CN117553729A - Metering device and metering method for processing negative ion spc stone plastic plate - Google Patents

Abstract

The invention discloses a metering device and a metering method for machining negative ion spc stone plastic plates, and relates to the technical field of plate machining devices. According to the metering device and the metering method for processing the negative ion spc stone plastic plate, by arranging the profile recording assembly, the plurality of painting brush units can be pressed down by utilizing the self gravity of the negative ion spc stone plastic plate, so that the plurality of pressed painting brush units jointly form the profile with the same shape as the negative ion spc stone plastic plate, and the purpose of recording the profile shape of the negative ion spc stone plastic plate is realized; after the painting brush unit is pressed down and moved, a mark can be drawn on the corresponding position of the painting board assembly, so that the follow-up analysis of the outline is facilitated, and the aim of judging whether the negative ion spc stone plastic board meets the requirement or not is fulfilled; the same outline shape as that of the spot negative ion spc stone plastic plate can be formed by connecting the mark points positioned on the outermost edge position in the plurality of mark points, so that the purpose of sampling and measuring the outline shape of the negative ion spc stone plastic plate is achieved.

Description

Metering device and metering method for processing negative ion spc stone plastic plate

Technical Field

The invention relates to the technical field of plate processing devices, in particular to a metering device and a metering method for processing negative ion spc stone plastic plates.

Background

The negative ion SPC stone plastic plate is a new floor material, and adopts SPC (stone plastic composite) technology, and has the advantages of water resistance, moisture resistance, wear resistance, pressure resistance, fire resistance, etc. Meanwhile, the negative ion SPC stone plastic plate also has a negative ion release function, can effectively purify air and improve indoor environment. At present, in order to improve the aesthetic degree of ground decoration, the negative ion SPC stone plastic plate is often processed into an irregular shape, so that the ground decoration of families and businesses is improved, and the purposes of improving the integral decoration effect and highlighting individuality are achieved.

However, the machining difficulty of the irregular-shaped negative ion SPC stone plastic floor is high, the situation that the outline shape and the design shape are not in accordance with the outline edge defect easily occurs, and in order to measure whether the outline shape of the irregular-shaped negative ion SPC stone plastic plate meets the requirement, the stone plastic plate machining metering device can be used for sampling and metering the irregular-shaped negative ion SPC stone plastic floor after batch machining and molding.

Referring to a measuring instrument and a measuring method for the width, the edge shape and the edge defect of a plate with the Chinese patent publication number of CN102500627B, the comprehensive measurement of the width, the edge shape and the edge defect of the plate is solved by adopting one measuring instrument. The line laser light source and the surface array camera are adopted, the edge shape of the plate can be accurately measured, the width of the plate and the positions of the maximum value, the minimum value, the average value and the maximum value of the section width of the measured plate at the measuring moment can be accurately calculated according to the edge shape, and the measuring precision is improved.

The above patents were analyzed comprehensively to obtain the following drawbacks:

when the existing plate is used for measuring the outline shape, a professional measuring instrument is needed, the professional operator can finish the measurement work, the cost of purchasing a plurality of measuring instruments is increased, meanwhile, the operation difficulty of a measuring process is increased, the labor input cost of measuring technicians is increased, complicated and complicated measurement operation is caused, the time required for the measurement operation is long and uneconomical, for example, the width, edge shape and edge defect measuring instrument and the measuring method of the plate refer to the Chinese patent publication No. CN102500627B, the edge outline shape of the plate is measured by using a plurality of edge measuring devices, a measuring control cabinet and a display, the edge measuring devices are required to be arranged at the same height as the plate, the whole high-definition scanning camera, the line laser, the data acquisition board card and the power supply in the edge measuring device are high in price, and the measuring process is long and complicated, so that the time required for the measurement operation is long and uneconomical.

Therefore, the invention provides a metering device and a metering method for processing the negative ion spc stone plastic plate to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the metering device and the metering method for processing the negative ion spc stone plastic plate, which solve the problems that the prior plate profile shape measurement needs to use a professional measuring instrument and can be finished by professional operation, the labor input cost of the measuring instrument and the measuring technician is increased, and the operation difficulty of the measuring process is increased, so that the time required by the measuring operation is long and uneconomical.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a measuring device is used in processing of anion spc stone plastic panel, includes the carrier seat, sets up holding tank and fixed connection in carrier seat top one side and is used for cutting the stone plastic panel cutting equipment of panel at carrier seat top opposite side, the stone plastic panel cutting equipment is close to and has seted up the panel delivery outlet that is used for anion spc stone plastic panel to export on the outer wall of holding tank, the below fixedly connected with that just is located the panel delivery outlet on the board cutting equipment outer wall is used for panel to carry the stock guide of direction, carrier seat top and the below fixedly connected with that is located the stock guide are used for accepting and carry the first conveyer belt mechanism of anion spc stone plastic panel, first conveyer belt mechanism top is provided with the calibrating mechanism that is used for anion spc stone plastic panel to carry the direction, one side of calibrating mechanism and the below activity that is located first conveyer belt mechanism are provided with the contour metering mechanism that is used for measuring anion spc stone plastic panel contour shape.

