CN113635390B - Insulation board cutting device is with slowly leaving formula unloading support - Google Patents

Abstract

The invention discloses a slow-release type blanking support for a heat-insulating plate cutting device, which belongs to the field of supports, and is characterized in that a plurality of magnetic control slow-release sheets are arranged on a conveyor belt, during blanking, magnetic fixing sheets are laid on the surface of a heat-insulating plate firstly and are adsorbed and fixed by a temporary surface, then the power is controlled to be switched on, the magnetic control slow-release sheets are attached and adsorbed to the heat-insulating plate under the action of magnetic repulsion force, a point-surface liquid changing mechanism enables the pre-separation plate and the heat-insulating plate to present point adsorption, when the tail part of the conveyor belt is reached, the end part of the heat-insulating plate adsorbed by a point is firstly separated from the conveyor belt, and the magnetic control slow-release sheets are gradually torn along with the change of the radian of the tail part of the conveyor belt, so that the heat-insulating plate is slowly separated from the conveyor belt, compared with the direct falling of the heat-insulating plate in the prior art, the intensity of the heat-insulating plate being collided is obviously reduced, and the cracking phenomenon caused by blanking is greatly reduced, the quality of the heat insulation board is better.

Description

Insulation board cutting device is with slowly leaving formula unloading support

Technical Field

The invention relates to the field of supports, in particular to a slow-release type blanking support for a heat-insulation plate cutting device.

Background

The popular and easy to understand of the heat insulation plate is the plate for heat insulation of the building. The heat-insulating board is a hard foamed plastic board made up by using polystyrene resin as raw material, adding other raw auxiliary materials and polymer, heating, mixing and simultaneously injecting catalyst, then extruding and forming, and has the functions of resisting moisture and resisting water, and can reduce the thickness of exterior enclosure structure of building so as to increase indoor use area.

The heated board is in good back of producing, need cut, through the encapsulation warehouse entry behind the unloading, during from the loading and unloading of assembly line among the prior art, general heated board directly drops to the blanking box in the assembly line afterbody, and this kind of mode causes the surface of heated board to take place to collide with easily, appears the fracture even when serious, produces certain influence to the quality of heated board.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a slow-release type blanking support for a thermal insulation board cutting device, wherein a plurality of magnetic control slow-release sheets are arranged on a conveyor belt, during blanking, a magnetic stator sheet is laid on the surface of a thermal insulation board and is adsorbed and fixed by a temporary surface, then the magnetic stator sheet is controlled to be electrified, under the action of magnetic repulsion force, the magnetic control slow-release sheets are attached and adsorbed with the thermal insulation board, at the moment, a point-surface liquid changing mechanism enables the pre-release plate and the thermal insulation board to be in point adsorption, when the tail part of the conveyor belt is reached, the end part of the thermal insulation board which is point adsorbed is firstly separated from the conveyor belt, and simultaneously the magnetic control slow-release sheets are gradually torn along with the change of the radian of the tail part of the conveyor belt, so that the thermal insulation board is slowly separated from the conveyor belt, compared with the direct falling of the thermal insulation board in the prior art, the intensity of the thermal insulation board which is collided is obviously reduced, and the cracking phenomenon caused by blanking is greatly reduced, the quality of the heat insulation board is better.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A slow-release type blanking support for a thermal insulation board cutting device comprises a main control board, a conveyor belt, two circulating positioning rings, two pairs of supporting rods, a pair of supporting rods, an automatic door and a plurality of magnetic control slow-release sheets, wherein the conveyor belt is arranged at the blanking opening of the cutting device, the two circulating positioning rings are arranged on two sides of the conveyor belt, the two pairs of supporting rods are fixedly connected to the lower ends of the two circulating positioning rings, the supporting rods are connected to the end parts, located outside the cutting device, of the circulating positioning rings, the other pair of supporting rods are connected between the inner bottom end of the blanking opening of the cutting device and the circulating positioning rings, the upper end of the cutting device is connected with a pair of magnetic storage square tubes, the end parts of the magnetic storage square tubes extend into the blanking opening, a plurality of magnetic fixing sheets are placed in the magnetic storage square tubes, the opening parts at the lower ends of the magnetic storage square tubes are connected with the automatic door, the outer surface of the conveyor belt is connected with the plurality of uniformly distributed magnetic control slow-release sheets, two magnetic separation sheets are fixedly connected between the upper inner walls and the lower inner walls of the circulating positioning rings, and electrically connected with electromagnets, the automatic door and the electromagnet are in signal connection with the main control board.

