CN211917411U - Novel material is thrown to raw materials of light variation function masterbatch device - Google Patents

Abstract

The utility model provides a novel material is thrown to raw materials of light variable function masterbatch device belongs to mechanical technical field. It has solved prior art and has had the poor problem of stability. This novel material is thrown to raw materials of light variability function masterbatch device is including being cylindric casing, still includes driving piece, pivot, push jack, play flitch and contact disc, the vertical setting of casing, the casing upper end have rather than the communicating pan feeding mouth of inner chamber, the casing lower extreme have rather than the communicating discharge gate of inner chamber, above-mentioned driving piece links firmly in casing upper end department, and above-mentioned pivot is located the casing and the pivot upper end stretches out the casing and is connected with the driving piece, and above-mentioned push jack links firmly at pivot lateral part and push jack lower extreme and is close to in the discharge gate. This novel material is thrown to raw materials of light variation function masterbatch device stability is high.

Description

Novel material is thrown to raw materials of light variation function masterbatch device

Technical Field

The utility model belongs to the technical field of machinery, a novel material is thrown to raw materials of light becomes function masterbatch device is related to.

Background

The raw materials of the novel optically-variable functional master batch are pre-stored in the corresponding shell, and in the master batch production operation process, the master batch raw materials in the shell need to be added into the forming device.

In order to facilitate charging, a discharge port at the lower end of the shell is provided with a valve which can be opened and closed. When raw material feeding is needed, the valve is opened. Otherwise, the valve is closed when the feeding is not needed.

It can be seen that this dosing method still requires manual operation of the valve. The amount of material fed is determined entirely by the working experience of the operator, resulting in a less stable feed.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide a high and compact structure's novel material of becoming of light function masterbatch throws material device.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a novel material is thrown to raw materials of light becomes function masterbatch device, is including being cylindric casing, its characterized in that, still includes driving piece, pivot, push jack, play flitch and contact disc, the vertical setting of casing, the casing upper end have rather than the communicating pan feeding mouth of inner chamber, the casing lower extreme has rather than the communicating discharge gate of inner chamber, above-mentioned driving piece links firmly in casing upper end department, above-mentioned pivot is located the casing and the pivot upper end stretches out the casing and is connected with the driving piece, above-mentioned push jack links firmly at pivot lateral part and push jack lower extreme and is close to in the discharge gate, above-mentioned pivot lower extreme stretches out the casing and pivot lower extreme and links firmly with the contact disc, above-mentioned pivot is close to in the center department of contact disc, above-mentioned play flitch upper.

The master batch raw materials are sent into the casing by the pan feeding mouth, because the discharge opening is smaller, when the pivot did not drive the push jack and rotate, the master batch raw materials in the casing only can be very a small amount by the discharge gate discharge. That is, at this time, the master batch raw material in the case is difficult to be discharged from the discharge port.

Otherwise, when the driving piece drives the rotating shaft to rotate, the push piece pushes the master batch raw material into the discharge hole along with the rotation process. Because a large amount of master batch raw materials are continuously pushed into the discharge port, the master batch raw materials can be smoothly discharged from the discharge port.

The amount of the master batch raw materials discharged from the discharge port is determined by the rotating speed of the rotating shaft, so that the feeding amount of the master batches output by the device can be controlled.

Drop to play flitch department by discharge gate department exhaust master batch raw materials, the pivot rotates the most strong point and the most short frequent and the play flitch contact of department at in-process contact disc border, finally enables the frequency shake of play flitch miniwatt range, finally enables the smooth and easy discharge of master batch raw materials on the flitch.

In the above raw material feeding device for the novel optically variable functional master batch, the number of the push pieces is four, and the four push pieces are circumferentially and uniformly distributed and fixedly connected to the side part of the rotating shaft.

The shell can be divided into four independent cavities by the four push pieces, and only the master batch raw material in one cavity is output when the master batch raw material is output, so that the condition that the master batch output speed is too high is avoided.

In the raw material feeding device of the novel optically variable functional master batch, the contact disc and the rotating shaft are of an integrated structure.

This can suitably simplify the structure of the apparatus.

