CN114633311A - Mount production of slip paper and use detecting system - Google Patents

Abstract

The invention belongs to the technical field of detection systems, and particularly relates to a detection system for producing tile mounting paper, which comprises the following components: the device comprises a paper conveying device, a paper thickness detection device and an ultrasonic double-sheet detection device; the paper conveying device conveys the tile mounting paper to enable the paper thickness detection device to screen the tile mounting paper, namely the tile mounting paper of the first specification passes through the paper thickness detection device, and the paper thickness detection device performs punching and slicing; detecting the thickness of each tile mounting paper with the first specification by using an ultrasonic double-sheet detection device; the second specification of tile mounting paper passes through the paper thickness detection device, and the paper thickness detection device blocks rotation when cutting paper; according to the invention, the tile mounting paper can be preliminarily screened by arranging the paper thickness detection device so as to screen the tile mounting paper in a first specification meeting the standard, and the tile mounting paper is punched and sliced, and meanwhile, the detection precision is improved and the quality of a finished product is ensured by arranging the ultrasonic double-sheet detection device for secondary screening.

Description

Mount production of slip paper and use detecting system

Technical Field

The invention belongs to the technical field of detection systems, and particularly relates to a detection system for producing tile mounting paper.

Background

In the production process of the tile mounting paper, the thickness of the produced paper is different due to the reasons of raw materials, process and the like, and the product quality cannot be ensured.

Mount the paper of tile simultaneously and need cut into slices and punch and bind, the processing equipment who mounts the special section of paper of tile, punch, detect has not appeared on the market at present, needs different frocks of manual operation to operate, and not only inefficiency exists the paper transportation process moreover, pollutes the paper easily.

Therefore, it is necessary to develop a new detection system for producing paper for mounting tile to solve the above problems.

Disclosure of Invention

The invention aims to provide a detection system for producing tile mounting paper.

In order to solve the technical problem, the invention provides a detection system for producing paper for mounting tiles, which comprises: the device comprises a paper conveying device, a paper thickness detection device and an ultrasonic double-sheet detection device; the paper thickness detection device punches holes in the first specification of the tile mounting paper and cuts a single piece of the first specification of the tile mounting paper according to a set length so that the single piece of the first specification of the tile mounting paper is sent to the paper conveying device; the ultrasonic double-sheet detection device is positioned above the paper conveying device and used for transmitting ultrasonic waves to the paper conveying device and receiving the ultrasonic waves fed back after the ultrasonic waves pass through the first specification of tile-mounted paper, namely the ultrasonic double-sheet detection device detects the thickness of each piece of tile-mounted paper of the first specification by detecting the propagation speed of the ultrasonic waves; the second specification of tile mounting paper passes through the paper thickness detection device, and the paper thickness detection device blocks rotation when cutting paper.

Further, the sheet conveying device includes: a base paper conveyer belt; the body paper conveyer belt conveys the tile mounting paper towards the paper thickness detection device.

Further, the paper thickness detection device includes: the device comprises a detection block, a punching mechanism, a material cleaning mechanism, a locking mechanism and a screening mechanism; the punching mechanism is movably arranged in the detection block and is positioned below the detection hole; a material cleaning hole is arranged in the detection block and is vertical to the discharging position of the detection hole; the cleaning mechanism is movably arranged at the bottom of the cleaning hole and is movably connected with the punching mechanism; a screening hole is arranged in the detection block, is perpendicular to the detection hole and is positioned between the detection hole and the punching mechanism, and the screening mechanism is movably arranged in the screening hole; the locking mechanism is arranged below the punching mechanism; when the first specification of tile mounting paper passes through the detection hole, the punching mechanism rotates for 90 degrees in the detection block to punch holes on the first specification of tile mounting paper; when the tile mounting paper with the first specification passes through the material cleaning hole, the scraps fall from the material cleaning hole, and the punching mechanism drives the material cleaning mechanism to turn over so that the scraps in the material cleaning hole are discharged from the detection block; the punching mechanism continuously rotates for a corresponding angle in the detection block and then pushes against the locking mechanism, namely the detection block is driven to rotate, so that the cutting edge at the feeding position of the detection hole rotates downwards to cut off the tile mounting paper with the first specification; when the second specification is mounted with the tile paper and passes through the detection hole, the second specification is mounted with the tile paper and is pressed against the screening mechanism to be clamped into the punching mechanism, so that the detection block is fixed with the punching mechanism, namely, the punching mechanism drives the detection block to rotate, and the second specification is mounted with the tile paper and is wound on the detection block.

