CN108145938B

CN108145938B - Wood-plastic glass press strip coating machine and debugging method thereof

Info

Publication number: CN108145938B
Application number: CN201711315772.4A
Authority: CN
Inventors: 杨明; 赵悦英; 马聪; 朱莽; 王振; 杨秀秀
Original assignee: Shandong Rays Of Sunlight Industrial Co Ltd
Current assignee: SHANDONG ENJOY ADVANCED MATERIAL Co.,Ltd.
Priority date: 2017-12-12
Filing date: 2017-12-12
Publication date: 2020-03-17
Anticipated expiration: 2037-12-12
Also published as: CN108145938A

Abstract

The invention discloses a wood-plastic glass bead wrapping machine and a debugging method thereof, wherein the wood-plastic glass bead wrapping machine comprises the following steps: firstly, adjusting two mutually independent working platforms to enable the working platforms to be positioned on the same plane, and debugging the rotation performance of a driving wheel, an orientation wheel and a qualitative wheel; secondly, adjusting the distance between the two driving wheels to ensure that the distance between the two driving wheels and the central partition board is equal and is larger than the width of the glass pressing strips, and adjusting the positions of the directional wheels to respectively send the glass pressing strips between the driving wheels; respectively adjusting the width of the guiding rule and the height of the working platform; finally, adjusting the direction and the position of the guide strip to enable the two glass pressing strips to enter the space between the extrusion baffles to complete one-time coating forming, adjusting gradually until the coating result meets the requirement, and coating in batches; the device has the advantages of saving cost, saving time and labor, improving working efficiency and indirectly improving productivity.

Description

Wood-plastic glass press strip coating machine and debugging method thereof

Technical Field

The invention relates to the technical field of coating machine debugging, in particular to a wood-plastic glass pressing strip coating machine and a debugging method thereof.

Background

The debugging of the coating machine generally comprises a transmission wheel, an orientation wheel and a qualitative wheel. Because the cladding machine is required to the width, the shape and the cladding of the clad section bar, the distance between two rows of transmission wheels needs to be adjusted according to the requirements in the debugging process, the width and the height of the guiding rule and the platform are further adjusted to be suitable for the cladding requirement of the section bar, and finally the section bar is parallel to the motion direction of the transmission wheels by installing the directional wheels positioned on two sides. However, in the above debugging, it is necessary to perform debugging each time only by changing the profile, which is time-consuming and labor-consuming, and results in low cladding efficiency.

Particularly, in the coating of the glass bead, the glass bead has two different parts, so that two times of debugging are needed after the coating, specifically, for the section bar of the glass bead, only one part of the glass bead can be coated in the prior art, and the other part of the coating is carried out after the coating machine is debugged after the coating is finished, so that the whole process needs two times of cycle debugging, and the overall efficiency is low.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the wood-plastic glass press strip coating machine and the debugging method thereof, which save cost, save time and labor, improve working efficiency, indirectly improve productivity and effectively solve the problems in the background art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a debugging method of a wood-plastic glass bead wrapping machine comprises the following steps:

s100, adjusting two mutually independent working platforms to enable the working platforms to be located on the same plane, and adjusting the rotation performance of a transmission wheel, an orientation wheel and a qualitative wheel;

s200, adjusting the distance between the two driving wheels to enable the distance between the two driving wheels and the central partition board to be equal, wherein the distance is larger than the width of the glass pressing strips, adjusting the positions of the directional wheels and respectively sending the glass pressing strips between the driving wheels;

s300, respectively adjusting the width of the guiding rule and the height of the working platform;

s400, adjusting the direction and the position of the guide strip to enable the two glass pressing strips to enter the space between the extrusion baffles to complete one-time cladding molding;

and S500, adjusting the steps one by one according to the coating result of the steps until the coating result meets the requirement, and performing batch coating.

