CN112304668A - Panel sampling device - Google Patents

Abstract

The invention discloses a plate sampling device, which relates to the technical field of decorative panels and comprises the following components: the device comprises a fixing part, a sampling part, a lifting part and a collecting part. The fixing part is used for fixing the plate. The sample portion sets up in the top of fixed part, and the sample portion is used for carrying out sample work, and the sample portion has: sample casing, carriage release lever, blade. The sampling shell is positioned above the fixed part; the movable rod is arranged in the sampling shell; the cutting edge forms a closed shape around the inside of the sampling shell. The lifting part is installed above the sampling part and is used for controlling the sampling part to move up and down, and the lifting part is provided with: roof, lifter. The top plate is used for fixing the lifting part; the lifting piece is connected with the movable rod and drives the moving piece to perform lifting motion. The collecting part is arranged on the bearing piece and used for collecting the plate needing to be sampled. Can fix the both ends of panel through being provided with the fixed part, make panel can not appear the circumstances such as displacement when cutting the sample to the finished product of sample is cut in the influence.

Description

Panel sampling device

Technical Field

The invention relates to the technical field of decorative panels, in particular to a plate sampling device.

Background

Decorative panels are commonly referred to as panels. The decorative plate with single-side decoration function is prepared by precisely slicing a solid wood board into micro veneer with the thickness of about 0.2mm, taking a clamping plate as a base material and performing an adhesive process.

The panel detects and the analysis field is indispensable to taking a sample to the product, so-called product sample is exactly to cut out corresponding specification size with panel according to relevant detection standard's requirement and experiment, and traditional sample mode generally adopts the manual work to operate, manual operation has the error on the one hand, probably lead to the not uniform in size of sample, on the other hand can only be cut out around panel because the manual work when taking a sample, when the panel intermediate position that needs to take a sample, need cut panel in advance, later on take a sample the work, it is great to the waste of panel, artificial work load is great simultaneously, operating personnel's working strength is great, and long-time work can produce tired out, cause work efficiency's reduction.

Disclosure of Invention

The invention aims to solve the problem that the sampling needs to be carried out manually in the conventional plate sampling.

The second purpose of the invention is to provide a plate sampling method.

In order to achieve one of the purposes, the invention adopts the following scheme: a sheet sampling device, comprising: the device comprises a fixing part, a sampling part, a lifting part and a collecting part. The fixed part is used for fixing the panel, and the fixed part has: a fixed roller and a bearing member. The fixed rollers are arranged on two sides of the fixed part and are used for fixing the plate; the bearing piece is arranged below the fixing part. The sample portion sets up in the top of fixed part, and the sample portion is used for carrying out the sample work to panel, and the sample portion has: sample casing, carriage release lever, blade. The sampling shell is internally provided with an accommodating space and is positioned above the fixing part, and the sampling shell can control the shape and size of a sampled plate; the movable rod is arranged in the sampling shell and penetrates through the containing space of the sampling shell, and the movable rod is used for driving the sampling shell to sample; the blade is located the inboard of sample casing, and the blade forms a confined shape around the inboard of sample casing, and the blade is used for taking a sample to panel. The lift portion is installed in the top of sample portion, and the lift portion is used for controlling sample portion and reciprocates, and the upper end and the furred ceiling of lift portion are connected, and the lift portion has: roof, lifter. The top plate is connected with the suspended ceiling and used for fixing the lifting part; the lifting piece is located the top of carriage release lever, and the lifting piece is connected with the carriage release lever, and the lifting piece drives the moving member and carries out elevating movement. The collecting part is arranged on the bearing piece and used for collecting the plate needing to be sampled.

Preferably, the sampling part is also provided with a spherical pressure head, the spherical pressure head is arranged below the movable rod, and the spherical pressure head is used for pressing the cut plate so that the plate to be sampled is separated from the original plate.

Preferably, sample portion still has first spring, and first spring mounting is in the top of sample casing, and first spring is same axial direction with the lifter and sets up, and first spring is used for improving the pressure of blade, and first spring can reset sample portion simultaneously.