Further, store up the magnetic square tube under the tip and install infrared inductor, infrared inductor and main control board signal connection, store up the magnetic square tube through infrared inductor control and just open the automatically-controlled door when slowly leaving the upper left end of piece to the magnetic control, release the magnetism stator, make the magnetism stator fall on the heated board after, can adsorb each other with the predetermined plate that leaves below the heated board, and then realize the temporary fixation to the heated board, effectively improve the stability of heated board when on the conveyer belt, when making the circular telegram, under the repulsion effect of electro-magnet, the deformation power that makes the magnetic control slowly leave the piece is difficult for causing great displacement to the heated board.

Further, the lateral length of electro-magnet is greater than the lateral length that the magnetic control slowly leaves the piece, make heated board and magnetic control slowly leave the piece when the electro-magnet department, the magnetic control slowly leaves the piece and can fully receive ascending magnetic repulsion, make the magnetic control slowly leave the piece fully with heated board back adhesion, and then make when the blanking, the effect of the slow separation of heated board and conveyer belt is better, and the magnetic shield board is made for magnetic shielding material, make when the cambered surface of conveyer belt afterbody is reachd, the magnetic control slowly leaves the effect that the piece is difficult for receiving magnetic repulsion, cambered surface along the conveyer belt, fine hair paster can be torn along the edge gradually, thereby with the heated board separation, realize that the heated board breaks away from slowly on the conveyer belt.

Further, it has a plurality of delays from the groove that correspond with magnetic control delay piece respectively to open the chisel on the conveyer belt, magnetic control delay from the piece including in advance from fixed plate and fine hair paster, connect at the linking arc layer at fine hair paster edge and a plurality of connection at the magnetic repulsion point of tip under the fine hair paster, fine hair paster upper surface is located and delays from the notch inboard in groove, the magnetic repulsion point is connected with the rope that resets with delaying from between the groove, and the rope that resets is used for reseing, after making the conflict of demagnetization repulsion, under the cambered surface effect of conveyer belt tip, the heated board separates gradually with the magnetic control delay piece, and at this moment under rope limiting displacement that resets, effectively avoid the heated board to be difficult to in time take place with the condition that magnetic control delay from the piece separation.

Further, there is the magnetic field force of mutual repulsion between magnetism repulsion point and the circular telegram electro-magnet, it is flexible structure to link up the arc layer, makes under the effect of magnetic repulsion, and when fine hair paster was attached towards heated board department, it was difficult for restricting its deformation to link up the arc layer, made the fine hair paster can be fully with the heated board contact, it is straight structure to predetermine the fixed plate, when making the heated board pass through the magnetism stator rather than adsorbing the fixation temporarily, stability is better.

Furthermore, a positioning plate is fixedly connected between the lower end of the end part of the pre-separation plate close to the linking arc layer and the slow separation groove, a gas exchange bag is arranged between the pre-separation plate and the inner bottom end of the slow separation groove, the opening part of the gas exchange bag is fixedly penetrated through the positioning plate and extends into a space defined by the positioning plate, the linking arc layer, the fluff patches and the slow separation groove, a point-surface liquid exchange mechanism is arranged between the gas exchange bag and the pre-separation plate, compressed gas is filled in the gas exchange bag and the slow separation groove, when the gas exchange bag is not electrified or the magnetic control slow separation sheet does not reach the electromagnet along the running direction of the conveyor belt, the fluff patches are in situ, the compressed gas is intensively distributed in the gas exchange bag and generates extrusion force on the point-surface liquid exchange mechanism, so that the magnetorheological fluid is extruded and uniformly distributed in the pre-separation plate, at the moment, under the action of the magnetic fixing sheet, the surface contact with the insulation plate is realized, and the stability of temporary fixation is better, and after the circular telegram, perhaps the magnetic control is slowly from the piece when the electro-magnet department, the fine hair paster upwards deforms and the heated board contact, make the magnetic control slowly from the piece with slowly from the space grow that the groove encloses, it is excessive in the some compressed gas follow scavenging pocket, make some face trade liquid mechanism atress reduce, magnetorheological suspensions overflows from preseparating the board, thereby make the temporary fixation present the adsorbed effect of multiple spot, adsorption area reduces promptly, be convenient for when conveyer belt corner, heated board and magnetic stator and the removal of preseparating board department temporary fixation.