Further, the hole punching mechanism includes: the punching machine comprises a driving motor, an elliptic cylinder and a plurality of punching assemblies; the elliptic cylinder movably penetrates through the detection block and is positioned below the detection hole, two ends of the elliptic cylinder are respectively provided with corresponding driving shafts, and the movable part of the driving motor is connected with the corresponding driving shafts; a plurality of movable holes are arranged in the detection block, each movable hole is perpendicular to the detection hole and is positioned between the movable hole and the elliptic cylinder, and each punching assembly is movably arranged in the movable hole; the driving motor drives the elliptic cylinder to rotate for 90 degrees in the detection block through the driving shaft, so that the elliptic cylinder pushes against each punching assembly to punch the tile mounting paper with the first specification in the detection hole.

Further, the punching assembly comprises: the perforating pipe, the first air bag, the first spring and the movable column are arranged in the movable hole from top to bottom; movable grooves are circumferentially arranged in the elliptic cylinder corresponding to the punching assemblies; the bottom of the perforating pipe is connected with one end of a movable column, and the other end of the movable column is movably limited in the movable groove; the first air bag is sleeved on the movable column and is movably arranged in the movable hole through a first spring; the top of the perforating pipe is arranged in a cutting edge manner; the elliptic cylinder rotates to push the movable cylinder to drive the punching pipe to penetrate into the detection hole upwards so as to punch the tile mounting paper with the first specification; when the movable column moves upwards, the elliptic column extrudes the first air bag to blow upwards so as to purge impurities on the surface of the tile mounting paper with the first specification; when the movable column moves downwards, the first air bag is reset under the action of the first spring and sucks air to suck a paper sheet cut from the first specification of paperhanging paper into the perforating pipe.

Further, clear material mechanism includes: the hinged column, the turnover plate and the material cleaning plate are hinged; the driving shaft is provided with a swing groove, the bottom of the hinge column is hinged, and the top of the hinge column is movably clamped in the swing groove; the turnover plate is arranged in parallel with the elliptic cylinder and fixed with the hinge column, and the material cleaning plate is perpendicular to the turnover plate and is arranged towards the bottom of the material cleaning hole; the top of the hinge column is arranged spherically; the hinged column swings under the driving of the driving shaft to drive the turnover plate and the material cleaning plate to turn over, namely the material cleaning hole is opened to discharge the scraps from the detection block.

Further, the locking mechanism includes: a locking block; the elliptic cylinder is provided with a limiting groove, and the locking block is arranged below the elliptic cylinder; the elliptic cylinder rotates 90 in detecting the piece to make locking piece card is gone into the spacing groove in order to support the elliptic cylinder, promptly the elliptic cylinder drives and detects the piece and rotate.

Further, the screening mechanism includes: a screening column and a screening spring; the screening column is movably arranged in the screening hole through a screening spring, and the top of the screening column is positioned in the detection hole; a locking groove is formed in the elliptic cylinder corresponding to the screening column; and the tile mounting paper of the second specification props against the screening column to move downwards so as to prop the bottom of the screening column into the locking groove, namely the elliptic column and the detection block are fixed.