Preferably, the lifting part further comprises: the motor, first gear, second gear. The motor is arranged on the top plate and used for driving the lifting part to move up and down; the first gear is arranged on the motor, the first gear and the motor are arranged in the same axial direction, and the first gear is driven by the motor to rotate; the second gear is attached to one side of the first gear, and the second gear is engaged with the first gear and rotates by rotating the first gear.

Preferably, the lifting part further comprises: the first connecting rod and the second connecting rod. The first connecting rods are provided with two parts, one end of each first connecting rod is connected with the second gear, and the first connecting rods are used for driving the lifting part to lift; the quantity of second connecting rod is the same with the quantity of first connecting rod, and the second connecting rod is located one side of first connecting rod, and the second connecting rod is used for driving the portion that goes up and down to go up and down.

Preferably, the lifting part further has a first moving rail located at both sides of the top plate, the first moving rail being connected to one end of a second connecting rod, one end of the second connecting rod being movable in the first moving rail.

Preferably, the lifting part further has a first rotating shaft, the first rotating shaft is connected with the first connecting rod and the second connecting rod, and the first rotating shaft is used for relatively moving the first connecting rod and the second connecting rod so as to drive the lifting part to perform lifting movement.

Preferably, the lifting part further has a second moving rail installed at both sides of the lifting member, the second moving rail is connected with the other end of the first connecting rod, the other end of the first connecting rod can move in the second moving rail, and the second moving rail is fixedly connected with the other end of the second connecting rod.

Preferably, one end of the first spring is connected with the lifting piece, and the other end of the first spring is connected with the sampling shell.

In order to achieve the second purpose, the invention adopts the following technical scheme: a method of sampling a sheet material comprising the steps of:

fixing, namely fixing two ends of the plate through a fixing part, so that the plate is not displaced when being cut and sampled, and the finished products of cutting and sampling are influenced;

the lifting part is used for lifting, so that the sampling part can cut the plate, when the lifting part is lowered to a certain degree, the roller contacts the plate, the lifting part continues to be lowered, the roller extends outwards along the plate, and when the lifting part continues to be lowered to a certain degree, the connecting plate is tightly attached to the plate, so that the area of the plate needing to be sampled is surrounded by the connecting plate, and the conditions of shaking and the like during cutting of the plate are reduced;

sampling, namely cutting the plate through the sampling part, simultaneously contacting the plate to be sampled with a spherical pressure head, and pressing the plate to be sampled by the spherical pressure head, so that the cut plate falls into the collecting part, thereby reducing the cutting time of the plate by the cutting edge and reducing the damage of the cutting edge;

trimming, namely when the sampling part is lowered to a certain degree, the pressing wheel moves downwards to trim the sampled plate, so that the subsequent manual operation is reduced, and the working efficiency is improved;

and (4) collecting and recovering the cut plate in the collecting part.

The invention has the beneficial effects that:

through setting up second rotation axis and gyro wheel, can make the connecting plate after contacting panel, carry out rotary motion around the second rotation axis, thereby contact connecting plate and panel, thereby make panel can not take place the circumstances such as vibration when cutting the sample, panel after the cutting can be maintained through the suppression wheel simultaneously, get rid of produced burr etc. of panel, thereby reduce subsequent manual operation, thereby improve work efficiency, through being provided with spherical pressure head, can suppress the panel that needs the sample, make the panel after the cutting drop to the collection portion, thereby reduce the cutting time of blade to panel, thereby reduce the damage of blade.

Drawings

Fig. 1 is a schematic perspective view of a plate sampling device according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a sampling portion, an elevating portion and a pressing portion of a plate sampling device according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view of a sampling portion and an elevating portion of a plate sampling device according to an embodiment of the invention.

Fig. 4 is a front cross-sectional view of a sampling portion of a plate sampling device according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a pressing part of a plate sampling device according to an embodiment of the present invention.

Fig. 6 is a schematic diagram of a movement structure of a plate sampling device according to an embodiment of the present invention.

