CN213651038U - A vibration feed mechanism for slider plastic processing - Google Patents

Abstract

The utility model discloses a vibration feeding mechanism for shaping and processing a slide block, which comprises a vibration motor, a storage bin, a spiral feeding plate, a narrow bridging plate and a feeding pipe; the storage bin is matched with the vibration motor; the spiral feeding plate is fixed on the inner wall of the storage bin, the starting end of the spiral feeding plate is connected to the inner bottom surface of the storage bin, and the tail end of the spiral feeding plate extends to the bin opening of the storage bin and is communicated with the feeding hole of the feeding pipe through the narrow bridge plate; and an outer side baffle is arranged on the outer side of the narrow bridge plate. The utility model discloses a being equipped with vibrating motor, storage silo, spiral and going up flitch, narrow bridging board and conveying pipe, under vibrating motor's effect, the slider that will arrange in the storage silo loops through spiral and goes up flitch, narrow bridging board and conveying pipe and continuously carry to die-cut frock to replace the manual work and take and place, overcome the defect that the workman brought, die-cut frock is the speed-raising operation of doing, and then has improved the machining efficiency of slider greatly.

Description

A vibration feed mechanism for slider plastic processing

Technical Field

The utility model relates to a technical field of slider plastic processing especially relates to a vibration feed mechanism for slider plastic processing.

Background

The slide block is a common and easily-consumed precision part in mechanical equipment, and has high processing precision requirement and large demand. In the machining process, the sliding block needs to be shaped, and a notch groove is machined in the sliding block.

The existing notch groove processing technology is that a worker takes a slide block to a punching tool and punches a notch groove by the punching tool.

Through observation, the sliding block taken by a worker is simple in work, but the worker is easy to fatigue, is not concentrated in attention and is in a diffuse state due to repeated taking; in addition, in order to guarantee the safety of workers, the operation speed of the punching tool must be reduced to match the workers to put the sliding block into the punching tool; the machining efficiency of the slider is also greatly reduced by the above-described circumstances.

In view of this, the present inventors have made extensive conception in view of many defects and inconveniences caused by the imperfect shaping process of the slider, and have actively studied, improved and tried on the slider to develop and design the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vibration feed mechanism for slider plastic processing for improve the machining efficiency to the slider.

In order to achieve the above purpose, the solution of the present invention is:

a vibration feeding mechanism for shaping and processing a sliding block comprises a vibration motor, a storage bin, a spiral feeding plate, a narrow bridging plate and a feeding pipe; the storage bin is matched with the vibration motor; the spiral feeding plate is fixed on the inner wall of the storage bin, the starting end of the spiral feeding plate is connected to the inner bottom surface of the storage bin, and the tail end of the spiral feeding plate extends to the bin opening of the storage bin and is communicated with the feeding hole of the feeding pipe through the narrow bridge plate; the outer side of the narrow bridge plate is provided with an outer side baffle and a limiting clamping strip fixed on the outer side baffle.

The outside of storage silo is equipped with retrieves the framework, it is located the below of narrow bridging plate to retrieve the framework.

The narrow bridge plate is arranged towards the outer side baffle in a downward inclined mode.

The narrow bridging plate is arc-shaped and is internally tangent and connected with the spiral feeding plate; the outer side baffle is also arc-shaped and is internally tangent and connected with the bin body of the storage bin.

One end of the narrow bridge plate, which is close to the feeding pipe, is provided with a widening section, and the inner side of the widening section is provided with an inner side baffle.

And an observation window is arranged on the outer side of the feeding pipe and runs through the head and the tail of the feeding pipe.

The feeding pipe is also provided with a support frame rod, and one end of the support frame rod is fixed on the feeding pipe.

The conveying pipe comprises a slow connection section and a steep descent section, the slow connection section is arranged at one end close to the narrow bridge plate, and the steep descent section is arranged at one end far away from the narrow bridge plate.

After the scheme is adopted, the utility model discloses a being equipped with vibrating motor, storage silo, spiral on flitch, narrow bridging plate and conveying pipe, under vibrating motor's effect, the slider that will arrange in the storage silo loops through spiral on flitch, narrow bridging plate and conveying pipe and continuously carries to die-cut frock to replace the manual work and take and place, overcome the defect that the workman brought, die-cut frock is the speed-raising operation also, and then has improved the machining efficiency of slider greatly.

