CN220196381U - Device for processing top pinhole of anode plate - Google Patents

Abstract

The utility model discloses a device for processing a top pinhole of an anode plate, which comprises a processing table, a drilling mechanism arranged on the processing table, a moving mechanism for driving the drilling mechanism to move and a moving positioning mechanism, wherein a processing tank for placing the anode plate is arranged in the processing table, and a fixed positioning mechanism is arranged in the processing tank; the movable positioning mechanisms are provided with two groups in total, and the two groups of movable positioning mechanisms are arranged on the processing table and positioned on two sides of the drilling mechanism; the movable positioning mechanism comprises a limiting assembly, a translation frame and a power piece, wherein the limiting assembly comprises two groups of limiting rollers; this device of processing anode plate thimble hole, when drilling mechanism is in the removal when carrying out drilling operation to the anode plate, remove positioning mechanism also can remove for remove positioning mechanism and can cooperate near drilling mechanism, the quality in hole has also been guaranteed to the stability of effectual improvement anode plate operation of punching, and the practicality is better.

Description

Device for processing top pinhole of anode plate

Technical Field

The utility model belongs to the technical field of anode plates, and particularly relates to a device for processing an anode plate top pinhole.

Background

The anode plate thimble hole need use drilling equipment when processing, in order to guarantee the stability of anode plate when drilling, need use positioner to stabilize the injecing of anode plate, but the anode plate all has certain length, when punching the operation to longer anode plate, fixed position's positioner can not support steadily this department position of anode plate in the vicinity of punching the operation, leads to the anode plate to appear the uneven condition that damages of punching of atress easily, still can influence the overall quality of anode plate when influencing the punching operation of anode plate.

Disclosure of Invention

The utility model aims to: the utility model provides a device of processing anode plate thimble hole to when solving among the prior art to longer anode plate and punching the operation, fixed position's positioner can not support stably to this department position of anode plate in the vicinity of punching the operation, leads to the anode plate to appear the uneven condition that damages that punches of atress easily, still can influence the problem of the whole quality of anode plate when influencing the punching operation of anode plate.

The technical scheme is as follows:

the device for processing the top pinhole of the anode plate comprises a processing table, a drilling mechanism arranged on the processing table, a moving mechanism for driving the drilling mechanism to move and a moving positioning mechanism, wherein a processing tank for placing the anode plate is arranged in the processing table, and a fixed positioning mechanism is arranged in the processing tank;

the movable positioning mechanisms are provided with two groups in total, and the two groups of movable positioning mechanisms are arranged on the processing table and positioned on two sides of the drilling mechanism;

the movable positioning mechanism comprises a limiting assembly, a translation frame and a power piece, wherein the limiting assembly comprises two groups of limiting rollers, the two groups of limiting rollers are connected with the translation frame, and the power piece drives the translation frame to move so as to drive the limiting rollers to move on the surface of the anode plate;

the two groups of limit rollers are respectively attached to the upper surface and the lower surface of the anode plate.

In a further embodiment, two through holes are formed at positions corresponding to the two moving and positioning mechanisms on two sides of the processing table, and the through holes are communicated with the processing tank for the anode plates to pass through in parallel;

four fixed positioning mechanisms are arranged in the processing groove, the four fixed positioning mechanisms are arranged in pairs and divided into two groups, and the two fixed positioning mechanisms in each group are arranged along the length direction of the perforation.

In a further embodiment, the fixing and positioning mechanism comprises a U-shaped clamping seat, a clamping plate is arranged in the U-shaped clamping seat, the clamping plate is connected with a telescopic cylinder, and the clamping plate is propped against the anode plate.