The sheet profile metering mechanism comprises a second conveying belt mechanism, universal wheels fixedly connected to the bottom of the second conveying belt mechanism and used for facilitating movement of the universal wheels, and mounting brackets fixedly connected to the front side and the rear side of the outer wall of the second conveying belt mechanism, wherein two sheet profile recording mechanisms are connected to the opposite side walls of the mounting brackets in a common rotating mode, and one of the sheet profile recording mechanisms is fixedly connected to a servo motor used for driving the sheet profile recording mechanisms to rotate.

Preferably, the panel profile recording mechanism includes square barrel, evenly sets up a plurality of installation logical groove and can dismantle the profile recording subassembly of connection at installation logical inslot portion through the bolt on square barrel outer wall, fixedly connected with square board on the square barrel inner wall, evenly set up a plurality of T type grooves on the square board outer wall, every equal sliding connection in T type inslot has the drawing board subassembly that is used for taking notes anion spc stone and moulds panel profile shape, the access hole has been seted up to square barrel one end, can dismantle through the bolt on the outer wall of access hole and be provided with the apron, evenly set up a plurality of rectangular mouthful of getting of one-to-one with T type groove position one on the apron outer wall for conveniently take out the drawing board subassembly.

Preferably, the profile recording assembly comprises a mounting plate and a plurality of mounting holes uniformly formed in the surface of the mounting plate, and a painting brush unit is arranged in each mounting hole.

Preferably, the painting brush unit includes that can dismantle fixed connection in the inside tubule of mounting hole and fixed connection be used for discharging its inside air's air cock in tubule outer wall both sides through the bolt, inside just be provided with first baffle, piston respectively in the below and the top that are located the air cock of tubule, the bottom fixedly connected with steel needle of piston, the steel needle bottom slides and runs through first baffle, piston top fixedly connected with bearing plate, bearing plate top fixedly connected with is used for skid resistant pad, slide the cover and be equipped with first spring on the piston outer wall and be located between bearing plate and the tubule, the inside below fixedly connected with second baffle that is located first baffle of tubule, the inside sliding penetration of second baffle has the painting brush head subassembly, offer the access hole that is used for the inspection of painting brush head subassembly on the tubule outer wall.

Preferably, the brush head assembly comprises a brush fixing rod which penetrates through the inside of the second partition plate in a sliding manner, a circular plate and a brush fixing sleeve which are respectively and fixedly connected to two ends of the brush fixing rod, a second spring is arranged on the outer wall of the brush fixing rod and positioned between the circular plate and the brush fixing sleeve in a sliding manner, and the brush head is detachably connected to the inside of the brush fixing sleeve through a fastening bolt.

Preferably, the drawing board assembly comprises a drawing board which is slidably connected in the T-shaped groove and white paper arranged at the top of the drawing board, double-sided adhesive tapes are fixedly connected to four corners of the bottom of the white paper, and the white paper and the drawing board are fixed by the double-sided adhesive tapes.

Preferably, the calibrating mechanism comprises two plate guiding components fixedly connected to the front side and the rear side of the top of the first conveyor belt mechanism, the plate guiding components comprise a first mounting seat and a second mounting seat which are oppositely arranged left and right, the first mounting seat and the second mounting seat are both in sliding penetration with an adjusting arm, the first mounting seat or the second mounting seat is fixedly connected with the adjusting arm through locking bolts, and a limiting plate is fixedly connected to the outer wall of the adjusting arm together.

Preferably, the internal width of the accommodating groove is larger than the width of the plate profile metering mechanism, and the accommodating groove is used for accommodating the protection plate profile metering mechanism.

The invention also provides a metering method of the metering device for processing the negative ion spc stone plastic plate, which comprises the following steps:

step one, preparing board sampling inspection: before sampling and detecting the negative ion spc stone plastic plate, pulling the plate profile metering mechanism out of the accommodating groove by using a universal wheel, keeping the plate profile metering mechanism and the first conveying belt mechanism on the same straight line, and ensuring that the negative ion spc stone plastic plate conveyed from the first conveying belt mechanism just slides down to the top of the plate profile recording mechanism;

cutting the plate: under the control of an internal control system of stone plastic plate cutting equipment, processing and cutting the large-block negative ion spc stone plastic plate into a required shape by utilizing a cutting machine, transferring the processed plate to a plate output port position through an internal conveying system, and sliding the negative ion spc stone plastic plate downwards along an inclined slope surface of a material guide plate under the action of gravity;

step three, conveying the plates: under the guiding action of the calibrating mechanism, the negative ion spc stone plastic plate moves along the top of the first conveying belt mechanism towards the plate profile metering mechanism, and falls to the top of the plate profile recording mechanism under the action of gravity;

step four, measuring the outline of the plate: after the negative ion spc stone plastic plate slides to the top of the plate profile recording mechanism and the position is stable, under the action of self gravity, an indentation identical to the self profile is formed at the top of the plate profile recording mechanism, the indentation profile is re-drawn by a drawing pen, a clear negative ion spc stone plastic plate profile pattern is formed, a standard negative ion spc stone plastic plate template and the negative ion spc stone plastic plate profile pattern are compared, the servo motor is used for driving the plate profile recording mechanism to overturn, and the profile metering is continuously carried out on a plurality of plates.

Preferably, a locking device for preventing the universal wheel from freely rolling is fixedly arranged in the universal wheel, negative ions spc stone plastic plates at the top of the first conveyor belt mechanism are distributed at equal intervals, and the servo motor intermittently rotates through programming control, and every ninety degrees of rotation intermittently lasts for five seconds.

