CN214488687U - Multistation guide pin flattening device - Google Patents

Abstract

The utility model discloses a multistation guide pin flattening device, which comprises a base, a feeding mechanism, a clamping mechanism, a flattening mechanism and a first material receiving mechanism, wherein the feeding mechanism is arranged on the base and used for placing a guide pin, the clamping mechanism is used for clamping the guide pin from the feeding mechanism, the flattening mechanism is used for flattening one end of the guide pin clamped in the clamping mechanism, and the first material receiving mechanism is used for collecting the flattened guide pin; the clamping mechanism comprises a rotary driving assembly arranged on the base, a rotary disc arranged at one end of the rotary driving assembly far away from the base and at least one clamping assembly arranged on the rotary disc; the clamping assembly clamps the guide pin, flattens the guide pin through the flattening mechanism and then sends the guide pin into the first material receiving mechanism. The utility model discloses a carousel in fixture sets up a plurality of clamping components, and a plurality of clamping components can carry out corresponding process operation at feeding mechanism, flattening mechanism and first receiving agencies simultaneously respectively, have promoted production efficiency and degree of automation, have reduced the cost of enterprises.

Description

Multistation guide pin flattening device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a guide pin processing technology field especially relates to a multistation guide pin flattens device.

[ background of the invention ]

The guide pin, also called as lead wire or wire nozzle, is widely applied to the fields of multi-strand parallel winding coils of various motors and the like because of the advantages of high rigidity and hardness, difficult bending, blockage and impact resistance. In the production process of the guide pin, the guide pin is generally formed by cutting, welding and pressing a metal wire; however, the existing machine for producing the guide pin needs to complete all the procedures required for manufacturing one guide pin to continue manufacturing the next guide pin, which is inefficient and has a low degree of automation.

In view of the above, there is a need to provide a multi-station pin flattening apparatus to overcome the above-mentioned drawbacks.

[ Utility model ] content

The utility model aims at providing a multistation guide pin flattens device aims at improving the lower problem of guide pin manufacturing machine manufacturing process efficiency, raises the efficiency and degree of automation.

In order to achieve the above object, the utility model provides a multistation guide pin flattening device, which comprises a base, a feeding mechanism, a clamping mechanism, a flattening mechanism and a first material receiving mechanism, wherein the feeding mechanism is arranged on the base and used for placing the guide pin, the clamping mechanism is used for clamping the guide pin from the feeding mechanism, the flattening mechanism is used for flattening one end of the guide pin clamped in the clamping mechanism, and the first material receiving mechanism is used for collecting the flattened guide pin; the clamping mechanism comprises a rotary driving assembly arranged on the base, a rotary disc arranged at one end of the rotary driving assembly far away from the base and at least one clamping assembly arranged on the rotary disc; the clamping assembly clamps the guide pin, flattens the guide pin through the flattening mechanism and then sends the guide pin into the first material receiving mechanism.

In a preferred embodiment, the device further comprises a detection mechanism arranged on the base; the detection mechanism comprises a support arranged on the base and a first contact element and a second contact element which are arranged on the support at intervals; the first contact element and the second contact element are electrically connected through a control module and are used for respectively touching two ends of the guide pin clamped on the clamping assembly to form an electric loop.

In a preferred embodiment, the device further comprises a second material receiving mechanism and a loosening mechanism which are arranged on the base; the release mechanism is electrically connected with the control module; the control module controls the loosening mechanism to loosen the clamping assembly to enable the guide pin to enter the second material receiving mechanism.

In a preferred embodiment, at least one of the first contact member and the second contact member is movably connected to the bracket.

In a preferred embodiment, the bracket comprises a vertical plate vertically fixed on the base and a horizontal plate vertically fixed on one end of the vertical plate far away from the base; the horizontal plates are arranged above one side of the clamping assembly, which is far away from the base, at intervals; one end of each of the first contact piece and the second contact piece is arranged on one side, close to the clamping assembly, of the horizontal plate.

In a preferred embodiment, the first material receiving mechanism and the second material receiving mechanism each include a support frame disposed on the base and a guide rail disposed on the support frame; the guide rail inclines from the direction close to the clamping component to the direction close to the base.

In a preferred embodiment, the number of the clamping assemblies is at least two, and the clamping assemblies are uniformly distributed on the rotating disc.

In a preferred embodiment, the rotary drive assembly includes a stepper motor having one end fixed to the base; the stepping motor drives the turntable to rotate at equal angles.

The utility model discloses a carousel in fixture sets up a plurality of clamping components, and a plurality of clamping components can carry out corresponding process operation at feeding mechanism, flattening mechanism and first receiving agencies simultaneously respectively, have promoted production efficiency and degree of automation, have reduced the cost of enterprises.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic perspective view of a multi-station guide pin flattening device provided by the present invention;

fig. 2 is a schematic perspective view of the multi-station guide pin flattening device shown in fig. 1 with the base and the feeding mechanism removed.

