CN216957804U - Stamping device for processing static contact of isolating switch - Google Patents

Abstract

The utility model belongs to the field of isolating switches, and particularly relates to a stamping device for processing a static contact of an isolating switch, which comprises a driving device and a moving device, wherein the moving device is arranged at the front part of the driving device; drive arrangement includes the balancing weight, a supporting beam, the motor support, driving motor, the V belt, the bearing frame, the rotation axis, drive gear, eccentric gear, the back shaft, first connecting rod, the second connecting rod, the third connecting rod, the stroke seat, the drift, it is rotatory to utilize driving motor to drive the rotation axis through the V belt, it is rotatory to make drive gear, thereby it is rotatory to drive eccentric gear, make the support column be circular motion, first connecting rod is rotatory simultaneously, make second connecting rod and third connecting rod remove, thereby make stroke seat and drift remove, it is rotatory to drive ball screw through servo motor, it moves to make the removal seat drive the workstation and remove, utilize the pneumatic cylinder to drive the bottom plate and reciprocate, make the workstation can remove the lift, can process a plurality of parts simultaneously, and the efficiency is improved.

Description

Stamping device for processing static contact of isolating switch

Technical Field

The utility model belongs to the field of isolating switches, and particularly relates to a stamping device for processing a static contact of an isolating switch.

Background

The isolating switch is a switch device which is mainly used for isolating a power supply and switching over and used for connecting and cutting off a small current circuit and has no arc extinguishing function, the operating principle and the structure of the isolating switch are simple, but due to the fact that the using amount is large, the requirement on working reliability is high, a static contact is a key component of a high-voltage switch, connection and disconnection of the high-voltage switch are achieved through the static contact, the service life of the high-voltage switch is determined, the safe operation of a high-voltage transmission and transformation power grid is further determined, due to the fact that manufacturing cost and production efficiency are considered, generally, the static contact is generally selected to be punched by a punch press matched with a punching die, and when the existing equipment is operated, movement between different stations is complicated, and machining efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stamping device for processing a static contact of an isolating switch.

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

a stamping device for processing a static contact for an isolating switch comprises a driving device and a moving device, wherein the moving device is arranged at the front part of the driving device; the driving device comprises a balancing weight, a supporting beam, a motor support, a driving motor, a triangular belt, a bearing seat, a rotating shaft, a driving gear, an eccentric gear, a supporting shaft, a first connecting rod, a second connecting rod, a third connecting rod, a stroke seat and a punch, wherein the supporting beam is arranged at the front part of the balancing weight, the motor support is arranged above the balancing weight, the driving motor is arranged above the motor support, the driving motor is arranged at the output end of the driving motor, the triangular belt is arranged above the supporting beam, the bearing seat is arranged at one side above the supporting beam, the rotating shaft is arranged inside the bearing seat, the driving gear is arranged at one side of the rotating shaft, the eccentric gear is arranged below the driving gear, the supporting shaft is arranged at one side of the eccentric gear, the first connecting rod is arranged outside the supporting shaft, the second connecting rod is arranged above the first connecting rod, the third connecting rod is arranged below the second connecting rod, the stroke seat is arranged below the third connecting rod, and the punch is arranged below the stroke seat; the moving device comprises a bottom plate, hydraulic cylinders, a base, a ball screw, a guide rail, a servo motor, a moving seat and a workbench, wherein the front portion of a supporting beam is provided with the bottom plate, two hydraulic cylinders are arranged above the bottom plate, the hydraulic cylinders are arranged above the base, the ball screw is arranged inside the base and in the middle of the base, the servo motor is arranged on one side of the ball screw, the front portion and the rear portion of the ball screw are arranged inside the base and are respectively provided with the guide rail, the ball screw is arranged above the guide rail, the moving seat is arranged above the guide rail, the workbench is arranged above the moving seat, and a dovetail groove is formed in the workbench.