As a preferred technical solution of the present invention, in step S100, a specific method for adjusting the transmission wheel, the orientation wheel and the qualitative wheel is as follows: the transmission wheel, the directional wheel and the qualitative wheel are rotated one by one, so that the transmission wheel, the directional wheel and the qualitative wheel rotate smoothly without pause feeling, and otherwise, lubricating oil is added to the bearing.

As a preferred technical solution of the present invention, in step S200, the specific steps of debugging are as follows:

s201, firstly, adjusting a driving wheel to enable the distance between the driving wheel and a central partition plate to be larger than the width of a glass pressing strip;

s202, adjusting the directional wheels, and respectively sending the glass pressing strips into the space between the transmission wheels through two sides of the directional wheels;

s203, adjusting the distance between the transmission wheel and the glass pressing strips to enable the transmission wheel to be in contact with the glass pressing strips in a fitting mode, and adjusting the positions of the orientation wheels to enable the glass pressing strips to smoothly enter the space between the transmission wheels through the orientation wheels in sequence.

As a preferred technical solution of the present invention, in step S400, the specific adjusting steps are:

selecting the direction and the position of the guide strip according to the number of the glass pressing strips;

when two glass pressing strips are coated simultaneously, the guide strip is adjusted to be straight, and the guide strip is positioned on the central axis of the two glass pressing strips;

when only one glass pressing strip is used for coating, the guide strip is only required to be adjusted to be straight.

In addition, as a preferred technical scheme, the invention also provides a wood-plastic glazing bead wrapping machine which comprises a rack and is characterized in that working platforms are arranged on two sides of the rack through hinges and air pressure arms, the other end of each air pressure arm is fixedly arranged at the bottom of the edge of each working platform, transmission bases are fixedly arranged on two sides above the working platforms, transmission wheels are arranged on the transmission bases through sleeving arms, a central partition plate is arranged between the transmission wheels, an orientation wheel is fixedly arranged at the top end of the central partition plate, the central partition plate penetrates through a gap between the two working platforms and is fixedly arranged on a bottom base plate located between the racks, a guiding rule is arranged at the tail end of the central partition plate, wrapping rollers are arranged on two sides of the guiding rule, and the wrapping rollers are arranged on the inner wall of the rack through extension arms.

As a preferable technical scheme, a laser focusing device is arranged right above the central partition plate, and the laser focusing device and the guiding ruler are on the same straight line.

As a preferred technical scheme, the sleeving arm comprises a sleeving pipe and an operating arm, the sleeving pipe and the operating arm are connected through a rotating ball, a shielding baffle is arranged on the outer side of the rotating ball, and the shielding baffle is fixedly installed on the sleeving pipe.

As a preferred technical scheme of the invention, a qualitative wheel is arranged on the tangent plane of the coating roller, and a qualitative recovery baffle is fixedly arranged between the qualitative wheel and the coating roller.

As a preferable technical scheme, the tail end of the guiding ruler is provided with a guide strip, two sides of the guide strip are fixedly provided with extrusion baffles, and the two extrusion baffles are Y-shaped.

As a preferable technical scheme, the top of the extrusion baffle is also fixedly provided with a shielding curtain plate, and the shielding curtain plate and the extrusion baffle are in an inverted V-shaped structure.

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

according to the invention, the gap between the two driving wheels is preset, debugged and set, so that two base materials can enter, the materials to be coated can be respectively and independently carried out through the matching action of the directional wheels, and then the materials are sequentially molded at one time through the extrusion action, so that the device has the advantages of saving cost, saving time and labor, improving the working efficiency and indirectly improving the productivity.

Drawings

FIG. 1 is a schematic flow diagram of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic top view of the present invention.

