CN220880354U - Feeding shaping device - Google Patents

Abstract

The utility model discloses a feeding and shaping device which comprises a fixing frame, a feeding assembly and a shaping mechanism for flattening a product to be processed, wherein the fixing frame is provided with a feeding assembly; the feeding assembly and the shaping mechanism are arranged on the fixing frame, the feeding assembly is positioned beside the shaping mechanism, and the shaping mechanism is arranged on the fixing frame through the adapter plate; the shaping mechanism comprises an X-axis direction shaping assembly for carrying out X-axis direction leveling on a product to be processed, a Y-axis direction shaping assembly for carrying out Y-axis direction leveling on the product to be processed, and a material pulling assembly for carrying out material pulling shaping on the product to be processed after the X-axis direction and the Y-axis direction leveling; the X-axis direction shaping assembly is connected to the Y-axis direction shaping assembly through the connecting plate, and the X-axis direction shaping assembly, the Y-axis direction shaping assembly and the material pulling assembly are sequentially arranged along the upper direction and the lower direction, so that the product to be processed is subjected to multiple correction and shaping while the machine is not stopped.

Description

Feeding shaping device

Technical Field

The utility model relates to the technical field of feeding shaping devices, in particular to a feeding shaping device.

Background

The fourth guideline is a metal substance used on the connector to complete the electrical signal, which is a PIN. The forming process of the four-needle is roughly divided into coil stock shaping, end pressing, cutting and the like, and the coil stock shaping is taken as an example, and coil stock copper wires are easy to deform, bend and the like in the feeding process, and the end pressing quality of the follow-up four-needle can be affected if the shaping is not performed, so that the deformed or bent coil stock copper wires also need to be corrected and shaped through other correction devices, and then the follow-up process operation can be performed.

Currently, the leveling machine on the market is generally a single-section leveling machine, the single-section leveling machine is only provided with a group of shaping roller groups, and the single-section leveling machine can only perform one leveling operation on coiled copper wires; during operation, the clearance between fixed bearing and the adjusting bearing is adjusted, and through last plastic wheel and the lower plastic wheel of being equipped with respectively on fixed bearing and the adjusting bearing, extrusion effect accomplishes the plastic of coil stock copper line, but this kind of single-section evener is when in actual use, if coil stock copper line warp or crooked too serious, appears the condition of swaing left or right easily, leads to the plastic effect of coil stock copper line not ideal to influence subsequent processing.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of utility model

In view of the above, the main purpose of the present utility model is to provide a feeding shaping device, which is matched with an X-axis shaping component, a Y-axis shaping component and a material pulling component, so as to implement multiple correction and shaping of a product to be processed without stopping the machine, and effectively solve the problem that the shaping effect of a coiled copper wire is not ideal and the subsequent processing is affected due to the condition of left or right deflection caused by adopting a single-stage leveling machine in the conventional technology.

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

The feeding and shaping device comprises a fixing frame, a feeding assembly and a shaping mechanism for flattening a product to be processed; the feeding assembly and the shaping mechanism are arranged on the fixing frame, the feeding assembly is positioned beside the shaping mechanism, and the shaping mechanism is arranged on the fixing frame through the adapter plate;

the shaping mechanism comprises an X-axis direction shaping assembly for carrying out X-axis direction leveling on a product to be processed, a Y-axis direction shaping assembly for carrying out Y-axis direction leveling on the product to be processed, and a material pulling assembly for carrying out material pulling shaping on the product to be processed after the X-axis direction and the Y-axis direction leveling; the X-axis direction shaping assembly is connected to the Y-axis direction shaping assembly through a connecting plate, and the X-axis direction shaping assembly, the Y-axis direction shaping assembly and the material pulling assembly are sequentially arranged along the up-down direction.

As a preferred scheme, the X-axis direction shaping assembly comprises a first mounting plate and a plurality of first correction rollers, wherein the first correction rollers are arranged on the first mounting plate at adjustable dislocation intervals to form a first correction space, the first mounting plate is provided with a first input port and a first output port, and the first input port and the first output port are communicated with the first correction space.

As a preferred scheme, the Y-axis direction shaping assembly comprises a second mounting plate and a plurality of second correction rollers, wherein the second correction adjustable rollers are arranged on the second mounting plate at staggered intervals to form a second correction space, the second mounting plate is provided with a second input port and a second output port, the second input port is communicated with the first output port, and the second input port and the second output port are communicated with the second correction space.