100. Fixing part 101, fixing roller 102, and receiving member

200. Sheet material

300. Sampling part 301, sampling shell 302 and connecting piece

303. Connecting hole 304, moving rod 305, first spring

306. Spherical indenter 307, cutting edge

400. Lifting unit 401, top plate 402, and motor

403. A first gear 404, a second gear 405, a first connecting rod

406. Second connecting rod 407, first moving rail 408, first rotating shaft

409. Lifting piece 410 and second moving rail

500. Pressing part 501, connecting plate 502 and roller

503. Pressing wheel 504, second rotating shaft 505, and second spring

600. Collecting part

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are illustrative of only one embodiment of the invention and are not to be construed as limiting the invention, and that all other embodiments, which can be derived by one of ordinary skill in the art without undue experimentation, are within the scope of the invention.

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

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 meaning of the terms in the present invention can be understood in a specific case to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1 to 4, a sheet sampling device includes: a fixing part 100, a sampling part 300, an elevating part 400, and a collecting part 600. The fixing portion 100 is used for fixing the plate material 200, and the fixing portion 100 includes: a fixed roller 101 and a receiving member 102. The fixed rollers 101 are arranged at two sides of the fixed part 100, and the fixed rollers 101 are used for fixing the plate material 200; the receiving member 102 is installed below the fixing portion 100. The sampling part 300 is provided above the fixing part 100, the sampling part 300 is used for sampling the plate material 200, and the sampling part 300 includes: a sampling shell 301, a moving rod 304 and a cutting edge 307. The sampling shell 301 is internally provided with an accommodating space, the sampling shell 301 is positioned above the fixing part 100, and the sampling shell 301 can control the shape and the size of the sampled plate 200; the movable rod 304 is installed in the sampling housing 301, the movable rod 304 penetrates through the accommodating space of the sampling housing 301, and the movable rod 304 is used for driving the sampling housing 301 to sample; the cutting edge 307 is located on the inner side of the sampling housing 301, the cutting edge 307 forms a closed shape around the inner side of the sampling housing 301, and the cutting edge 307 is used for sampling the plate material 200. The portion of lifting 400 is installed in the top of sample portion 300, and the portion of lifting 400 is used for controlling sample portion 300 and reciprocates, and the upper end and the furred ceiling of portion of lifting 400 are connected, and portion of lifting 400 has: a top plate 401 and a lifting piece 409. The ceiling 401 is connected to the ceiling, and the ceiling 401 is used to fix the lifting unit 400; the lifting piece 409 is located above the moving rod 304, the lifting piece 409 is connected with the moving rod 304, and the lifting piece 409 drives the moving piece to perform lifting movement. The collecting part 600 is installed on the receiving member 102, and the collecting part 600 is used for collecting the plate 200 to be sampled.

As shown in fig. 3, the elevating unit 400 further includes: a motor 402, a first gear 403, and a second gear 404. A motor 402 is installed on the top plate 401, and the motor 402 is used for driving the lifting part 400 to perform lifting movement; the first gear 403 is installed on the motor 402, the first gear 403 and the motor 402 are arranged in the same axial direction, and the first gear 403 is driven by the motor 402 to rotate; the second gear 404 is attached to one side of the first gear 403, the second gear 404 meshes with the first gear 403, and the second gear 404 rotates by rotating the first gear 403.

As shown in fig. 4, the sampling part 300 further includes a first spring 305, the first spring 305 is mounted above the sampling housing 301, the first spring 305 and the lifting member 409 are disposed in the same axial direction, the first spring 305 is used for increasing the pressure of the cutting edge 307, and the first spring 305 can reset the sampling part 300.

As shown in fig. 3, the elevating unit 400 further includes: a first connecting rod 405 and a second connecting rod 406. Two first connecting rods 405 are provided, one end of each first connecting rod 405 is connected to the second gear 404, and the first connecting rods 405 are used for driving the lifting part 400 to lift; the number of the second connection rods 406 is the same as that of the first connection rods 405, the second connection rods 406 are located at one side of the first connection rods 405, and the second connection rods 406 are used for driving the lifting part 400 to lift.

As shown in fig. 3, the lifting unit 400 further includes a first rotation shaft 408, the first rotation shaft 408 connects the first connection rod 405 and the second connection rod 406, and the first rotation shaft 408 is used for relatively moving the first connection rod 405 and the second connection rod 406, so as to drive the lifting unit 400 to perform a lifting motion.

