CN215473936U - Multi-station capacitor coding and fixing device - Google Patents

Abstract

The utility model discloses a multi-station capacitor coding fixing device which comprises a base, wherein a supporting box, a fixing plate and a plurality of coder mounting rails are fixed at the top end of the base, the coder mounting rails are positioned on the outer side of the supporting box, multi-station rotating and fixing machining structures are mounted at the top and the inner side of the supporting box, a discharging structure which is detachably connected is connected to one vertical side of the fixing plate, each multi-station rotating and fixing machining structure comprises a motor, a rotating rod, a gear, a worm, a station disc, a cylinder, a sliding plate, a supporting plate and a stop block, the motor is fixedly connected with the top end of the base, an output shaft of the motor is fixedly connected with the worm, and one end of the worm is positioned in the supporting box. The utility model greatly improves the production efficiency, ensures the stability of the volume proportion among various solid materials, has strong applicability, ingenious design, stable structure and convenient use, and meets the use requirements of people in the coding and fixing process of the capacitor.

Description

Multi-station capacitor coding and fixing device

Technical Field

The utility model relates to the technical field of fixing tools, in particular to a multi-station capacitor coding fixing device.

Background

The capacitor is formed by two conductors which are close to each other and a non-conductive insulating medium is sandwiched between the two conductors, when a voltage is applied between two plates of the capacitor, the capacitor stores electric charges, the capacitance of the capacitor is equal to the ratio of the electric charge on one conductive plate to the voltage between the two plates in value, the basic unit of the capacitance of the capacitor is farad (F), a capacitor element is generally represented by a letter C in a circuit diagram, the application of the capacitor is very wide, and related data such as the limit value and the like need to be printed on the outer wall of the capacitor so as to avoid error use.

Although many existing coding devices exist, the existing coding devices have some problems inevitably when the capacitors are fixed:

1. the existing code printing fixing devices are mostly single stations and code printing is carried out one by one, so that the code printing efficiency of the capacitor is low, the time consumption is long, and the manufacturing cost is increased;

2. the existing code printing fixing device is fixed during blanking, a certain time needs to be delayed between the two devices, and part of the devices need to be fixed manually, so that the automation degree is low, and the manual burden is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects of inconvenient material taking and installation and low coding efficiency in the prior art, and provides a multi-station capacitor coding fixing device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a multi-station capacitor coding fixing device comprises a base, wherein a supporting box, a fixing plate and a plurality of coder mounting rails are fixed to the top end of the base, the coder mounting rails are located on the outer side of the supporting box, multi-station rotating and fixing machining structures are mounted at the top and the inner side of the supporting box, and a discharging structure which is detachably connected is connected to one vertical side of the fixing plate;

the multi-station rotating and fixing processing structure comprises a motor, a rotating rod, a gear, a worm, a station disc, a cylinder, a material sliding plate, a support plate and a stop block, the motor is fixedly connected with the top end of the base, an output shaft of the motor is fixedly connected with the worm, one end of the worm is positioned in the supporting box, the other end of the worm extends to the outer side of the supporting box and is rotatably connected with the supporting box, the bottom end of the rotating rod is rotatably connected with the inner bottom of the supporting box, the top end of the gear box extends to the top side of the supporting box and is connected with a head sleeve, a gear which is coaxially fixed in the middle of the supporting box is meshed with the worm, the station disc is coaxially and fixedly connected with the top of the rotating rod, and is provided with a plurality of stations, a stop block fixedly connected with the station disc is fixed on the same side of the bottom end of each station, the cylinder is provided with a plurality of sliding plates which are respectively fixed at the edges of each station, the sliding plates are obliquely arranged at the bottom side of the station disc, and the support plates are detachably connected with the sliding plates and are parallel to the station disc;

unloading structure is including dialling board, lower magazine, slider, guide rail pole, reset spring one, splint, reset spring two and spout, it is equipped with a plurality ofly to dial the board, its one end and connecting rod top fixed connection, and the other end extends to the top side of lower magazine, and its height is less than the slider peak, the vertical outer wall of lower magazine can be dismantled with the guide rail pole and be connected, the slider top articulates there is the arc structure, its bottom and splint fixed connection, and its inside cavity that is equipped with, bottom surface fixed connection in reset spring one end and the cavity, the arc structure bottom fixed connection at the other end and slider top, spout sliding connection in splint top and the unloading box, just reset spring two is fixed in between splint and the vertical inner wall of unloading box.