In the figure: 10. a base; 20. a feeding mechanism; 30. a clamping mechanism; 40. a flattening mechanism; 50. a first material receiving mechanism; 41. a bearing table; 42. a pressing device; 421. pressing the motor; 422. a pressing piece; 31. a rotary drive assembly; 32. a turntable; 33. a clamping assembly; 331. a cylinder; 332. a splint; 60. a detection mechanism; 61. a first contact member; 62. a second contact member; 63. a support; 631. a vertical plate; 632. a horizontal plate; 70. a second material receiving mechanism; 80. a release mechanism; 81. a separating member; 51. a support frame; 52. a guide rail.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration only and not by way of limitation.

Referring to fig. 1 and fig. 2, in an embodiment of the present invention, a multi-station lead flattening apparatus 100 is provided for flattening a cut and welded metal wire into a lead.

The multistation guide pin flattening device 100 comprises a base 10, a feeding mechanism 20, a clamping mechanism 30, a flattening mechanism 40 and a first material receiving mechanism 50, wherein the feeding mechanism 20 is arranged on the base 10 and used for placing a guide pin, the clamping mechanism 30 is used for clamping the guide pin from the feeding mechanism 20, the flattening mechanism 40 is used for flattening one end of the guide pin clamped in the clamping mechanism 30, and the first material receiving mechanism 50 is used for collecting the flattened guide pin. The feeding mechanism 20, the flattening mechanism 40 and the first receiving mechanism 50 are all arranged around the clamping mechanism 30.

In specific application, the feeding mechanism 20 can place the guide pin which is cut and welded at a specific position and angle, so that the clamping mechanism 30 can clamp the guide pin conveniently; the clamping mechanism 30 clamps the guide pin and sends one end of the guide pin into the flattening mechanism 40; the flattening mechanism 40 includes a bearing platform 41 and a pressing device 42, the pressing device 42 includes a pressing motor 421 and a pressing member 422 disposed opposite to the bearing platform 41, one end of the guide pin is placed on the bearing platform 41, the pressing motor 421 drives the pressing member 422 to press against the bearing platform 41, so as to flatten one end of the guide pin, at this time, the guide pin clamped by the clamping mechanism 30 is in the same plane with the bearing platform 41; the gripping mechanism 30 continues to feed the flattened guide pin into the first receiving mechanism 50, thereby completing the manufacture of the guide pin.

Specifically, the clamping mechanism 30 includes a rotation driving assembly 31 mounted on the base 10, a turntable 32 disposed at an end of the rotation driving assembly 31 away from the base 10, and at least one clamping assembly 33 disposed on the turntable 32. The rotation driving assembly 31 may include a stepping motor, one end of the stepping motor is fixed to the base 10, the other end of the stepping motor is fixed to the turntable 32, and the stepping motor drives the turntable 32 to rotate at equal angles at regular intervals according to the specific matching relationship of each mechanism during production. In other embodiments, the stepping motor may be replaced by a device having an intermittent rotation function such as a cam divider.

The clamping assembly 33 may include two oppositely disposed clamping plates 332 driven by the cylinder 331 for pressing, the guide pin is clamped by the two clamping plates 332, and each clamping assembly 33 is a fixture, i.e. a working position; furthermore, the number of the clamping assemblies 33 is at least two, the clamping assemblies 33 are uniformly distributed on the turntable 32, and each mechanism corresponds to one clamping assembly 33 in an initial state; the utility model discloses a rotation of carousel 32 drives clamping component 33 and is rotatory round carousel 32 center to realize the switching of a plurality of stations.

Optionally, in one embodiment, the multi-station lead flattening apparatus 100 further includes a detection mechanism 60 disposed on the base 10. The detecting mechanism 60 includes a support 63 disposed on the base 10, and a first contact 61 and a second contact 62 disposed on the support 63 at intervals, wherein the first contact 61 and the second contact 62 are both conductive, and the distance between the first contact and the second contact is consistent with the length of a preset guide pin. Specifically, the bracket 63 includes a vertical plate 631 vertically fixed to the base 10 and a horizontal plate 632 vertically fixed to an end of the vertical plate 631 away from the base 10; the horizontal plate 632 is disposed toward the clamping assembly 33, and is spaced above the side of the clamping assembly 33 away from the base 10, i.e. forms an "L" structure with the vertical plate 631; one end of each of the first contact member 61 and the second contact member 62 is disposed on one side of the horizontal plate 632 close to the clamping assembly 33, and the other end thereof is suspended and electrically connected through a control module (not shown in the figure); when the clamping assembly 33 clamps the guide pin, the two clamping plates 332 pass through between the first contact member 61 and the second contact member 62, and two ends of the guide pin with a qualified length respectively touch the first contact member 61 and the second contact member 62 to form an electrical circuit, so as to be sensed by the control module; when the guide pin is an unqualified product with the length smaller than the preset length, at least one end of the two ends of the guide pin is not contacted with the first contact element 61 or the second contact element 62, so that the guide pin is not sensed by the control module; therefore, the guide pins with unqualified lengths can be detected by the detection mechanism 60, and the yield is improved.