In a further embodiment, the length of the limit roller is less than the horizontal separation distance between two oppositely arranged U-shaped clamping seats;

the limiting assembly further comprises a connecting seat, the limiting roller is arranged in the connecting seat, and the connecting seat is connected with the translation frame;

the two ends of the limit roller are rotatably connected to a rotating seat through a rotating shaft, the rotating seat is slidably connected with the connecting seat through a sliding piece, and the rotating seat is also connected with the connecting seat through a buffer piece;

the buffer piece comprises an inserting rod, one end of the inserting rod is fixed on the rotating seat, the other end of the inserting rod is inserted into a slot formed in the connecting seat, and a spring is arranged in the slot;

the two ends of the spring are respectively connected with the end part of the inserted link and the bottom of the slot, the spring stretches along with the sliding of the inserted link in the slot, and the stretching direction and the stretching range of the spring are consistent with the sliding reverse direction and the sliding range of the sliding piece; the setting can avoid the condition that the limit roller can not rotate to appear, and the limit roller can play a certain buffering role for the anode plate in punching.

In a further embodiment, the translation frame comprises a screw rod and a long rod, wherein one end of the screw rod and one end of the long rod are respectively connected with the two connecting seats, and the other ends of the screw rod and the long rod are both connected to the connecting rods;

perforations corresponding to the perforation positions and allowing the anode plate to pass through are also formed in the connecting rod;

the long rod is connected with the processing table in a penetrating and sliding manner, a threaded sleeve matched with threads is sleeved on the screw rod, and the threaded sleeve is rotationally arranged on the processing table; the power piece can drive the screw rod and the long rod to move simultaneously.

In a further embodiment, the power member comprises a motor, a first gear is mounted at the output end of the motor, the first gear is in meshed connection with a second gear, and the second gear is mounted on the threaded sleeve.

The utility model has the beneficial effects that: the anode plate is firstly placed in the processing tank, the fixed positioning mechanisms are firstly used for limiting the positions close to the two ends of the anode plate, at the moment, the movable positioning mechanisms are positioned between the two fixed positioning mechanisms and are clamped and limited on the anode plate, when the drilling mechanism drills the anode plate in the moving process, the movable positioning mechanisms can also move, so that the movable positioning mechanisms can be matched near the drilling mechanism, the anode plate is stably supported, the stability of the punching operation of the anode plate is effectively improved, the quality of holes is also guaranteed, and the practicability is better.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present utility model.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

Fig. 3 is a schematic side sectional view of the limit roller and the connecting seat of the present utility model.

Fig. 4 is a schematic top cross-sectional view of the processing station of the present utility model.

The reference numerals are: the device comprises a processing table 1, a drilling mechanism 11, a processing tank 12, a perforation 13, a collecting box 14, an anode plate 2, a fixed positioning mechanism 3, a movable positioning mechanism 4, a limiting assembly 5, a connecting seat 51, a limiting roller 52, a rotating seat 53, a sliding piece 531, a buffer piece 54, a plug rod 541, a slot 542, a spring 543, a translation frame 6, a screw rod 61, a long rod 62, a connecting rod 63, a power piece 7, a motor 71, a first gear 72, a threaded sleeve 73 and a second gear 74.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

The present utility model will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-4, the device for processing a top pinhole of an anode plate disclosed by the utility model comprises a processing table 1, a drilling mechanism 11 arranged on the processing table 1, a moving mechanism for driving the drilling mechanism 11 to move and a moving positioning mechanism 4, wherein a processing groove 12 for placing the anode plate 2 is formed in the processing table 1, and a fixed positioning mechanism 3 is arranged in the processing groove 12; the movable positioning mechanisms 4 are provided with two groups in total, and the two groups of movable positioning mechanisms 4 are arranged on the processing table 1 and positioned on two sides of the drilling mechanism 11; the movable positioning mechanism 4 comprises a limiting assembly 5, a translation frame 6 and a power piece 7, wherein the limiting assembly 5 comprises two groups of limiting rollers 52, the two groups of limiting rollers 52 are connected with the translation frame 6, and the power piece 7 drives the translation frame 6 to move so as to drive the limiting rollers 52 to move on the surface of the anode plate 2; the two sets of limit rollers 52 are respectively attached to the upper and lower surfaces of the anode plate 2.