The invention provides a metering device and a metering method for processing an anion spc stone plastic plate. Compared with the prior art, the method has the following beneficial effects:

1. a metering device and a metering method for processing negative ion spc stone plastic plates are characterized in that a plate output port for outputting negative ion spc stone plastic plates is formed in the outer wall, close to a containing groove, of stone plastic plate cutting equipment, a guide plate for conveying and guiding the plates is fixedly connected to the outer wall of the stone plastic plate cutting equipment and located below the plate output port, a first conveying belt mechanism for carrying and conveying the negative ion spc stone plastic plates is fixedly connected to the top of a bearing seat and located below the guide plate, a calibration mechanism for conveying and guiding the negative ion spc stone plastic plates is arranged at the top of the first conveying belt mechanism, and a plate contour metering mechanism for metering the contour shape of the negative ion spc stone plastic plates is movably arranged on one side of the calibration mechanism and located below the first conveying belt mechanism.

2. The measuring device and the measuring method for processing the negative ion spc stone plastic plate can utilize the self gravity of the negative ion spc stone plastic plate to press down a plurality of brush units by arranging a contour recording assembly, so that the plurality of brush units positioned below the negative ion spc stone plastic plate are pressed to move downwards relative to other brush units, the plurality of pressed brush units jointly form a contour which is the same as the shape of the negative ion spc stone plastic plate, and the purpose of recording the contour shape of the negative ion spc stone plastic plate is realized; secondly, after the painting brush unit is pressed down and moved, marks can be drawn on the corresponding positions of the drawing board components, so that the measured outline recording component outline can still be recorded after the negative ion spc stone plastic board is removed from the outline recording component, the outline can be conveniently analyzed, and the purpose of judging whether the negative ion spc stone plastic board meets the requirements or not is achieved; and moreover, the marking points positioned on the outermost edge positions in the marking points are connected, so that the outline shape identical to that of the negative ion spc stone plastic plate can be formed, and whether the negative ion spc stone plastic plate meets the design requirement can be judged by means of the standard template of the negative ion spc stone plastic plate and the outline shape contrast, so that the purpose of sampling and measuring the outline shape of the negative ion spc stone plastic plate is achieved.

3. According to the metering device and the metering method for processing the negative ion spc stone plastic plate, the painting brush fixing sleeve and the painting brush head are designed in a split mode, the purpose of disassembling the painting brush head is achieved by utilizing the fastening bolts of the detachable fixing sleeve and the painting brush head, the painting brush head which is damaged or can not draw marks is convenient to replace in time, the condition that the whole painting brush unit is scrapped after the painting brush head is damaged is avoided, and the service life of the painting brush unit is prolonged; secondly, through setting up the air cock, be located the air between piston and the first baffle in the tubule and only can discharge through the air cock, when the bearing plate received anion spc stone and moulded the board violently to strike, gas in the tubule can only discharge through the air cock under the piston extrusion, and the air cock in the unit time exhaust air volume is limited, thereby realized reducing the purpose of piston down-movement speed, avoided anion spc Dan Su board just to fall to when the bearing plate top is unstable, the piston receives the promotion and causes drawing nib subassembly to record the condition of wrong sign on the drawing board subassembly, thereby for the stability of anion spc stone moulding the board provides time, guaranteed anion spc stone and moulded board contour shape measurement's accuracy.

4. A metering device and a metering method for machining negative ion spc stone plastic plates are characterized in that a plurality of contour recording assemblies can be uniformly arranged on a square cylinder body through arranging a plate contour recording mechanism, one of the contour recording assemblies can be used for driving the plate contour recording mechanism to turn over after finishing the contour measurement of one negative ion spc stone plastic plate, the other contour recording assembly is positioned at the contour measurement position of the negative ion spc stone plastic plate, the purpose of continuously measuring the contours of the plurality of negative ion spc stone plastic plates is achieved, the automation degree of the contour measurement process of the negative ion spc stone plastic plate is high, the structure is simple, a large number of special measuring instruments are not needed, meanwhile, contour measurement work of the plates can be achieved without the operation of special personnel, not only the cost is saved, but also the sampling time of the plates is saved, and the contour measurement time of the negative ion spc stone plastic plate is improved.

5. The measuring device and the measuring method for processing the negative ion spc stone plastic plate can record marks formed by a painting brush unit by using white paper and perform drawing comparison work with the follow-up white paper by arranging a drawing board assembly; secondly, drawing board subassembly can draw out from rectangular getting in putting the mouth behind the measurement staff, is convenient for change white paper, is convenient for the measurement work of panel outline shape once more.

6. The metering device and the metering method for processing the negative ion spc stone plastic plate can store the plate contour recording mechanism in the accommodating groove after the plate contour metering mechanism meters the contour shape of the negative ion spc stone plastic plate in a sampling way, and only the second conveying belt mechanism is used for working, so that the protection purpose of the plate contour recording mechanism is realized, and the service time of the plate contour recording mechanism is prolonged; secondly, when carrying out the contour spot check measurement to ion spc stone and moulding the panel, draw out panel contour measurement mechanism and can realize the quick measurement work to the panel, panel contour recording mechanism can realize panel measurement and the quick conversion of accomodating for panel contour shape measurement is more convenient, quick.