In the raw material feeding device of the novel optically variable master batch, the rotating shaft is superposed with the axial lead of the shell.

In the above-mentioned raw materials of novel optically-variable function masterbatch throws material device, above-mentioned pan feeding mouth and discharge gate are located the both sides department of pivot respectively.

Such structure can avoid the master batch raw materials that is sent into by the pan feeding mouth too fast to be discharged by the discharge gate.

In the above-mentioned raw materials of novel optically-variable function masterbatch throws material device, discharge gate department links firmly the flitch of crossing.

In the above-mentioned raw materials of novel optically-variable function masterbatch throws material device, the flitch of crossing is flat-plate-shaped and has a plurality of blanking holes that run through on the flitch of crossing.

Because the discharging plate is provided with a plurality of blanking holes with smaller sizes, the output speed of the master batch raw material can be further reduced.

Of course, increasing the output speed of the feedstock may be achieved by increasing the rotational speed of the shaft.

In the above raw material feeding device for the novel optically variable master batch, the upper port of the blanking hole is provided with a chamfer-shaped lead-in part.

The arrangement of the leading-in part can ensure that the master batch raw material smoothly enters the blanking hole.

In the raw material feeding device for the novel optically variable master batch, the upper port of the discharge port is provided with the positioning seat recessed to the side part of the discharge port, the side part of the material passing plate is provided with the blocking edge protruding to the side part of the material passing plate, and the blocking edge is matched with the positioning seat and embedded in the positioning seat.

The blocking edge is matched with the positioning seat to ensure that the discharging plate is stably connected to the shell.

Of course, the upper part of the discharging plate is flush with the bottom in the shell.

Compared with the prior art, this material device is thrown to raw materials of light variability function masterbatch is because master batch raw materials can not export during initial condition basically, of course, as the master batch processing of extensive type, a small amount of master batch raw materials output can not influence the granulation process yet.

When the set output quantity of the master batch is required to be reached, the rotating shaft is driven by the driving piece to reach the set rotating speed, and the driving piece is a motor.

It can be seen that the feeding device has high feeding automation degree and high stability.

Meanwhile, the discharge plate and the contact disc are both positioned at the bottom of the shell, so that the structure is compact and has high practical value.

Drawings

Fig. 1 is a schematic sectional structure view of the raw material feeding device of the novel optically variable functional masterbatch.

Fig. 2 is a schematic view of a top view structure of a rotating shaft in the raw material feeding device of the novel optically variable functional master batch.

In the figure, 1, a housing; 1a, a feeding port; 1b, a discharge hole; 1b1, positioning seat; 2. a drive member; 3. a rotating shaft; 4. pushing the sheet; 5. a material passing plate; 5a, blanking holes; 5a1, an introduction section; 5b, blocking edges; 6. a contact pad; 7. and a discharging plate.

Detailed Description

As shown in figure 1, the raw material feeding device of the novel optically variable master batch comprises a cylindrical shell 1, a driving piece 2, a rotating shaft 3, a push sheet 4, a discharge plate 7 and a contact disc 6, the shell 1 is vertically arranged, the upper end of the shell 1 is provided with a feeding port 1a communicated with the inner cavity of the shell, the lower end of the shell 1 is provided with a discharging port 1b communicated with the inner cavity of the shell, the driving piece 2 is fixedly connected with the upper end of the shell 1, the rotating shaft 3 is positioned in the shell 1, the upper end of the rotating shaft 3 extends out of the shell 1 and is connected with the driving piece 2, the push plate 4 is fixedly connected with the side part of the rotating shaft 3, the lower end of the push plate 4 is close to the discharge hole 1b, the lower end of the rotating shaft 3 extends out of the shell 1, the lower end of the rotating shaft 3 is fixedly connected with the contact disc 6, the rotating shaft 3 is close to the center of the contact disc 6, the upper end of the discharging plate 7 is hinged to the bottom of the shell 1, and the middle of the discharging plate 7 is abutted against the contact disc 6.

The number of the push pieces 4 is four, and the four push pieces 4 are circumferentially and uniformly distributed and fixedly connected to the side part of the rotating shaft 3.