As shown in fig. 4, the sampling part 300 further includes a spherical ram 306, the spherical ram 306 is installed below the moving rod 304, and the spherical ram 306 is used for pressing the cut plate material 200 to separate the plate material 200 to be sampled from the original plate material 200.

As shown in fig. 3, the lifting part 400 further includes a second moving rail 410, the second moving rail 410 is installed at both sides of the lifting member 409, the second moving rail 410 is connected to the other end of the first connecting rod 405, the other end of the first connecting rod 405 is movable in the second moving rail 410, and the second moving rail 410 is fixedly connected to the other end of the second connecting rod 406.

The lifting unit 400 further includes a first moving rail 407, the first moving rail 407 is located on both sides of the top plate 401, the first moving rail 407 is connected to one end of a second connecting rod 406, and one end of the second connecting rod 406 is movable in the first moving rail 407.

One end of the first spring 305 is connected to the lifter 409, and the other end of the first spring 305 is connected to the sampling housing 301.

As shown in fig. 3-4, the sampling part 300 further has a plurality of connectors 302, the connectors 302 are fixedly mounted around the sampling part 300, and the connectors 302 are located in the middle of the sampling housing 301.

As shown in fig. 3 to 4, the sampling part 300 further has connection holes 303, the number of the connection holes 303 being the same as the number of the connection pieces 302, the connection holes 303 being provided on the outer ends of the connection pieces 302.

As shown in fig. 5, the plate material sampling device further includes a plurality of pressing portions 500, the pressing portions 500 are installed around the sampling portion 300, the pressing portions 500 are used for pressing the plate material 200, so that the plate material 200 is not vibrated when being cut and sampled, and the pressing portions 500 include a connection plate 501, a roller 502, and a second rotation shaft 504. The connecting plate 501 is arranged between the connecting pieces 302, the connecting plate 501 and the sampling part 300 are arranged in an inclined angle, and the connecting plate 501 is used for pressing the plate 200; the roller 502 is arranged at the outer end of the connecting plate 501, and the pressing part 500 can not damage the plate 200 during pressing by the roller 502, so that the surface of the plate 200 is smooth, and the sampling quality of the plate 200 is improved; the second rotating shaft 504 is mounted on the connecting plate 501, the second rotating shaft 504 and the connecting hole 303 are arranged in the same axial direction, the second rotating shaft 504 penetrates through the connecting hole 303 to be connected with the connecting plate 501, and the second rotating shaft 504 and the roller 502 are arranged, so that the connecting plate 501 can rotate around the second rotating shaft 504 after contacting the plate material 200, the connecting plate 501 and the plate material 200 can be contacted, and the plate material 200 cannot vibrate when being cut and sampled.

As shown in fig. 5, the pressing portion 500 further includes a second spring 505, the second spring 505 is attached to the second rotating shaft 504, the second spring 505 is disposed in the same axial direction as the second rotating shaft 504, and the second spring 505 is used to return the connecting plate 501.

Example two:

a sheet sampling device, comprising: a fixing part 100, a sampling part 300, an elevating part 400, and a collecting part 600. The fixing portion 100 is used for fixing the plate material 200, and the fixing portion 100 includes: a fixed roller 101 and a receiving member 102. The fixed rollers 101 are arranged at two sides of the fixed part 100, and the fixed rollers 101 are used for fixing the plate material 200; the receiving member 102 is installed below the fixing portion 100. The sampling part 300 is provided above the fixing part 100, the sampling part 300 is used for sampling the plate material 200, and the sampling part 300 includes: a sampling shell 301, a moving rod 304 and a cutting edge 307. The sampling shell 301 is internally provided with an accommodating space, the sampling shell 301 is positioned above the fixing part 100, and the sampling shell 301 can control the shape and the size of the sampled plate 200; the movable rod 304 is installed in the sampling housing 301, the movable rod 304 penetrates through the accommodating space of the sampling housing 301, and the movable rod 304 is used for driving the sampling housing 301 to sample; the cutting edge 307 is located on the inner side of the sampling housing 301, the cutting edge 307 forms a closed shape around the inner side of the sampling housing 301, and the cutting edge 307 is used for sampling the plate material 200. The portion of lifting 400 is installed in the top of sample portion 300, and the portion of lifting 400 is used for controlling sample portion 300 and reciprocates, and the upper end and the furred ceiling of portion of lifting 400 are connected, and portion of lifting 400 has: a top plate 401 and a lifting piece 409. The ceiling 401 is connected to the ceiling, and the ceiling 401 is used to fix the lifting unit 400; the lifting piece 409 is located above the moving rod 304, the lifting piece 409 is connected with the moving rod 304, and the lifting piece 409 drives the moving piece to perform lifting movement. The collecting part 600 is installed on the receiving member 102, and the collecting part 600 is used for collecting the plate 200 to be sampled.