Furthermore, the point-surface liquid changing mechanism comprises a magnetic surface cavity cut in the middle of the pre-separation plate, a plurality of magnetic changing holes cut in the lower end of the pre-separation plate and a plurality of magnetic point capsules connected to the opening part below the magnetic changing holes, wherein the magnetic changing holes are communicated with the magnetic surface cavity and the magnetic point capsules, and the magnetic point capsules are filled with magnetorheological liquid.

Furthermore, a plurality of pneumatic push pieces which are sunken towards the inner side of the air exchange bag are fixedly embedded at the upper end of the air exchange bag, and the pneumatic push pieces are matched with the magnetic point bag.

Furthermore, the pneumatic push piece is of a flexible sealing structure, the air exchange bag is of a hard structure, so that the extrusion force of compressed gas is intensively distributed at the pneumatic push piece, and the distribution control effect on the magnetorheological fluid in the point-to-point fluid exchange mechanism is better under the condition of the difference of no magnetic field distribution.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through the setting of a plurality of magnetic control slow separation pieces on the conveyer belt, during the unloading, at first lay the magnetism stator on the heated board surface, it is fixed to make it adsorb by interim face, back control circular telegram, under the effect of magnetic repulsion, make the magnetic control slow separation piece adsorb with the heated board is attached, point face trades liquid mechanism makes and is in advance to appear some between stator and the heated board and adsorb this moment, when reacing the conveyer belt afterbody, the heated board tip that the point adsorbs separates earlier with the conveyer belt, the magnetic control is slow to be from the piece and is received gradually along with conveyer belt afterbody radian change and tear simultaneously, thereby realize that the heated board slowly breaks away from on the conveyer belt, compare in prior art the directness of heated board and drop, show and reduce the intensity that the heated board received to collide with, reduce the fracture phenomenon that causes because of the unloading by a wide margin, make the heated board quality better.

(2) Store up the magnetic square tube lower tip and install infrared inductor, infrared inductor and main control board signal connection, store up the magnetic square tube through infrared inductor control and just open the automatically-controlled door when slowly leaving the upper left end of piece to the magnetic control, release the magnetic stator, make the magnetic stator fall on the heated board after, can adsorb each other with the predetermined plate of heated board below, and then realize the temporary fixation to the heated board, effectively improve the stability of heated board when on the conveyer belt, when making the circular telegram, under the repulsion effect of electro-magnet, the deformation power that makes the magnetic control slowly leave the piece is difficult for causing great displacement to the heated board.

(3) The lateral length of electro-magnet is greater than the lateral length that the magnetic control slowly leaves the piece, make heated board and magnetic control slowly leave the piece when the electro-magnet department, the magnetic control slowly leaves the piece can fully receive ascending magnetic repulsion, make the magnetic control slowly leave the piece abundant and heated board back adhesion, and then make when the blanking, the effect of the slow separation of heated board and conveyer belt is better, and separate the magnetic shield material and make, make when the cambered surface of reacing the conveyer belt afterbody, the effect of magnetic repulsion is difficult for receiving to the magnetic control slowly leaves the piece, along the cambered surface of conveyer belt, fine hair paster can be torn along the edge gradually, thereby with the heated board separation, realize that the heated board breaks away from slowly on the conveyer belt.

