CN114211549A - XPS extruded sheet-based cutting equipment with edge seam processing - Google Patents

Abstract

The invention discloses a XPS extruded sheet-based cutting device with edge seam processing, which comprises a cutting pedestal, wherein two groups of symmetrically arranged limiting prompt modules are arranged at the top of the cutting pedestal; the cutting table is characterized in that a limiting support is installed at the top of the cutting table seat, a fixing bolt penetrates through the limiting support, an inserting rod is installed at the top of the cutting table seat, a threaded rod is connected to the inner thread of the inserting rod, an upper limiting plate is installed at the top of the threaded rod through a bearing, and a displacement sensor and a prompter which are arranged in the front and at the back are installed at the top of the upper limiting plate; and a detection container is embedded in the top of the cutting pedestal. According to the invention, the limiting prompting module is arranged, after the XPS extruded sheet is subjected to extrusion limiting treatment, a worker pushes the XPS extruded sheet, and if the XPS extruded sheet and the upper limiting plate generate relative displacement, the prompter reminds the worker to continue to rotate the threaded rod until the XPS extruded sheet is in a fastening limiting state, so that the cutting precision is prevented from being influenced by the displacement.

Description

XPS extruded sheet-based cutting equipment with edge seam processing

Technical Field

The invention relates to the technical field of plate cutting, in particular to a XPS extruded sheet-based cutting device with edge seam processing.

Background

The XPS extruded sheet is also called a polystyrene resin sheet, and is used as a building material and mainly used for heat preservation, because the heat preservation coefficient of the XPS extruded sheet is smaller than that of a benzene board, when the heat preservation material is needed in the building process, the XPS extruded sheet can have smaller thickness than that of the benzene board, so that the thickness of the heat preservation sheet body can be effectively reduced, in the construction process, the XPS extruded sheet is often used for laying the heat preservation layer on the ground as the ground heating, corresponding cutting treatment needs to be carried out on the sheet body to ensure that the sheet body meets the laying requirement of a project, and a cutting device is needed for carrying out related cutting operation.

The existing plate cutting equipment has the defects that:

1. patent document CN107053293A discloses a plate cutting device with accurate cutting, which comprises a supporting seat and a moving seat; the vertical cross section of the supporting seat is in a lateral L shape; the right part of the supporting seat is higher than the left part; a plurality of groups of limit seats which are uniformly distributed are fixed on the upper end surface of the left part of the support seat; a chip accommodating groove is formed at the lower part of the right part of the supporting seat, and a cutting device is arranged at the upper part of the supporting seat; the movable seat is a cuboid with a base arranged at the lower part; four universal wheels are uniformly arranged at the bottom of the base; the movable seat is provided with a plate limiting and pressing device; the movable seat is positioned on the right side of the supporting seat, and a limiting device is arranged between the movable seat and the supporting seat. The invention has simple structure, the relative position between the movable seat and the supporting seat can be adjusted, namely the cutting length of the plate can be adjusted; when the plate is cut, the plate is fixed by the plate limiting pressing cylinder, so that the plate is accurately cut; after the movable seat and the supporting seat are separated, the scraps in the scrap accommodating groove can be conveniently processed, and when the plate is subjected to limiting processing, corresponding state detection cannot be carried out on the limiting processing, so that the degree of the limiting processing is not enough to resist the driving action of the plate during cutting, and then the plate is easy to generate relative displacement during cutting, and the cutting precision is influenced;

2. patent document CN111266743A discloses a carrier replacing device and a panel cutting device for panel cutting equipment, which includes a base; the pedestal is arranged on the base and used for placing the carrying platform; the moving mechanisms are distributed on two sides of the pedestal and comprise a first moving sub-mechanism and a second moving sub-mechanism which are symmetrically arranged; the first moving sub-mechanism and the second moving sub-mechanism are respectively arranged on two sides of the pedestal and respectively comprise a transverse moving member, a vertical moving member, a longitudinal moving member and a supporting plate for supporting the carrying platform; the transverse moving member is installed on the base, the vertical moving member is installed on the transverse moving member, and the longitudinal moving member and the supporting plate are installed on the vertical moving member. The platform replacing device of the panel cutting equipment platform is more convenient to replace the platform, the position precision of the platform after replacement and the service life of the platform are improved, and when the panel cutting equipment is used, the edge seam of the cut panel is difficult to smooth, so that the cut edge seam is in a smooth state, and the occurrence of edge seam cutting accidents is reduced;

3. patent document CN111618934A discloses a plate cutting clamp, a cutting machine and a cutting method thereof, which comprises a clamping mechanism, a supporting mechanism and a cutting mechanism, wherein the clamping mechanism is arranged on the base and is mainly used for fixing a plate; the supporting mechanism is arranged in the cutting groove and is mainly used for supporting the plate; the cutting mechanism is arranged on the base and is mainly used for cutting the plate; receiving agencies set up in cut groove set up in the bottom of base just is located the below of cutting the groove, receiving agencies is used for retrieving the panel after the cutting. The invention also relates to a plate cutting machine and a cutting method of the plate cutting machine, through the invention, the clamping mechanism can fix plates with different sizes and types, and the universality of the cutting machine is higher; the supporting mechanism can support and fix the plate, so that the plate is not easy to bend and deform during cutting, and the cutting precision of the plate is improved;

