CN110653962A - Cylinder plastic granules adds thermal processing machine with preventing residual heat bonding hopper - Google Patents

Abstract

The invention discloses a residual temperature bonding prevention hopper for a cylindrical plastic particle heating processing machine, which structurally comprises a material hopper, a heating processing box and an observation window, wherein the material hopper penetrates through the inner part of a partition plate, when a first batch of plastic particles are processed and a second batch of plastic particles are guided into, the port of the material hopper connected with the heating processing box can store residual temperature of heat, a limit ladder angle drives a soft outer layer to stretch out when the plastic particles are guided into a built-in grid, the connecting part of the soft outer layer cannot be bent excessively when the soft outer layer stretches, a clamping ball between an extension force bar and an outer following core layer pushes the inclined point to control the movement tendency after the whole body is stressed, the plastic particles in the material hopper directly jump over a residual temperature section to be guided in, when the heat returns to the temperature, the clamping angle can have enough hard force, and the end of the plastic particles can stretch towards the side through the heat of the material hopper when the residual temperature of the first batch of plastic particles is processed, so that a subsequent batch of plastic particles directly jump over the residual temperature section to enter, and the bonding phenomenon can not be caused.

Description

Cylinder plastic granules adds thermal processing machine with preventing residual heat bonding hopper

Technical Field

The invention belongs to the field of plastic processing machines, and particularly relates to an excess temperature bonding prevention hopper for a cylindrical plastic particle heating processing machine.

Background

When cylindrical plastic particles are to be introduced into the heating and melting treatment equipment, the plastic particles are required to pass through an inverted cone-shaped hopper which is arranged in a larger amount, and one end of the hopper is connected with the heating equipment.

Based on the findings of the inventor, the prior hopper for the plastic processing machine mainly has the following defects, such as:

when the heating equipment has finished processing the last batch and has remained the waste heat, when the next batch entered into the heating equipment through the hopper, the port linked with the inside will exist in the heat, when the plastic granules were led in through the port, it will be melted, become sticky, bond in leading-in port more easily, should its subsequent leading-in quantity.

Therefore, the residual heat bonding prevention hopper for the cylindrical plastic particle heating processing machine needs to be provided.

Disclosure of Invention

In order to solve the technical problem that when the heating equipment finishes processing the last batch and leaves residual temperature, and the next batch enters the heating equipment through the hopper, the port connected with the inside can be stored with heat, and when plastic particles are led in through the port, the plastic particles are melted and become sticky, are easy to be adhered to the leading-in port, and are required to be led in subsequent quantities.

The invention relates to a purpose and an effect of an anti-residual-temperature bonding hopper for a cylindrical plastic particle heating processing machine, which are achieved by the following specific technical means:

the structure of the device comprises a material hopper, a heating treatment box, an observation window, a control button and a division plate.

The material hopper runs through the inside of the interlayer plate, the interlayer plate is welded on the upper surface of the heating treatment box, and the control button and the observation window are arranged on the same plane.

The material hopper comprises a hot push angle, a side separation core, a protection plate and a built-in grid, wherein the hot push angle is connected with the protection plate, the side separation core is embedded in the protection plate, and the built-in grid is installed inside the protection plate.

As a further improvement of the invention, the hot-pushing angle comprises a punching opening, a punching angle, an interlayer fixing core and an outer sliding layer, wherein the punching opening is connected with the interlayer fixing core, the interlayer fixing core is attached to the outer surface of the outer sliding layer, the punching angle is connected with the interlayer fixing core, and the interlayer fixing core is made of rubber materials and has certain rebound elasticity.

As a further improvement of the invention, the punching opening comprises an energy collecting opening, a bent angle bead, a soft outer layer, a bent opening layer, a ladder limiting angle and a pulling arc, wherein the energy collecting opening is connected with the bent angle bead, the ladder limiting angle is embedded into the soft outer layer, the soft outer layer is attached to the outer surface of the bent opening layer, the pulling arc is connected with the soft outer layer, the number of the ladder limiting angles is eight, and the pulling arc is of an arc-shaped structure.

As a further improvement of the invention, the ladder limiting angle comprises two elliptical return strips, two support heads, two core pressing balls and two clamping angles, wherein the core pressing balls are embedded in the clamping angles, the elliptical return strips are arranged on the outer surfaces of the support heads, and the support heads are of arc structures.