(4) It has a plurality of slowly from the groove that correspond with the magnetic control slowly piece respectively to open the chisel on the conveyer belt, the magnetic control slowly leaves the piece including anticreep fixed plate and fine hair paster, connect at the linking arc layer at fine hair paster edge and a plurality of connection at the magnetism of fine hair paster lower extreme point of repelling, fine hair paster upper surface is located the notch inboard in slowly leaving the groove, magnetism repel and slowly leave and be connected with the rope that resets between the groove, the rope that resets is used for restoring to the throne, after the conflict that makes the repulsion that demagnetizes, under the cambered surface effect of conveyer belt tip, the heated board separates gradually with the magnetic control slowly piece, rope limiting displacement resets this moment, effectively avoid the heated board to be difficult to in time take place with the condition that the magnetic control slowly leaves the piece separation.

(5) There is the magnetic field force of mutual repulsion between magnetism repulsion and the electro-magnet of circular telegram, links up the arc layer and be flexible structure, makes under the effect of magnetism repulsion, and when fine hair paster was attached towards heated board department, it was difficult for restricting its deformation to link up the arc layer, made the fine hair paster can be sufficient with the heated board contact, and the predetermined plate is straight structure, when making the heated board pass through the magnetism stator rather than adsorbing the fixation temporarily, stability is better.

(6) The lower end of the end part of the pre-separation plate close to the linking arc layer and the slow separation groove are fixedly connected with a positioning plate, a gas exchange bag is arranged between the pre-separation plate and the bottom end of the slow separation groove, the opening part of the gas exchange bag fixedly penetrates through the positioning plate and extends into a space enclosed by the positioning plate, the linking arc layer, the fluff patch and the slow separation groove, a point-surface liquid exchange mechanism is arranged between the gas exchange bag and the pre-separation plate, compressed gas is filled in the gas exchange bag and the slow separation groove, when the gas exchange bag and the slow separation groove are not electrified or along the running direction of a conveyor belt, the fluff patch is in situ, the compressed gas is intensively distributed in the gas exchange bag at the moment and generates extrusion force to the point-surface liquid exchange mechanism, so that the magnetorheological liquid is extruded and uniformly distributed in the pre-separation plate, at the moment, under the action of the magnetic stator, the fluff patch is in surface contact with the heat insulation plate, the stability of temporary fixation is better, and after the electricity is electrified, or during the magnetic control is slowly from piece through electro-magnet department, the fine hair paster upwards deformation and heated board contact, make the magnetic control slowly from the piece with slowly from the space grow that the groove encloses, partial compressed gas is excessive in from the breather bag, make the liquid mechanism atress of trading of point face reduce, magnetorheological suspensions overflows from the predetermined board, thereby make the temporary fixation present the adsorbed effect of multiple spot, adsorption area reduces promptly, be convenient for when conveyer belt corner, heated board and magnetic stator and predetermined removal of fixing temporarily of plate department.

(7) The pneumatic push piece is of a flexible sealing structure, the air exchange bag is of a hard structure, so that the extrusion force of compressed gas is intensively distributed at the pneumatic push piece, and the distribution control effect on the magnetorheological fluid in the point-to-point fluid exchange mechanism is better under the condition of the difference of non-magnetic field distribution.

Drawings

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

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic structural view of a cross section of a magnetically controlled release sheet according to the present invention;

FIG. 4 is a schematic structural view of the present invention when the thermal insulation board is temporarily fixed by the magnetic stator sheet;

FIG. 5 is a schematic view of the structure at A in FIG. 4;

FIG. 6 is a schematic structural view of the magnetic control release sheet close to the lower surface of the heat insulation board extending and attaching under the action of a magnetic field;

FIG. 7 is a schematic structural view of the point-surface liquid changing mechanism of the present invention after being powered on and before being separated from the insulation board;

fig. 8 is a schematic structural view of the point-surface liquid changing mechanism of the present invention before being separated from the heat insulation plate and being powered on.

