CN211555678U

CN211555678U - Iron wire binding locking device for producing massive iron core

Info

Publication number: CN211555678U
Application number: CN202020050026.8U
Authority: CN
Inventors: 胡澜
Original assignee: Shanghai Sec Technology Co ltd
Current assignee: Shanghai Sec Technology Co ltd
Priority date: 2020-01-10
Filing date: 2020-01-10
Publication date: 2020-09-22
Anticipated expiration: 2030-01-10

Abstract

An iron wire binding locking device for producing a blocky iron core comprises a support, wherein a lower supporting plate, an upper supporting plate and a top plate are respectively arranged on the support, clamping mechanisms are respectively arranged on the lower supporting plate and the upper supporting plate, and the lower supporting plate is fixed with the support; the clamping mechanism comprises a guide shell, a clamping plate and a positioning plate, a wedge block is clamped and slidably mounted in the guide shell, a pressing inclined plane is arranged at the bottom of the wedge block, the top of the wedge block is fixedly assembled with one end of a second telescopic shaft, the other end of the second telescopic shaft is mounted in a second oil cylinder, and the second oil cylinder is fixed on the guide shell; the two clamping plates are arranged on two sides of the width direction of the massive iron core in parallel; the clamping plates are fixedly assembled with one end of a third telescopic shaft, the other end of the third telescopic shaft is arranged in a third oil cylinder, the third oil cylinder is fixed on the lower supporting plate or the upper supporting plate, and the positioning plates are respectively fixed at two ends between the two clamping plates. The utility model discloses simple structure through compressing tightly cubic iron core, tying up the iron wire after locking, can improve production efficiency greatly.

Description

Iron wire binding locking device for producing massive iron core

Technical Field

The utility model relates to an oriented silicon steel core production technology especially relates to a cubic iron core production is with pricking iron wire locking device.

Background

The massive iron core produced by oriented silicon steel is widely applied to products such as transformers, reactors and the like, and the production of the iron core is generally finished by the working procedures of slicing, binding iron wires, dipping paint, drying, cutting, adjusting, inspecting and the like. In the process of tying iron wires, the blocky iron cores are generally stacked and then tied, and the blocky iron cores cannot be fully compressed in the mode, so that the blocky iron cores are easy to loosen after the iron wires are tied, and subsequent conveying and processing are seriously influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that a cubic iron core production is with pricking iron wire locking device is provided, it can be tied up after compressing tightly cubic iron core.

In order to achieve the purpose, the utility model provides an iron wire binding locking device for producing a blocky iron core, which comprises a bracket, wherein a lower supporting plate, an upper supporting plate and a top plate are respectively arranged on the bracket; the clamping mechanism comprises a guide shell, a clamping plate and a positioning plate, a wedge block is clamped and slidably mounted in the guide shell, a pressing inclined plane is arranged at the bottom of the wedge block, the top of the wedge block is fixedly assembled with one end of a second telescopic shaft, the other end of the second telescopic shaft is mounted in a second oil cylinder, and the second oil cylinder is fixed on the guide shell;

the two clamping plates are arranged on two sides of the width direction of the blocky iron core in parallel; the clamping plates are fixedly assembled with one end of a third telescopic shaft, the other end of the third telescopic shaft is arranged in a third oil cylinder, the third oil cylinder is fixed on the lower supporting plate or the upper supporting plate, and the positioning plates are respectively fixed at two ends between the two clamping plates.

Preferably, the two clamping plates are respectively sleeved on the screw rod and can be assembled with the screw rod in an axial sliding mode, and the screw rod is located on the outer side of the clamping plates and is assembled with the limiting nut in a screwing mode through threads.

Preferably, the width of the wedge blocks is not greater than the width of the block cores.

Preferably, a through containing hole is formed in the positioning plate far away from one side of the wedge-shaped block, a detection cylinder is further fixed on the positioning plate, a hollow detection inner cylinder is arranged in the detection cylinder, and the detection inner cylinder is communicated or coaxial with the containing hole; the accommodating hole and the stress end can be assembled in an axial sliding mode, the stress end is assembled and fixed with one end of the connecting rod, the other end of the connecting rod penetrates through the first fixing ring and then is assembled and fixed with the trigger ring, and the trigger ring is opposite to the trigger end of the button switch and can trigger the button switch; the button switch is fixed on the second fixing ring, the first fixing ring and the second fixing ring are respectively fixed in the detection inner cylinder, and a pressure spring is sleeved on a part of the connecting rod, which is positioned between the stress end and the first fixing ring; the button switch is connected in series on a power supply circuit of the indicator light, and the indicator light is installed on the bracket.