As a preferable scheme, the material pulling component comprises a frame, a driving roller, a driven roller, an adjusting piece and a second driving device for driving the driving roller to rotate; the frame is fixedly arranged on the adapter plate, a material pulling gap is formed between the driving roller and the driven roller in a surrounding mode, the material pulling gap is arranged below the second output port, the driving roller is rotatably arranged in the frame, a movable groove is formed in the frame, one end of the driven roller is arranged in the movable groove, the second driving device is connected with the driving roller through an output shaft to drive the driving roller to rotate and is fixedly arranged on the adapter plate, the adjusting piece is used for adjusting the size of the material pulling gap, the adjusting piece is movably connected with one end of the frame, the adjusting piece comprises a connecting rod and a first adjusting knob, one end of the first adjusting knob is connected with the connecting rod, and the adjusting piece stretches into the movable groove through the connecting rod and is connected with one end of the driven roller to rotate the first adjusting knob so that one end of the driven roller is pushed by the connecting rod to move along the movable groove, so that the material pulling gap is changed.

As a preferable scheme, the feeding assembly comprises a coil tray, a guide tray and a third driving device; the third driving device drives the coil tray to rotate and is fixedly arranged on the fixing frame, and the guide tray is positioned beside the coil tray and is fixedly arranged on the fixing frame.

As a preferable scheme, the output end of the fixed frame corresponding to the material pulling gap is also provided with a material discharging induction component for inducing material discharging.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and particularly, the technical scheme is that the shaping mechanism mainly comprises an X-axis direction shaping assembly, a Y-axis direction shaping assembly and a material pulling assembly which are matched, the X-axis direction shaping assembly is used for carrying out X-axis direction leveling on a product to be processed firstly, the product to be processed after being leveled in the X-axis direction is leveled in the Y-axis direction shaping assembly, and the product to be processed after being leveled in the X-axis direction and the Y-axis direction is extruded and leveled through the material pulling assembly, so that the condition that the product to be processed is corrected and shaped for many times without stopping is realized, and the problem that the condition that a single-stage leveling machine causes deflection leftwards or rightwards in the prior art is effectively solved, the shaping effect of coiled copper wires is not ideal, and the subsequent processing is affected.

And the correction stroke can be independently adjusted among the X-axis direction shaping component, the Y-axis direction shaping component and the material pulling component so as to adapt to various specifications, and the universality is improved.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is another perspective view of an embodiment of the present utility model;

FIG. 3 is a schematic view of the shaping mechanism according to the embodiment of the present utility model;

FIG. 4 is another structural view of the shaping mechanism according to the embodiment of the present utility model;

FIG. 5 is a schematic diagram of the structure of an X-axis direction shaping element and a Y-axis direction shaping element according to an embodiment of the present utility model;

FIG. 6 is another structural view of an X-axis direction shaping member and a Y-axis direction shaping member according to an embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. Fixing frame 20 and feeding assembly

21. Coil tray 22 and guide tray

23. Third driving device 30 and shaping mechanism

31. Adapter plate 32 and X-axis direction shaping assembly

33. Y-axis direction shaping assembly 34 and pulling assembly

35. The connector plate 321, the first mounting plate

322. First correction roller 323, first correction space

324. A first input port 325, a first output port

331. Second mounting plate 332 and second correction roller

333. A second correction space 334, a second input port

335. Second outlet 341, frame

342. Driving roller 343 and driven roller

344. Adjusting piece 345, second driving device

346. Draw material clearance 347, movable groove

348. A connecting rod 349, a first adjustment knob.

Detailed Description

Referring to fig. 1 to 6, specific structures of embodiments of the present utility model are shown.

In the description of the present utility model, it should be noted that, for the azimuth words, terms such as "upper", "lower", "front", "rear", "left", "right", etc., indicate azimuth and positional relationships as shown based on the drawings or when worn normally, only for convenience of describing the present utility model and simplifying the description, but do not indicate or imply that the device or element to be referred must have a specific azimuth, be configured and operated in a specific azimuth, and should not be construed as limiting the specific protection scope of the present utility model.

The feeding and shaping device comprises a fixing frame 10, a feeding assembly 20 and a shaping mechanism 30.