The reference numbers in the figures illustrate:

the device comprises a supporting rod 1, a circulating positioning ring 2, a conveying belt 3, a magnetic storage square tube 4, a magnetic stator 5, a magnetic control slow-separation piece 6, a connecting arc layer 61, a fluff patch 62, a magnetic repulsion point 63, a pre-separation fixed plate 64, a reset rope 7, a positioning plate 8, a gas exchange bag 9, a magnetic surface cavity 91, a magnetic exchange hole 92, a magnetic point bag 93, a pneumatic push piece 11, a magnetic isolation plate 12 and an electromagnet 13.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification 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 should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "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 1:

referring to fig. 1, a slow-release type blanking bracket for a thermal insulation board cutting device comprises a main control board, a conveyor belt 3 at the blanking port of the cutting device, two circulating positioning rings 2 arranged at two sides of the conveyor belt 3, and two pairs of support rods 1 fixedly connected to the lower ends of the two circulating positioning rings 2, wherein one pair of support rods 1 is connected to the end portion of the circulating positioning ring 2 outside the cutting device, the other pair of support rods 1 is connected between the inner bottom end of the blanking port of the cutting device and the circulating positioning rings 2, two magnetic isolation plates 12 are fixedly connected between the upper inner wall and the lower inner wall of the two circulating positioning rings 2, an electromagnet 13 is electrically connected between the two magnetic isolation plates 12, an automatic door and the electromagnet 13 are both in signal connection with the main control board, the upper end of the cutting device is connected with a pair of magnetic storage square tubes 4, the end portion of the magnetic storage square tubes 4 extends into the blanking port, and a plurality of magnetic stators 5 are arranged in the magnetic storage square tubes 4, store up magnetism side pipe 4 end opening portion and be connected with the automatically-controlled door, store up the end installation infrared inductor under magnetism side pipe 4, infrared inductor and main control board signal connection, as shown in fig. 2-4, store up magnetism side pipe 4 through infrared inductor control and open the automatically-controlled door when just being 6 upper left ends of magnetic control slow-release piece, release magnetism stator 5, make magnetism stator 5 fall on the heated board after, can adsorb each other with the preionization breast 64 of heated board below, and then realize the temporary fixation to the heated board, effectively improve the stability of heated board when on conveyer belt 3, make during the circular telegram, under the repulsion effect of electro-magnet 13, make the deformation power of magnetic control slow-release piece 6 be difficult for causing great displacement to the heated board, in addition magnetism stator 5 along with together with the separation of conveyer belt 3, follow-up concentrate the recovery can.

Horizontal length of electro-magnet 13 is greater than the horizontal length that the magnetic control slowly leaves piece 6, make heated board and magnetic control slowly leave piece 6 when the department of electro-magnet 13, the magnetic control slowly leaves piece 6 can fully receive ascending magnetic repulsion, make the magnetic control slowly leave piece 6 abundant and heated board back adhesion, and then make when the blanking, the effect of the slow separation of heated board and conveyer belt 3 is better, and magnetic shield 12 makes for magnetic screen material, make when the cambered surface of 3 afterbody of conveyer belt is being reachd, the magnetic control slowly leaves the effect of 6 difficult magnetic repulsion that receives of piece, cambered surface along conveyer belt 3, fine hair paster 62 can be torn along the edge gradually, thereby with the heated board separation, realize that the heated board breaks away from slowly on conveyer belt 3.