Preferably, in the initial state, the force bearing end penetrates out of the accommodating hole.

Preferably, the guide shell of the clamping mechanism arranged on the upper supporting plate is also assembled and fixed with one end of the first telescopic shaft, and the other end of the first telescopic shaft penetrates through the top plate and then is assembled with the first oil cylinder; the guide shell is fixedly assembled with the upper supporting plate, the upper supporting plate is also provided with a guide shaft, and the guide shaft penetrates through the top plate and can be axially assembled with the top plate in a sliding manner.

The utility model has the advantages that: the utility model discloses simple structure through tying up the iron wire after compressing tightly, locking cubic iron core, can improve production efficiency greatly, and prevent that the cubic iron core of tying up is loose, guarantees that the in-process of later stage transportation, processing can not prick the silk once more.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is an enlarged view of fig. 3 at F1.

Fig. 5 is a schematic structural diagram of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

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, and are only for convenience of description and simplicity of 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 therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 5, the iron wire tying locking device for producing the massive iron core includes a bracket 110, a lower supporting plate 130, an upper supporting plate 120, and a top plate 140 are respectively installed on the bracket 110, clamping mechanisms are respectively installed on the lower supporting plate 130 and the upper supporting plate 120, and the lower supporting plate 130 is fixed to the bracket; the clamping mechanism comprises a guide shell 150, a clamping plate 420 and a positioning plate 430, a wedge block 410 is clamped and slidably mounted in the guide shell 150, a pressing inclined surface 411 is arranged at the bottom of the wedge block 410, the top of the wedge block is fixedly assembled with one end of a second telescopic shaft 321, the other end of the second telescopic shaft 321 is mounted in a second oil cylinder 320, and the second oil cylinder 320 is fixed on the guide shell 150. In use, the second cylinder drives the second telescopic shaft to move axially to drive the wedge-shaped block 410 to move synchronously, and the wedge-shaped block 410 is located inside the positioning plate 430 in the top view direction of fig. 3.

The two clamping plates 420 are arranged in parallel, the two clamping plates 420 are respectively sleeved on the screw 220 and can be assembled with the screw in an axial sliding manner, and the screw 220 is positioned on the outer side of the clamping plates 420 and is assembled with the limiting nut 221 in a screwing manner through threads, so that the maximum distance between the two clamping plates 420 is limited; the clamping plate 420 is also fixedly assembled with one end of a third telescopic shaft 331, the other end of the third telescopic shaft 331 is arranged in a third oil cylinder 330, and the third oil cylinder is fixed on the lower supporting plate 130 or the upper supporting plate 120;

the two ends between the two clamping plates 420 are respectively fixed with a positioning plate 430, a through containing hole 431 is arranged on the positioning plate 430 at one side far away from the wedge-shaped block 410, a detection cylinder 230 is also fixed on the positioning plate 430, the detection cylinder 230 is internally provided with a hollow detection inner cylinder 231, and the detection inner cylinder 231 is communicated or coaxial with the containing hole 431; the accommodating hole 431 and the stress end 610 can be axially assembled in a sliding mode, the stress end 610 and one end of the connecting rod 620 are assembled and fixed, the other end of the connecting rod 620 passes through the first fixing ring 640 and then is assembled and fixed with the trigger ring 621, and the trigger ring 621 is opposite to the trigger end of the button switch 340 and can trigger the button switch; the button switch 340 is fixed on the second fixing ring 650, the first fixing ring 640 and the second fixing ring 650 are respectively fixed in the detection inner cylinder 231, the pressure spring 630 is sleeved on the part of the connecting rod 620 between the stress end 610 and the first fixing ring 640, and the pressure spring 630 is used for generating elastic force for pushing the blocky iron core 510 to the connecting rod 620.

The button switch 340 is connected in series to a power supply circuit of an indicator lamp mounted on the bracket 110 to control the current of the indicator lamp.

In the initial state, the force-bearing end 610 penetrates through the accommodating hole 431. When the pressing device is used, the block-shaped iron core 510 is pressed, so that the block-shaped iron core 510 extrudes the stress end 610, the stress end 610 overcomes the elastic force of the pressure spring and enters the accommodating hole 431, and when the stress end 610 completely enters the accommodating hole 431, the trigger ring 621 triggers the button switch 340, at the moment, the indicator light is on, and an operator judges that the extrusion is in place.