Preferably: the balancing weight is welded with the supporting beam, the motor bracket is connected with the balancing weight through a bolt, the driving motor is welded with the motor bracket and is connected with the rotating shaft through the triangular belt, the bearing seat is connected with the supporting beam through bolts, the rotating shaft is connected with the bearing seat through a bearing, the driving gear is connected with the rotating shaft key, the driving gear is meshed with the eccentric gear, the eccentric gear is connected with the supporting beam bearing, the supporting shaft is connected with the eccentric gear in a welding way, the first connecting rod is respectively connected with the supporting shaft and the second connecting rod bearing, the second connecting rod is connected with the supporting beam bearing, the third connecting rod is connected with the second connecting rod bearing, the stroke seat is connected with the third connecting rod bearing, and the punch is connected with the stroke seat through bolts.

So set up, driving motor passes through the V belt drives the rotation axis is rotatory, makes drive gear is rotatory, thereby drives eccentric gear is rotatory, drives the support column is circular motion, makes first connecting rod rotation makes the second connecting rod with the third connecting rod removes, thereby makes the stroke seat with the drift removes.

Preferably: the bottom plate with supporting beam welded connection, the pneumatic cylinder respectively with the bottom plate with base welded connection, the guide rail with base bolted connection, ball screw with base bearing connects, servo motor with base bolted connection, ball screw with servo motor coupling joint, remove the seat with guide rail sliding connection, remove the seat with ball screw threaded connection, the workstation with remove seat welded connection.

According to the arrangement, the servo motor drives the ball screw to rotate, so that the movable seat drives the workbench to move, and the hydraulic cylinder drives the bottom plate to move up and down.

The beneficial effects of the utility model are as follows: utilize driving motor to drive the rotation axis rotation through the V belt, make drive gear rotatory, thereby it is rotatory to drive eccentric gear, make the support column be circular motion, first connecting rod is rotatory simultaneously, make second connecting rod and third connecting rod remove, thereby make stroke seat and drift remove, it is rotatory to drive ball screw through servo motor, it moves to make the seat of removal drive the workstation, utilize the pneumatic cylinder to drive the bottom plate and reciprocate, make the workstation can remove the lift, can process a plurality of parts simultaneously, the efficiency is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a stamping device for processing a static contact of an isolating switch according to the utility model;

fig. 2 is a front view of a stamping device for processing a static contact of an isolating switch according to the utility model;

fig. 3 is a cross-sectional view of a moving device of a stamping device for processing a fixed contact for an isolating switch according to the utility model;

fig. 4 is a schematic perspective view of a stamping device for processing a static contact of an isolating switch according to the present invention;

fig. 5 is an enlarged view of an I of the stamping device for processing the static contact of the disconnecting switch.

The reference numerals are illustrated below:

1. a drive device; 2. a mobile device; 101. a balancing weight; 102. a support beam; 103. a motor bracket; 104. A drive motor; 105. a V-belt; 106. a bearing seat; 107. a rotating shaft; 108. a drive gear; 109. An eccentric gear; 110. a support shaft; 111. a first link; 112. a second link; 113. a third link; 114. a stroke seat; 115. a punch; 201. a base plate; 202. a hydraulic cylinder; 203. a base; 204. a ball screw; 205. a guide rail; 206. a servo motor; 207. a movable seat; 208. a work bench.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Examples