Referring to fig. 2-3, the outer surface of the conveyor belt 3 is connected with a plurality of uniformly distributed magnetic control slowly-separating sheets 6, the conveyor belt 3 is provided with a plurality of slowly-separating grooves corresponding to the magnetic control slowly-separating sheets 6, each magnetic control slowly-separating sheet 6 comprises a pre-separating plate 64 and a fluff patch 62, a connecting arc layer 61 connected to the edge of the fluff patch 62 and a plurality of magnetic repulsion points 63 connected to the lower end of the fluff patch 62, the upper surface of the fluff patch 62 is positioned inside the notch of the slowly-separating groove, as shown in fig. 5, a repositioning rope 7 is connected between the magnetic repulsion points 63 and the slowly-separating grooves, the repositioning rope 7 is used for repositioning, after the counteracting of the demagnetizing repulsion force, the heat-insulating plate is gradually separated from the magnetic control slowly-separating sheets 6 under the action of the cambered surface at the end of the conveyor belt 3, at the moment, under the limiting action of the repositioning rope 7, the situation that the heat-insulating plate is difficult to be separated from the magnetic control slowly-separating sheets 6 in time is effectively avoided, and the mutually repulsive force exists between the magnetic repulsion points 63 and the energized electromagnets 13, linking arc layer 61 is flexible structure, like figure 6, makes under the effect of magnetic repulsion, and when fine hair paster 62 was attached towards heated board department, linking arc layer 61 was difficult for restricting its deformation, made fine hair paster 62 can be sufficient and the heated board contact, and preseparation fixed plate 64 is straight structure, when making the heated board pass through magnetism stator 5 rather than adsorb temporarily fixedly, stability is better.

Referring to fig. 7, a positioning plate 8 is fixedly connected between the lower end of the end portion of the pre-separation plate 64 close to the connecting arc layer 61 and the slow separation groove, a gas exchange bag 9 is placed between the pre-separation plate 64 and the bottom end of the slow separation groove, the mouth portion of the gas exchange bag 9 fixedly penetrates through the positioning plate 8 and extends into a space enclosed by the positioning plate 8, the connecting arc layer 61, the fluff patches 62 and the slow separation groove, a point-surface liquid exchange mechanism is arranged between the gas exchange bag 9 and the pre-separation plate 64, and the gas exchange bag 9 and the slow separation groove are filled with compressed gas, as shown in fig. 8, when the magnetron slow separation sheet 6 does not reach the electromagnet 13 in the non-energized or running direction of the conveyor belt 3, the fluff patches 62 are in the original position, and the compressed gas is intensively distributed in the gas exchange bag 9 and generates extrusion force to the point-surface liquid exchange mechanism, so that the magnetorheological fluid is extruded and uniformly distributed in the pre-separation plate 64, and under the action of the magnetic fixing sheet 5, it is the face contact with the heated board, it is better to make the stability of temporary fixation, as figure 7, and after the circular telegram, perhaps magnetic control slowly leaves piece 6 when electro-magnet 13 department, fine hair paster 62 upwards deformation and heated board contact, make magnetic control slowly leave piece 6 and slowly leave the space grow that the groove encloses, it is excessive in the bag 9 that takes a breath to partly compressed gas follow, it reduces to make point face trade liquid mechanism atress, magnetorheological suspensions overflows from preseparating board 64, thereby make temporary fixation present the absorbent effect of multiple spot, adsorption area reduces promptly, be convenient for when 3 corners of conveyer belt, heated board and magnetic stator 5 and the release of preseparating board 64 department temporary fixation.

The fluff patch 62 is a rigid fluff layer structure simulating the sole of the gecko, so that great van der waals force can be generated when the fluff patch 62 is in contact with the heat-insulating plate, and when the fluff patch is required to be separated, the fluff patch can be separated only by slowly tearing the fluff patch from the corner.

The point-surface liquid changing mechanism comprises a magnetic surface cavity 91 dug in the middle of a pre-separation fixed plate 64, a plurality of magnetic changing holes 92 dug in the lower end of the pre-separation fixed plate 64 and a plurality of magnetic point capsules 93 connected to the opening part below the magnetic changing holes 92, the magnetic changing holes 92 are communicated with the magnetic surface cavity 91 and the magnetic point capsules 93, magnetorheological liquid is filled in the magnetic point capsules 93, a plurality of pneumatic push pieces 11 sunken towards the inner side of the gas changing capsules 9 are fixedly embedded in the upper ends of the gas changing capsules 9, the pneumatic push pieces 11 are matched with the magnetic point capsules 93, the pneumatic push pieces 11 are of a flexible sealing structure, the gas changing capsules 9 are of a hard structure, the extrusion force of compressed gas is concentrated and distributed at the pneumatic push pieces 11, and the distribution control effect of the magnetorheological liquid in the point-surface liquid changing mechanism is better under the difference of no magnetic field distribution.