The lifting unit 400 further includes: a motor 402, a first gear 403, and a second gear 404. A motor 402 is installed on the top plate 401, and the motor 402 is used for driving the lifting part 400 to perform lifting movement; the first gear 403 is installed on the motor 402, the first gear 403 and the motor 402 are arranged in the same axial direction, and the first gear 403 is driven by the motor 402 to rotate; the second gear 404 is attached to one side of the first gear 403, the second gear 404 meshes with the first gear 403, and the second gear 404 rotates by rotating the first gear 403.

The sampling part 300 further has a first spring 305, the first spring 305 is mounted above the sampling housing 301, the first spring 305 and the lifting member 409 are arranged in the same axial direction, the first spring 305 is used for increasing the pressure of the cutting edge 307, and meanwhile, the first spring 305 can reset the sampling part 300.

The lifting unit 400 further includes: a first connecting rod 405 and a second connecting rod 406. Two first connecting rods 405 are provided, one end of each first connecting rod 405 is connected to the second gear 404, and the first connecting rods 405 are used for driving the lifting part 400 to lift; the number of the second connection rods 406 is the same as that of the first connection rods 405, the second connection rods 406 are located at one side of the first connection rods 405, and the second connection rods 406 are used for driving the lifting part 400 to lift.

The lifting part 400 further has a first rotation shaft 408, the first rotation shaft 408 connects the first connection rod 405 and the second connection rod 406, and the first rotation shaft 408 is used for relatively moving the first connection rod 405 and the second connection rod 406, so as to drive the lifting part 400 to perform a lifting motion.

The sampling part 300 further has a spherical indenter 306, the spherical indenter 306 is installed below the moving rod 304, and the spherical indenter 306 is used for pressing the cut plate 200, so that the plate 200 to be sampled is separated from the original plate 200.

The lifting part 400 further has a second moving rail 410, the second moving rail 410 is installed at both sides of the lifting member 409, the second moving rail 410 is connected to the other end of the first connecting rod 405, the other end of the first connecting rod 405 can move in the second moving rail 410, and the second moving rail 410 is fixedly connected to the other end of the second connecting rod 406.

The lifting unit 400 further includes a first moving rail 407, the first moving rail 407 is located on both sides of the top plate 401, the first moving rail 407 is connected to one end of a second connecting rod 406, and one end of the second connecting rod 406 is movable in the first moving rail 407.

One end of the first spring 305 is connected to the lifter 409, and the other end of the first spring 305 is connected to the sampling housing 301.

The sampling part 300 further has a plurality of connectors 302, the connectors 302 are fixedly mounted around the sampling part 300, and the connectors 302 are located in the middle of the sampling housing 301.

The sampling part 300 further has connection holes 303, the number of the connection holes 303 being the same as the number of the connection members 302, the connection holes 303 being provided on the outer ends of the connection members 302.