And, the utility model discloses a be equipped with narrow bridging plate, when carrying the slider, only length direction and the unanimous slider of narrow bridging plate just can pass through narrow bridging plate, can sieve the slider to the slider state of guaranteeing the output is correct, accords with the subsequent processing demand of slider.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of the die-cut tooling according to the preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

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 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. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 2, a preferred embodiment of a vibration feeding mechanism for shaping and processing a slider of the present invention includes a vibration motor 11, a storage bin 12, a spiral feeding plate 13, a narrow bridging plate 14, and a feeding pipe 2; the storage bin 12 is matched on the vibration motor 11; the spiral feeding plate 13 is fixed on the inner wall of the storage bin 12, the starting end of the spiral feeding plate is connected to the inner bottom surface of the storage bin 12, the tail end of the spiral feeding plate extends to the bin mouth of the storage bin 12, and the spiral feeding plate is communicated with the feeding hole of the feeding pipe 2 through the narrow bridging plate 14; the outer side of the narrow bridge plate 14 is provided with an outer baffle 141 and a limit clamping strip 142 fixed on the outer baffle 141.

In this embodiment, the cross section of the slider to be processed is in a shape of a Chinese character 'tu', and the slider is in a long strip shape. When the slide block is processed by the processing equipment of the utility model, the slide block to be processed is arranged in the storage bin 12; then, under the continuous vibration of the vibration motor 11, the slider can be attached to the inner wall of the storage bin 12 and moves towards the narrow bridging plate 14 located at the bin opening of the storage bin 12 along the spiral feeding plate 13, when the length direction of the slider is consistent with that of the narrow bridging plate 14 and the steps on the two sides of the convex slider face upwards, the slider can be attached to the outer side baffle 141 of the narrow bridging plate 14, the limiting clamping strip 142 can be just pressed against the step on one side of the convex slider, so that the slider is clamped between the limiting clamping strip 142 and the narrow bridging plate 14, the slider is prevented from falling off the narrow bridging plate 14, and can enter the feeding pipe 2 through the narrow bridging plate 14 and be fed to the punching tool 3 through the feeding pipe 2; and the sliders in other states can not enter between the limiting clamping strip 142 and the narrow bridge plate 14, namely can not pass through the narrow bridge plate 14, and finally, the part of the sliders can be mostly exposed out of the narrow bridge plate 14 along with vibration until the gravity center of the sliders is positioned outside the narrow bridge plate 14 and falls off from the narrow bridge plate 14.

The utility model discloses a focus on, the utility model discloses a being equipped with vibrating motor 11, storage silo 12, on the spiral flitch 13, narrow bridging plate 14 and conveying pipe 2, under vibrating motor 11's effect, the slider that will arrange in storage silo 12 loops through on the spiral flitch 13, narrow bridging plate 14 and conveying pipe 2 and continuously carries to die-cut frock 3 to replace the manual work to take and place, overcome the defect that the workman brought, die-cut frock 3 also can the speeding operation, and then has improved the machining efficiency of slider greatly.

And, the utility model discloses a be equipped with narrow bridging plate 14, outside baffle 141 and spacing card strip 142, when carrying the slider, only length direction and the unanimous and equal up slider of step of "protruding" font slider both sides of narrow bridging plate 14 could pass through narrow bridging plate 14, can sieve the slider to guarantee that the slider state of output is correct, accord with the subsequent processing demand of slider.

A recycling frame 121 is disposed outside the storage bin 12, and the recycling frame 121 is located below the narrow bridging plate 14. Through being equipped with and retrieving framework 121, retrieve the slider that drops from narrow bridging board 14, later, take out the slider from retrieving framework 121 by the staff again, place in storage silo 12 again.

The narrow bridge plate 14 is provided to be inclined downward toward the outer baffle 141. Because need block the slider between spacing calorie strip 142 and narrow bridge plate 14, avoid the slider to drop from narrow bridge plate 14, so, through setting up narrow bridge plate 14 towards outside baffle 141 downward sloping, can make the slider through narrow bridge plate 14 to outside baffle 141 gliding, and lean on outside baffle 141, so, the slider can be more stable block between spacing calorie strip 142 and narrow bridge plate 14, make the slider that the state is correct can pass through narrow bridge plate smoothly, improve the rate of passage that the slider passes through narrow bridge plate 14.