Further, the sheet conveying apparatus further includes: a finished product conveyer belt; the ultrasonic double-sheet detection device comprises: the clamp roller, the ultrasonic double-sheet detector and the alarm are positioned above the finished product conveying belt; the ultrasonic double-sheet detector is arranged on the surface of the caliper roller; each piece of tile mounting paper with the first specification penetrates through the space between the finished product conveying belt and the caliper roller, the thickness of each piece of tile mounting paper with the first specification is detected by the ultrasonic double-sheet detector, namely the thickness of each piece of tile mounting paper with the first specification exceeds a set value, and the ultrasonic double-sheet detector controls the alarm to give an alarm.

The invention has the beneficial effects that the tile mounting paper can be preliminarily screened by arranging the paper thickness detection device so as to screen the first specification tile mounting paper which meets the standard, and the tile mounting paper is punched and sliced, and meanwhile, the detection precision is improved and the quality of finished products is ensured by arranging the ultrasonic double-detection device for secondary screening.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Figure 1 is a self-contained view of the detection system for the production of linerboard paper of the present invention;

FIG. 2 is a self-contained view of the sheet thickness detection apparatus of the present invention;

FIG. 3 is an exploded view of the paper thickness detection apparatus of the present invention;

FIG. 4 is an assembly view of the punch assembly of the present invention;

FIG. 5 is a block diagram of the punch assembly of the present invention;

FIG. 6 is a block diagram of a screening mechanism of the present invention;

FIG. 7 is a cross-sectional view of the punch assembly of the present invention in a detection block;

FIG. 8 is a cross-sectional view of the screening mechanism of the present invention in a test block;

FIG. 9 is a cross-sectional view of the locking mechanism of the present invention in the detection block;

FIG. 10 is a diagram of the position relationship of the inspection hole and the cleaning hole of the present invention;

figure 11 is a functional block diagram of the detection system for production of linerboard paper of the present invention.

In the figure:

1. a paper conveying device; 11. a base paper conveyer belt; 12. a finished product conveyer belt;

2. a paper thickness detection device; 21. a detection block; 211. a detection hole; 212. a movable hole; 213. clearing the material hole; 22. a punching mechanism; 221. an elliptic cylinder; 2211. a limiting groove; 2212. a movable groove; 2213. a locking groove; 222. a punching assembly; 2221. perforating a pipe; 2222. a first air bag; 2223. a first spring; 2224. a movable post; 223. a drive shaft; 2231. a swing groove; 23. a material clearing mechanism; 231. a hinged column; 232. a turnover plate; 233. clearing the material plate; 234. a squeegee; 24. a locking mechanism; 241. a locking block; 25. a screening mechanism; 251. screening the column; 252. screening springs;

3. an ultrasonic double sheet detection device; 31. a caliper roller.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. 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.

Example 1

In this embodiment, as shown in fig. 1 to 11, this embodiment provides a detection system for producing a paper with tiles, including: a paper conveying device 1, a paper thickness detection device 2 and an ultrasonic double-sheet detection device 3; the paper conveying device 1 conveys the tile mounting paper towards the paper thickness detection device 2, so that the paper thickness detection device 2 screens the tile mounting paper, namely the tile mounting paper of a first specification passes through the paper thickness detection device 2, the paper thickness detection device 2 punches holes in the tile mounting paper of the first specification, and a single piece of tile mounting paper of the first specification is cut according to a set length, so that the single piece of tile mounting paper of the first specification is conveyed to the paper conveying device 1; the ultrasonic double-sheet detection device 3 is positioned above the paper conveying device 1, and is used for transmitting ultrasonic waves to the paper conveying device 1 and receiving the ultrasonic waves fed back after the ultrasonic waves pass through the tile-mounted paper of the first specification, namely the ultrasonic double-sheet detection device 3 is used for detecting the thickness of each tile-mounted paper of the first specification by detecting the propagation speed of the ultrasonic waves; the second specification of the mounting paper passes through the paper thickness detection device 2, and the paper thickness detection device 2 blocks the paper when cutting the paper.

In this embodiment, the first specification of tile mounting paper refers to the tile mounting paper with qualified thickness, and the second specification of tile mounting paper refers to the tile mounting paper with the thickness exceeding the qualified value, and can receive the first specification of tile mounting paper punched and sliced by the paper thickness detection device 2, and send the first specification of tile mounting paper to the subsequent equipment.