Two through holes 13 are formed in positions, corresponding to the two moving and positioning mechanisms 4, on two sides of the processing table 1, and the through holes 13 are communicated with the processing tank 12 to enable the anode plate 2 to pass through in parallel; four fixed positioning mechanisms 3 are arranged in the processing groove 12, the four fixed positioning mechanisms 3 are arranged in pairs and divided into two groups, and the two fixed positioning mechanisms 3 in each group are arranged along the length direction of the perforation 13; the fixed positioning mechanism 3 clamps and limits the anode plate 2 at the two ends close to the anode plate 2, the anode plate 2 is placed in the processing tank 12 for drilling operation, which is beneficial to collecting scraps, and the bottom of the processing tank 12 is provided with a collecting box 14 for collecting scraps generated during drilling; the fixing and positioning mechanism 3 comprises a U-shaped clamping seat, a clamping plate is arranged in the U-shaped clamping seat, the clamping plate is connected with a telescopic cylinder, and the clamping plate is propped against the anode plate 2; the anode plate 2 is placed on the two clamping plates after passing through the perforation 13, and the cylinder is retracted so that the clamping plates define the anode plate 2.

The length of the limit roller 52 is smaller than the horizontal distance between two oppositely arranged U-shaped clamping seats; so that the limit roller 52 does not interfere with the U-shaped clamping seat when moving left and right; the limiting assembly 5 further comprises a connecting seat 51, the limiting roller 52 is arranged in the connecting seat 51, and the connecting seat 51 is connected with the translation frame 6; the two ends of the limit roller 52 are rotatably connected to a rotating seat 53 through a rotating shaft, the rotating seat 53 is slidably connected with the connecting seat 51 through a sliding piece 531, and the rotating seat 53 is also connected with the connecting seat 51 through a buffer piece 54; the buffer member 54 includes a plug-in lever 541, one end of the plug-in lever 541 is fixed on the rotating seat 53, the other end of the plug-in lever 541 is inserted into a slot 542 formed in the connecting seat 51, and a spring 543 is disposed in the slot 542; the two ends of the spring 543 are respectively connected with the end of the inserting rod 541 and the bottom of the slot 542, the spring 543 stretches and contracts along with the sliding of the inserting rod 541 in the slot 542, and the stretching direction and stretching range of the spring 543 are consistent with the sliding direction and sliding range of the sliding piece 531; the slider 531 includes the slider of installing on rotating seat 53, and the slider slides from top to bottom in the spout for limit cylinder 52 can not produce too big friction with the surface of anode plate 2, leads to limit cylinder 52 unable along with translation frame 6 removal, and limit cylinder 52 also can take place to rotate along with translation frame 6 removal, and limit cylinder 52's surface is equipped with the adsorbed layer, can adsorb dust and dirt on the anode plate 2.

The translation frame 6 comprises a screw rod 61 and a long rod 62, one ends of the screw rod 61 and the long rod 62 are respectively connected with the two connecting seats 51, and the other ends are connected to a connecting rod 63; perforations 13 corresponding to the positions of the perforations 13 and through which the anode plate 2 passes are also formed in the connecting rod 63; the long rod 62 is in penetrating sliding connection with the processing table 1, a threaded sleeve 73 in threaded fit is sleeved on the screw rod 61, and the threaded sleeve 73 is rotatably arranged on the processing table 1; when the translation frame 6 translates under the action of the power piece 7, the connecting seat 51 is driven to move horizontally, so that the position of the limiting roller 52 is changed, and the two limiting rollers 52 positioned at the upper and lower positions of the anode plate 2 can be supported and limited near the drilling position.

The power piece 7 comprises a motor 71, a first gear 72 is arranged at the output end of the motor 71, the first gear 72 is in meshed connection with a second gear 74, and the second gear 74 is arranged on the threaded sleeve 73; when the motor 71 is operated, the gear drives the threaded sleeve 73 to rotate, so that the screw rod 61 horizontally moves, and the screw rod 61 pulls the long rod 62 to slide along with the long rod through the connecting rod 63, so that the upper limit roller 52 and the lower limit roller 52 can simultaneously move.