4. patent document CN108655741A discloses a plate cutting, flattening and impressing integrated device, which includes a crawler-type plate cutting and feeding device and a hydraulic device arranged above the plate cutting and feeding device; a hydraulic rod of the hydraulic device is arranged downwards vertically, and a sleeve barrel support is arranged at the end part of the hydraulic rod; a double-head motor is fixedly arranged in the sleeve support; and the screw rods at the two ends of the double-head motor are both provided with a cutting electric saw; the cutting electric saws on the two sides are the same in size and height, and the distance between the two cutting electric saws is larger than the width of the transmission crawler belt in the plate cutting and feeding device. The power that the whole of impressing wheel and flattening wheel compressed tightly in this device is through hydraulic means back arc extension spring production of pushing down, and corresponding setting is in the both sides of cutting electric saw, the structure is ingenious very reasonable, cooperation continuous drive's panel cutting material feeding unit can realize flattening, cutting, the three-dimensional work of impression of panel, this plate body cutting device is when using, fail to carry out corresponding density preliminary examination to the plate body and handle, make the inside density of plate body uneven or be difficult to discover when having the unqualified phenomenon of density.

Disclosure of Invention

The invention aims to provide a cutting device with an edge seam processing based on an XPS extruded sheet so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a cutting device with edge seam processing based on an XPS extruded sheet comprises a cutting pedestal, two groups of symmetrically arranged limiting prompt modules and a detection container, wherein the top of the cutting pedestal is provided with the two groups of symmetrically arranged limiting prompt modules;

the limiting prompting module comprises a limiting support, an inserting rod, a fixing bolt, a threaded rod, a displacement sensor, a prompter and an upper limiting plate, wherein the limiting support is installed at the top of the cutting pedestal, the fixing bolt is installed inside the limiting support in a penetrating mode, the inserting rod is installed at the top of the cutting pedestal and is located in the middle of the fixing bolt, the threaded rod is connected to the inner thread of the inserting rod, the upper limiting plate is installed at the top of the threaded rod through a bearing, the displacement sensor and the prompter which are arranged in the front and at the back are installed at the top of the upper limiting plate, and the displacement sensor and the prompter are electrically connected;

the embedded detection container that installs in the top of cutting pedestal, and spacing suggestion module is located the rear of detecting the container.

Preferably, linear slide rail is all installed to the both sides outer wall of cutting pedestal, linear slide rail's inside slidable mounting has the connection slide, connect the top of slide and install the lifter plate, the surface mounting that the lifter plate is close to each other has the truss support, the inner wall of truss support is equipped with the spout, the inside slidable mounting of spout has the sliding block, the surface mounting of sliding block has cutting block and two sets of parallel arrangement's bracing piece, and the cutting block is located the centre of two sets of bracing pieces.

Preferably, driving motor is installed to the bottom of cutting piece, the cutting roller is installed to driving motor's output, the clutch blocks is installed to the bottom of cutting piece, go up the bottom of clutch blocks and install the telescopic link, lower clutch blocks is installed to the bottom of telescopic link, and goes up the cross-section contained angle of clutch blocks and lower clutch blocks and be the obtuse angle, it is located driving motor's the place ahead to go up clutch blocks and lower clutch blocks.

Preferably, the tail end of bracing piece is installed the slip extension rod, the trailing end connection of slip extension rod has flexible lagging, and flexible lagging arranges for the L type with the slip extension rod, the diaphragm is installed to the back bottom of flexible lagging, the inside through installation of diaphragm has the fastening rubber screw rod.

Preferably, the internally mounted who detects the container has the radiation source container, the radiation source container uses the industry KCL that purity is 99.5%, the top one end that detects the container is installed the riser block board, the detector is installed through the hinge on the surface of riser block board, the display screen is installed in the front of cutting pedestal, the alarm is installed at the top of display screen, and alarm and display screen all with detector electric connection.

Preferably, the front of cutting pedestal is equipped with the ventilation mesh, and the ventilation mesh is located one side of display screen, the suction fan that the equidistance was arranged is installed to the diapire of cutting pedestal, soundproof cotton pad is installed to the inner wall of cutting pedestal, the screen cloth is installed to the inner wall of cutting pedestal, and the screen cloth is located the top of soundproof cotton pad, electric putter is installed to the inner wall of cutting pedestal, and electric putter is located the top of screen cloth, the push pedal is installed to electric putter's tail end, and the top surface laminating of the bottom of push pedal and screen cloth.

Preferably, a mesh plate is embedded in the top of the cutting pedestal and is positioned in front of the limiting support.

Preferably, the working steps of the cutting device are as follows:

s1, before the XPS extruded sheet is cut, the sheet is laid on the surface of the detection container on the top of the cutting table, and the radioactive source and natural radioactive nuclide in the detection container are utilized⁴⁰K carries on the internal density detection to the XPS extruded sheet, the detector measures the ray energy spectrum after the gamma ray of 1.46MeV energy is absorbed by the same XPS extruded sheet in this process, obtain the linear absorption coefficient of the ray, and display the corresponding numerical value through the display screen, judge whether the internal density numerical value of XPS extruded sheet is up to standard and whether the density in XPS extruded sheet is uneven, if the density in XPS extruded sheet is uneven, it represents that there is high density caking in XPS extruded sheet, will bring the interference in the subsequent cutting process, therefore need to abandon the XPS extruded sheet, reduce the processing difficulty brought by the density inconsistency when the edge seam is processed after the subsequent cutting, realize the density detection pretreatment operation before the cutting process of XPS extruded sheet;