Preferably, the height between the support plate and the station disc is the same as that of a capacitor, the distance between the lowest end of the blanking box and the bottom surface of the station disc is the same as that of the capacitor, and the height of the stop block is smaller than the distance between the top end of the sliding material plate and the bottom surface of the station disc.

Preferably, the height of the dialing plate is higher than the height of an externally-mounted code printer on the code printer mounting rail, and the dialing plates are dispersedly and uniformly fixed at the top end of the connecting rod.

Preferably, both ends of the code printer mounting rail are fixedly connected with end position stop blocks.

Preferably, the inner surface of the sliding plate is smooth, the two ends of the sliding plate are provided with baffles which are perpendicular to the inclined surface of the sliding plate, and the bottom end of the sliding plate is connected with an external conveying belt.

Preferably, the vertical side of the clamping plate, which is far away from the sliding groove, is fixed with anti-skid rubber.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through mutual cooperation among all the components, semi-automation of the capacitor coding process is realized, the time for mounting and fixing one by one is greatly reduced, the manual operation burden is reduced, and the cost is reduced to a certain extent;

2. according to the utility model, the device can carry out one-by-one blanking and automatic fixing on a plurality of capacitors through the blanking structure, and multi-station operation is carried out, so that the coding efficiency of the device is greatly improved, and the device is ingenious and stable in overall structural design and convenient to operate.

The utility model greatly improves the production efficiency, ensures the stability of the volume proportion among various solid materials, has strong applicability, ingenious design, stable structure and convenient use, and meets the use requirements of people in the coding and fixing process of the capacitor.

Drawings

Fig. 1 is a schematic perspective view of a multi-station capacitor coding fixing device according to the present invention;

fig. 2 is a schematic front view of a multi-station capacitor coding fixing device according to the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A in FIG. 2;

fig. 4 is a schematic side sectional view of a blanking box of the multi-station capacitor coding fixing device according to the present invention.

In the figure: the automatic feeding device comprises a base 1, a coder mounting rail 2, a support box 3, a motor 4, a fixing plate 5, a rotating rod 6, a gear 7, a worm 8, a station disc 9, a cylinder 10, a sliding plate 11, a support plate 12, a stop block 13, an end cap 14, a connecting rod 15, a shifting plate 16, a blanking box 17, a sliding block 18, a guide rail rod 19, a first return spring 20, a clamping plate 21, a second return spring 22, a sliding groove 23 and an end stop block 24.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example one

Referring to fig. 1-4, a multi-station capacitor coding fixing device comprises a base 1, wherein a supporting box 3, a fixing plate 5 and a plurality of coder mounting rails 2 are fixed at the top end of the base 1, the coder mounting rails 2 are positioned on the outer side of the supporting box 3, multi-station rotating and fixing processing structures are mounted at the top and the inner side of the supporting box 3, a detachably connected blanking structure is connected to one vertical side of the fixing plate 5, a capacitor is clamped and fixed through the multi-station rotating and fixing processing structures and is sequentially coded, automatic blanking and capacitor fixing are achieved through the blanking structure, and operation time is shortened;

