CN212924870U - Powder coating's production line - Google Patents

Abstract

A production line of powder coating comprises a feeding mechanism, a plasticizing mechanism and a powder making mechanism, wherein the feeding mechanism puts raw materials into the plasticizing mechanism, and the plasticizing mechanism plasticizes the raw materials and then conveys the raw materials to the powder making mechanism; the feeding mechanism is arranged on an upper layer platform of the plasticizing mechanism and comprises a skip car, a blanking seat and a dust suction device, the skip car comprises a movable frame and a hopper fixedly arranged on the movable frame, and a valve is arranged at the bottom of the hopper; the blanking seat comprises a guide frame and a butt joint sleeve, the guide frame is in a three-surface surrounding shape, and guide parts on two sides of an opening part are in a horn mouth shape; the butt joint sleeve is positioned in the enclosure of the guide frame, the butt joint end of the butt joint sleeve realizes lifting action through a lifting device, and the butt joint sleeve is in butt joint with the discharge hole at the bottom of the hopper; the dust collection device is erected right above the blanking seat, and the height between the dust collection device and the blanking seat is larger than that of the skip car. An object of the utility model is to provide a powder coating's production line, above-mentioned problem can be overcome to this production line.

Description

Powder coating's production line

Technical Field

The utility model discloses powder coating production facility, especially a powder coating's production line.

Background

Powder coating is a novel environmental protection coating, and the hardware is scribbled full of powder coating through electrostatic absorption's mode, later heats the hardware, can make the hardware covered by coating, reaches the effect of spraying, and the hardware is at the in-process that adsorbs the powder, and the powder that drops can be retrieved and is used again to there is not the condition of liquid paint atomizing spraying, has environmental protection and low loss a bit.

The production of powder coating has two processes of plasticization and powder preparation, and the production line divides the process into a plurality of devices, so that the finished products in each link need to be transported to the next process in the whole production process, the common workload and the operators are additionally increased, and a full-function production line can be arranged aiming at the problems.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned deficiencies, it is an object of the present invention to provide a powder coating production line that overcomes the above-mentioned problems.

To achieve the purpose, the utility model adopts the following technical proposal:

a production line of powder coating comprises a feeding mechanism, a plasticizing mechanism and a powder making mechanism, wherein the feeding mechanism puts raw materials into the plasticizing mechanism, and the plasticizing mechanism plasticizes the raw materials and then conveys the raw materials to the powder making mechanism;

the feeding mechanism is arranged on an upper layer platform of the plasticizing mechanism and comprises a skip car, a blanking seat and a dust collection device, the skip car comprises a movable frame and a hopper fixedly arranged on the movable frame, and a valve is arranged at the bottom of the hopper;

the blanking seat comprises a guide frame and a butt joint sleeve, the guide frame is in a three-surface surrounding shape, and guide parts on two sides of an opening part are in a horn mouth shape;

the butt joint sleeve is positioned in the enclosure of the guide frame, the butt joint end of the butt joint sleeve realizes lifting action through a lifting device, and the butt joint sleeve is in butt joint with the discharge hole at the bottom of the hopper;

the dust collection device is erected right above the blanking seat, and the height between the dust collection device and the blanking seat is larger than that of the skip car.

Preferably, the plasticizing mechanism comprises an extruding device, an electric heating plasticizing device, a flattening roller, a conveying device and a crushing device;

the discharge end of the butt joint sleeve is communicated with the feed inlet of the electric heating plasticizing device, the electric heating plasticizing device is in butt joint with the extrusion end of the extrusion device, and the flattening roller is arranged below the discharge port of the electric heating plasticizing device in a bearing manner;

the conveying device is a long-strip-shaped conveying belt, a refrigerating device is arranged above the conveying device in a covering mode, and the refrigerating device sprays cold air to the conveying device;

the crushing device is characterized in that a conveying device is arranged below the flattening roller in a bearing mode, one end of the discharging of the conveying device is provided with a crushing device, the crushing device comprises two crushing rollers, and crushing teeth on the two crushing rollers are staggered.

Preferably, the fragment conveying device, the powder making tank and the cold air generating device;

the fragment conveying device is located below the crushing device, the materials are conveyed out after being crushed by the crushing device, the discharge end of the fragment conveying device is communicated with the powder making tank, and the cold air generating device conveys cold air into the powder making tank through a pipeline.