s2, after the density detection of the XPS extruded sheet is finished, moving a limit support according to the width of the XPS extruded sheet to be cut, connecting the limit support with a cutting pedestal through a fixing bolt, then placing the qualified XPS extruded sheet on the top of the limit support, then rotationally connecting a threaded rod into the inner part of an insertion rod, wherein under the action of a bearing, an upper limit plate can not rotate when the threaded rod rotates and synchronously move downwards along with the downward movement of the threaded rod, further extruding and limiting the XPS extruded sheet placed on the top of the limit support, then a worker pushes the XPS extruded sheet after limiting, if the limiting effect of the upper limit plate on the XPS extruded sheet is insufficient, the XPS extruded sheet and the upper limit plate generate relative displacement, at the moment, a displacement sensor can detect the message, and further send out a prompt through a prompt to remind the worker to continue to rotate the threaded rod, the extrusion limiting effect of the upper limiting plate on the XPS extruded sheet is increased until a prompter does not send a corresponding prompt when the XPS extruded sheet is pushed, and the XPS extruded sheet is in a fastening limiting state at the moment, so that the XPS extruded sheet can be ensured to be kept in a stable state during subsequent cutting treatment, and the cutting precision is prevented from being influenced by displacement;

s3, after the XPS extruded sheet is fastened and limited, the sliding extension rod is extended to the front end of the sliding extension, the extension length of the telescopic sleeve plate is adjusted according to the thickness of the XPS extruded sheet, then the sliding extension rod is limited and connected with the XPS extruded sheet through a fastening rubber screw rod, so that two groups of support rods can form a support for protecting the XPS extruded sheet to be cut, and then the XPS extruded sheet to be cut can be supported and lifted on two sides of a cutting seam after cutting, the cut XPS extruded sheet is prevented from falling under the action of gravity, the XPS extruded sheet cannot deform correspondingly during subsequent cutting operation of the cutting equipment, and the cutting accuracy of the cutting equipment is ensured;

s4, adjusting the height of the connecting sliding plate and the lifting plate to make the surface of the cutting roller contact with the surface of the XPS extruded sheet, wherein the two sets of telescopic rods which are oppositely arranged, the upper friction block and the lower friction block are both positioned at the front end of the plate body, according to the thickness of the plate body, the length of the telescopic rod is adjusted, so that the inner corners of the upper friction block and the lower friction block can cover the upper corner and the lower corner of the XPS extruded sheet after cutting, then the driving motor is started to drive the cutting roller to rotate, so as to realize corresponding plate body cutting treatment, an operator pushes the lifting plate to drive the cutting block to move along the direction of the linear slide rail, so as to realize linear cutting operation, in the process, the inner corners of the upper friction block and the lower friction block and the upper and lower corners of the XPS extruded sheet after being cut can form friction smoothing treatment, and then the corresponding side seam treatment of the cutting equipment is realized in the cutting process.

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

1. according to the invention, the limit prompting module is installed, the threaded rod is rotatably connected into the inserting rod, the upper limit plate synchronously moves downwards along with the downward movement of the threaded rod, the XPS extruded sheet placed at the top of the limit support is extruded and limited, then a worker pushes the XPS extruded sheet, if the XPS extruded sheet and the upper limit plate generate relative displacement, the displacement sensor starts the prompter to give out a prompt to remind the worker to continuously rotate the threaded rod, the extrusion limiting effect of the upper limit plate on the XPS extruded sheet is increased until the XPS extruded sheet is in a fastening limit state, and the cutting precision is prevented from being influenced by the displacement.

2. According to the invention, the cutting block is arranged, the length of the telescopic rod is adjusted according to the thickness of the plate body, so that the inner corners of the upper friction block and the lower friction block can cover the upper corner and the lower corner of the XPS extruded plate after cutting, the driving motor is started to drive the cutting roller to rotate, an operator pushes the lifting plate immediately to drive the cutting block to move along the direction of the linear slide rail, and linear cutting operation is realized.

3. According to the XPS extruded sheet cutting equipment, the supporting rod is mounted, the extending length of the telescopic sleeve plate is adjusted according to the thickness of the XPS extruded sheet, and then the sliding extending rod and the XPS extruded sheet are in limited connection through the fastening rubber screw rod, so that the supporting rod can have a supporting and lifting effect on the cut XPS extruded sheet body, the possibility of deformation of the XPS extruded sheet body is reduced, and the cutting accuracy of the XPS extruded sheet cutting equipment is further ensured.

4. According to the invention, the detection container is arranged, the detection container is utilized to detect the internal density of the XPS extruded sheet, and the corresponding numerical value is displayed through the display screen, so that whether the internal density numerical value of the XPS extruded sheet reaches the standard or not and whether the internal density of the XPS extruded sheet is uneven or not are judged, the processing difficulty caused by the density inconsistency during the subsequent cutting and edge seam processing is reduced, and the density detection pretreatment operation before the cutting processing of the XPS extruded sheet is realized.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a cutting table and a net plate mounting structure according to the present invention;

FIG. 3 is a cross-sectional view of the cutting table of the present invention;

FIG. 4 is a schematic view of an installation structure of the limit prompt module according to the present invention;

FIG. 5 is a schematic view of the inspection container mounting structure of the present invention;

FIG. 6 is a schematic view of a cutting block mounting structure of the present invention;

FIG. 7 is a schematic view of the mounting structure of the lower friction block, the telescopic rod and the upper friction block of the present invention;

FIG. 8 is a schematic structural view of the sliding extension rod, the fastening rubber screw, the transverse plate and the telescopic sleeve plate of the present invention.

