CN211519918U - Architectural coatings packagine machine with promote structure - Google Patents

Abstract

A building coating packagine machine with promote structure includes packagine machine body and powder and loads the subassembly. The packaging machine body comprises a frame and a stirring tank, the stirring tank is arranged on the frame, a feeding port and a filling outlet are arranged on the stirring tank, the powder filling component comprises a support, a transmission pipe, a spiral extrusion paddle, a hopper and a motor, the support is arranged close to the frame, the hopper is arranged on the support, the bottom of the hopper is provided with a butt joint port, the transmission pipe is obliquely arranged on the support, two ends of the transmission pipe are respectively communicated with the butt joint port and the feeding port, the spiral extrusion paddle penetrates through the transmission pipe, so that the packaging machine has the function of automatic feeding, the packaging machine body is used for stirring and uniformly mixing powder and packaging the powder into bags, the powder is transferred to the feeding position of the packaging machine body from the lower position through the powder filling assembly, the feeding speed is controlled by the motor, continuous and uniform feeding is achieved, the problem that the powder is frequently stopped to wait for reloading is avoided, and the packaging and delivery efficiency of the architectural coating is improved.

Description

Architectural coatings packagine machine with promote structure

Technical Field

The utility model relates to a packagine machine especially relates to an architectural coatings packagine machine with promote structure.

Background

The coating is applied to the surface of an object and is a material which can be well adhered to a base material and form a complete and tough protective film, and the coating is called building coating. Coatings are the same concept as paints. The paint is a well-established name of people, and is always utilized in the building industry after being introduced into China. The effect of the coating can be summarized in three aspects: protection, decoration and special functions. The building coating needs to be packaged and sealed when being delivered, and the prepared powder is uniformly mixed by a packaging machine and is loaded into a packaging belt according to the amount for heat sealing before being delivered.

However, the packaging machine itself needs to complete operations such as powder blending, packaging and bagging, that is, the powder that can be stored on the packaging machine is limited, and the building coating is generally produced in large scale, and an operator needs to continuously fill the powder into the packaging machine, so that the efficiency is low, and continuous feeding cannot be realized, and the packaging machine needs to be frequently stopped to wait for feeding.

Therefore, how to optimize the feeding structure of the existing architectural coating packaging machine to enable the packaging machine to have the automatic and continuous feeding function and liberate labor force is a problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a building coating packagine machine with promote structure, increase the powder and promote the structure, transport the powder to packagine machine uniformly automatically, realize continuous pan feeding, improve building coating's production efficiency.

The purpose of the utility model is realized through the following technical scheme:

an architectural coating material wrapping machine having a lifting structure includes: the packaging machine comprises a packaging machine body and a powder filling assembly;

the packaging machine body comprises a rack and a stirring tank, the stirring tank is mounted on the rack, a feeding port and a filling outlet are formed in the stirring tank, the feeding port is located at the top of the stirring tank, and the filling outlet is located at the bottom of the stirring tank;

the powder filling assembly comprises a support, a transmission pipe, a spiral extrusion paddle, a hopper and a motor, wherein the support is close to the rack, the hopper is installed on the support, a butt joint is arranged at the bottom of the hopper, the transmission pipe is obliquely arranged on the support, the first end of the transmission pipe is communicated with the butt joint, the second end of the transmission pipe is communicated with the feeding port, the spiral extrusion paddle penetrates through the transmission pipe, the spiral extrusion paddle is connected with the motor, and the motor is used for driving the spiral extrusion paddle to rotate.

In one embodiment, the first end of the transfer tube is provided with a mitered tube body, and the mitered tube body is communicated with the butt joint port.

In one embodiment, the miter pipe body is provided with an inclined surface, and the inclined surface is connected with the hopper.

In one embodiment, the powder filling assembly further comprises a commutator, the commutator is mounted on the motor, and the screw extrusion paddle is connected with the commutator.

In one embodiment, a baffle is arranged on one side of the diverter close to the conveying pipe, and the baffle is used for closing the conveying pipe.

In one embodiment, the baffle is provided in plurality.

In one embodiment, the powder filling assembly further comprises a plurality of height adjusting studs, the height adjusting studs are rotatably disposed on the edge of the hopper and are in threaded connection with the bracket, and the height adjusting studs are rotated to drive the hopper to approach or leave the bracket.

In one embodiment, the screw extrusion paddle comprises a rotating shaft and a threaded blade, the rotating shaft is in transmission connection with the motor, the threaded blade is arranged on the outer wall of the rotating shaft, and the motor drives the rotating shaft to rotate so as to drive the threaded blade to push the material to move towards the direction close to the material inlet.

In one embodiment, the motor is a servo motor.

In one embodiment, the height of the stand is lower than the height of the rack.