The plate sampling device further comprises a pressing portion 500, the pressing portion 500 is provided with a plurality of pressing portions 500, the pressing portions 500 are installed around the sampling portion 300, the pressing portions 500 are used for pressing the plate 200, therefore, the plate 200 cannot vibrate when being cut and sampled, and the like, and the pressing portions 500 are provided with a connecting plate 501, a roller 502 and a second rotating shaft 504. The connecting plate 501 is arranged between the connecting pieces 302, the connecting plate 501 and the sampling part 300 are arranged in an inclined angle, and the connecting plate 501 is used for pressing the plate 200; the roller 502 is arranged at the outer end of the connecting plate 501, and the pressing part 500 can not damage the plate 200 during pressing by the roller 502, so that the surface of the plate 200 is smooth, and the sampling quality of the plate 200 is improved; the second rotating shaft 504 is mounted on the connecting plate 501, the second rotating shaft 504 and the connecting hole 303 are arranged in the same axial direction, the second rotating shaft 504 penetrates through the connecting hole 303 to be connected with the connecting plate 501, and the second rotating shaft 504 and the roller 502 are arranged, so that the connecting plate 501 can rotate around the second rotating shaft 504 after contacting the plate material 200, the connecting plate 501 and the plate material 200 can be contacted, and the plate material 200 cannot vibrate when being cut and sampled.

The pressing portion 500 further includes a second spring 505, the second spring 505 is attached to the second rotating shaft 504, the second spring 505 is disposed in the same axial direction as the second rotating shaft 504, and the second spring 505 is used to return the connecting plate 501.

As shown in fig. 5, the pressing portion 500 further includes a pressing wheel 503, the pressing wheel 503 is mounted at the inner end of the connecting plate 501, when the cutting and sampling are completed, the lifting portion 400 continues to perform a descending motion, so that the sampling portion 300 continues to perform a descending motion, and the pressing portion 500 is driven to perform a descending motion, so that the pressing wheel 503 connected to the inner end of the connecting plate 501 is in contact with the cutting surface of the plate 200 after the sampling is completed, the cut plate 200 can be trimmed by the pressing wheel 503, burrs and the like generated on the plate 200 are removed, and the subsequent manual operation is reduced, thereby improving the working efficiency.

Example three:

a method of sampling a sheet material comprising the steps of:

fixing, namely fixing two ends of the plate 200 through the fixing part 100, so that the plate 200 cannot be displaced when being cut and sampled, and the finished products of cutting and sampling are influenced;

lifting, namely lifting the sampling part 300 through the lifting part 400 to enable the sampling part 300 to cut the plate 200, wherein when the lifting part 400 descends to a certain degree, the roller 502 contacts the plate 200, the lifting part 400 continues to descend, the roller 502 extends outwards along the plate 200, and when the lifting part 400 continues to descend to a certain degree, the connecting plate 501 is tightly attached to the plate 200, so that the area of the plate 200 needing to be sampled is surrounded by the connecting plate 501, and the conditions of shaking and the like during cutting of the plate 200 are reduced;

sampling, wherein the plate 200 is cut through the sampling part 300, the spherical pressure head 306 contacts the plate 200 to be sampled, and the spherical pressure head 306 presses the plate 200 to be sampled, so that the cut plate 200 falls into the collecting part 600, the cutting time of the plate 200 by the cutting edge 307 is reduced, and the damage of the cutting edge 307 is reduced;

trimming, namely when the sampling part 300 descends to a certain degree, the pressing wheel 503 moves downwards to trim the sampled plate 200, so that the subsequent manual operation is reduced, and the working efficiency is improved;

and (6) collecting and collecting the cut plate materials 200 in the collecting part 600.

Although the illustrative embodiments of the present invention have been described above to enable those skilled in the art to understand the present invention, the present invention is not limited to the scope of the embodiments, and it is apparent to those skilled in the art that all the inventive concepts using the present invention are protected as long as they can be changed within the spirit and scope of the present invention as defined and defined by the appended claims.