Paper sheet conveying apparatus 1

The paper conveying device 1 mainly plays a role in conveying base paper, and can convey the tile-mounted paper into the paper thickness detection device 2 for screening, punching and slicing.

Paper thickness detection device 2

The paper thickness detection device 2 mainly plays a role in screening, punching and slicing, and the tile-mounted paper of the first specification enters the paper thickness detection device 2 and can be punched and sliced by the paper thickness detection device 2; during paper made of baked clay got into paper thickness detection device 2 is mounted to the second specification, when paper thickness detection device 2 mounted the paper made of baked clay to the second specification punched and cut into slices, paper made of baked clay was mounted around rolling up on paper thickness detection device 2 to the second specification to cause paper thickness detection device 2 to stall, need mount the paper made of baked clay with the second specification and take out.

Ultrasonic double-sheet detection device 3

Ultrasonic wave two detection device 3 mainly play the effect that detects to mount paper tile thickness, and the paper tile is mounted to the first specification that paper thickness detection device 2 was selected still can have thickness not reach the qualification value or the inhomogeneous paper tile of mounting of thickness distribution, carries out the degree of depth through ultrasonic wave two detection device 3 and detects, further improves product quality.

In this embodiment, this embodiment can carry out preliminary screening to mounting tile paper through setting up paper thickness detection device 2 to select the first specification that accords with the standard and mount tile paper and punch, cut into slices, through setting up 3 secondary screens of two detection device of ultrasonic wave simultaneously, improve and detect the precision, guarantee finished product quality.

In the present embodiment, the sheet conveying apparatus 1 includes: a base paper conveyer belt 11; the base paper conveyor belt 11 conveys the tile mounting paper towards the paper thickness detection device 2.

In the present embodiment, the sheet thickness detection apparatus 2 includes: the device comprises a detection block 21, a punching mechanism 22, a material cleaning mechanism 23, a locking mechanism 24 and a screening mechanism 25; the detection block 21 is provided with a detection hole 211, and the punching mechanism 22 is movably arranged in the detection block 21 and is positioned below the detection hole 211; a material cleaning hole 213 is arranged in the detection block 21, and the material cleaning hole 213 is arranged at a position vertical to the discharging position of the detection hole 211; the cleaning mechanism 23 is movably arranged at the bottom of the cleaning hole 213, and the cleaning mechanism 23 is movably connected with the punching mechanism 22; a screening hole is arranged in the detection block 21, the screening hole is perpendicular to the detection hole 211 and is positioned between the detection hole 211 and the punching mechanism 22, and the screening mechanism 25 is movably arranged in the screening hole; the locking mechanism 24 is arranged below the punching mechanism 22; when the first specification of tile mounting paper passes through the detection hole 211, the punching mechanism 22 rotates 90 degrees in the detection block 21 to punch holes on the first specification of tile mounting paper; when the first specification of tile mounting paper passes through the material cleaning hole 213, the scraps fall from the material cleaning hole 213, and the punching mechanism 22 drives the material cleaning mechanism 23 to turn over, so that the scraps in the material cleaning hole 213 are discharged from the detection block 21; the punching mechanism 22 continuously rotates for a corresponding angle in the detection block 21 and then pushes against the locking mechanism 24, that is, the detection block 21 is driven to rotate, so that the cutting edge at the feeding position of the detection hole 211 rotates downwards to cut off the tile mounting paper with the first specification; when the second specification of tile mounting paper passes through the detection hole 211, the second specification of tile mounting paper is pressed against the screening mechanism 25 and clamped into the punching mechanism 22, so that the detection block 21 and the punching mechanism 22 are fixed, namely the punching mechanism 22 drives the detection block 21 to rotate, and the second specification of tile mounting paper is wound on the detection block 21.