In the figure: 1-a frame; 2-a working platform; 3-a transmission base; 4-a transmission wheel; 5-a central partition; 6-an orientation wheel; 7-guiding rule; 8-coating a roller; 9-qualitative wheel;

101-hinge; 102-a pneumatic arm; 103-a base substrate; 104-extension arm;

301-a socket arm; 302-a socket; 303-an operating arm; 304-a spinning ball; 305-a shutter blind;

501-laser focalizer;

701-a guide strip; 702-a pinch baffle; 703-shade curtain;

901-qualitative recovery baffle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 2 and 3, the invention provides a wood-plastic glass bead wrapping machine, which comprises a machine frame 1, wherein working platforms 2 are arranged on two sides of the machine frame 1 through hinges 101 and air pressure arms 102, the other ends of the air pressure arms 102 are fixedly arranged at the bottoms of the edges of the working platforms 2, the hinges 101 are used for fixing the working platforms 2 in two aspects, firstly, the working platforms 2 can be fixed, secondly, the working platforms 2 can be adjusted through the rotating action of the hinges 101, based on the installation characteristic of the hinges 101, the states of the working platforms 2 which are specifically needed to be adjusted are adjusted through the stretching and expanding of the air pressure arms 101 arranged at the bottoms of the side surfaces of the working platforms 2, transmission bases 3 are fixedly arranged on two sides above the working platforms 2, transmission wheels 4 are arranged on the transmission bases 3 through sleeving arms 301, the transmission wheels 4 are arranged through the sleeving arms 301, and the transmission wheels 4, the adjustment process will be described in detail below, and a central partition 5 is provided between the drive wheels 4.

In the above, the central partition plate 5 has the functions that firstly two simultaneously fed glass beads can be separated to form two relatively independent operation spaces, so that the two glass beads can be conveniently coated simultaneously, and secondly, the mid-port partition plate 5 can also provide a supporting loading position for the glass beads in the coating process, so that the glass beads can be conveniently coated.

In this embodiment, the socket arm 301 includes a socket 302 and an operation arm 303, and the socket 302 and the operation arm 303 are connected through a rotating ball 304, wherein the socket 302 is used to be fixedly connected with the transmission base 3 to form an integral structure, and facilitate subsequent adjustment, and also provide a basis for adjustment of the structure during adjustment, and the installation of the rotating ball 304 has adjustment capability, a shielding baffle 305 is disposed outside the rotating ball 304, the shielding baffle 305 is fixedly installed on the socket 302, and the shielding baffle 305 is used to firstly protect the adjustment process of the rotating ball 304, and secondly provide a limiting effect after the adjustment of the rotating ball 304.

The shielding baffle 305 can also provide a limiting function for the adjustment of the rotating ball 304, and therefore, the shielding baffle 305 should be described in detail. In this embodiment, the shielding baffle 305 is tightly attached to the spin ball 304, that is, the spin ball 304 needs to be attached to the shielding baffle 305 to rotate during the rotation process, and when the shielding baffle 305 needs to provide a limiting function, the inner surface of the shielding baffle 305 is firstly roughened, the spin ball 304 can stably and freely rotate inside the shielding baffle 305, and secondly, a plurality of limiting arcs are uniformly installed on the inner surface of the shielding baffle 305 at equal intervals according to the rotation direction of the spin ball 304, and a plurality of clasps are arranged on the limiting arcs for limiting the directional rotation of the spin ball 304. Therefore, when the operation arm 303 is adjusted by the rotation ball 304, the operation is performed against the rotation direction, and therefore, once the adjustment position is determined, the operation arm cannot be rotated backward, and the operation arm can be rotated in one direction repeatedly.

The laser focusing device 501 is arranged right above the central partition plate 5, the laser focusing device 501 and the guiding ruler 7 are on the same straight line, laser emitted by the laser focusing device 501 is used for correction, and when the guiding ruler 7 and the laser focusing device 501 are not on the same straight line, the laser can be observed timely, and then adaptability adjustment is carried out.

In the present embodiment, it should be noted that, when the two glazing beads are coated at the same time, the guide strip 701 to be described later should be included in the correction range, and both the guide strip 701 and the guiding rule 7 should be arranged on the same straight line.