Drawings

FIG. 1 is a schematic view of the structure of the invention in its unfolded state;

FIG. 2 is a schematic view of a storage state structure of the present invention;

FIG. 3 is a schematic diagram of a calibration mechanism according to the present invention;

FIG. 4 is a schematic diagram of an exploded view of the plate profile metering mechanism of the present invention;

FIG. 5 is a schematic view of the profile recording assembly and square barrel of the present invention in an exploded view;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 7 is a schematic diagram of an exploded view of the profile recording assembly of the present invention;

FIG. 8 is a schematic cross-sectional view of a brush unit of the present invention;

FIG. 9 is a schematic view showing the exploded view of the nib assembly according to the present invention;

FIG. 10 is a schematic view of an exploded view of the drawing board assembly of the present invention;

fig. 11 is an enlarged schematic view of the structure of fig. 10B according to the present invention.

In the figure: 1. a bearing seat; 2. a receiving groove; 3. cutting equipment for stone plastic plates; 4. a material guide plate; 5. a first conveyor belt mechanism; 6. a calibration mechanism; 61. a first mount; 62. a second mounting base; 63. an adjusting arm; 64. a locking bolt; 65. a limiting plate; 7. a plate profile metering mechanism; 71. a second conveyor belt mechanism; 72. a universal wheel; 73. a mounting bracket; 74. a plate profile recording mechanism; 741. a square cylinder; 742. installing a through groove; 743. a profile recording component; 7431. a mounting plate; 7432. a brush unit; 74321. a tubule; 74322. an air tap; 74323. a first separator; 74324. a piston; 74325. a steel needle; 74326. a pressure bearing plate; 74327. an anti-slip pad; 74328. a first spring; 74329. a second separator; 743210, a brush head assembly; 7432101, brush holder; 7432102, circular plate; 7432103, a painting brush fixing sleeve; 7432104, a second spring; 7432105, brush head; 743211 and an access opening; 744. a square plate; 745. a T-shaped groove; 746. a drawing board assembly; 7461. drawing board; 7462. white paper; 7463. double-sided adhesive tape; 747. a cover plate; 748. a strip taking and placing port; 75. a servo motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 11, the present invention provides two technical schemes:

embodiment one: the utility model provides a measuring device is used in processing of anion spc stone plastic panel, including bearing seat 1, offer the holding tank 2 and fixed connection in bearing seat 1 top one side be used for cutting the stone plastic panel cutting equipment 3 of panel, stone plastic panel cutting equipment 3 is close to and has offered the panel delivery outlet that is used for anion spc stone plastic panel output on the outer wall of holding tank 2, stone plastic panel cutting equipment 3 outer wall is last and be located panel delivery outlet's below fixedly connected with and be used for panel to carry the stock guide 4 of direction, bearing seat 1 top and be located stock guide 4's below fixedly connected with and be used for accepting and carry anion spc stone plastic panel's first conveyer belt mechanism 5, the higher one end of stock guide 4 is connected with panel delivery outlet, its lower one end extends to the top of first conveyer belt mechanism 5, the height of first conveyer belt mechanism 5 is slightly less than stock guide 4, guarantee from the anion spc stone plastic panel at stock guide 4 top can fall between two limiting plates 65 at first conveyer belt mechanism 5 top. The utility model provides a be provided with the calibrating mechanism 6 that is used for anion spc stone to mould panel transportation direction at first conveyer belt mechanism 5 top, one side of calibrating mechanism 6 just is located the below activity of first conveyer belt mechanism 5 and is provided with the panel profile metering mechanism 7 that is used for measuring anion spc stone to mould panel profile shape, the inside width of holding tank 2 is greater than the width of panel profile metering mechanism 7, be used for holding protection panel profile metering mechanism 7, panel profile recording mechanism 74 is close to first conveyer belt mechanism 5 setting, the two are on a straight line, and guarantee that the panel that the two interval can guarantee that the first conveyer belt mechanism 5 top was carried can just the landing to profile recording subassembly 743 top. The calibrating mechanism 6 comprises two plate guiding components fixedly connected to the front side and the rear side of the top of the first conveyor belt mechanism 5, the plate guiding components comprise a first mounting seat 61 and a second mounting seat 62 which are oppositely arranged left and right, an adjusting arm 63 is penetrated through the first mounting seat 61 and the second mounting seat 62 in a sliding manner, the first mounting seat 61 or the second mounting seat 62 is fixedly connected with the adjusting arm 63 through a locking bolt 64, and a limiting plate 65 is fixedly connected to the outer walls of the two adjusting arms 63. The first mount 61 is fixedly connected to the top of the skeleton in the first conveyor 5 through bolts, and the bottom of the limiting plate 65 is close to the top of the belt body, but is not contacted, and one end of the limiting plate 65 extends to the top of the guide plate 4, so that the board can be directly guided by the limiting plate 65 when being output from the stone plastic board cutting device 3. The plate profile metering mechanism 7 comprises a second conveyor belt mechanism 71, universal wheels 72 fixedly connected to the bottom of the second conveyor belt mechanism 71 and used for facilitating movement of the second conveyor belt mechanism, and mounting brackets 73 fixedly connected to the front side and the rear side of the outer wall of the second conveyor belt mechanism 71, wherein the plate profile recording mechanism 74 is connected to the opposite side walls of the two mounting brackets 73 in a rotating mode, and a servo motor 75 used for driving the plate profile recording mechanism 74 to rotate is fixedly connected to the outer wall of one of the mounting brackets 73. The board profile recording mechanism 74 comprises a square barrel 741, a plurality of mounting through grooves 742 uniformly formed in the outer wall of the square barrel 741, and a profile recording assembly 743 detachably connected in the mounting through grooves 742 through bolts, wherein a square plate 744 is fixedly connected to the inner wall of the square barrel 741, a plurality of T-shaped grooves 745 are uniformly formed in the outer wall of the square plate 744, drawing board assemblies 746 for recording the profile shape of the negative ion spc stone plastic board are slidingly connected to the inner side of each T-shaped groove 745, an overhaul port is formed in one end of the square barrel 741, a cover plate 747 is detachably arranged on the outer wall of the overhaul port through bolts, and a plurality of long strip taking and placing ports 748 corresponding to the positions of the T-shaped grooves 745 are uniformly formed in the outer wall of the cover plate 747, so that the drawing board assemblies 746 can be conveniently taken out. The universal wheel 72 is fixedly connected to four supporting feet at the bottom end of the framework in the second conveyor belt mechanism 71, the mounting bracket 73 is fixedly connected to the outer wall of the framework through bolts, the servo motor 75 is connected with an external power supply through a wire, and the work of the servo motor 75 is controlled through a control box. The first conveyor belt 5 and the second conveyor belt 71 are identical in structure and are each composed of the following parts:

belt body: the core of the conveyor belt is typically made of rubber, polyester, dacron and the like. The belt body has the characteristics of wear resistance, corrosion resistance, high strength and the like;

and (3) a framework: the structure supporting and holding the conveyor belt is typically made of steel or aluminum alloy. The framework plays a role in keeping the shape of the conveyor belt stable;

a driving device: the components for driving the conveyor belt in operation generally comprise motors, reducers, driving wheels, etc. The driving device enables the conveyor belt to run by providing power;

tensioning device: for adjusting and maintaining the tension of the conveyor belt, preventing the conveyor belt from slackening. The tensioning device may be manual, gravitational or automatic.

The stone plastic plate cutting device 3 is composed of the following parts:

cutting machine: the cutting machine is a core component of an automatic plate cutting and forming device, and a numerical control cutting machine or a laser cutting machine is generally adopted. The cutting machine can accurately cut and shape the floor according to the preset size and shape;

and (3) a conveying system: the conveying system is used for conveying the raw material plates into the cutting machine for processing and conveying the processed floor out. The conveying system generally comprises a conveying belt, a roller and other devices, and can realize automatic conveying and positioning of floors;

and (3) a control system: the control system is an intelligent core of the automatic floor cutting and forming device, and a PLC control system or a numerical control system is generally adopted. The control system can realize the accurate control of the cutting machine and the conveying system, and ensures the cutting forming precision and the production efficiency of the plate;

safety protection device: the automatic plate cutting and forming device is generally provided with a safety protection device, comprising equipment such as a safety door, an emergency stop button, a grating and the like, and is used for guaranteeing the safety of operators and equipment;

auxiliary equipment: in addition to the above main components, the automatic sheet cutting and forming apparatus may be equipped with various auxiliary devices such as a dust removing system, a cooling system to improve production efficiency and product quality.

Embodiment two: compared with the first embodiment, the distinguishing technical scheme of the present embodiment is as follows: the utility model provides a measuring device is used in processing of anion spc stone plastic sheet material, profile record subassembly 743 includes mounting panel 7431 and evenly sets up a plurality of mounting holes on mounting panel 7431 surface, every mounting hole is inside all to be provided with painting brush unit 7432, can be according to the precision demand of actual panel measurement, corresponds the painting brush unit 7432 of different quantity of design, on the mounting panel 7431 unit area and under the prerequisite that does not influence painting brush unit 7432 normal operating, the quantity that painting brush unit 7432 set up is more, then the higher the precision of the profile shape measurement of anion spc stone plastic sheet material. The painting brush unit 7432 includes that the tubule 74321 that can dismantle fixed connection in the mounting hole is inside through the bolt and fixed connection is used for discharging its inside air's air cock 74322 in tubule 74321 outer wall both sides, the inside below and the top that lie in air cock 74322 of tubule 74321 are provided with first baffle 74323 respectively, piston 74324 sliding connection is inside the cavity of tubule 74321, first baffle 74323 fixed connection is on the inner wall of tubule 74321, the bottom fixedly connected with steel needle 74325 of piston 74324, steel needle 74325 bottom slip runs through first baffle 74323, piston 74324 top fixedly connected with bearing plate 74326, bearing plate 74326 top fixedly connected with is used for skid-proof slipmat 74327, slide sleeve is equipped with first spring 74328 on the piston 74324 outer wall and between bearing plate 74326 and tubule 74321, the below fixedly connected with second baffle 74329 that lie in first baffle 74323, the inside slip of second baffle 74329 runs through has painting brush assembly 743210, the maintenance mouth that is used for making things convenient for painting brush assembly 743210 has been seted up on the outer wall of tubule 74321. The brush head assembly 743210 includes a brush fixing rod 7432101 slidably penetrating through the second partition 74329, a circular plate 7432102 and a brush fixing sleeve 7432103 fixedly connected to two ends of the brush fixing rod 7432101 respectively, a second spring 7432104 is slidably sleeved on the outer wall of the brush fixing rod 7432101 and between the circular plate 7432102 and the brush fixing sleeve 7432103, the second spring 7432104 is located above the second partition 74329, and the brush head 7432105 is detachably connected to the inside of the brush fixing sleeve 7432103 through fastening bolts. The position of access opening 743211 is relative to the position of the fastening bolt, facilitating the disassembly of the fastening bolt through access opening 743211. The circular plate 7432102 and the second diaphragm 74329 have a plurality of ventilation holes formed therein. Drawing board assembly 746 includes a drawing board 7461 slidingly connected inside of T-shaped slot 745 and white paper 7462 disposed on top of drawing board 7461, and double-sided tape 7463 is fixedly connected to four corners of bottom of white paper 7462, and fixing of white paper 7462 and drawing board 7461 is completed by double-sided tape 7463. The double-sided adhesive tape is a reusable adhesive tape, uses a special adhesive, and has the characteristics of repeated adhesion and easy tearing, such as Nano adhesive, gel and the like. The drawing board 7461 is fixedly connected with a handle on the outer wall of the drawing board 7461 close to the long strip pick-and-place port 748, so that the drawing board assembly 746 can be conveniently pulled out of the T-shaped groove 745.