As shown in fig. 1 to 5, a stamping device for processing a static contact for an isolating switch includes a driving device 1 and a moving device 2, wherein the moving device 2 is arranged at the front part of the driving device 1; the driving device 1 comprises a balancing weight 101, a supporting beam 102, a motor support 103, a driving motor 104, a triangular belt 105, a bearing seat 106, a rotating shaft 107, a driving gear 108, an eccentric gear 109, a supporting shaft 110, a first connecting rod 111, a second connecting rod 112, a third connecting rod 113, a stroke seat 114 and a punch 115, wherein the supporting beam 102 is arranged at the front part of the balancing weight 101, the motor support 103 is arranged above the balancing weight 101, the driving motor 104 is arranged above the motor support 103, the triangular belt 105 is arranged at the output end of the driving motor 104, the bearing seat 106 is arranged above and on one side of the supporting beam 102, the rotating shaft 107 is arranged inside the bearing seat 106, the driving gear 108 is arranged on one side of the rotating shaft 107, the eccentric gear 109 is arranged below the driving gear 108, the supporting shaft 110 is arranged on one side of the eccentric gear 109, the first connecting rod 111 is arranged outside the supporting shaft 110, the second connecting rod 112 is arranged above the first connecting rod 111, a third connecting rod 113 is arranged below the second connecting rod 112, a stroke seat 114 is arranged below the third connecting rod 113, and a punch 115 is arranged below the stroke seat 114; the moving device 2 comprises a bottom plate 201, hydraulic cylinders 202, a base 203, a ball screw 204, a guide rail 205, a servo motor 206, a moving seat 207 and a workbench 208, wherein the bottom plate 201 is arranged in front of the supporting beam 102, the two hydraulic cylinders 202 are arranged above the bottom plate 201, the base 203 is arranged above the hydraulic cylinders 202, the ball screw 204 is arranged inside the base 203 and in the middle of the base 203, the servo motor 206 is arranged on one side of the ball screw 204, the guide rail 205 is arranged inside the base 203 and at the front and at the rear of the ball screw 204, the moving seat 207 is arranged above the ball screw 204 and the guide rail 205, the workbench 208 is arranged above the moving seat 207, and a dovetail groove is arranged above the workbench 208.

Preferably: the counterweight block 101 is welded with the support beam 102, the motor support 103 is bolted with the counterweight block 101, the driving motor 104 is welded with the motor support 103, the driving motor 104 is connected with the rotating shaft 107 through the triangular belt 105, the bearing seat 106 is bolted with the support beam 102, the rotating shaft 107 is in bearing connection with the bearing seat 106, the driving gear 108 is in key connection with the rotating shaft 107, the driving gear 108 is in meshing connection with the eccentric gear 109, the eccentric gear 109 is in bearing connection with the support beam 102, the support shaft 110 is in welded connection with the eccentric gear 109, the first connecting rod 111 is in bearing connection with the support shaft 110 and the second connecting rod 112 respectively, the second connecting rod 112 is in bearing connection with the support beam 102, the third connecting rod 113 is in bearing connection with the second connecting rod 112, the stroke seat 114 is in bearing connection with the third connecting rod 113, and the punch 115 is in bolted connection with the stroke seat 114; the base plate 201 is connected with the supporting beam 102 in a welding mode, the hydraulic cylinder 202 is respectively connected with the base plate 201 and the base 203 in a welding mode, the guide rail 205 is connected with the base 203 through bolts, the ball screw 204 is connected with the base 203 through bearings, the servo motor 206 is connected with the base 203 through bolts, the ball screw 204 is connected with the servo motor 206 through a coupler, the movable seat 207 is connected with the guide rail 205 in a sliding mode, the movable seat 207 is connected with the ball screw 204 through threads, and the workbench 208 is connected with the movable seat 207 through welding.

The working principle is as follows: firstly, a needed punch 115 is installed, a needed lower die is fixed through a dovetail groove on a workbench 208, a hydraulic cylinder 202 and a servo motor 206 are opened to enable an upper die on the workbench 208 to be aligned with the punch 115, a driving motor 104 is started to drive a rotating shaft 107 to rotate through a triangular belt 105, a driving gear 108 drives an eccentric gear 109 to rotate, and a stroke seat 114 and the punch 115 are driven to punch through the matching of a first connecting rod 111, a second connecting rod 112 and a third connecting rod 113.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (3)