The top end of the central clapboard 5 is fixedly provided with the directional wheel 6, the central clapboard 5 penetrates through the gap between the two working platforms 2 and is fixedly arranged on the bottom base plate 103 positioned between the frames 1, the tail end of the central clapboard 5 is provided with the guiding rule 7, the two sides of the guiding rule 7 are both provided with the coating rollers 8, and the coating rollers 8 are arranged on the inner wall of the frame 1 through the extension arm 104.

In the above, the distance between the other coating rollers 8 can be adjusted by the guiding rule 7, and then the distance between the coating rollers 8 and the guiding rule 7 can be adjusted by adjusting the extending arm 104, further, after the guiding rule 7 is corrected, in this step, the position of the coating roller 8 can only be adjusted by the extending arm 104, and then the adjustment of the distance between the coating roller 8 and the guiding rule 7 can be realized, and the adjustment of the distance between the coating roller 8 and the guiding rule 7 can not be performed by the guiding rule 7 any more.

The tail end of the guiding rule 7 is provided with a guide strip 701, two sides of the guide strip 701 are fixedly provided with extrusion baffles 702, and the two extrusion baffles 702 are of Y-shaped structures.

It should be further noted that the "Y" shaped structure formed by the two pressing baffles 702 is not directly closed at the tail, but specifically, the gap formed between the two pressing baffles 702 should be "Y" shaped, because, firstly, the two different glass press strips are gathered together by guiding action after entering, and then the forming and pressing are realized by the gradually reduced "Y" shaped structure.

Furthermore, the top of the extrusion baffle 702 is also fixedly provided with a shielding curtain plate 703, the shielding curtain plate 703 and the extrusion baffle 702 are in an inverted V-shaped structure, and the contact area between the shielding curtain plate 703 and the glass pressing strip can be reduced as much as possible by the inverted V-shaped structure, so that the glass pressing strip is limited in a limited space range, and meanwhile, the friction force in the conveying process can be reduced.

In the invention, a qualitative wheel 9 is arranged on the section of the coating roller 8, coating with different properties is realized by providing corresponding coating substances through the qualitative wheel 9, and a qualitative recovery baffle 901 is fixedly arranged between the qualitative wheel 9 and the coating roller 8, so that on one hand, redundant glue is scraped off, and on the other hand, redundant glue can be recovered.

In addition, as shown in fig. 1, the invention also provides a debugging method of the wood-plastic glass press strip coating machine, which comprises the following steps:

and S100, adjusting two mutually independent working platforms to enable the working platforms to be positioned on the same plane, and debugging the rotation performance of the transmission wheel, the orientation wheel and the qualitative wheel.

In the above steps, the first debugging is performed to prevent the occurrence of phenomena such as jamming and the like during the formal strip material debugging, which affects the overall debugging precision, and the specific method for debugging the driving wheel, the orientation wheel and the qualitative wheel is as follows: the transmission wheel, the directional wheel and the qualitative wheel are rotated one by one, so that the transmission wheel, the directional wheel and the qualitative wheel rotate smoothly without pause feeling, and otherwise, lubricating oil is added to the bearing.

And S200, adjusting the distance between the two driving wheels to ensure that the distance between the two driving wheels and the central partition board is equal and is larger than the width of the glass pressing strips, and adjusting the positions of the directional wheels to respectively send the glass pressing strips between the driving wheels.

The specific steps of debugging are as follows:

step S201, firstly, adjusting a driving wheel to enable the distance between the driving wheel and a central clapboard to be larger than the width of a glass pressing strip;

s202, adjusting the orientation wheels, and respectively sending the glass pressing strips into the space between the transmission wheels through two sides of the orientation wheels;

and S203, adjusting the distance between the transmission wheel and the glass pressing strips to enable the transmission wheel to be in contact with the glass pressing strips in a fitting mode, and adjusting the positions of the orientation wheels to enable the glass pressing strips to smoothly enter the transmission wheel through the orientation wheels in sequence.

