle plate protruding out of the fixing plate, and the position of the adjusting block in the groove body is adjustable.

4. The capacitor core flattening mechanism of claim 3, wherein blocking plates are disposed at two ends of the movable plate, and the blocking plates protrude from the surface of the movable plate facing the fixed plate.

5. The condenser core flattening mechanism of claim 3, further comprising a scale vertically mounted between the fixed plate and the movable plate, wherein the scale is oriented toward the movable plate and extends in a direction of movement of the movable plate.

6. The condenser core flattening mechanism according to claim 1, wherein a second elastic restoring structure is mounted on the guide rod, and the second elastic restoring structure is disposed on a section of the guide rod between the fixed plate and the movable plate to provide an elastic restoring force to the movable plate.

7. The capacitor core flattening mechanism of claim 1, wherein the free end of the baffle is spaced from the movable plate for passage of the capacitor core after flattening.

8. The capacitor core flattening mechanism according to claim 7, further comprising a discharging device, wherein the discharging device is composed of a bottom plate and two side plates, the discharging device is fixedly connected with the flattening mechanism through one end side plate, and the discharging device is connected with the movable plate along the discharging direction of the capacitor core.

9. The capacitor core flattening mechanism of claim 1, further comprising a slide rail connected to the flattening mechanism, wherein the flattening mechanism moves along the slide rail under the driving of the first power device.

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