In this embodiment, mount paper from detecting in the piece 21 in detect hole 211 and pass through, first specification mount paper can not trigger screening mechanism 25, consequently can normally punch and cut off by mechanism 22 that punches, and second specification mount paper can trigger screening mechanism 25, thereby screening mechanism 25 will punch mechanism 22 and detect piece 21 fixed, it can not rotate to detect piece 21 relatively to punch mechanism 22, consequently, it can not punch to second specification mount paper to punch mechanism 22, while second specification mount paper can wind on detecting piece 21, need mount paper with the second specification and take out.

In the present embodiment, the punch mechanism 22 includes: a driving motor, an elliptic cylinder 221 and a plurality of punching assemblies 222; the elliptic cylinder 221 movably penetrates through the detection block 21 and is positioned below the detection hole 211, two ends of the elliptic cylinder 221 are respectively provided with a corresponding driving shaft 223, and the movable part of the driving motor is connected with the corresponding driving shaft 223; a plurality of movable holes 212 are arranged in the detection block 21, each movable hole 212 is perpendicular to the detection hole 211 and is positioned between the movable hole 212 and the elliptic cylinder 221, and each punching assembly 222 is movably arranged in the movable hole 212; the driving motor drives the elliptic cylinder 221 to rotate 90 degrees in the detection block 21 through the driving shaft 223, so that the elliptic cylinder 221 pushes each punching assembly 222 to punch holes in the detection holes 211 for the tile mounting paper with the first specification.

In this embodiment, since the elliptical cylinder 221 is adopted, the driving motor drives the elliptical cylinder 221 to rotate through the driving shaft 223, and the punching assembly 222 is repeatedly triggered, so that the elliptical cylinder 221 pushes the punching assembly 222 to punch the first specification of tile paper in the detection hole 211 when rotating by 90 °.

In this embodiment, the punching assembly 222 includes: perforated tube 2221, first balloon 2222, first spring 2223, and movable post 2224, which are disposed inside movable hole 212 from top to bottom; movable grooves 2212 are arranged on the elliptic cylinder 221 in the circumferential direction corresponding to the punching assemblies 222; the bottom of the perforated pipe 2221 is connected to one end of a movable column 2224, and the other end of the movable column 2224 is movably limited in a movable groove 2212; the first air bag 2222 is sleeved on the movable post 2224, and the first air bag 2222 is movably arranged in the movable hole 212 through a first spring 2223; the top of the perforated pipe 2221 is arranged in a cutting edge manner; the elliptical cylinder 221 rotates to push the movable column 2224 to drive the punching pipe 2221 to penetrate into the detection hole 211 upwards so as to punch the tile-mounted paper with the first specification; when the movable column 2224 moves upwards, the elliptical column 221 presses the first air bag 2222 to blow air upwards so as to purge impurities on the surface of the first specification of paperhanging paper; as the movable post 2224 moves downward, the first air bladder 2222 is reset by the first spring 2223 and draws in air to draw a piece of paper cut from the first format of paperwork into perforated tube 2221.

In this embodiment, the perforated tube 2221 moves upward when pushed, and the tile mounting paper of the first specification is perforated by the cutting edge at the top of the perforated tube 2221; when the movable column 2224 moves upwards, the first air bag 2222 is pressed by the elliptic cylinder 221, air holes communicated with the first air bag 2222 are longitudinally arranged in the perforated pipe 2221, and the first air bag 2222 blows upwards through the corresponding air holes so as to clean impurities on the surface of the tile paper; when movable column 2224 moves downward, first balloon 2222 is no longer pressed by oval column 221, and first balloon 2222 acts on itself and returns to its shape under the action of first spring 2223, so that first balloon 2222 sucks air downward through its corresponding air holes, and can suck the paper cut from perforated tube 2221 into perforated tube 2221.