In the figure: 1. cutting the pedestal; 101. ventilating mesh holes; 102. a suction fan; 103. pushing the plate; 104. a sound-insulating cotton pad; 105. screening a screen; 106. an electric push rod; 2. a linear slide rail; 201. connecting a sliding plate; 202. a lifting plate; 203. a truss support; 3. a limit prompting module; 301. a limiting support; 302. inserting a rod; 303. fixing the bolt; 304. a threaded rod; 305. a displacement sensor; 306. a prompter; 307. an upper limiting plate; 4. detecting the container; 401. a detector; 402. a vertical plate; 403. a display screen; 404. an alarm; 5. cutting the block; 501. a cutting roller; 502. a drive motor; 503. a lower friction block; 504. a telescopic rod; 505. an upper friction block; 6. a support bar; 601. sliding the extension rod; 602. fastening a rubber screw; 603. a transverse plate; 604. a telescopic sleeve plate; 7. a mesh plate.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", 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 "first" and "second" 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

Referring to fig. 1 and 4, an embodiment of the present invention is shown: a cutting device with edge seam processing based on an XPS extruded sheet comprises a cutting pedestal 1 and two limit prompt modules 3, wherein the top of the cutting pedestal 1 is provided with two groups of symmetrically arranged limit prompt modules 3;

the limiting prompt module 3 comprises a limiting support 301, an inserting rod 302, a fixing bolt 303, a threaded rod 304, a displacement sensor 305, a prompt 306 and an upper limiting plate 307, wherein the limiting support 301 is installed at the top of the cutting pedestal 1, the fixing bolt 303 is installed inside the limiting support 301 in a penetrating mode, the inserting rod 302 is installed at the top of the cutting pedestal 1, the inserting rod 302 is located in the middle of the fixing bolt 303, the threaded rod 304 is connected to the inner thread of the inserting rod 302, the upper limiting plate 307 is installed at the top of the threaded rod 304 through a bearing, the displacement sensor 305 and the prompt 306 which are arranged in the front and at the back are installed at the top of the upper limiting plate 307, and the displacement sensor 305 and the prompt 306 are electrically connected;

specifically, according to the width of the XPS extruded sheet to be cut, the limiting support 301 is moved, the limiting support 301 is connected with the cutting pedestal 1 through the fixing bolt 303, then the qualified XPS extruded sheet is placed on the top of the limiting support 301, the threaded rod 304 is then rotatably connected into the insertion rod 302, under the action of the bearing, the upper limiting plate 307 can not rotate when the threaded rod 304 rotates and synchronously move downwards along with the downward movement of the threaded rod 304, the XPS extruded sheet placed on the top of the limiting support 301 is further subjected to extrusion limiting treatment, then the operator pushes the limited XPS extruded sheet, if the limiting action of the upper limiting plate 307 on the XPS extruded sheet is insufficient, the XPS extruded sheet and the upper limiting plate 307 generate relative displacement, at the moment, the displacement sensor 305 can detect the message, and further give an outward prompt through the prompt 306 to remind the operator to continue to rotate the threaded rod 304, the extrusion limiting effect of the upper limiting plate 307 on the XPS extruded sheet is increased until the prompter 306 does not send out a corresponding prompt when the XPS extruded sheet is pushed, and the XPS extruded sheet is in a fastening limiting state at the moment, so that the XPS extruded sheet can be kept in a stable state during subsequent cutting treatment, and the cutting precision is prevented from being influenced by displacement.

Example two

Referring to fig. 1, fig. 6 and fig. 7, an embodiment of the present invention: the utility model provides a cutting equipment that has side seam and handle based on XPS extruded sheet, including cutting pedestal 1 and cutting piece 5, linear slide rail 2 is all installed to the both sides outer wall of cutting pedestal 1, linear slide rail 2's inside slidable mounting has connection slide 201, the lifter plate 202 is installed at the top of connecting slide 201, the surface mounting that lifter plate 202 is close to each other has truss support 203, the inner wall of truss support 203 is equipped with the spout, the inside slidable mounting of spout has the sliding block, the surface mounting of sliding block has cutting piece 5 and two sets of parallel arrangement's bracing piece 6, and cutting piece 5 is located the centre of two sets of bracing pieces 6.

The cutting device comprises a cutting block 5, a driving motor 502, a cutting roller 501, an upper friction block 505, an expansion rod 504, a lower friction block 503 and an upper friction block 505, wherein the driving motor 502 is installed at the bottom of the cutting block 5, the cutting roller 501 is installed at the output end of the driving motor 502, the upper friction block 505 is installed at the bottom of the cutting block 5, the expansion rod 504 is installed at the bottom of the upper friction block 505, the lower friction block 503 is installed at the bottom of the expansion rod 504, an included angle between the cross sections of the upper friction block 505 and the lower friction block 503 is an obtuse angle, and the upper friction block 505 and the lower friction block 503 are located in front of the driving motor 502.