Claims (10)

1. A sheet sampling device, comprising:

a fixing portion for fixing a plate material, the fixing portion having:

the fixing rollers are arranged on two sides of the fixing part and are used for fixing the plate;

a receiving member installed below the fixing portion;

the sample portion, the sample portion sets up the top of fixed part, the sample portion is used for carrying out the sample work to panel, the sample portion has:

the sampling shell is internally provided with an accommodating space and is positioned above the fixed part, and the shape and the size of a sampled plate can be controlled by the sampling shell;

the movable rod is arranged in the sampling shell, penetrates through the accommodating space of the sampling shell and is used for driving the sampling shell to sample;

the blade, the blade is located the inboard of sample casing, the blade encircles the inboard of sample casing forms a confined shape, the blade is used for taking a sample panel

The lift portion, the lift portion is installed the top of sample portion, the lift portion is used for control the sample portion reciprocates, the upper end and the furred ceiling of lift portion are connected, the lift portion has:

the top plate is connected with the suspended ceiling and used for fixing the lifting part;

the lifting piece is positioned above the moving rod and connected with the moving rod, and the lifting piece drives the moving piece to perform lifting motion;

the collecting part is arranged on the bearing piece and used for collecting the plates to be sampled.

2. The plate sampling device according to claim 1, wherein the sampling part further has a spherical indenter installed below the moving rod, the spherical indenter being used for pressing the cut plate so that the plate to be sampled is separated from the original plate.

3. The plate sampling device according to claim 1, wherein the sampling portion further comprises a first spring, the first spring is mounted above the sampling housing, the first spring and the lifting member are arranged in the same axial direction, the first spring is used for increasing the pressure of the cutting edge, and the first spring can reset the sampling portion.

4. A sheet sampling device according to claim 1, wherein the elevating part further has:

the motor is arranged on the top plate and used for driving the lifting part to perform lifting motion;

the first gear is arranged on the motor, the first gear and the motor are arranged in the same axial direction, and the first gear is driven by the motor to rotate;

and a second gear attached to one side of the first gear, the second gear being engaged with the first gear, the second gear performing a rotational motion by rotating the first gear.

5. A sheet sampling device according to claim 4, wherein the elevating part further has:

the first connecting rods are provided with two parts, one end of each first connecting rod is connected with the second gear, and the first connecting rods are used for driving the lifting part to lift;

the second connecting rods are the same in number as the first connecting rods and located on one side of the first connecting rods, and the second connecting rods are used for driving the lifting part to lift.

6. The sheet sampling device of claim 5, wherein the lifting part further has a first moving rail located at both sides of the top plate, the first moving rail being connected to one end of the second connecting rod, the one end of the second connecting rod being movable in the first moving rail.

7. A sheet sampling device according to claim 5, wherein the lifting part further has a first rotation shaft connecting the first and second connection rods, the first rotation shaft being configured to move the first and second connection rods relative to each other to drive the lifting part to move up and down.

8. A sheet sampling device according to claim 5, wherein the elevating part further has a second moving rail installed at both sides of the elevating member, the second moving rail being connected to the other end of the first connecting rod, the other end of the first connecting rod being movable in the second moving rail, the second moving rail being fixedly connected to the other end of the second connecting rod.

9. A sheet sampling device according to claim 3, wherein one end of the first spring is connected to the lifting member and the other end of the first spring is connected to the sampling housing.

10. A method of sampling a sheet material comprising the steps of:

fixing, namely fixing two ends of the plate through a fixing part, so that the plate is not displaced when being cut and sampled, and the finished products of cutting and sampling are influenced;

the lifting part is used for lifting, so that the sampling part can cut the plate, when the lifting part is lowered to a certain degree, the roller contacts the plate, the lifting part continues to be lowered, the roller extends outwards along the plate, and when the lifting part continues to be lowered to a certain degree, the connecting plate is tightly attached to the plate, so that the area of the plate needing to be sampled is surrounded by the connecting plate, and the conditions of shaking and the like during cutting of the plate are reduced;

sampling, namely cutting the plate through the sampling part, simultaneously contacting the plate to be sampled with a spherical pressure head, and pressing the plate to be sampled by the spherical pressure head, so that the cut plate falls into the collecting part, thereby reducing the cutting time of the plate by the cutting edge and reducing the damage of the cutting edge;

trimming, namely when the sampling part is lowered to a certain degree, the pressing wheel moves downwards to trim the sampled plate, so that the subsequent manual operation is reduced, and the working efficiency is improved;

and (4) collecting and recovering the cut plate in the collecting part.

Images