In this embodiment, the material cleaning mechanism 23 includes: a hinged column 231, a turnover plate 232 and a material cleaning plate 233; a swing groove 2231 is formed in the driving shaft 223, the bottom of the hinge column 231 is hinged, and the top of the hinge column 231 is movably clamped in the swing groove 2231; the turnover plate 232 is parallel to the elliptic cylinder 221 and fixed with the hinge column 231, and the material cleaning plate 233 is perpendicular to the turnover plate 232 and arranged towards the bottom of the material cleaning hole 213; the top of the hinge column 231 is spherically arranged; the hinge column 231 is driven by the driving shaft 223 to swing so as to drive the turnover plate 232 and the cleaning plate 233 to turn over, that is, the cleaning hole 213 is opened to discharge the debris from the detection block 21.

In this embodiment, the bottom of the hinged column 231 is hinged, the driving shaft 223 rotates to drive the top of the hinged column 231 to slide out of the swing slot 2231, so that the hinged column 231 swings, and meanwhile, the turning plate 232 and the material cleaning plate 233 swing, the bottom of the material cleaning hole 213 is blocked when the material cleaning plate 233 is in the initial state, debris backflow is prevented, and when punching and slicing are performed, the material cleaning plate 233 opens the material cleaning hole 213 to discharge the debris from the detection block 21.

In the embodiment, a scraper 234 parallel to the cleaning hole 213 is disposed at the discharging position of the detecting hole 211, and the scraper 234 can scrape off the debris on the surface of the paper to make the debris fall into the cleaning hole 213.

In the present embodiment, the locking mechanism 24 includes: a lock block 241; the elliptic cylinder 221 is provided with a limit groove 2211, and the locking block 241 is arranged below the elliptic cylinder 221; the elliptic cylinder 221 rotates 90 ° in the detection block 21, so that the locking block 241 is clamped into the limiting groove 2211 to abut against the elliptic cylinder 221, that is, the elliptic cylinder 221 drives the detection block 21 to rotate.

In this embodiment, the top of the locking block 241 is tangent to the minor axis direction on the elliptic cylinder 221, and the limiting groove 2211 is opened in the major axis direction on the elliptic cylinder 221, the elliptic cylinder 221 rotates 90 ° in the detection block 21, the locking block 241 is just blocked in the limiting groove 2211, and the locking block 241 abuts against the groove wall of the limiting groove 2211, and the elliptic cylinder 221 continues to rotate 10 ° to 20 ° and can drive the detection block 21 to rotate, so that the cutting edge at the feeding position of the detection hole 211 rotates downwards to cut off the tile paper of the first specification.

In the present embodiment, the screening mechanism 25 includes: a screening post 251 and a screening spring 252; the screening column 251 is movably arranged in the screening hole through a screening spring 252, and the top of the screening column 251 is positioned in the detection hole 211; a locking groove 2213 is formed in the position, corresponding to the screening column 251, of the elliptic column 221; the second size of paperhanging paper is moved downward against the screening cylinder 251 to push the bottom of the screening cylinder 251 into the locking slot 2213, i.e. to fix the oval cylinder 221 to the detecting block 21.

In this embodiment, the thickness that the paper was mounted on the tile to first specification is less than the thickness that the paper was mounted on the tile to the second specification, therefore the paper was mounted on the tile to first specification can't be supported screening column 251 and move down, and the paper was mounted on the tile to the second specification can be supported screening column 251 and move down to the realization is mounted the paper on the tile to corresponding specification and is screened.

In the present embodiment, the sheet conveying apparatus 1 further includes: a finished product conveyor belt 12; the ultrasonic double sheet detection device 3 includes: the caliper roller 31, the ultrasonic double-sheet detector and the alarm are positioned above the finished product conveying belt 12; the ultrasonic double-sheet detector is arranged on the surface of the caliper roller 31; each piece of tile mounting paper with the first specification penetrates through the space between the finished product conveying belt 12 and the caliper roller 31, the thickness of each piece of tile mounting paper with the first specification is detected by the ultrasonic double-sheet detector, namely the thickness of each piece of tile mounting paper with the first specification exceeds a set value, and the ultrasonic double-sheet detector controls the alarm to give an alarm.