As a further improvement of the invention, the stamping angle comprises an outer following core layer, an inclined tip, a clamping bent mouth, a holding angle, a clamping ball and a stretching strip, wherein the inclined tip is embedded in the outer following core layer, the clamping bent mouth is connected with the outer following core layer, the clamping ball is attached to the outer surface of the inclined tip, the holding angle is connected with the stretching strip, the number of the clamping balls is four, two clamping balls are in one group, and the number of the inclined tips is two.

As a further improvement of the invention, the core pressing ball comprises two slow folding angles, an outer swelling layer and a rolling ball, wherein the slow folding angles are attached to the outer surface of the outer swelling layer, the rolling ball is embedded in the outer swelling layer, the rolling ball is of a spherical structure, the outer swelling layer is of an oval structure, and the number of the slow folding angles is two.

Compared with the prior art, the invention has the following beneficial effects:

when the first batch is processed and the second batch is introduced, the port of the material hopper connected with the heating processing box has residual heat of heat, when the plastic particles are led into the built-in grids, the limit ladder angle drives the soft outer layer to stretch, when the soft outer layer stretches, the bending layer is extruded, the joint part can be protected when being stressed and bent, the joint part can not be bent excessively, the clamping ball between the stretching bar and the outer core layer pushes the inclined point, the activity inclination after the whole stress is controlled, and the plastic particles in the bending layer directly jump the residual temperature section and are led in, when the temperature is returned to the temperature, the clamping angle can have enough hardness, and when the first batch of plastic particles are processed and residual temperature is remained, the port of the plastic particle is extended towards the side through the heat, so that a subsequent batch of plastic particles directly skip the residual temperature section to enter, and the bonding phenomenon can not be caused.

Drawings

FIG. 1 is a schematic structural view of an anti-residual-temperature bonding hopper for a cylindrical plastic particle heating processing machine according to the present invention.

Fig. 2 is a schematic front view of the internal structure of the material hopper according to the present invention.

Fig. 3 is a schematic view of an elevation view of an internal structure of a hot push angle according to the present invention.

FIG. 4 is a schematic front view of an internal structure of a die of the present invention.

FIG. 5 is a schematic view of an elevation view of an internal structure of a ladder limiting corner according to the present invention.

FIG. 6 is a schematic view of an elevation view of an internal structure of a stamping corner according to the present invention.

Fig. 7 is a schematic front view of the inner structure of the core pressing ball according to the present invention.

In the figure: a material hopper-tt 01, a heating treatment tank-tt 02, an observation window-tt 03, a control button-tt 04, a interlayer plate-tt 04, a hot push angle-a 1 04, a side partition core-a 2 04, a protection plate-a 3 04, an internal grid-a 4 04, a punching opening-qw 04, a punching angle-qw 04, a sandwich fixed core-qw 04, an outer slide layer-qw 04, an energy gathering opening-as 04, a bend protection angle-as 04, a soft outer layer-as 04, a bend opening layer-as 04, a ladder limiting angle-as 04, a pull arc-as 04, an elliptical return strip-www 04, a support head-ww 04, a core pressing ball-ww 04, a clamping angle-ww 04, an outer follow core layer-q 1 04, a tendency tip-q 2 04, a bend opening-wq 04, a support ball-wq 04, a ball-wq rolling ball-04, a rolling angle-04, a rolling and a rolling angle-04.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a residual-temperature-bonding-preventing hopper for a cylindrical plastic particle heating processing machine, which structurally comprises a material hopper tt01, a heating processing box tt02, an observation window tt03, a control button tt04 and a interlayer plate tt 05.

The material hopper tt01 penetrates through the inner part of a interlayer plate tt05, the interlayer plate tt05 is welded on the upper surface of a heating treatment box tt02, and the control button tt04 and the observation window tt03 are arranged on the same plane.

The material hopper tt01 comprises a hot push angle a1a, a side partition core a2a, a protection plate a3a and a built-in lattice a4a, wherein the hot push angle a1a is connected with the protection plate a3a, the side partition core a2a is embedded in the protection plate a3a, and the built-in lattice a4a is installed in the protection plate a3 a.