The embodiment of the invention also provides a metering method of the metering device for processing the negative ion spc stone plastic plate, which comprises the following steps:

step one, preparing board sampling inspection: before the negative ion spc stone plastic plate is sampled and detected, the plate profile metering mechanism 7 is pulled out of the accommodating groove 2 by the universal wheel 72, the plate profile metering mechanism 7 and the first conveyor belt mechanism 5 are kept on the same straight line, and the negative ion spc stone plastic plate conveyed from the first conveyor belt mechanism 5 is ensured to just slide on the top of the plate profile recording mechanism 74;

cutting the plate: under the control of an internal control system of stone plastic plate cutting equipment 3, processing and cutting the large-block negative ion spc stone plastic plate into a required shape by utilizing a cutting machine, transferring the processed plate to a plate output port position through an internal conveying system, and sliding the negative ion spc stone plastic plate downwards along an inclined slope surface of a material guide plate 4 under the action of gravity;

step three, conveying the plates: under the guiding action of the calibrating mechanism 6, the negative ion spc stone plastic plate is positioned between the two opposite limiting plates 65, moves towards the plate profile metering mechanism 7 along the top of the first conveying belt mechanism 5, slides to the top of the plate profile recording mechanism 74 under the action of gravity, can adjust the distance between the two limiting plates 65 according to the negative ion spc stone plastic plate with different sizes, unscrews the locking bolt 64 during adjustment, and then pulls the position of the adjusting arm 63 so that the distance between the two limiting plates 65 meets the size requirement of the negative ion spc stone plastic plate;

step four, measuring the outline of the plate: after the negative ion spc stone plastic plate slides to the top of the plate contour recording mechanism 74 and is stable in position, under the action of self gravity, an 'indentation' with the same contour shape is formed on the top of the plate contour recording mechanism 74, during the period, the negative ion spc stone plastic plate is strongly impacted by the bearing plate 74326, air in the thin tube 74321 is extruded by the piston 74324 and is discharged through the air tap 74322, the air discharge amount in unit time is limited, the downward moving speed of the piston 74324 is reduced until the negative ion spc stone plastic plate is stable on the top of the bearing plate 74326, the piston 74324 continuously moves downwards along the thin tube 74321, the steel needle 74325 pushes the brush head assembly 743210 to move downwards, the brush head assembly 743210 is marked downwards on the plate assembly 746, the 'indentation' contour is re-depicted by using a brush, a clear negative ion spc stone plastic plate contour pattern is formed, and the standard negative ion spc stone plastic plate and the negative ion spc stone plastic plate contour pattern are compared. The specific working content of the plate contour recording mechanism 74 is that the negative ion spc stone plastic plate is utilized to press down the plurality of painting brush units 7432 by the self gravity of the negative ion spc stone plastic plate, so that the plurality of painting brush units 7432 positioned below the negative ion spc stone plastic plate are pressed and move downwards relative to other painting brush units 7432, the plurality of pressed painting brush units 7432 jointly form the contour identical to the shape of the negative ion spc stone plastic plate, the purpose of recording the contour shape of the negative ion spc stone plastic plate is achieved, then, after the painting brush units 7432 are pressed down, the painting brush heads 7432105 at the bottoms of the painting brush units draw marks on the corresponding positions of white paper 7462 in the painting plate assembly 746, then, the marking points positioned at the outermost edge positions in the plurality of marking points are connected, the contour shape identical to that of the negative ion spc stone plastic plate is formed, and whether the negative ion spc stone plastic plate meets the design requirement or not is judged by means of the standard template and contour shape contrast of the negative ion spc stone plastic plate; the brush fixing sleeve 7432103 and the brush head 7432105 are of split design, the brush head 7432105 can be detached by utilizing the fastening bolts of the brush fixing sleeve 7432103 and the brush head 7432105 which are detachably fixed through the overhaul port 743211, the brush head 7432105 which is damaged or can not draw marks can be replaced in time, the servo motor 75 is utilized to drive the plate profile recording mechanism 74 to overturn, and the profile shape measurement is continuously carried out on a plurality of plates. The specific working content of the plate contour recording mechanism 74 turning process is that after one contour recording component 743 finishes the contour measurement of an anion spc stone plastic plate, the servo motor 75 is utilized to drive the plate contour recording mechanism 74 to turn, because the anion spc stone plastic plate at the top of the first conveying mechanism 5 is distributed at equal intervals, the servo motor 75 is controlled to intermittently rotate through programming, every ninety degrees of intermittent five seconds is rotated, and the time required by the interval distance of the anion spc stone plastic plate to be moved is just the same as the time required by the plate contour recording mechanism 74 to turn once, so that after the servo motor 75 turns once, the other contour recording component 743 is positioned at the contour measurement position of the anion spc stone plastic plate, and the continuous measurement of the contours of a plurality of anion spc stone plastic plates is realized. Before comparison, marks formed by the painting brush unit 7432 are recorded according to the white paper 7462, the most edge parts of a plurality of mark points are connected by lines to form the same outline shape of the month detection plate, the standard negative ion spc stone plastic plate template is placed in the outline pattern of the negative ion spc stone plastic plate in the comparison process, if the standard negative ion spc stone plastic plate template is completely overlapped, the standard negative ion spc stone plastic plate is a qualified product, the standard negative ion spc stone plastic plate cannot be overlapped, and the selective inspection plate is a defective product.