The shaping mechanism 30 is used for leveling a product to be processed, the feeding assembly 20 and the shaping mechanism 30 are arranged on the fixing frame 10, the feeding assembly 20 is located beside the shaping mechanism 30, and the shaping mechanism 30 is arranged on the fixing frame 10 through the adapter plate 31. The feeding assembly 20 comprises a coil tray 21, a guide tray 22 and a third driving device 23; the third driving device 23 drives the coil tray 21 to rotate and is fixedly arranged on the fixing frame 10, and the guide tray 22 is positioned beside the coil tray 21 and is fixedly arranged on the fixing frame 10.

The shaping mechanism 30 comprises an X-axis direction shaping component 32 for carrying out X-axis direction leveling on a product to be processed, a Y-axis direction shaping component 33 for carrying out Y-axis direction leveling on the product to be processed, and a material pulling component 34 for carrying out material pulling shaping on the product to be processed after the X-axis direction and the Y-axis direction leveling; the X-axis direction shaping assembly 32 is connected to the Y-axis direction shaping assembly 33 through a joint plate 35, and the X-axis direction shaping assembly 32, the Y-axis direction shaping assembly 33 and the pulling assembly 34 are sequentially arranged in the up-down direction.

Preferably, the shaping assembly in the X-axis direction includes a first mounting plate 321 and a plurality of first correction rollers 322, the plurality of first correction rollers 322 are disposed on the first mounting plate 321 at adjustable dislocation intervals to form a first correction space 323, the first mounting plate 321 has a first input port 324 and a first output port 325, the first input port 324 and the first output port 325 are communicated with the first correction space 323, the plurality of first correction rollers 322 each include a first roller and a second adjustment knob, the second adjustment knob is connected to the first roller, and the second adjustment knob is rotated to change the interval between the first rollers, thereby changing the correction stroke of the first correction space 323.

Preferably, the Y-axis direction shaping assembly comprises a second mounting plate 331 and a plurality of second correction rollers 332, the plurality of second correction rollers 332 are arranged on the second mounting plate 331 at adjustable dislocation intervals to form a second correction space 333, the second mounting plate 331 is provided with a second input port 334 and a second output port 335, the second input port 334 is communicated with the first output port 325, the second input port 334 and the second output port 335 are communicated with the second correction space 333, the plurality of second correction rollers 332 each comprise a second roller and a third adjustment knob, the third adjustment knob is connected with the second roller, and the third adjustment knob is rotated to change the interval between the second rollers, so as to change the correction stroke of the second correction space 333.

The pulling assembly 34 comprises a frame 341, a driving roller 342, a driven roller 343, an adjusting member 344, and a second driving device 345 for driving the driving roller 342 to rotate; the frame 341 is fixedly arranged on the adapter plate 31, a pulling gap 346 is formed between the driving roller 342 and the driven roller 343 in a surrounding shape, the pulling gap 346 is arranged below the second output port 335, the driving roller 342 is rotatably arranged in the frame 341, a movable groove 347 is arranged on the frame 341, one end of the driven roller 343 is arranged in the movable groove 347, the second driving device 345 is connected with the driving roller 342 through an output shaft so as to drive the driving roller 342 to rotate and be fixedly arranged on the adapter plate 31, the adjusting piece 344 is used for adjusting the size of the pulling gap 346, the adjusting piece 344 is movably connected with one end of the frame 341, the adjusting piece 344 comprises a connecting rod 348 and a first adjusting knob 349, one end of the first adjusting knob 349 is connected with the connecting rod 348, the adjusting piece 344 extends into the movable groove 347 through the connecting rod 348 and is connected with one end of the driven roller 343, and one end of the driven roller 343 is pushed by the connecting rod 348 to move along the movable groove 347 so as to change the pulling gap 346. Preferably, the output end of the fixing frame 10 corresponding to the material pulling gap 346 is further provided with a material discharging induction component for inducing material discharging. The discharging sensing component is a well-known technology in the art, and is not described herein.

The following principle of use of the present embodiment is as follows:

First, according to the actual width of the product to be processed, the X-axis direction shaping component 32, the Y-axis direction shaping component 33 and the material pulling component 34 are adjusted to change the width and thickness of the first correction space 323, the second correction space 333 and the material pulling gap 346 so as to adapt to the actual width and thickness of the product to be processed, then the product to be processed is wound on the coil tray 21, then one end of the product to be processed extends into the first correction space 323 from the first inlet and outlet through the guide tray 22, after the first correction space 323 is corrected, the product is led out from the first output port 325 to the second input port 334 to enter the second correction space 333, after the second correction space 333 is corrected, the product to be processed enters the material pulling gap 346 to be leveled, and the leveled product to be processed is transferred to the next area to be processed, thereby realizing multiple corrections of the product to be processed.