The narrow bridging plate 14 is arc-shaped and is internally tangent and connected with the spiral feeding plate 13; the outer baffle 141 is also arc-shaped and is internally tangent to the storage bin 12. Through inscribe connected mode, when carrying the slider, the slider can be smooth-going from on the spiral flitch 13 removes to narrow bridging plate 14, reduces the position change of slider for the slider can paste and lean on the smooth-going removal of inside wall and outside baffle 141 at storage silo 12, until passing through narrow bridging plate 14, so, also can improve the rate of passage that the slider passes through narrow bridging plate 14.

One end of the narrow bridge plate 14 close to the feeding pipe 2 is provided with a widening section 143, and the inner side of the widening section 143 is provided with an inner baffle 144. The slider passes through the narrow bridge plate 14 and then enters the widening section 143, and the outer side baffle 141 and the inner side baffle 144 on the two sides of the widening section 143 can guide the slider, so that the slider can smoothly enter the feeding pipe 2.

The outside of the feeding pipe 2 is provided with an observation window 21, and the observation window 21 penetrates through the head and the tail of the feeding pipe 2. Through being equipped with observation window 21 for the staff can observe the slider through the state of conveying pipe 2 through observation window 21, when the slider card did not glide in conveying pipe 2, can also push away the slider forward through observation window 21 with the help of a thin pole (for example screwdriver), makes the slider glide smoothly in conveying pipe 2.

The feeding pipe 2 is further provided with a support frame rod 22, and one end of the support frame rod 22 is fixed on the feeding pipe 2. When installed, the other end of the support frame rod 22 can be connected to a mounting base. By providing the support frame rods 22, the structural firmness of the feeding tube 2 can be increased.

Above-mentioned conveying pipe 2 connects section 23 and precipitous drop section 24 including slowly, slowly connects section 23 to set up in the one end that is close to narrow bridging plate 14, and precipitous drop section 24 sets up in the one end of keeping away from narrow bridging plate 14, is close to the one end of die-cut frock 3 promptly. The feeding pipe 2 is connected to the narrow bridging plate 14 through the slow connection section 23, so that the sliding block can smoothly move from the narrow bridging plate 14 to the slow connection section 23 and slide towards a discharge hole of the feeding pipe 2 in the slow connection section 23; when sliding to the steep descending section 24, the sliding block can accelerate to slide towards the discharge hole of the feeding pipe 2, so that the sliding block sliding out of the feeding pipe 2 can slide into the punching tool 3.

The foregoing description of the specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application, to thereby enable others skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be suited to the particular use contemplated and contemplated by those skilled in the art without departing from the scope of the invention.

Claims (8)

1. The utility model provides a vibration feed mechanism for slider plastic processing which characterized in that: the device comprises a vibration motor, a storage bin, a spiral feeding plate, a narrow bridging plate and a feeding pipe; the storage bin is matched with the vibration motor; the spiral feeding plate is fixed on the inner wall of the storage bin, the starting end of the spiral feeding plate is connected to the inner bottom surface of the storage bin, and the tail end of the spiral feeding plate extends to the bin opening of the storage bin and is communicated with the feeding hole of the feeding pipe through the narrow bridge plate; the outer side of the narrow bridge plate is provided with an outer side baffle and a limiting clamping strip fixed on the outer side baffle.

2. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: the outside of storage silo is equipped with retrieves the framework, it is located the below of narrow bridging plate to retrieve the framework.

3. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: the narrow bridge plate is arranged towards the outer side baffle in a downward inclined mode.

4. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: the narrow bridging plate is arc-shaped and is internally tangent and connected with the spiral feeding plate; the outer side baffle is also arc-shaped and is internally tangent and connected with the bin body of the storage bin.

5. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: one end of the narrow bridge plate, which is close to the feeding pipe, is provided with a widening section, and the inner side of the widening section is provided with an inner side baffle.

6. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: and an observation window is arranged on the outer side of the feeding pipe and runs through the head and the tail of the feeding pipe.

7. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: the feeding pipe is also provided with a support frame rod, and one end of the support frame rod is fixed on the feeding pipe.

8. A vibratory feed mechanism for plastic working of sliders as in claim 1 further comprising: the conveying pipe comprises a slow connection section and a steep descent section, the slow connection section is arranged at one end close to the narrow bridge plate, and the steep descent section is arranged at one end far away from the narrow bridge plate.

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