In this embodiment, mount the standard that paper of tile was mounted to the paper of tile in inspection hole 211 accords with first specification, can't guarantee that first specification is mounted paper of tile completely evenly, consequently need set up two detectors of ultrasonic wave and carry out accurate detection, two detectors of ultrasonic wave have a set of electrical contact, when the paper of tile of mounting that surpasss certain thickness passes through calliper roller 31 below, corresponding electrical contact with mount the contact of paper of tile to trigger the alarm and report to the police.

In conclusion, the tile mounting paper can be preliminarily screened by arranging the paper thickness detection device so as to screen the first specification tile mounting paper which meets the standard, and punching and slicing are performed.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some communication interfaces, indirect coupling or communication connection between devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a mount detection system for production of paper of tiling, its characterized in that includes:

the device comprises a paper conveying device, a paper thickness detection device and an ultrasonic double-sheet detection device; wherein

The paper conveying device conveys the tile mounting paper towards the paper thickness detection device so that the paper thickness detection device screens the tile mounting paper, namely

The tile mounting paper of the first specification penetrates through the paper thickness detection device, the paper thickness detection device punches holes in the tile mounting paper of the first specification, and a single piece of tile mounting paper of the first specification is cut according to a set length, so that the single piece of tile mounting paper of the first specification is sent to the paper conveying device;

the ultrasonic double-sheet detection device is positioned above the paper conveying device so as to transmit ultrasonic waves to the paper conveying device and receive the ultrasonic waves fed back after the ultrasonic waves pass through the tile-mounted paper of the first specification, namely

The ultrasonic double-sheet detection device detects the thickness of each piece of tile mounting paper with the first specification by detecting the propagation speed of ultrasonic waves; and

the second specification of tile mounting paper passes through the paper thickness detection device, and the paper thickness detection device blocks rotation when cutting paper.

2. The detection system for the production of linerboard paper as recited in claim 1,

the paper conveying device includes: a base paper conveyer belt;

the body paper conveyer belt conveys the tile mounting paper towards the paper thickness detection device.

3. The detection system for the production of linerboard paper as recited in claim 1,

the paper thickness detection device includes: the device comprises a detection block, a punching mechanism, a material cleaning mechanism, a locking mechanism and a screening mechanism;

the punching mechanism is movably arranged in the detection block and is positioned below the detection hole;

a material cleaning hole is arranged in the detection block and is vertical to the discharging position of the detection hole;

the cleaning mechanism is movably arranged at the bottom of the cleaning hole and is movably connected with the punching mechanism;

a screening hole is arranged in the detection block, the screening hole is perpendicular to the detection hole and is positioned between the detection hole and the punching mechanism, and the screening mechanism is movably arranged in the screening hole;

the locking mechanism is arranged below the punching mechanism;

when the first specification of tile mounting paper passes through the detection hole, the punching mechanism rotates for 90 degrees in the detection block to punch holes on the first specification of tile mounting paper;

when the tile mounting paper of the first specification passes through the material cleaning hole, the scraps fall from the material cleaning hole, and the punching mechanism drives the material cleaning mechanism to turn over, so that the scraps in the material cleaning hole are discharged from the detection block;

the punching mechanism is pressed against the locking mechanism after continuously rotating for a corresponding angle in the detection block, namely

Driving the detection block to rotate so that the cutting edge at the feeding position of the detection hole rotates downwards to cut off the tile mounting paper of a first specification;

when the second specification of tile mounting paper passes through the detection hole, the second specification of tile mounting paper is pressed against the screening mechanism and clamped into the punching mechanism so as to fix the detection block and the punching mechanism, namely that the detection block and the punching mechanism are fixed

The punching mechanism drives the detection block to rotate, and the tile mounting paper of the second specification is wound on the detection block.