the multi-station rotating and fixing processing structure comprises a motor 4, a rotating rod 6, a gear 7, a worm 8, a station disc 9, a cylinder 10, a sliding plate 11, a support plate 12 and a stop block 13, wherein the motor 4 is fixedly connected with the top end of a base 1, an output shaft of the motor is fixedly connected with the worm 8, one end of the worm 8 is positioned inside a support box 3, the other end of the worm 8 extends to the outer side of the support box 3 and is rotatably connected with the support box 3, the bottom end of the rotating rod 6 is rotatably connected with the bottom inside the support box 3, the top end of the rotating rod extends to the top side of the support box 3 and is connected with an end cap 14, the gear 7 coaxially fixed in the middle of the support box 3 is meshed with the worm 8, the station disc 9 is coaxially and fixedly connected with the top of the rotating rod 6, the station disc is provided with a plurality of stations, the stop blocks 13 fixedly connected with the station disc 9 are fixed on the same side of the bottom end of each station, the cylinder 10 is provided with a plurality of stop blocks respectively fixed on each edge of each station, the sliding plate 11 is obliquely arranged on the bottom side of the station disc 9, the support plate 12 is detachably connected with the sliding plate 11 and is parallel to the station disc 9, when the device is used, the motor 4 intermittently rotates to drive the worm 8 to synchronously rotate, the worm 8 is meshed with the gear 7 to drive the rotating rod 6 to rotate, so that the station disc 9 synchronously rotates along with the worm, the capacitor is fixed in each station of the station disc 9 and is clamped and fixed through the cylinder 10, the cylinder 10 loosens after moving along with the station disc 9 for one circle, the capacitor is replaced, the marked capacitor falls onto the support plate 12, and after the station disc 9 rotates again, the stop block 13 is in contact with the marked capacitor and falls onto the sliding plate 11 for conveying;

the blanking structure comprises a plurality of shifting plates 16, a blanking box 17, a slide block 18, a guide rail rod 19, a first return spring 20, a clamping plate 21, a second return spring 22 and a sliding groove 23, wherein one end of each of the shifting plates 16 is fixedly connected with the top end of a connecting rod 15, the other end of each of the shifting plates extends to the top side of the blanking box 17, the height of each of the shifting plates is lower than the highest point of the slide block 18, the vertical outer wall of the blanking box 17 is detachably connected with the guide rail rod 19, the top of the slide block 18 is hinged with an arc-shaped structure, the bottom end of the slide block 18 is fixedly connected with the clamping plate 21, a cavity is formed in the bottom of the slide block, one end of the first return spring 20 is fixedly connected with the inner bottom surface of the cavity, the other end of the arc-shaped structure is fixedly connected with the bottom end of the top of the slide block 18, the top of the clamping plate 21 is slidably connected with the sliding groove 23 in the blanking box 17, the second return spring 22 is fixed between the clamping plate 21 and the vertical inner wall of the blanking box 17, when a capacitor is filled, the slide block 18 is pulled to install the blanking box on the guide rail rod 19, the shifting plate 16 shifts the sliding block 18 to enable the clamping plate 21 to move along with the shifting plate, the capacitor in the blanking box 17 is loosened, the capacitor at the lowest position falls into a station, the shifting plate 16 continues to move, the radian of the top of the sliding block 18 is turned over and separated from the shifting plate 16, the capacitor in the blanking box 17 is fixed again under the action of the first return spring 20 and the second return spring 22, and the next blanking is waited.

Example two

Referring to fig. 1 to 4, in this embodiment, basically the same as the first embodiment, it is more preferable that the height between the support plate 12 and the station disk 9 is the same as the height of a capacitor, the distance between the lowest end of the blanking box 17 and the bottom surface of the station disk 9 is the same as the height of the capacitor, and the height of the stopper 13 is smaller than the distance between the top end of the material sliding plate 11 and the bottom surface of the station disk 9, so as to ensure the smoothness of blanking of the capacitor, thereby ensuring the stability of fixing the capacitor;

the height of the dialing plate 16 is higher than that of the code printer arranged on the code printer mounting rail 2, and the dialing plates 16 are uniformly fixed at the top end of the connecting rod 15 in a distributed mode, so that the dialing plate 16 is prevented from encountering obstacles in the rotating process, and the code printer is ensured to be normally operated;

both ends of the code printer mounting rail 2 are fixedly connected with end position stop blocks 24, the position of the code printer is limited, and the code printer is prevented from moving away from the code printer mounting rail 2;

the inner surface of the sliding plate 11 is smooth, the two ends of the sliding plate are provided with baffles which are perpendicular to the inclined surface of the sliding plate 11, the bottom end of the sliding plate 11 is connected with an external conveyor belt, the sliding plate 11 is convenient for transporting the coded capacitors, and the coded capacitors are prevented from being accumulated;