Furthermore, at least three cylinders are fixedly arranged on the ground in an annular array mode by taking the circle center of the flange plate as a reference, the working ends of the cylinders are fixedly arranged on the flange plate, and the end part of the butt joint sleeve is fixedly sleeved on the inner ring of the flange plate;

the butt joint sleeve penetrates through the ground and is communicated with mixing equipment below the ground.

Further, the fragment conveying device comprises a screw pump and a conveying pipe;

the discharge gate of screw pump communicates in the feed inlet that the lateral wall of the air inlet of conveyer pipe was seted up, the discharge gate of conveyer pipe communicates in the powder process jar, the air inlet of conveyer pipe has the air outlet of fan and air conditioning generating device's air conditioning delivery outlet through the pipeline intercommunication.

Further, the dust suction device is communicated with the bag type dust removal equipment.

The utility model has the advantages that: the whole production line is divided into an upper-layer feeding position and a lower-layer production position, the two positions are not interfered with each other, a worker is arranged in each of the two spaces, the monitoring and production work of equipment can be completed, and dust in the upper-layer space cannot interfere with the lower layer; because the feeding mechanism A on the upper layer adopts the skip car for feeding, the butt joint sleeve A220 is a flexible pipe (similar to a corrugated pipe and the like) with a telescopic effect, powder is transported by the skip car A100 and directly canned into the butt joint sleeve A220 after reaching the butt joint sleeve A220, the butt joint sleeve A220 is communicated with mixing equipment, and the feeding efficiency can be obviously improved when a plurality of skip cars A100 are used for feeding; the utility model also provides a guide frame A210, when the skip A100 aims at the butt joint sleeve A220, it can be more accurate and rapid, after the skip A100 pushes the guide frame A210, the butt joint sleeve A220 rises to cover the discharge hole of the hopper A120, the hopper A120 opens the bottom valve A121 to make the powder fall into the butt joint sleeve A220, the device is very convenient in butt joint, in addition, the skip A100 is under the dust collector A300 in the feeding process, the generated dust can be drawn away, and the working environment is kept clean; in addition, the plasticizing mechanism B and the powder process mechanism C of device link up each other, have possessed and have processed into the whole functions of powder from the monoblock with the flaky solid of plastify, have reduced the defeated work of transportation between two functions, have optimized the structure and have reduced staff's the amount of labour, have improved production efficiency.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic overall structure diagram of a feeding mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a blanking seat according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a chip conveyor and a powder making tank according to an embodiment of the present invention;

FIG. 5 is a schematic view showing a linkage structure of the conveying device, the powder making tank and the cold air generating device according to an embodiment of the present invention;

fig. 6 is a schematic view of the overall structure of the plasticizing mechanism according to an embodiment of the present invention;

fig. 7 is a schematic view of the feed view of a crushing plant according to an embodiment of the invention, in which two crushing rolls are arranged in parallel up and down.

Wherein: the device comprises a feeding mechanism A, a skip A100, a moving frame A110, a hopper A120, a valve A121, a blanking seat A200, a guide frame A210, a butt joint sleeve A220, a dust collector A300, a lifting device A400, a flange A410, a cylinder A420, a plasticizing mechanism B, an extruding device B100, an electric heating plasticizing device B200, a flattening roller B300, a hollow roller B310, a conveying device B400, a first conveying belt B410, a second conveying belt B420, a crushing device B500, a refrigerating device B600, a powder making mechanism C, a fragment conveying device C100, a screw pump C110, a conveying pipe C120, a powder making tank C200 and a cold air generating device C300.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-7, a production line of powder coating includes a feeding mechanism a, a plasticizing mechanism B and a powder making mechanism C, the feeding mechanism puts raw materials into the plasticizing mechanism, and the plasticizing mechanism plasticizes the raw materials and then conveys the raw materials to the powder making mechanism;

the feeding mechanism A is arranged on an upper-layer platform of the plasticizing mechanism B, the feeding mechanism A comprises a skip A100, a blanking seat A200 and a dust suction device A300, the skip A100 comprises a movable frame A110 and a hopper A120 fixedly arranged on the movable frame A110, and the bottom of the hopper A120 is provided with a valve A121;

the blanking seat A200 comprises a guide frame A210 and a butt joint sleeve A220, the guide frame A210 is in a three-surface surrounding shape, and guide parts on two sides of an opening part are in a horn mouth shape;

the docking sleeve A220 is positioned in the enclosure of the guide frame A210, the docking end of the docking sleeve A220 is lifted through a lifting device A400, and the docking sleeve A220 is docked with the discharge hole at the bottom of the hopper A120;

the dust suction device A300 is erected right above the blanking seat A200, and the height between the dust suction device A300 and the blanking seat A200 is larger than that of the skip A100.