In the embodiment of the invention, a locking device for preventing the universal wheel 72 from freely rolling is fixedly arranged in the universal wheel, negative ions spc stone plastic plates at the top of the first conveyor belt mechanism 5 are distributed at equal intervals, and the servo motor 75 is controlled to intermittently rotate through programming, and intermittently rotate for five seconds every ninety degrees. After the profile shape of each negative ion spc stone plastic plate is measured, the servo motor 75 drives the plate profile recording mechanism 74 to turn over, so that the plate subjected to profile measurement can fall on the top of the second conveying mechanism 71, and after the plate profile recording mechanism 74 finishes ninety-degree turning actions, another plate subjected to profile measurement just falls on the top of the plate profile recording mechanism 74, and the universal wheel lock consists of a mechanical device or a braking system and can be activated by operating a handle or a pedal. When the castor lock is in the locked condition, the castor will not move to increase safety and prevent accidental slippage or rolling. When the universal wheel locking device is in an unlocking state, the universal wheel can roll freely.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a anion spc stone is moulded panel processing and is used metering device, includes and bears seat (1), sets up holding tank (2) and fixed connection in bearing seat (1) top opposite side and is used for cutting panel's stone to mould panel cutting equipment (3), its characterized in that: the stone plastic plate cutting device is characterized in that a plate output port for outputting negative ion spc stone plastic plates is formed in the outer wall, close to the accommodating groove (2), of the stone plastic plate cutting device (3), a guide plate (4) for conveying and guiding the plates is fixedly connected to the outer wall of the stone plastic plate cutting device (3) and located below the plate output port, a first conveying belt mechanism (5) for receiving and conveying the negative ion spc stone plastic plates is fixedly connected to the top of the bearing seat (1) and located below the guide plate (4), a calibration mechanism (6) for conveying and guiding the negative ion spc stone plastic plates is arranged at the top of the first conveying belt mechanism (5), and a plate profile metering mechanism (7) for metering the profile shape of the negative ion spc stone plastic plates is movably arranged on one side of the calibration mechanism (6) and located below the first conveying belt mechanism (5);

the sheet profile metering mechanism (7) comprises a second conveying belt mechanism (71), universal wheels (72) fixedly connected to the bottom of the second conveying belt mechanism (71) and used for facilitating movement of the second conveying belt mechanism, and mounting brackets (73) fixedly connected to the front side and the rear side of the outer wall of the second conveying belt mechanism (71), sheet profile recording mechanisms (74) are connected to the opposite side walls of the two mounting brackets (73) in a co-rotating mode, and servo motors (75) used for driving the sheet profile recording mechanisms (74) to rotate are fixedly connected to the outer wall of one of the mounting brackets (73).

2. The metering device for machining the negative ion spc stone plastic plate according to claim 1, wherein the metering device is characterized in that: the utility model provides a board profile recording mechanism (74) is including square barrel (741), evenly set up a plurality of installation logical groove (742) on square barrel (741) outer wall and can dismantle through the bolt and connect at the inside profile recording subassembly (743) of installation logical groove (742), fixedly connected with square board (744) on square barrel (741) inner wall, a plurality of T type grooves (745) have evenly been seted up on square board (744) outer wall, every equal sliding connection in T type groove (745) inside has drawing board subassembly (746) that are used for recording anion spc stone and mould board profile shape, the access hole has been seted up to square barrel (741) one end, can dismantle through the bolt on the outer wall of access hole and be provided with apron (747), a plurality of rectangular taking out of one-to-one with T type groove (745) position one-to put mouth (748) on apron (747) outer wall for conveniently take out drawing board subassembly (746).

3. The metering device for machining the negative ion spc stone plastic plate according to claim 2, wherein the metering device is characterized in that: the profile recording assembly (743) comprises a mounting plate (7431) and a plurality of mounting holes uniformly formed in the surface of the mounting plate (7431), and a painting brush unit (7432) is arranged in each mounting hole.