Specifically, the linear slide rail 2 is in sliding connection with the connecting slide plate 201, so that when the cutting operation is performed, the cutting block 5 can be driven to move only by pushing the connecting slide plate 201 or the lifting plate 202, and then the linear cutting operation is realized;

in addition, the connecting sliding plate 201 and the lifting plate 202 are in a vertically sliding sleeved relationship, so that the krypton adjusts the installation height of the cutting block 5 according to the thickness of the XPS extruded sheet to be cut, so as to perform corresponding cutting operation;

through the sliding grooves in the truss support 203, necessary installation support can be provided for the cutting block 5 and the two groups of support rods 6, and effective lifting support can be formed on two sides of the cutting seam;

according to the thickness of the plate body, the length of the telescopic rod 504 is adjusted, so that the inner corners of the upper friction block 505 and the lower friction block 503 can cover the upper corner and the lower corner of the XPS extruded plate after cutting, then the driving motor 502 is started to drive the cutting roller 501 to rotate, corresponding plate body cutting processing is realized, an operator pushes the lifting plate 202 immediately, the cutting block 5 is driven to move along the direction of the linear sliding rail 2, and linear cutting operation is realized.

EXAMPLE III

Referring to fig. 1 and 8, an embodiment of the present invention: the utility model provides a cutting equipment that has side seam and handle based on XPS extruded sheet, includes cutting pedestal 1 and bracing piece 6, and the extension rod 601 that slides is installed to the tail end of bracing piece 6, and the trailing end connection of the extension rod 601 that slides has flexible lagging 604, and flexible lagging 604 arranges for the L type with the extension rod 601 that slides, and diaphragm 603 is installed to the back bottom of flexible lagging 604, and the inside through-mounting of diaphragm 603 has fastening rubber screw 602.

Concretely, after the XPS extruded sheet fastening limit processing, stretch the extension rod 601 that slides to the front end that slides and extend, the extension length of the flexible lagging 604 of thickness adjustment according to XPS extruded sheet immediately, later through fastening rubber screw 602 with the spacing connection of slip extension rod 601 and XPS extruded sheet, make two sets of bracing pieces 6 can treat the XPS extruded sheet formation support that the cutting was handled and be the protection, and then can support the effect of lifting in the both sides of cutting gap to the XPS extruded sheet plate formation after the cutting, avoid the XPS extruded sheet plate after the cutting to drop under the action of gravity, make this cutting equipment can not take place corresponding deformation in carrying out subsequent cutting operation XPS extruded sheet plate, then guarantee the cutting accuracy of this cutting equipment.

Example four

Referring to fig. 1 and 5, an embodiment of the present invention: the utility model provides a cutting equipment that has side seam and handle based on XPS extruded sheet, including cutting pedestal 1 and detection container 4, embedded the installing in the top of cutting pedestal 1 has detection container 4, and spacing suggestion module 3 is located the rear that detects container 4, the internally mounted who detects container 4 has the radiation source container, the radiation source container uses the industry KCL that the purity is 99.5%, the top one end that detects container 4 is installed and is found a board 402, the surface that found a board 402 has detector 401 through the hinge installation, display screen 403 is installed in the front of cutting pedestal 1, alarm 404 is installed at the top of display screen 403, and alarm 404 and display screen 403 all with detector 401 electric connection.

Specifically, the inside density of the XPS extruded sheet is detected by using a radioactive source inside the detection container 4 and a natural radionuclide 40K, in the process, a detector 401 measures a ray energy spectrum of gamma rays with 1.46MeV energy absorbed by the same XPS extruded sheet, so as to obtain a linear absorption coefficient of the rays, and corresponding values are displayed by a display screen 403, so as to determine whether the inside density value of the XPS extruded sheet reaches the standard or not and whether density unevenness exists inside the XPS extruded sheet or not, and if the density unevenness exists inside the XPS extruded sheet, it represents that high-density lumps exist inside the XPS extruded sheet, and interference is caused during subsequent cutting treatment, so that the XPS extruded sheet needs to be discarded, the treatment difficulty caused by density unevenness during subsequent cutting edge seam treatment is reduced, and the density detection pretreatment operation before the XPS extruded sheet cutting treatment is realized;

natural isotope of potassium therein⁴⁰K can release gamma rays with single energy of 1.46MeV, is easily identified from energy spectrum, and⁴⁰the half-life period of K is 12.8 hundred million years, the K is very stable for a long time, the radioactive intensity is small, and the K can not cause damage to human bodies and the environment even if the K is contacted for a long time, so that the radioactive detection operation can be carried out with confidence;

and the vertical block plate 402 has a certain height, which provides necessary space support for placing the XPS extruded sheet, and in addition, the alarm 404 can prompt warning information in time when the detector 401 finds that the density shadow in the XPS extruded sheet is inconsistent.

EXAMPLE five

Referring to fig. 1, fig. 2 and fig. 3, an embodiment of the present invention: the utility model provides a cutting equipment that has side seam and handle based on XPS extruded sheet, including cutting pedestal 1, the front of cutting pedestal 1 is equipped with ventilation mesh 101, and ventilation mesh 101 is located one side of display screen 403, the suction fan 102 that the equidistance was arranged is installed to the diapire of cutting pedestal 1, soundproof cotton pad 104 is installed to the inner wall of cutting pedestal 1, screen cloth 105 is installed to the inner wall of cutting pedestal 1, and screen cloth 105 is located soundproof cotton pad 104's top, electric putter 106 is installed to the inner wall of cutting pedestal 1, and electric putter 106 is located screen cloth 105's top, push pedal 103 is installed to electric putter 106's tail end, and the bottom of push pedal 103 and screen cloth 105's top surface laminating.