Above-mentioned architectural coating packagine machine with promote structure loads the subassembly through setting up packagine machine body and powder for packagine machine possesses the function of automatic pan feeding, the packagine machine body is used for stirring the mixing and goes into the bag with its packing to the powder, load the subassembly through the powder and transport the powder to the pan feeding position department of packagine machine body by the low department, and pan feeding speed is by motor control, realize in succession, at the uniform velocity pan feeding, avoided frequently stopping waiting for the problem of reloading, architectural coating's packing shipment efficiency has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of an architectural coating packaging machine having a lifting structure according to an embodiment of the present invention;

fig. 2 is a schematic view showing the construction of a powder packing assembly of the architectural coating material packing machine having a lifting structure shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The above architectural coating material packing machine having a lifting structure is better explained to better understand the concept of the above architectural coating material packing machine having a lifting structure.

Referring to fig. 1, an architectural coating material packing machine 10 having a lifting structure includes: a packer body 100 and a powder filling assembly 200. The packaging machine body 100 is used for stirring and uniformly mixing the prepared powder and packaging the powder into bags, the powder filling assembly 200 is used for conveying the powder to the packaging body 100 at a constant speed, an operator does not need to carry out powder conveying operation, the powder is continuously conveyed to the packaging machine body 100, the packaging machine body 100 is prevented from frequently stopping to wait for feeding, and further the packaging and delivery efficiency of the architectural coating is improved.

Referring to fig. 1, the packaging machine body 100 includes a frame 110 and a stirring tank 120, the stirring tank 120 is mounted on the frame 110, the stirring tank 120 is provided with a feeding port 121 and a filling outlet 122, the feeding port 121 is located at the top of the stirring tank 120, and the filling outlet 122 is located at the bottom of the stirring tank 120; the stirring tank 120 is used for stirring and uniformly mixing the powder, the frame 110 lifts the stirring tank 120 off the ground, and the filling outlet 122 of the stirring tank 120 is suspended to provide a discharging space for the stirring tank.

Referring to fig. 1 and 2, the powder filling assembly 200 includes a support frame 210, a conveying pipe 220, a screw extrusion paddle 230, a hopper 240, and a motor 250, wherein the motor 250 is a servo motor 250. The bracket 210 is arranged close to the rack 110, the hopper 240 is arranged on the bracket 210, the bottom of the hopper 240 is provided with a butt joint 241, the transmission pipe 220 is obliquely arranged on the bracket 210, the first end of the transmission pipe 220 is communicated with the butt joint 241, the second end of the transmission pipe 220 is communicated with the feeding port 121, the spiral extrusion paddle 230 penetrates through the transmission pipe 220, the spiral extrusion paddle 230 is connected with the motor 250, and the motor 250 is used for driving the spiral extrusion paddle 230 to rotate.

Referring to fig. 1 and fig. 2, an included angle between the axis of the conveying pipe 220 and the ground is 45 °, the first end of the conveying pipe 220 is located between the ground and the butt-joint port 241, after the powder is placed in the hopper 240, the divided material automatically falls down under the action of gravity, passes through the butt-joint port 241 and falls into the conveying pipe 220, at this time, the spiral extrusion paddle 230 rotates to push the divided material entering the feeding conveying pipe 220 from the first end of the feeding conveying pipe 220 to the second end of the feeding conveying pipe 220, at this time, the powder loses support and falls down again under the action of gravity, and passes through the feeding port 121 to enter the stirring tank 120 for stirring and packaging operations.

Referring to fig. 1 and 2, the lifting and distributing operation is completed by the conveying pipe 220 and the screw extrusion paddle 230, the space above the packaging machine is not occupied, the packaging machine does not need to stop for waiting when powder is added, the position for adding the powder is the hopper 240, the height of the bracket 210 is lower than that of the rack 110, the powder adding is more convenient and labor-saving, and the hopper 240 is far away from the stirring tank 120, so that the powder adding is safer.

Referring to fig. 1 and 2, for the convenience of maintenance, the first end of the transfer pipe 220 is provided with a miter pipe 221, the miter pipe 221 is communicated with the butt joint port 241, the miter pipe 221 is provided with an inclined surface 221a, and the inclined surface 221a is connected with the hopper 240. The position where the transmission pipe 220 is connected with the hopper 240 is a position easy to damage, the transmission pipe 220 and the hopper 240 can be worn by arranging the inclined connection pipe body 221 instead, only the inclined connection pipe body 221 needs to be replaced during maintenance, the connection strength of the transmission pipe 220 and the hopper 240 is improved through the inclined connection pipe body 221, and the overall structural strength of the powder filling assembly 200 is further enhanced.

Referring to fig. 2, in order to save space, the powder filling assembly 200 further includes a commutator 260, the commutator 260 is installed on the motor 250, and the screw extrusion paddle 230 is connected with the commutator 260, and after the commutator 260 is arranged, the installation direction of the motor 250 can be changed, so that the powder filling assembly 200 has a more compact structure.