The implementation principle of the utility model is as follows: the anode plate 2 is firstly placed in the processing tank 12, the positions of the two ends of the anode plate 2 are fixed by using the fixed positioning mechanism, then the drilling mechanism 11 is started and the movable positioning mechanism is started, so that when the drilling mechanism 11 moves to a proper position for drilling, the limiting roller 52 can be limited on the anode plate 2 and positioned on the two sides of the drilling mechanism 11, and the efficient and stable operation of the drilling operation is ensured.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various equivalent changes can be made to the technical solutions of the present utility model within the scope of the technical concept of the present utility model, and these equivalent changes all fall within the scope of the present utility model.

Claims (6)

1. The utility model provides a device of processing anode plate thimble hole, includes the processing platform, locates drilling mechanism on the processing platform still be equipped with the drive on the processing platform drilling mechanism removes moving mechanism, its characterized in that: the device also comprises a movable positioning mechanism, wherein a processing tank for placing the anode plate is arranged in the processing table, and a fixed positioning mechanism is arranged in the processing tank;

the movable positioning mechanisms are provided with two groups in total, and the two groups of movable positioning mechanisms are arranged on the processing table and positioned on two sides of the drilling mechanism;

the movable positioning mechanism comprises a limiting assembly, a translation frame and a power piece, wherein the limiting assembly comprises two groups of limiting rollers, the two groups of limiting rollers are connected with the translation frame, and the power piece drives the translation frame to move so as to drive the limiting rollers to move on the surface of the anode plate;

the two groups of limit rollers are respectively attached to the upper surface and the lower surface of the anode plate.

2. The apparatus for machining a top pinhole of an anode plate of claim 1, wherein: two perforations are arranged at the two sides of the processing table and at the positions corresponding to the two movable positioning mechanisms, and the perforations are communicated with the processing tank for the anode plates to pass through in parallel;

four fixed positioning mechanisms are arranged in the processing groove, the four fixed positioning mechanisms are arranged in pairs and divided into two groups, and the two fixed positioning mechanisms in each group are arranged along the length direction of the perforation.

3. The apparatus for machining a top pinhole of an anode plate of claim 2, wherein: the fixing and positioning mechanism comprises a U-shaped clamping seat, a clamping plate is arranged in the U-shaped clamping seat and connected with a telescopic cylinder, and the clamping plate is propped against the anode plate.

4. A device for machining a top pinhole of an anode plate as claimed in claim 3, wherein: the length of the limit roller is smaller than the horizontal distance between the two oppositely arranged U-shaped clamping seats;

the limiting assembly further comprises a connecting seat, the limiting roller is arranged in the connecting seat, and the connecting seat is connected with the translation frame;

the two ends of the limit roller are rotatably connected to a rotating seat through a rotating shaft, the rotating seat is slidably connected with the connecting seat through a sliding piece, and the rotating seat is also connected with the connecting seat through a buffer piece;

the buffer piece comprises an inserting rod, one end of the inserting rod is fixed on the rotating seat, the other end of the inserting rod is inserted into a slot formed in the connecting seat, and a spring is arranged in the slot;

the two ends of the spring are respectively connected with the end part of the inserted link and the bottom of the slot, the spring stretches along with the sliding of the inserted link in the slot, and the stretching direction and the stretching range of the spring are consistent with the sliding reverse direction and the sliding range of the sliding piece.

5. The apparatus for machining a top pinhole of an anode plate of claim 4, wherein: the translation frame comprises a screw rod and a long rod, one ends of the screw rod and the long rod are respectively connected with the two connecting seats, and the other ends of the screw rod and the long rod are connected to the connecting rods;

perforations corresponding to the perforation positions and allowing the anode plate to pass through are also formed in the connecting rod;

the long rod is in penetrating sliding connection with the processing table, a threaded sleeve in threaded fit is sleeved on the screw rod, and the threaded sleeve is rotationally arranged on the processing table.

6. The apparatus for machining a top pinhole of an anode plate of claim 5, wherein: the power piece comprises a motor, a first gear is arranged at the output end of the motor, the first gear is connected with a second gear in a meshed mode, and the second gear is arranged on the threaded sleeve.