When the block-shaped iron core 510 is compressed, the block-shaped iron core 510 is firstly close to the positioning plate provided with the accommodating hole, and then is gradually vertically placed towards the positioning plate 430 on the other side until reaching the position below the wedge-shaped block 410; then, the second cylinder 320 is started, and the second cylinder drives the wedge block 410 to move toward the block core 510, so that the wedge block 410 enters the gap between the positioning plate 430 and the block core 510 until the indicator lights up, and at this time, it is determined that the block core 510 has been compressed in the end surface direction. Then, the third cylinder 330 is activated, and the third cylinder 330 drives the third telescopic shaft 331 to move toward the block-shaped iron core 510, that is, drives the clamping plate 420 to press the block-shaped iron core 510, which can cause the side surface of the block-shaped iron core 510 to be pressed against it. Binding the iron wires again, and resetting the second telescopic shaft and the third telescopic shaft after the binding is finished; and finally, taking out the bundled blocky iron cores 510.

Preferably, the guide shell 150 of the clamping mechanism mounted on the upper plate 120 is further assembled and fixed with one end of the first telescopic shaft 311, the other end of the first telescopic shaft 311 penetrates through the top plate 140 and then is assembled with the first oil cylinder 310, and the first oil cylinder 310 can drive the first telescopic shaft to move axially;

the guide housing 150 is fixedly assembled with the upper plate 120, and the upper plate 120 is further provided with a guide shaft 210, and the guide shaft 210 penetrates through the top plate 140 and is axially slidably assembled therewith. When the clamping device is used, the first oil cylinder drives the first telescopic shaft to move axially, so that the upper supporting plate 120 and the clamping mechanism arranged on the upper supporting plate 120 can be driven to move synchronously.

When the bundled blocky iron cores 510 need to be taken out, the first oil cylinder drives the upper supporting plate 120 to move upwards, so that the tops of the blocky iron cores 510 are free, and the mode is very convenient to hoist.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims

1. Cubic iron core production is with pricking iron wire locking device, including the support, characterized by: a lower supporting plate, an upper supporting plate and a top plate are respectively arranged on the bracket, clamping mechanisms are respectively arranged on the lower supporting plate and the upper supporting plate, and the lower supporting plate is fixed with the bracket; the clamping mechanism comprises a guide shell, a clamping plate and a positioning plate, a wedge block is clamped and slidably mounted in the guide shell, a pressing inclined plane is arranged at the bottom of the wedge block, the top of the wedge block is fixedly assembled with one end of a second telescopic shaft, the other end of the second telescopic shaft is mounted in a second oil cylinder, and the second oil cylinder is fixed on the guide shell;

2. The iron wire binding locking device for producing the block-shaped iron core as claimed in claim 1, wherein: the two clamping plates are respectively sleeved on the screw rod and can be assembled with the screw rod in an axial sliding mode, and the screw rod is located on the outer side of the clamping plates and is assembled with the limiting nut in a screwing mode through threads.

3. The iron wire binding locking device for producing the block-shaped iron core as claimed in claim 1, wherein: the width of the wedge-shaped block is not more than the width of the block-shaped iron core.

4. The iron wire binding locking device for producing the block-shaped iron core as claimed in claim 1, wherein: a through containing hole is formed in the positioning plate far away from one side of the wedge-shaped block, a detection cylinder is further fixed on the positioning plate, a hollow detection inner cylinder is arranged in the detection cylinder, and the detection inner cylinder is communicated or coaxial with the containing hole; the accommodating hole and the stress end can be assembled in an axial sliding mode, the stress end is assembled and fixed with one end of the connecting rod, the other end of the connecting rod penetrates through the first fixing ring and then is assembled and fixed with the trigger ring, and the trigger ring is opposite to the trigger end of the button switch and can trigger the button switch; the button switch is fixed on the second fixing ring, the first fixing ring and the second fixing ring are respectively fixed in the detection inner cylinder, and a pressure spring is sleeved on a part of the connecting rod, which is positioned between the stress end and the first fixing ring; the button switch is connected in series on a power supply circuit of the indicator light, and the indicator light is installed on the bracket.

5. The tied iron wire locking device for producing a block-shaped iron core as claimed in claim 4, wherein: in the initial state, the force bearing end penetrates out of the accommodating hole.

6. The iron wire binding locking device for producing the block-shaped iron core as claimed in claim 1, wherein: the guide shell of the clamping mechanism arranged on the upper supporting plate is also assembled and fixed with one end of a first telescopic shaft, and the other end of the first telescopic shaft penetrates through the top plate and then is assembled with a first oil cylinder; the guide shell is fixedly assembled with the upper supporting plate, the upper supporting plate is also provided with a guide shaft, and the guide shaft penetrates through the top plate and can be axially assembled with the top plate in a sliding manner.