Further, at least one of the first contact member 61 and the second contact member 62 is movably connected to the bracket 63, that is, the connection position of the first contact member 61 and/or the second contact member 62 and the horizontal plate 632 is movable, when the length of the guide pin exceeds a preset length, the clamping assembly 33 is blocked when the guide pin passes through the clamping assembly, so as to drive the first contact member 61 and/or the second contact member 62 to be lifted forward, thereby preventing the guide pin from possibly falling off from the clamping assembly 33 and causing adverse effects.

Optionally, in an embodiment, the multi-station guide pin flattening apparatus 100 further includes a second material receiving mechanism 70 and a releasing mechanism 80 both disposed on the base 10; the release mechanism 80 is electrically connected with the control module; the control module controls the loosening mechanism 80 to loosen the clamping component 33 so that the guide pin enters the second material receiving mechanism 70; specifically, the releasing mechanism 80 includes a separating member 81 for separating the two clamping plates 332 in the clamping assembly 33 and a driving motor (not shown) for controlling the separating member 81 to move toward the two clamping plates 332, the separating member 81 may be configured in a wedge-shaped structure and inserted between the two clamping plates 332, and when the two clamping plates 332 are opened, the guide pin between the two clamping plates 332 falls into the second receiving mechanism 70. When the control module detects an unqualified guide pin and the clamping component 33 rotates to the station corresponding to the loosening mechanism 80, the control module controls the loosening mechanism 80 to perform corresponding operation, so that defective products are separated.

Optionally, the first material collecting mechanism 50 and the second material collecting mechanism 70 both include a supporting frame 51 disposed on the base 10 and a guide rail 52 disposed on the supporting frame 51; the guide rail 52 inclines from being close to the clamping assembly 33 to being close to the base 10, that is, one end of the guide rail 52 is located below the two clamping plates 332 of the clamping assembly 33, so as to receive the corresponding guide pin, and the guide pin slides on the guide rail 52 to the side close to the base 10 through self gravity, so as to be convenient for the collection of the guide pin.

To sum up, the utility model discloses a carousel 32 in fixture 30 sets up a plurality of clamping component 33, and a plurality of clamping component 33 can carry out corresponding process operation respectively at feeding mechanism 20, collapsing mechanism 40 and first receiving agencies 50 simultaneously, have promoted production efficiency and degree of automation, have reduced the cost of enterprises.

The invention is not limited solely to that described in the specification and the embodiments, and additional advantages and modifications will readily occur to those skilled in the art, and it is not intended to be limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (8)

1. A multistation guide pin flattening device is characterized by comprising a base, a feeding mechanism, a clamping mechanism, a flattening mechanism and a first material receiving mechanism, wherein the feeding mechanism is arranged on the base and used for placing a guide pin, the clamping mechanism is used for clamping the guide pin from the feeding mechanism, the flattening mechanism is used for flattening one end of the guide pin clamped in the clamping mechanism, and the first material receiving mechanism is used for collecting the flattened guide pin; the clamping mechanism comprises a rotary driving assembly arranged on the base, a rotary disc arranged at one end of the rotary driving assembly far away from the base and at least one clamping assembly arranged on the rotary disc; the clamping assembly clamps the guide pin, flattens the guide pin through the flattening mechanism and then sends the guide pin into the first material receiving mechanism.

2. The multi-station guide pin flattening apparatus of claim 1, further comprising a detection mechanism disposed on the base; the detection mechanism comprises a support arranged on the base and a first contact element and a second contact element which are arranged on the support at intervals; the first contact element and the second contact element are electrically connected through a control module and are used for respectively touching two ends of the guide pin clamped on the clamping assembly to form an electric loop.

3. The multi-station guide pin flattening device according to claim 2, further comprising a second material receiving mechanism and a releasing mechanism both disposed on the base; the release mechanism is electrically connected with the control module; the control module controls the loosening mechanism to loosen the clamping assembly to enable the guide pin to enter the second material receiving mechanism.

4. The multi-station needle guide flattening apparatus of claim 3, wherein at least one of the first contact member and the second contact member is movably connected to the frame.

5. The multi-station needle guide flattening device of claim 4, wherein the bracket includes a vertical plate perpendicularly fixed to the base and a horizontal plate perpendicularly fixed to an end of the vertical plate away from the base; the horizontal plates are arranged above one side of the clamping assembly, which is far away from the base, at intervals; one end of each of the first contact piece and the second contact piece is arranged on one side, close to the clamping assembly, of the horizontal plate.

6. The multi-station guide pin flattening device according to claim 3, wherein the first material receiving mechanism and the second material receiving mechanism each include a support frame provided on a base and a guide rail provided on the support frame; the guide rail inclines from the direction close to the clamping component to the direction close to the base.

7. The multi-station needle guide flattening apparatus of claim 1, wherein the number of the clamping assemblies is at least two, and the clamping assemblies are uniformly distributed on the turntable.

8. The multi-station lead flattening apparatus of claim 7, wherein the rotational drive assembly includes a stepper motor having one end fixed to the base; the stepping motor drives the turntable to rotate at equal angles.

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