The contact disc 6 and the rotating shaft 3 are of an integrated structure.

The rotating shaft 3 is arranged to coincide with the axis of the housing 1.

The feeding port 1a and the discharging port 1b are respectively positioned at two sides of the rotating shaft 3.

And a material passing plate 5 is fixedly connected at the discharge port 1 b.

The material passing plate 5 is flat and is provided with a plurality of through blanking holes 5a on the material passing plate 5.

The upper port of the blanking hole 5a is provided with a chamfered leading-in part 5a 1.

The upper port of the discharge port 1b is provided with a positioning seat 1b1 recessed towards the side part thereof, the side part of the material passing plate 5 is provided with a blocking edge 5b protruding towards the side part thereof, the blocking edge 5b is matched with the positioning seat 1b1, and the blocking edge 5b is embedded in the positioning seat 1b 1.

The master batch raw materials are sent into the casing by the pan feeding mouth, because the discharge opening is smaller, when the pivot did not drive the push jack and rotate, the master batch raw materials in the casing only can be very a small amount by the discharge gate discharge. That is, at this time, the master batch raw material in the case is difficult to be discharged from the discharge port.

Otherwise, when the driving piece drives the rotating shaft to rotate, the push piece pushes the master batch raw material into the discharge hole along with the rotation process. Because a large amount of master batch raw materials are continuously pushed into the discharge port, the master batch raw materials can be smoothly discharged from the discharge port.

The amount of the master batch raw materials discharged from the discharge port is determined by the rotating speed of the rotating shaft, so that the feeding amount of the master batches output by the device can be controlled.

Drop to play flitch department by discharge gate department exhaust master batch raw materials, the pivot rotates the most strong point and the most short frequent and the play flitch contact of department at in-process contact disc border, finally enables the frequency shake of play flitch miniwatt range, finally enables the smooth and easy discharge of master batch raw materials on the flitch.

Claims (9)

1. The utility model provides a novel material is thrown to raw materials of light becomes function masterbatch device, is including being cylindric casing, its characterized in that, still includes driving piece, pivot, push jack, play flitch and contact disc, the vertical setting of casing, the casing upper end have rather than the communicating pan feeding mouth of inner chamber, the casing lower extreme has rather than the communicating discharge gate of inner chamber, above-mentioned driving piece links firmly in casing upper end department, above-mentioned pivot is located the casing and the pivot upper end stretches out the casing and is connected with the driving piece, above-mentioned push jack links firmly at pivot lateral part and push jack lower extreme and is close to in the discharge gate, above-mentioned pivot lower extreme stretches out the casing and pivot lower extreme and links firmly with the contact disc, above-mentioned pivot is close to in the center department of contact disc, above-mentioned play flitch upper.

2. The raw material feeding device of the novel optically variable functional masterbatch according to claim 1, wherein the number of the push pieces is four, and the four push pieces are circumferentially and uniformly distributed and fixedly connected to the side of the rotating shaft.

3. The raw material feeding device of the novel optically variable functional masterbatch according to claim 2, wherein the contact plate and the rotating shaft are of an integrated structure.

4. The raw material feeding device of the novel optically variable functional masterbatch according to claim 3, wherein the rotating shaft is disposed to coincide with the axis of the housing.

5. The novel raw material feeding device of optically variable functional masterbatch as claimed in claim 4, wherein the material inlet and the material outlet are respectively located at two sides of the rotation shaft.

6. The raw material feeding device of the novel optically variable functional masterbatch according to claim 5, wherein a material passing plate is fixedly connected to the discharge port.

7. The raw material feeding device of the novel optically variable functional master batch as claimed in claim 6, wherein the material passing plate is flat and has a plurality of through blanking holes.

8. The raw material feeding device of the novel optically variable functional masterbatch according to claim 7, wherein the upper port of the blanking hole has a chamfered introduction portion.

9. The device for feeding a raw material of a novel optically variable master batch according to claim 8, wherein the upper port of the discharge port has a positioning seat recessed toward the side thereof, the side of the passing plate has a retaining edge protruding toward the side thereof, the retaining edge is matched with the positioning seat and the retaining edge is embedded at the positioning seat.

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