1. The utility model provides a stamping device of static contact processing for isolator which characterized in that: the device comprises a driving device (1) and a moving device (2), wherein the moving device (2) is arranged at the front part of the driving device (1);

the driving device (1) comprises a balancing weight (101), a supporting beam (102), a motor support (103), a driving motor (104), a triangular belt (105), a bearing seat (106), a rotating shaft (107), a driving gear (108), an eccentric gear (109), a supporting shaft (110), a first connecting rod (111), a second connecting rod (112), a third connecting rod (113), a stroke seat (114) and a punch (115), wherein the supporting beam (102) is arranged at the front part of the balancing weight (101), the motor support (103) is arranged above the balancing weight (101), the driving motor (104) is arranged above the motor support (103), the triangular belt (105) is arranged at the output end of the driving motor (104), the bearing seat (106) is arranged above the supporting beam (102) and on one side, and the rotating shaft (107) is arranged inside the bearing seat (106), the driving gear (108) is arranged on one side of the rotating shaft (107), the eccentric gear (109) is arranged below the driving gear (108), the supporting shaft (110) is arranged on one side of the eccentric gear (109), the first connecting rod (111) is arranged outside the supporting shaft (110), the second connecting rod (112) is arranged above the first connecting rod (111), the third connecting rod (113) is arranged below the second connecting rod (112), the stroke seat (114) is arranged below the third connecting rod (113), and the punch (115) is arranged below the stroke seat (114);

the moving device (2) comprises a bottom plate (201), hydraulic cylinders (202), a base (203), a ball screw (204), a guide rail (205), a servo motor (206), a moving seat (207) and a workbench (208), wherein the bottom plate (201) is arranged at the front part of the supporting beam (102), two hydraulic cylinders (202) are arranged above the bottom plate (201), the base (203) is arranged above the hydraulic cylinders (202), the ball screw (204) is arranged in the middle of the base (203), the servo motor (206) is arranged on one side of the ball screw (204), the guide rail (205) is arranged in the base (203) at the front part and the rear part of the ball screw (204), the moving seat (207) is arranged above the ball screw (204) and the guide rail (205), the workbench (208) is arranged above the moving seat (207), a dovetail groove is arranged above the workbench (208).

2. The stamping device for processing the static contact of the isolating switch as recited in claim 1, wherein: the balancing weight (101) is connected with the supporting beam (102) in a welding manner, the motor support (103) is connected with the balancing weight (101) in a bolt manner, the driving motor (104) is connected with the motor support (103) in a welding manner, the driving motor (104) is connected with the rotating shaft (107) through the triangular belt (105), the bearing seat (106) is connected with the supporting beam (102) in a bolt manner, the rotating shaft (107) is connected with the bearing seat (106) in a bearing manner, the driving gear (108) is connected with the rotating shaft (107) in a key manner, the driving gear (108) is connected with the eccentric gear (109) in a meshing manner, the eccentric gear (109) is connected with the supporting beam (102) in a bearing manner, the supporting shaft (110) is connected with the eccentric gear (109) in a welding manner, and the first connecting rod (111) is respectively connected with the supporting shaft (110) and the second connecting rod (112) in a bearing manner, the second connecting rod (112) is in bearing connection with the supporting beam (102), the third connecting rod (113) is in bearing connection with the second connecting rod (112), the stroke seat (114) is in bearing connection with the third connecting rod (113), and the punch (115) is in bolt connection with the stroke seat (114).

3. The stamping device for processing the static contact of the isolating switch as recited in claim 1, wherein: the bottom plate (201) with supporting beam (102) welded connection, pneumatic cylinder (202) respectively with bottom plate (201) with base (203) welded connection, guide rail (205) with base (203) bolted connection, ball screw (204) with base (203) bearing is connected, servo motor (206) with base (203) bolted connection, ball screw (204) with servo motor (206) coupling joint, remove seat (207) with guide rail (205) sliding connection, remove seat (207) with ball screw (204) threaded connection, workstation (208) with remove seat (207) welded connection.

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