The whole production line is divided into an upper-layer feeding position and a lower-layer production position, the two positions are not interfered with each other, a worker is arranged in each of the two spaces, the monitoring and production work of equipment can be completed, and dust in the upper-layer space cannot interfere with the lower layer; because the feeding mechanism A on the upper layer adopts the skip car for feeding, the butt joint sleeve A220 is a flexible pipe (similar to a corrugated pipe and the like) with a telescopic effect, powder is transported by the skip car A100 and directly canned into the butt joint sleeve A220 after reaching the butt joint sleeve A220, the butt joint sleeve A220 is communicated with mixing equipment, and the feeding efficiency can be obviously improved when a plurality of skip cars A100 are used for feeding; the utility model also provides a guide frame A210, when the skip A100 aims at the butt joint sleeve A220, it can be more accurate and rapid, after the skip A100 pushes the guide frame A210, the butt joint sleeve A220 rises to cover the discharge hole of the hopper A120, the hopper A120 opens the bottom valve A121 to make the powder fall into the butt joint sleeve A220, the device is very convenient in butt joint, in addition, the skip A100 is under the dust collector A300 in the feeding process, the generated dust can be drawn away, and the working environment is kept clean; in addition, the plasticizing mechanism B and the powder process mechanism C of device link up each other, have possessed and have processed into the whole functions of powder from the monoblock with the flaky solid of plastify, have reduced the defeated work of transportation between two functions, have optimized the structure and have reduced staff's the amount of labour, have improved production efficiency.

The plasticizing mechanism B comprises an extruding device B100, an electric heating plasticizing device B200, a flattening roller B300, a conveying device B400 and a crushing device B500;

the discharge end of the butt joint sleeve A220 is communicated with the feed inlet of the electric heating plasticizing device, the electric heating plasticizing device B200 is in butt joint with the extrusion end of the extrusion device B100, and the flattening roller B300 is arranged below the discharge port of the electric heating plasticizing device B200 in a bearing manner;

the conveying device B400 is a long-strip-shaped conveying belt, a refrigerating device B600 is arranged above the conveying device B400 in a covering mode, and the refrigerating device sprays cold air to the conveying device B400;

the crushing device B500 is arranged at one end of the discharging part of the conveying device B400, the crushing device B500 is two crushing rollers, and the crushing teeth on the two crushing rollers are staggered.

According to the scheme, the refrigerating device is arranged above the conveying device B400 in a covering mode, raw materials of the device are plasticized and then are flattened into a sheet shape through the sub-flat roller, and then are directly cooled by cold air in the conveying process through the conveying belt, so that the cold cooling efficiency can be greatly improved, the materials are brittle after being cooled, and are crushed through the crushing device B500 to be made into raw material fragments; the plasticizing device that this scheme provided, the part volume of cooling function and crushing function is all less, and it is little to occupy indoor space, and efficiency improves to some extent for existing equipment.

The fragment conveying device C100, the pulverizing tank C200 and the cold air generating device C300;

fragment conveyor C100 is located breaker B500's below, and the material is seen off after breaker B500 is broken, fragment conveyor C100's discharge end communicate in powder process jar C200, cold air generating device C300 carries cold air through the pipeline in to powder process jar C200.

The device has set up piece conveyor C100, powder process jar C200 and air conditioning generating device C300, has possessed and has processed into the whole functions of powder from the monoblock with plasticized slice solid, because the powder process jar C200 that uses in this scheme has air conditioning generating device C300 to ensure the temperature in the jar at the work, so can continuously carry out the powder process work for a long time.

In addition, at least three cylinders a420 are fixedly mounted on the ground in an annular array mode by taking the circle center of the flange a410 as a reference, the working ends of the cylinders a420 are fixedly mounted on the flange a410, and the end part of the butt joint sleeve a220 is fixedly mounted on the inner ring of the flange a 410;

the butt joint sleeve A220 penetrates through the ground and is communicated with mixing equipment below the ground.