4. The metering device for machining the negative ion spc stone plastic plate according to claim 3, wherein: the utility model provides a painting brush unit (7432) can dismantle fixed connection in tubule (74321) and fixed connection in mounting hole inside tubule (74321) outer wall both sides be used for discharging its inside air cock (74322), the below and the top that just lie in air cock (74322) inside tubule (74321) are provided with first baffle (74323), piston (74324) respectively, the bottom fixedly connected with steel needle (74325) of piston (74324), steel needle (74325) bottom slip runs through first baffle (74323), piston (74324) top fixedly connected with bearing plate (74326), bearing plate (74326) top fixedly connected with slipmat (74327) that are used for the antiskid, the slip cap is equipped with first spring (74328) on piston (74324) outer wall and between bearing plate (74326) and tubule (74321), inside just being located the below fixedly connected with second baffle (74325) of first baffle (74323) of tubule (74321), second baffle (74329) inside slip joint has bearing plate (74326) to be used for seting up on the outer wall of painting brush assembly (743211).

5. The metering device for machining the negative ion spc stone plastic plate, as claimed in claim 4, is characterized in that: the utility model discloses a painting brush head subassembly (743210), including slip run through at inside painting brush dead lever (7432101) of second baffle (74329) and respectively fixed connection plectane (7432102), the fixed cover of painting brush (7432103) at painting brush dead lever (7432101) both ends, on painting brush dead lever (7432101) outer wall and lie in slip cap between plectane (7432102) and the fixed cover of painting brush (7432103) be equipped with second spring (7432104), the inside detachable painting brush head (7432105) that is connected with of fixed cover of painting brush (7432103) through fastening bolt.

6. The metering device for machining the negative ion spc stone plastic plate according to claim 2, wherein the metering device is characterized in that: drawing board subassembly (746) are including sliding connection at inside drawing board (7461) of T type groove (745) and white paper (7462) of setting at drawing board (7461) top, all fixedly connected with double faced adhesive tape (7463) on four corners in white paper (7462) bottom utilize double faced adhesive tape (7463) to accomplish the fixed of white paper (7462) and drawing board (7461).

7. The metering device for machining the negative ion spc stone plastic plate according to claim 1, wherein the metering device is characterized in that: the calibrating mechanism (6) comprises two plate guiding assemblies fixedly connected to the front side and the rear side of the top of the first conveying belt mechanism (5), each plate guiding assembly comprises a first mounting seat (61) and a second mounting seat (62) which are oppositely arranged left and right, each adjusting arm (63) is slidably penetrated in the first mounting seat (61) and the second mounting seat (62), each adjusting arm (63) is fixedly connected between each first mounting seat (61) or each second mounting seat (62) and each adjusting arm (63) through a locking bolt (64), and limiting plates (65) are fixedly connected to the outer walls of the two adjusting arms (63) together.

8. The metering device for machining the negative ion spc stone plastic plate according to claim 1, wherein the metering device is characterized in that: the inner width of the accommodating groove (2) is larger than the width of the plate profile metering mechanism (7) and is used for accommodating the protection plate profile metering mechanism (7).

9. A metering method for implementing the metering device for processing the negative ion spc stone plastic plate according to any one of claims 1 to 8, which is characterized in that: the method comprises the following steps:

step one, preparing board sampling inspection: before sampling and detecting the negative ion spc stone plastic plate, a universal wheel (72) is utilized to pull the plate profile metering mechanism (7) out of the accommodating groove (2), the plate profile metering mechanism (7) and the first conveying belt mechanism (5) are kept on the same straight line, and the negative ion spc stone plastic plate conveyed from the first conveying belt mechanism (5) is ensured to just slide on the top of the plate profile recording mechanism (74);

cutting the plate: under the control of an internal control system of stone plastic plate cutting equipment (3), processing and cutting the large negative ion spc stone plastic plate into a required shape by using a cutting machine, transferring the processed plate to a plate output port position by an internal conveying system, and sliding the negative ion spc stone plastic plate downwards along an inclined slope surface of a material guide plate (4) under the action of gravity;

step three, conveying the plates: under the guiding action of the calibrating mechanism (6), the negative ion spc stone plastic plate moves along the top of the first conveying belt mechanism (5) towards the plate profile metering mechanism (7), and falls to the top of the plate profile recording mechanism (74) under the action of gravity;

step four, measuring the outline of the plate: after the negative ion spc stone plastic plate slides to the top of the plate contour recording mechanism (74) and is stable in position, an indentation identical to the self contour is formed at the top of the plate contour recording mechanism (74) under the action of self gravity, the indentation contour is re-drawn by a painting brush, a clear negative ion spc stone plastic plate contour pattern is formed, a standard negative ion spc stone plastic plate template and the negative ion spc stone plastic plate contour pattern are compared, the servo motor (75) is utilized to drive the plate contour recording mechanism (74) to overturn, and contour shape metering is continuously carried out on a plurality of plates.

10. The metering method of the metering device for machining the negative ion spc stone plastic plate, which is characterized by comprising the following steps of: the universal wheel (72) is internally and fixedly provided with a locking device for preventing the universal wheel from freely rolling, negative ions spc stone plastic plates at the top of the first conveyor belt mechanism (5) are distributed at equal intervals, and the servo motor (75) is controlled to intermittently rotate through programming, and every ninety degrees of rotation is intermittent for five seconds.