And step S300, respectively adjusting the width of the guiding rule and the height of the working platform.

And S400, adjusting the direction and the position of the guide strip to enable the two glass pressing strips to enter the space between the extrusion baffles to complete one-time cladding molding.

In step S400, the specific adjustment steps are:

when two glass pressing strips are coated simultaneously, the guide strip is adjusted to be straight and straight, and the guide strip is positioned on the central axis of the two glass pressing strips;

Based on the above, in the invention, the gap between the two driving wheels is preset, debugged and set, so that two types of base materials can enter, the materials to be coated can be respectively and independently carried out through the matching action of the directional wheels, and then the materials are sequentially molded at one time through the extrusion action, so that the device has the advantages of saving cost, saving time and labor, improving the working efficiency and indirectly improving the productivity.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A debugging method of a wood-plastic glass bead wrapping machine is characterized by comprising the following steps:

2. The debugging method of the wood-plastic glazing bead covering machine according to claim 1, wherein in step S100, the specific method for debugging the transmission wheel, the orientation wheel and the qualitative wheel is as follows: the transmission wheel, the directional wheel and the qualitative wheel are rotated one by one, so that the transmission wheel, the directional wheel and the qualitative wheel rotate smoothly without pause feeling, and otherwise, lubricating oil is added to the bearing.

3. The method for debugging the wood-plastic glazing bead coating machine according to claim 1, wherein in step S200, the specific steps of debugging are as follows:

4. The debugging method of the wood-plastic glazing bead covering machine according to claim 1, wherein in step S400, the specific adjusting steps are as follows:

5. A wood-plastic glass press strip coating machine comprises a machine frame (1) and is characterized in that working platforms (2) are mounted on two sides of the machine frame (1) through hinges (101) and air pressure arms (102), the other ends of the air pressure arms (102) are fixedly mounted at the bottoms of the edges of the working platforms (2), transmission bases (3) are fixedly mounted on two sides above the working platforms (2), transmission wheels (4) are mounted on the transmission bases (3) through sleeving arms (301), a central partition plate (5) is arranged between the transmission wheels (4), a positioning wheel (6) is fixedly mounted at the top end of the central partition plate (5), the central partition plate (5) penetrates through a gap between the two working platforms (2) and is fixedly mounted on a base plate (103) between the machine frame (1), a guiding ruler (7) is arranged at the tail end of the central partition plate (5), coating rollers (8) are arranged on two sides of the guiding ruler (7), the coating roller (8) is arranged on the inner wall of the frame (1) through an extension arm (104).

6. The wood-plastic glazing bead cladding machine according to claim 5, characterized in that a laser focusing device (501) is arranged right above the central partition plate (5), and the laser focusing device (501) and the guiding rule (7) are on the same straight line.

7. The wood-plastic glazing bead cladding machine according to claim 5, characterized in that the socket arm (301) comprises a socket pipe (302) and an operating arm (303), the socket pipe (302) and the operating arm (303) are connected through a rotating ball (304), a shielding baffle (305) is arranged on the outer side of the rotating ball (304), and the shielding baffle (305) is fixedly installed on the socket pipe (302).

8. The wood-plastic glazing bead covering machine according to claim 5, characterized in that a qualitative wheel (9) is arranged on the tangent plane of the covering roller (8), and a qualitative recovery baffle (901) is fixedly arranged between the qualitative wheel (9) and the covering roller (8).

9. The wood-plastic glazing bead cladding machine according to claim 5, characterized in that a guide strip (701) is arranged at the tail end of the guiding rule (7), extrusion baffles (702) are fixedly arranged on both sides of the guide strip (701), and the two extrusion baffles (702) are Y-shaped.

10. The wood-plastic glazing bead cladding machine according to claim 9, characterized in that a shielding curtain plate (703) is fixedly installed on the top of the extrusion baffle plate (702), and the shielding curtain plate (703) and the extrusion baffle plate (702) are in an inverted V-shaped structure.