The utility model mainly adopts the structural design of a shaping mechanism, the shaping mechanism comprises an X-axis direction shaping assembly, a Y-axis direction shaping assembly and a material pulling assembly, the X-axis direction shaping assembly is utilized to carry out X-axis direction leveling on a product to be processed firstly, the product to be processed after being leveled in the X-axis direction is leveled in the Y-axis direction when entering the Y-axis direction shaping assembly, and the product to be processed after being leveled in the X-axis direction and the Y-axis direction is extruded and leveled through the material pulling assembly, so that the condition that the product to be processed is corrected and shaped for many times while the machine is not stopped is realized, and the problem that the shaping effect of coiled copper wires is not ideal due to the condition that a single-stage leveling machine is adopted in the prior art and the subsequent processing is affected is effectively solved.

And the correction stroke can be independently adjusted among the X-axis direction shaping component, the Y-axis direction shaping component and the material pulling component so as to adapt to various specifications, and the universality is improved.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (6)

1. The utility model provides a material loading shaping device which characterized in that: comprises a fixing frame, a feeding assembly and a shaping mechanism for leveling a product to be processed; the feeding assembly and the shaping mechanism are arranged on the fixing frame, the feeding assembly is positioned beside the shaping mechanism, and the shaping mechanism is arranged on the fixing frame through the adapter plate;

the shaping mechanism comprises an X-axis direction shaping assembly for carrying out X-axis direction leveling on a product to be processed, a Y-axis direction shaping assembly for carrying out Y-axis direction leveling on the product to be processed, and a material pulling assembly for carrying out material pulling shaping on the product to be processed after the X-axis direction and the Y-axis direction leveling; the X-axis direction shaping assembly is connected to the Y-axis direction shaping assembly through a connecting plate, and the X-axis direction shaping assembly, the Y-axis direction shaping assembly and the material pulling assembly are sequentially arranged along the up-down direction.

2. The feeding and shaping device according to claim 1, wherein: the X-axis direction shaping assembly comprises a first mounting plate and a plurality of first correction rollers, wherein the first correction rollers are arranged on the first mounting plate at adjustable dislocation intervals to form a first correction space, the first mounting plate is provided with a first input port and a first output port, and the first input port and the first output port are communicated with the first correction space.

3. A loading shaping device according to claim 2, characterized in that: the Y-axis direction shaping assembly comprises a second mounting plate and a plurality of second correcting rollers, wherein the second correcting rollers are arranged on the second mounting plate at adjustable dislocation intervals to form a second correcting space, the second mounting plate is provided with a second input port and a second output port, the second input port is communicated with the first output port, and the second input port and the second output port are communicated with the second correcting space.

4. A loading shaping device according to claim 3, wherein: the material pulling assembly comprises a frame, a driving roller, a driven roller, an adjusting piece and a second driving device for driving the driving roller to rotate; the frame is fixedly arranged on the adapter plate, a material pulling gap is formed between the driving roller and the driven roller in a surrounding mode, the material pulling gap is arranged below the second output port, the driving roller is rotatably arranged in the frame, a movable groove is formed in the frame, one end of the driven roller is arranged in the movable groove, the second driving device is connected with the driving roller through an output shaft to drive the driving roller to rotate and is fixedly arranged on the adapter plate, the adjusting piece is used for adjusting the size of the material pulling gap, the adjusting piece is movably connected with one end of the frame, the adjusting piece comprises a connecting rod and a first adjusting knob, one end of the first adjusting knob is connected with the connecting rod, and the adjusting piece stretches into the movable groove through the connecting rod and is connected with one end of the driven roller to rotate the first adjusting knob so that one end of the driven roller is pushed by the connecting rod to move along the movable groove, so that the material pulling gap is changed.

5. The feeding and shaping device according to claim 1, wherein: the feeding assembly comprises a coil tray, a guide tray and a third driving device; the third driving device drives the coil tray to rotate and is fixedly arranged on the fixing frame, and the guide tray is positioned beside the coil tray and is fixedly arranged on the fixing frame.

6. The feeding and shaping device according to claim 4, wherein: the output end of the fixed frame corresponding to the material pulling gap is also provided with a material discharging induction component for inducing material discharging.