The hot-pushing angle a1a comprises a punching port qw1, a punching angle qw2, an interlayer solid core qw3 and an outer sliding layer qw4, the punching port qw1 is connected with the interlayer solid core qw3, the interlayer solid core qw3 is attached to the outer surface of the outer sliding layer qw4, the punching angle qw2 is connected with the interlayer solid core qw3, the interlayer solid core qw3 is made of rubber materials and has certain resilience, the punching angle qw2 can play a role in buffering and reacting when the connecting part is stressed, the connecting part is pushed to return when the resistance of the connecting part is lost, and the punching port qw1 can gather energy according to the external interference to uniformly implement force on the whole body.

The punching port qw1 comprises an energy-gathering port as11, a bent protection angle as22, a soft outer layer as33, a bent port layer as44, a ladder-limiting angle as55 and a pulling arc as66, wherein the energy-gathering port as11 is connected with the bent protection angle as22, the ladder-limiting angle as55 is embedded in the soft outer layer as33, the soft outer layer as33 is attached to the outer surface of the bent port layer as44, the pulling arc as66 is connected with the soft outer layer as33, the ladder-limiting angles as55 are eight, the pulling arc as66 is of an arc-shaped structure, the bent port layer as44 can protect the attached part when the attached part is bent under stress, so that the attached part cannot be bent excessively, the ladder-limiting angle as55 has a movable range of the installation part, and the pulling arc 66 has a reverse force effect when swinging from two sides, so that the pulling arc as can be pulled back to the original position in time when the pulling force is lost.

The ladder-limiting angle as55 comprises an oval-shaped return strip www1, a supporting head www2, a core pressing ball www3 and a clamping angle www4, wherein the core pressing ball www3 is embedded in the clamping angle www4, the oval-shaped return strip www1 is installed on the outer surface of the supporting head www2, two oval-shaped return strips www1 are arranged, the supporting head www2 is of an arc-shaped structure, the supporting head www2 controls the whole position, the oval-shaped return strip www1 plays a role in limiting the moving range of the connecting part of the oval-shaped return strip www1, the clamping angle www4 plays a role in mutual interference of the force of the external part of the oval-shaped return strip, and the core pressing ball www3 gives a certain expansion force to the outer layer.

The stamping angle qw2 comprises an outer following core layer q1q, an inclined tip q2q, a clamping bent opening q3q, a holding angle q4q, a clamping ball q5q and a tension bar q6q, wherein the inclined tip q2q is embedded in the outer following core layer q1q, the clamping bent opening q3q is connected with the outer following core layer q1q, the clamping ball q5q is attached to the outer surface of the inclined tip q2q, the holding angle q4q is connected with the tension bar q6q, four clamping balls q5q are arranged in one group, the inclined tip q2q is arranged in two groups, the inclined tip q2q controls the activity tendency of the whole body after stress, the clamping ball q5q can be firmly connected with the two positions, the tension bar q6q enlarges the whole area stress of the whole body, and the clamping bent opening q3q plays a protection role when the whole body is bent under stress.

The core pressing ball www3 comprises a slow folding angle cc01, an outer expansion layer cc02 and a rolling ball cc03, wherein the slow folding angle cc01 is attached to the outer surface of the outer expansion layer cc02, the rolling ball cc03 is embedded in the outer expansion layer cc02, the rolling ball cc03 is of a spherical structure, the outer expansion layer cc02 is of an oval structure, two slow folding angles cc01 are arranged, the slow folding angle cc01 plays a role in protection and limitation when the whole body swings, the rolling ball cc03 performs rolling adjustment according to borne force, and the outer expansion layer cc02 changes according to changes of objects collided in the inside.

The specific use mode and function of the embodiment are as follows:

in the invention, cylindrical plastic particles to be processed are introduced into a material hopper tt01 and are placed into a heating processing box tt02 for heating processing, when a first batch is processed and a second batch is introduced, the port of the material hopper tt01 connected with the heating processing box tt02 has residual heat, when the plastic particles are introduced into a built-in grid a4a, the heat energy of the internal residual heat pushes a hot push angle a1a, a first punching port qw1 bears hot gas, an energy-gathering port as11 collects the hot gas, a pulling arc as66 holds most of the hot gas, a limit ladder angle as55 drives a soft outer layer as33 to stretch, when the soft outer layer as33 stretches, the bent layer as44 is extruded, a sandwich fixed core qw3 is dragged to integrally swing along the direction of a punching angle qw2, a stretching bar q6q is pressed, the outer stretching force of the stretching bar q6 pushes a ball 3729 and the outer stretching bar 465 between the core layer q3 and a core 465, the inclined sharp q2q can protrude out along with the bent angle of the core layer q1q, the bent angle is protected by the clamp bent opening q3q, the hot push angle a1a can be unfolded, plastic particles in the hot push angle can directly jump over a residual temperature section to be led in, when the temperature returns and the inside of the hot push angle a1a also starts to return to the original position, the gradient limiting angle as55 is bent back to the original position, the clamping angle www4 plays a role in limiting the hot push angle, the outward expansion layer cc02 is fixed by the rolling ball cc03, and the clamping angle www4 can have enough hardness.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a cylinder plastic granules adds heat-resisting bonding hopper for processing machine, its structure includes material hopper (tt01), heating treatment case (tt02), observation window (tt03), control button (tt04), interlayer board (tt05), its characterized in that:

the material hopper (tt01) penetrates through the inner part of a division plate (tt05), the division plate (tt05) is welded on the upper surface of the heating treatment box (tt02), and the control button (tt04) and the observation window (tt03) are arranged on the same plane;

the material hopper (tt01) comprises a hot push angle (a1a), a side separation core (a2a), a protection plate (a3a) and a built-in grid (a4a), wherein the hot push angle (a1a) is connected with the protection plate (a3a), the side separation core (a2a) is embedded into the protection plate (a3a), and the built-in grid (a4a) is installed inside the protection plate (a3 a).

2. The residual heat bonding preventing hopper for the cylindrical plastic particle heating processing machine according to claim 1, which is characterized in that: the hot-pushing angle (a1a) comprises a punching opening (qw1), a punching angle (qw2), an interlayer solid core (qw3) and an outer sliding layer (qw4), wherein the punching opening (qw1) is connected with the interlayer solid core (qw3), the interlayer solid core (qw3) is attached to the outer surface of the outer sliding layer (qw4), and the punching angle (qw2) is connected with the interlayer solid core (qw 3).

3. The residual heat bonding preventing hopper for the cylindrical plastic particle heating processing machine as claimed in claim 2, wherein: the punching opening (qw1) comprises an energy gathering opening (as11), a bending protection angle (as22), a soft outer layer (as33), a bending opening layer (as44), a ladder limiting angle (as55) and a pulling arc (as66), the energy gathering opening (as11) is connected with the bending protection angle (as22), the ladder limiting angle (as55) is embedded into the soft outer layer (as33), the soft outer layer (as33) is attached to the outer surface of the bending opening layer (as44), and the pulling arc (as66) is connected with the soft outer layer (as 33).

4. The residual heat bonding preventing hopper for the cylindrical plastic particle heating processing machine according to claim 3, which is characterized in that: the ladder-limiting angle (as55) comprises an elliptical return strip (www1), a support head (www2), a core pressing ball (www3) and a clamping angle (www4), wherein the core pressing ball (www3) is embedded in the clamping angle (www4), and the elliptical return strip (www1) is installed on the outer surface of the support head (www 2).

5. The residual heat bonding preventing hopper for the cylindrical plastic particle heating processing machine as claimed in claim 2, wherein: the punching angle (qw2) comprises an outer following core layer (q1q), an inclined tip (q2q), a clamping bent opening (q3q), a holding angle (q4q), clamping balls (q5q) and a tension bar (q6q), wherein the inclined tip (q2q) is embedded in the outer following core layer (q1q), the clamping bent opening (q3q) is connected with the outer following core layer (q1q), the clamping balls (q5q) are attached to the outer surface of the inclined tip (q2q), and the holding angle (q4q) is connected with the tension bar (q6 q).

6. The residual heat bonding preventing hopper for the cylindrical plastic particle heating processing machine according to claim 4, which is characterized in that: the core pressing ball (www3) comprises a slow folding angle (cc01), an outer swelling layer (cc02) and a rolling ball (cc03), wherein the slow folding angle (cc01) is attached to the outer surface of the outer swelling layer (cc02), and the rolling ball (cc03) is embedded in the outer swelling layer (cc 02).

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