In order to prevent the powder from flowing back to the motor, a blocking piece 261 is arranged on one side of the commutator 260 close to the conveying pipe 220, the blocking piece 261 is used for sealing the conveying pipe 220, and a plurality of blocking pieces 261 are arranged.

Referring to fig. 2, in order to facilitate maintenance and debugging, the powder filling assembly 200 further includes a plurality of height adjusting studs 270, the height adjusting studs 270 are rotatably disposed on the edge of the hopper 240, the height adjusting studs 270 are screwed with the bracket 210, and the height adjusting studs 270 are rotated to drive the hopper 240 to approach or leave the bracket 210.

Referring to fig. 2, in an embodiment, in order to improve the powder pushing efficiency, the screw extrusion paddle 230 includes a rotating shaft 231 and a screw blade 232, the rotating shaft 231 is connected to the motor 250 in a transmission manner, the screw blade 232 is disposed on the outer wall of the rotating shaft 231, and the motor 250 drives the rotating shaft 231 to rotate so as to drive the screw blade 232 to push the material to move toward the direction close to the feeding port 121. The screw blade 232 is attached to the wall of the transfer tube 220, when the motor 250 drives the rotating shaft 231 to rotate, the screw blade 232 rotates, and the powder material is gradually pushed to the second end of the transfer tube 220 from the first end of the transfer tube 220 by the screw blade in the rotating process of the screw blade 232. And the rotating speed of the rotating shaft 231 is controlled by the motor 250, that is, the moving speed of the powder is controlled by the motor 250, so that uniform feeding is realized.

Above-mentioned architectural coating packagine machine 10 with promote structure loads subassembly 200 through setting up packagine machine body 100 and powder, make packagine machine possess the function of automatic pan feeding, packagine machine body 100 is used for stirring the powder mixing and packs it into the bag, pack the pan feeding position department that subassembly 200 transported the powder to packagine machine body 100 by the low place through the powder, and the pan feeding speed is controlled by motor 250, realize in succession, at the uniform velocity pan feeding, the problem of waiting for reloading frequently to halt has been avoided, architectural coating's packing shipment efficiency has been improved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An architectural coating packaging machine having a lifting structure, comprising:

the packaging machine comprises a packaging machine body, wherein the packaging machine body comprises a rack and a stirring tank, the stirring tank is mounted on the rack, a feeding port and a filling outlet are formed in the stirring tank, the feeding port is located at the top of the stirring tank, and the filling outlet is located at the bottom of the stirring tank;

the powder filling assembly comprises a support, a transmission pipe, a spiral extrusion paddle, a hopper and a motor, the support is close to the rack, the hopper is installed on the support, a butt joint is arranged at the bottom of the hopper, the transmission pipe is obliquely arranged on the support, a first end of the transmission pipe is communicated with the butt joint, a second end of the transmission pipe is communicated with the feeding port, the spiral extrusion paddle penetrates through the transmission pipe, the spiral extrusion paddle is connected with the motor, and the motor is used for driving the spiral extrusion paddle to rotate.

2. The architectural paint packaging machine with lifting structure of claim 1 wherein a mitered tube is provided on a first end of the transfer tube, the mitered tube communicating with the docking port.

3. The architectural paint packaging machine with a lifting structure according to claim 2, wherein an inclined surface is provided on the miter pipe body, and the inclined surface is connected to the hopper.

4. The architectural paint packaging machine with a lifting structure of claim 1, wherein said powder charge assembly further comprises a diverter mounted on said motor, and said screw extrusion paddle is connected to said diverter.

5. The architectural paint packaging machine with lifting structure according to claim 4, wherein a side of said diverter adjacent to said transfer tube is provided with a flap for closing said transfer tube.

6. The architectural coating packaging machine with lifting structure of claim 5 wherein said baffle is provided in plurality.

7. The architectural coating packaging machine with lifting structure of claim 1 wherein said powder fill assembly further comprises a plurality of height adjustment studs, each of said plurality of height adjustment studs rotatably disposed on an edge of said hopper and each of said plurality of height adjustment studs threadably engaged with said bracket, rotation of said height adjustment studs serving to move said hopper toward or away from said bracket.

8. The architectural coating packaging machine with the lifting structure according to claim 1, wherein the screw extrusion paddle includes a rotating shaft and a screw blade, the rotating shaft is in transmission connection with the motor, the screw blade is disposed on the outer wall of the rotating shaft, and the motor drives the rotating shaft to rotate so as to drive the screw blade to push the material to move toward the direction close to the material inlet.

9. The architectural paint packaging machine with lifting structure of claim 1 wherein said motor is a servo motor.

10. The architectural paint packaging machine with lifting structure of claim 1, wherein the height of said rack is lower than the height of said frame.

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