The cylinders A420 are arranged in an annular array manner, so that the butt joint of the butt joint sleeve A220 and the discharge hole of the hopper A120 is facilitated

Furthermore, the debris delivery device C100 comprises a progressive cavity pump C110 and a delivery pipe C120;

the discharge port of the screw pump C110 is communicated with the feed inlet formed in the side wall of the air inlet of the conveying pipe C120, the discharge port of the conveying pipe C120 is communicated with the powder making tank C200, and the air inlet of the conveying pipe C120 is communicated with the air outlet of the fan and the cold air outlet of the cold air generating device C300 through pipelines.

The scheme is carried at the in-process that the piece was carried and has just used cold air, ensures that the material in the jar is difficult to rise the temperature along with the entering of material, further guarantees the temperature environment in the powder process jar C200.

In addition, the dust suction device A300 is communicated with a bag type dust removing device.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (6)

1. The production line of the powder coating is characterized by comprising a feeding mechanism, a plasticizing mechanism and a powder making mechanism, wherein the feeding mechanism puts raw materials into the plasticizing mechanism, and the plasticizing mechanism plasticizes the raw materials and then conveys the raw materials to the powder making mechanism;

the feeding mechanism is arranged on an upper layer platform of the plasticizing mechanism and comprises a skip car, a blanking seat and a dust collection device, the skip car comprises a movable frame and a hopper fixedly arranged on the movable frame, and a valve is arranged at the bottom of the hopper;

the blanking seat comprises a guide frame and a butt joint sleeve, the guide frame is in a three-surface surrounding shape, and guide parts on two sides of an opening part are in a horn mouth shape;

the butt joint sleeve is positioned in the enclosure of the guide frame, the butt joint end of the butt joint sleeve realizes lifting action through a lifting device, and the butt joint sleeve is in butt joint with the discharge hole at the bottom of the hopper;

the dust collection device is erected right above the blanking seat, and the height between the dust collection device and the blanking seat is larger than that of the skip car.

2. The production line of powder coating material of claim 1, wherein the plasticizing mechanism comprises an extrusion device, an electrically heated plasticizing device, a flattening roller, a conveying device and a crushing device;

the discharge end of the butt joint sleeve is communicated with the feed inlet of the electric heating plasticizing device, the electric heating plasticizing device is in butt joint with the extrusion end of the extrusion device, and the flattening roller is arranged below the discharge port of the electric heating plasticizing device in a bearing manner;

the conveying device is a long-strip-shaped conveying belt, a refrigerating device is arranged above the conveying device in a covering mode, and the refrigerating device sprays cold air to the conveying device;

the crushing device is characterized in that a conveying device is arranged below the flattening roller in a bearing mode, one end of the discharging of the conveying device is provided with a crushing device, the crushing device comprises two crushing rollers, and crushing teeth on the two crushing rollers are staggered.

3. The production line of powder coating material of claim 2, further comprising a chip conveyor, a powder making tank and a cold air generating device;

the fragment conveying device is located below the crushing device, the materials are conveyed out after being crushed by the crushing device, the discharge end of the fragment conveying device is communicated with the powder making tank, and the cold air generating device conveys cold air into the powder making tank through a pipeline.

4. The powder coating production line of claim 1, wherein at least three cylinders are fixedly mounted on the ground in an annular array with reference to the center of the flange, the working ends of the cylinders are fixedly mounted on the flange, and the end of the butt sleeve is fixedly mounted on the inner ring of the flange;

the butt joint sleeve penetrates through the ground and is communicated with mixing equipment below the ground.

5. A production line for powder coating material as claimed in claim 3, wherein the chip conveying means comprises a screw pump and a conveying pipe;

the discharge gate of screw pump communicates in the feed inlet that the lateral wall of the air inlet of conveyer pipe was seted up, the discharge gate of conveyer pipe communicates in the powder process jar, the air inlet of conveyer pipe has the air outlet of fan and air conditioning generating device's air conditioning delivery outlet through the pipeline intercommunication.

6. A production line for powder coating material as claimed in claim 1, wherein the dust suction device is connected to a bag house dust collector.

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