The screen plate 7 is embedded in the top of the cutting pedestal 1, and the screen plate 7 is positioned in front of the limiting support 301.

Specifically, after the suction fan 102 is started, the air outside the cutting pedestal 1 can enter the inside of the cutting pedestal 1 through the mesh plate 7 and be intercepted by the screen 105, and then the air is discharged out of the inside of the cutting pedestal 1 through the ventilation mesh 101, so that the chips cut on the surface of the mesh plate 7 can be collected, and then the electric push rod 106 is started, so as to drive the push plate 103 to move along the surface of the screen 105, so that the chips intercepted on the surface of the screen 105 can be accumulated to one corner inside the space formed by the cutting pedestal 1 and the screen 105, so that the surface of the screen 105 is kept in a smooth state, and further, the sustainable waste suction operation is realized.

The soundproof cotton pad 104 is provided to reduce noise interference when the suction fan 102 operates.

The working steps of the cutting equipment are as follows:

s1, before the XPS extruded sheet is cut by the device, the sheet is laid on the surface of the detection container 4 on the top of the cutting pedestal 1, and the radioactive source and natural radioactive nuclide in the detection container 4 are utilized⁴⁰K carries on the internal density detection to the XPS extruded sheet, in this process, the detector 401 measures the ray energy spectrum after the gamma ray of 1.46MeV energy is absorbed by the same XPS extruded sheet, obtains the linear absorption coefficient of the ray, and displays the corresponding numerical value through the display screen 403, in order to judge whether the internal density numerical value of the XPS extruded sheet is up to standard and whether the internal density of the XPS extruded sheet is uneven, if the internal density of the XPS extruded sheet is uneven, it represents that the internal density of the XPS extruded sheet is high density caking, it will bring interference in the subsequent cutting process, therefore it needs to abandon the XPS extruded sheet, reduce the processing difficulty brought by the density inconsistency in the subsequent cutting back side seam process, realize the density detection pretreatment operation before the cutting process of the XPS extruded sheet;

s2, after the density detection of the XPS extruded sheet is finished, the limit support 301 is moved according to the width of the XPS extruded sheet to be cut, the limit support 301 is connected with the cutting pedestal 1 through the fixing bolt 303, the qualified XPS extruded sheet is placed at the top of the limit support 301, the threaded rod 304 is then rotatably connected into the insertion rod 302, the upper limit plate 307 can not rotate when the threaded rod 304 rotates and synchronously moves downwards along with the downward movement of the threaded rod 304 under the action of the bearing, the XPS extruded sheet placed at the top of the limit support 301 is further subjected to extrusion limit treatment, then a worker pushes the XPS extruded sheet after limit treatment, if the limit effect of the upper limit plate 307 on the XPS extruded sheet is insufficient, at the moment, the XPS extruded sheet and the upper limit plate 307 generate relative displacement, at the moment, the displacement sensor 305 can detect the message and further send a prompt outwards through the prompt 306, reminding a worker to continue rotating the threaded rod 304, increasing the extrusion limiting effect of the upper limiting plate 307 on the XPS extruded sheet until the prompter 306 does not send a corresponding prompt when the XPS extruded sheet is pushed, and ensuring that the XPS extruded sheet is in a fastening limiting state at the moment, so that the XPS extruded sheet can be kept in a stable state during subsequent cutting treatment, and the cutting precision is prevented from being influenced by displacement;

s3, after the XPS extruded sheet is fastened and limited, the sliding extension rod 601 is stretched to the front end of the sliding extension, the extension length of the telescopic sleeve 604 is adjusted according to the thickness of the XPS extruded sheet, and then the sliding extension rod 601 and the XPS extruded sheet are limited and connected through the fastening rubber screw 602, so that the two groups of support rods 6 can support and protect the XPS extruded sheet to be cut, and the cut XPS extruded sheet can be supported and lifted on two sides of a cutting seam after cutting, the cut XPS extruded sheet is prevented from falling under the action of gravity, the XPS extruded sheet cannot deform correspondingly during subsequent cutting operation of the cutting equipment, and the cutting accuracy of the cutting equipment is guaranteed;

s4, and then adjusting the height of the connecting sliding plate 201 and the lifting plate 202 to make the surface of the cutting roller 501 contact with the surface of the XPS extruded sheet, wherein the two sets of oppositely arranged telescopic rods 504 and the upper friction block 505 and the lower friction block 503 are both located at the front end of the sheet body, according to the thickness of the plate body, the length of the telescopic rod 504 is adjusted, so that the inner corners of the upper friction block 505 and the lower friction block 503 can cover the upper corner and the lower corner of the XPS extruded plate after cutting, then the driving motor 502 is started to drive the cutting roller 501 to rotate, so as to realize corresponding plate body cutting treatment, then the operator pushes the lifting plate 202 to drive the cutting block 5 to move along the direction of the linear slide rail 2, so as to realize linear cutting operation, in the process, the inner corners of the upper friction block 505 and the lower friction block 503 can form friction smoothing treatment with the upper and lower corners of the XPS extruded sheet after cutting, and then the cutting equipment is assisted to realize corresponding edge seam treatment in the cutting process.