the vertical one side that splint 21 kept away from spout 23 is fixed with anti-skidding rubber, strengthens the friction between splint 21 and the condenser to guarantee the fastness of splint 21 to the condenser is fixed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A multi-station capacitor coding fixing device comprises a base (1), wherein a supporting box (3), a fixing plate (5) and a plurality of coder mounting rails (2) are fixed to the top end of the base (1), and the coder mounting rails (2) are located on the outer side of the supporting box (3), and the multi-station capacitor coding fixing device is characterized in that multi-station rotating and fixing machining structures are mounted at the top and the inner side of the supporting box (3), and a detachably connected blanking structure is connected to one vertical side of the fixing plate (5);

the multi-station rotating and fixing machining structure comprises a motor (4), a rotating rod (6), a gear (7), a worm (8), a station disc (9), a cylinder (10), a material sliding plate (11), a support plate (12) and a stop block (13), wherein the motor (4) is fixedly connected with the top end of a base (1), an output shaft of the motor is fixedly connected with the worm (8), one end of the worm (8) is positioned inside a support box (3), the other end of the worm (8) extends to the outer side of the support box (3) and is rotatably connected with the support box (3), the bottom end of the rotating rod (6) is rotatably connected with the inner bottom of the support box (3), the top end of the rotating rod extends to the top side of the support box (3) and is connected with an end cap (14), the gear (7) coaxially fixed in the middle of the support box (3) is meshed with the worm (8), the station disc (9) is coaxially fixedly connected with the top of the rotating rod (6) and is provided with a plurality of stations, a stop block (13) fixedly connected with the station disc (9) is fixed on the same side of the bottom end of each station, a plurality of edges fixed to each station are arranged on the air cylinder (10), the sliding plate (11) is obliquely arranged on the bottom side of the station disc (9), and the support plate (12) is detachably connected with the sliding plate (11) and is parallel to the station disc (9);

the blanking structure comprises a shifting plate (16), a blanking box (17), a sliding block (18), a guide rail rod (19), a first reset spring (20), a clamping plate (21), a second reset spring (22) and a sliding groove (23), wherein the shifting plate (16) is provided with a plurality of parts, one end of the shifting plate is fixedly connected with the top end of a connecting rod (15), the other end of the shifting plate extends to the top side of the blanking box (17), the height of the shifting plate is lower than the highest point of the sliding block (18), the vertical outer wall of the blanking box (17) is detachably connected with the guide rail rod (19), the top of the sliding block (18) is hinged with an arc-shaped structure, the bottom end of the sliding block is fixedly connected with the clamping plate (21), a cavity is arranged in the sliding structure, one end of the first reset spring (20) is fixedly connected with the inner bottom surface of the cavity, the other end of the sliding block (18) is fixedly connected with the bottom end of the arc-shaped structure, the top of the clamping plate (21) is slidably connected with the sliding groove (23) in the blanking box (17), and the second return spring (22) is fixed between the clamping plate (21) and the vertical inner wall of the blanking box (17).

2. A multi-station capacitor coding fixing device according to claim 1, wherein the height between the support plate (12) and the station disc (9) is the same as the height of a capacitor, the distance between the lowest end of the lower material box (17) and the bottom surface of the station disc (9) is the same as the height of the capacitor, and the height of the stop block (13) is smaller than the distance between the top end of the material sliding plate (11) and the bottom surface of the station disc (9).

3. A multi-station capacitor coding fixing device according to claim 1, wherein the height of the dialing plate (16) is higher than the height of the outer-mounted coder on the coder mounting rail (2), and each dialing plate (16) is dispersedly and uniformly fixed on the top end of the connecting rod (15).

4. A multi-station capacitor coding fixing device according to claim 1, wherein both ends of the coding mounting rail (2) are fixedly connected with end position stoppers (24).

5. A multi-station capacitor coding and fixing device as claimed in claim 1, wherein the inner surface of the material sliding plate (11) is smooth, and two ends of the material sliding plate are provided with baffles which are perpendicular to the inclined surface of the material sliding plate (11), and the bottom end of the material sliding plate (11) is connected with an external conveyor belt.

6. A multi-station capacitor coding fixing device according to claim 1, wherein an anti-slip rubber is fixed on the vertical side of the clamping plate (21) far away from the sliding groove (23).

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