4. The detection system for the production of linerboard paper as recited in claim 3,

the punching mechanism includes: the punching machine comprises a driving motor, an elliptic cylinder and a plurality of punching assemblies;

the elliptic cylinder movably penetrates through the detection block and is positioned below the detection hole, two ends of the elliptic cylinder are respectively provided with corresponding driving shafts, and the movable part of the driving motor is connected with the corresponding driving shafts;

a plurality of movable holes are formed in the detection block, each movable hole is perpendicular to the detection hole and is located between the movable hole and the elliptic cylinder, and each punching assembly is movably arranged in the movable hole;

the driving motor drives the elliptic cylinder to rotate for 90 degrees in the detection block through the driving shaft, so that the elliptic cylinder pushes against each punching assembly to punch the tile mounting paper with the first specification in the detection hole.

5. The detection system for the production of linerboard paper as recited in claim 4,

the punching assembly comprises: the perforating pipe, the first air bag, the first spring and the movable column are arranged in the movable hole from top to bottom;

movable grooves are circumferentially arranged in the elliptic cylinder corresponding to the punching assemblies;

the bottom of the perforating pipe is connected with one end of a movable column, and the other end of the movable column is movably limited in the movable groove;

the first air bag is sleeved on the movable column and is movably arranged in the movable hole through a first spring;

the top of the perforating pipe is arranged in a cutting edge manner;

the elliptic cylinder rotates to push the movable cylinder to drive the punching pipe to penetrate into the detection hole upwards so as to punch the tile mounting paper with the first specification;

when the movable column moves upwards, the elliptic column extrudes the first air bag to blow upwards so as to purge impurities on the surface of the tile mounting paper with the first specification;

when the movable column moves downwards, the first air bag is reset under the action of the first spring and sucks air to suck a paper sheet cut from the first specification of paperhanging paper into the perforating pipe.

6. The detection system for the production of linerboard paper as recited in claim 4,

clear material mechanism includes: the hinged column, the turnover plate and the material cleaning plate are hinged;

the driving shaft is provided with a swing groove, the bottom of the hinge column is hinged, and the top of the hinge column is movably clamped in the swing groove;

the turnover plate is arranged in parallel with the elliptic cylinder and fixed with the hinge column, and the material cleaning plate is perpendicular to the turnover plate and is arranged towards the bottom of the material cleaning hole;

the top of the hinge column is arranged spherically;

the hinged columns swing under the driving of the driving shaft to drive the turnover plate and the material cleaning plate to turn, namely

And opening the cleaning hole to discharge the debris from the detection block.

7. The detection system for the production of linerboard paper as recited in claim 4,

the locking mechanism includes: a locking block;

the elliptic cylinder is provided with a limiting groove, and the locking block is arranged below the elliptic cylinder;

the elliptic cylinder rotates 90 degrees in the detection block, so that the locking block is clamped into the limiting groove to abut against the elliptic cylinder, namely

The elliptic cylinder drives the detection block to rotate.

8. The detection system for the production of linerboard paper as recited in claim 4,

the screening mechanism includes: a screening column and a screening spring;

the screening column is movably arranged in the screening hole through a screening spring, and the top of the screening column is positioned in the detection hole;

a locking groove is formed in the elliptic cylinder corresponding to the screening column;

the second specification of the roofing paper is moved downwards against the screening columns to push the bottom of the screening columns into the locking grooves, i.e.

And fixing the elliptic cylinder with the detection block.

9. The detection system for the production of linerboard paper as recited in claim 1,

the sheet conveying apparatus further includes: a finished product conveyer belt;

the ultrasonic double-sheet detection device comprises: the clamp roller, the ultrasonic double-sheet detector and the alarm are positioned above the finished product conveying belt;

the ultrasonic double-sheet detector is arranged on the surface of the caliper roller;

each piece of tile mounting paper with the first specification penetrates through the space between the finished product conveying belt and the clamping roller, and the ultrasonic double-sheet detector detects the thickness of each piece of tile mounting paper with the first specification, namely

And when the thickness of the tile mounting paper with the first specification exceeds a set value, the ultrasonic double-detector controls the alarm to give an alarm.

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