The working principle is as follows:before the device is used for carrying out corresponding cutting processing operation on the XPS extruded sheet, the sheet is required to be paved on the surface of the detection container 4 at the top of the cutting pedestal 1, and the radioactive source and the natural radioactive nuclide in the detection container 4 are utilized⁴⁰K carries on the internal density detection to the XPS extruded sheet, and displays the corresponding numerical value through the display screen 403, judge whether the internal density numerical value of XPS extruded sheet is up to standard and whether the density of the XPS extruded sheet is uneven, if the density of the XPS extruded sheet is uneven, it represents that there is high density caking in the XPS extruded sheet, reduces the processing difficulty brought by the density inconsistency after the follow-up cutting when the side seam is processed, realizes the density detection pretreatment operation before the cutting processing of XPS extruded sheet;

after the density detection of the XPS extruded sheet is finished, the qualified XPS extruded sheet is placed at the top of the limiting support 301, the threaded rod 304 is connected into the inserting rod 302 in a rotating mode, the upper limiting plate 307 moves downwards synchronously along with the downward movement of the threaded rod 304, the XPS extruded sheet placed at the top of the limiting support 301 is further subjected to extrusion limiting treatment, then a worker pushes the XPS extruded sheet, if the XPS extruded sheet and the upper limiting plate 307 are subjected to relative displacement, the displacement sensor 305 starts the prompter 306 to give out a prompt to remind the worker to continue rotating the threaded rod 304, the extrusion limiting effect of the upper limiting plate 307 on the XPS extruded sheet is increased until the XPS extruded sheet is in a fastening limiting state, and the cutting precision is prevented from being influenced by the displacement;

after the XPS extruded sheet is fastened and limited, the sliding extension rod 601 is stretched to the front end of the sliding extension, the extension length of the telescopic sleeve plate 604 is adjusted according to the thickness of the XPS extruded sheet, and then the sliding extension rod 601 is limited and connected with the XPS extruded sheet through the fastening rubber screw 602, so that the support rod 6 can form a supporting and lifting effect on the cut XPS extruded sheet body, the possibility of deformation of the XPS extruded sheet body is reduced, and the cutting accuracy of the cutting equipment is further ensured;

then, according to the thickness of the plate body, the length of the telescopic rod 504 is adjusted, so that the inner corners of the upper friction block 505 and the lower friction block 503 can cover the upper corner and the lower corner of the XPS extruded sheet after cutting, the driving motor 502 is started to drive the cutting roller 501 to rotate, an operator pushes the lifting plate 202 immediately to drive the cutting block 5 to move along the direction of the linear slide rail 2, and linear cutting operation is achieved.

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

Claims (8)

1. The utility model provides a cutting equipment that has side seam and handle based on XPS extruded sheet, includes cutting pedestal (1), spacing suggestion module (3) and detection container (4), its characterized in that: two groups of limit prompting modules (3) which are symmetrically arranged are mounted at the top of the cutting pedestal (1);

the limiting prompt module (3) comprises a limiting support (301), an inserting rod (302), a fixing bolt (303), a threaded rod (304), a displacement sensor (305), a prompt (306) and an upper limiting plate (307), the top of the cutting pedestal (1) is provided with a limiting support (301), the inside of the limiting support (301) is provided with a fixing bolt (303) in a penetrating way, the top of the cutting pedestal (1) is provided with an inserting rod (302), and the inserted bar (302) is positioned in the middle of the fixed bolt (303), the internal thread of the inserted bar (302) is connected with a threaded rod (304), the top of the threaded rod (304) is provided with an upper limit plate (307) through a bearing, the top of the upper limiting plate (307) is provided with a displacement sensor (305) and a prompter (306) which are arranged in front and back, and the displacement sensor (305) is electrically connected with the prompter (306);

the top of cutting pedestal (1) is embedded to be installed and is detected container (4), and spacing suggestion module (3) are located the rear that detects container (4).

2. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 1, wherein: linear slide rail (2) are all installed to the both sides outer wall of cutting pedestal (1), the inside slidable mounting of linear slide rail (2) has connection slide (201), lifter plate (202) are installed at the top of connecting slide (201), the surface mounting that lifter plate (202) are close to each other has truss support (203), the inner wall of truss support (203) is equipped with the spout, the inside slidable mounting of spout has the sliding block, the surface mounting of sliding block has cutting block (5) and two sets of parallel arrangement's bracing piece (6), and cutting block (5) are located the centre of two sets of bracing pieces (6).

3. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 2, wherein: driving motor (502) are installed to the bottom of cutting piece (5), cutting roller (501) are installed to the output of driving motor (502), clutch block (505) are installed to the bottom of cutting piece (5), telescopic link (504) are installed to the bottom of going up clutch block (505), clutch block (503) down is installed to the bottom of telescopic link (504), and the cross-section contained angle of going up clutch block (505) and lower clutch block (503) is the obtuse angle, go up clutch block (505) and lower clutch block (503) and be located the place ahead of driving motor (502).

4. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 2, wherein: slide extension rod (601) are installed to the tail end of bracing piece (6), the trailing end connection of slide extension rod (601) has flexible lagging (604), and flexible lagging (604) arranges for the L type with slide extension rod (601), diaphragm (603) is installed to the back bottom of flexible lagging (604), the inside through-mounting of diaphragm (603) has fastening rubber screw (602).

5. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 1, wherein: the internally mounted that detects container (4) has the radiation source container, the radiation source container uses the industry KCL that purity is 99.5%, the top one end that detects container (4) is installed and is found board (402), detector (401) are installed through the hinge on the surface that found board (402), display screen (403) are installed to the front of cutting pedestal (1), alarm (404) are installed at the top of display screen (403), and alarm (404) and display screen (403) all with detector (401) electric connection.

6. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 1, wherein: the front of cutting pedestal (1) is equipped with ventilation mesh (101), and ventilation mesh (101) are located one side of display screen (403), suction fan (102) that the equidistance was arranged are installed to the diapire of cutting pedestal (1), soundproof cotton pad (104) is installed to the inner wall of cutting pedestal (1), screen cloth (105) are installed to the inner wall of cutting pedestal (1), and screen cloth (105) are located the top of soundproof cotton pad (104), electric putter (106) are installed to the inner wall of cutting pedestal (1), and electric putter (106) are located the top of screen cloth (105), push pedal (103) are installed to the tail end of electric putter (106), and the top surface laminating of the bottom of push pedal (103) and screen cloth (105).

7. The cutting apparatus with edge joint processing based on the XPS extruded sheet of claim 1, wherein: mesh plate (7) are embedded in the top of cutting pedestal (1), mesh plate (7) are located the place ahead of spacing support (301).

8. The cutting apparatus with edge joint processing based on the XPS extruded sheet according to any one of claims 1 to 7, wherein the working steps of the cutting apparatus are as follows:

s1, before using the device to cut XPS extruded sheet, laying sheet on the surface of the detecting container (4) on the top of the cutting pedestal (1), using the radioactive source in the detecting container (4) and natural radioactive nuclide 40K to detect the internal density of the XPS extruded sheet, in the process, the detector (401) measures the ray energy spectrum of the gamma ray with 1.46MeV energy absorbed by the same XPS extruded sheet, to obtain the linear absorption coefficient of the ray, and displays the corresponding value through the display screen (403), so as to judge whether the internal density value of the XPS extruded sheet reaches the standard and whether the density in the XPS extruded sheet is uneven, if the density in the XPS extruded sheet is uneven, it represents that high density lumps exist in the XPS extruded sheet, and interference is brought in the subsequent cutting process, therefore, the XPS extruded sheet needs to be discarded, the processing difficulty caused by inconsistent density during the subsequent edge seam processing after cutting is reduced, and the density detection pretreatment operation before the XPS extruded sheet cutting processing is realized;

s2, after the density detection of the XPS extruded sheet is finished, moving a limit support (301) according to the width of the XPS extruded sheet to be cut, connecting the limit support (301) with a cutting pedestal (1) through a fixing bolt (303), then placing the qualified XPS extruded sheet on the top of the limit support (301), then rotatably connecting a threaded rod (304) into the insertion rod (302), wherein under the action of a bearing, an upper limit plate (307) can not rotate when the threaded rod (304) rotates and synchronously moves downwards along with the downward movement of the threaded rod (304), further extruding and limiting the XPS extruded sheet placed on the top of the limit support (301), and then a worker pushes the XPS extruded sheet after limiting, if the limiting effect of the upper limit plate (307) on the XPS extruded sheet is insufficient, the XPS extruded sheet and the upper limit plate (307) relatively move, at the moment, the displacement sensor (305) can detect the message, and then a prompt is sent outwards through the prompter (306) to remind a worker to continuously rotate the threaded rod (304), the extrusion limiting effect of the upper limiting plate (307) on the XPS extruded sheet is increased until the prompter (306) does not send a corresponding prompt when the XPS extruded sheet is pushed, and at the moment, the XPS extruded sheet is in a fastening limiting state, so that the XPS extruded sheet can be ensured to be kept in a stable state during subsequent cutting treatment, and the cutting precision is prevented from being influenced by the displacement;

s3, after the XPS extruded sheet is fastened and limited, the sliding extension rod (601) is stretched to the front end of the sliding extension, the extension length of the telescopic sleeve plate (604) is adjusted according to the thickness of the XPS extruded sheet, and then the sliding extension rod (601) is limited and connected with the XPS extruded sheet through a fastening rubber screw (602), so that two groups of support rods (6) can form support protection on the XPS extruded sheet to be cut, supporting and lifting effects can be formed on the cut XPS extruded sheet on two sides of a cutting seam after cutting, the cut XPS extruded sheet is prevented from falling under the action of gravity, the XPS extruded sheet cannot deform correspondingly during subsequent cutting operation of the cutting equipment, and the cutting accuracy of the cutting equipment is guaranteed;

s4, then adjusting the height in front of the connecting sliding plate (201) and the lifting plate (202) to make the surface of the cutting roller (501) contact with the surface of the XPS extruded sheet, at this time, two sets of oppositely arranged telescopic rods (504), an upper friction block (505) and a lower friction block (503) are both positioned at the front end of the sheet body, adjusting the length of the telescopic rods (504) according to the thickness of the sheet body to make the inner corners of the upper friction block (505) and the lower friction block (503) capable of covering the upper corner and the lower corner after the cutting of the XPS extruded sheet, then starting a driving motor (502) to drive the cutting roller (501) to rotate to realize the corresponding cutting processing of the sheet body, then an operator pushes the lifting plate (202) to drive the cutting block (5) to move along the direction of the linear sliding rail (2) to realize the linear cutting operation, in the process, the inner corners of the upper friction block (505) and the lower friction block (503) and the upper corner and the lower corner after the cutting of the extruded sheet can form friction smoothing processing, and then the cutting equipment is assisted to realize corresponding edge seam processing in the cutting process.

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