It is worth noting that, compressed gas's filling amount or compression multiple need debug many times when concrete implementation, make compressed gas be enough to make pneumatic push jack 11 and magnetic point bag 93 deformation, be difficult for causing simultaneously and link up arc layer 61 deformation, perhaps be difficult for causing the removal of fine hair paster 62 position, make fine hair paster 62 under the effect that does not have the magnetic field, the up end is located slowly from the groove below to effectively avoid when not unloading the heated board, unexpected adhesion falls on its surperficial article.

Through the arrangement of the plurality of magnetic control slow-release sheets 6 on the conveyor belt 3, when the cut insulation board is transferred to the surface of the conveyor belt, firstly, a magnetic stator 5 is laid on the surface of the heat insulation plate, the heat insulation plate and the conveyor belt 3 are temporarily adsorbed on the surface through the magnetic stator 5, then the power is controlled to be on, under the action of magnetic repulsion force, the magnetic control slow separation sheet 6 is attached and adsorbed with the heat insulation board, at the moment, the point-surface liquid changing mechanism enables the pre-separation fixed plate 64 and the heat insulation board to present point adsorption, when the heat preservation plate reaches the tail part of the conveyor belt 3, the end part of the heat preservation plate which is point-adsorbed is firstly separated from the conveyor belt 3, meanwhile, the magnetic control slow separation plate 6 is gradually torn along with the change of the radian of the tail part of the conveyor belt 3, thereby realize that the heated board slowly breaks away from conveyer belt 3, compare in prior art the direct of heated board and drop, show the intensity that reduces the heated board and receive and collide with, reduce the fracture phenomenon because of the unloading leads to the fact by a wide margin, make the heated board quality better.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a thermal insulation board cutting device is with slowly leaving formula unloading support, include the main control board and with conveyer belt (3) of cutting device feed opening department, install two circulation holding ring (2) and two pairs of bracing pieces (1) of fixed connection at two circulation holding ring (2) lower extremes in conveyer belt (3) both sides, its characterized in that: one pair of the support rods (1) is connected with the end part of the circulating positioning ring (2) outside the cutting device, the other pair of the support rods (1) is connected between the bottom end in the feed opening of the cutting device and the circulating positioning ring (2), the upper end of the cutting device is connected with a pair of magnetic storage square pipes (4), the end parts of the magnetic storage square pipes (4) extend into the feed opening, a plurality of magnetic fixing pieces (5) are arranged in the magnetic storage square tube (4), the lower end opening part of the magnetic storage square tube (4) is connected with an automatic door, conveyer belt (3) surface connection has a plurality of evenly distributed's magnetic control to slowly leave piece (6), two fixedly connected with two magnetic shields (12), two between the inner wall about circulation holding ring (2) electric connection has electro-magnet (13) between magnetic shield (12), automatically-controlled door, electro-magnet (13) all with main control board signal connection.

2. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 1, is characterized in that: store up magnetism side's pipe (4) lower tip and install infrared inductor, infrared inductor and main control board signal connection, store up magnetism side's pipe (4) through infrared inductor control and just open the automatically-controlled door when slowly leaving piece (6) upper left end to the magnetic control, release magnetism stator (5).

3. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 1, is characterized in that: the transverse length of the electromagnet (13) is larger than that of the magnetic control buffer sheet (6), and the magnetic isolation plate (12) is made of a magnetic shielding material.

4. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 1, is characterized in that: the conveyer belt (3) are gone up and are dug a plurality of and slowly leave the groove with the magnetic control is corresponding slowly from piece (6) respectively, the magnetic control is slowly from piece (6) including preseparating board (64) and fine hair paster (62), connecting linking arc layer (61) and a plurality of connection at fine hair paster (62) edge repel some (63) at the magnetism of tip under fine hair paster (62), the magnetism is repelled some (63) and is slowly leave and be connected with reset rope (7) between the groove.

5. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 4, wherein: the connecting arc layer (61) is of a flexible structure, and the pre-separation plate (64) is of a straight structure.

6. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 4, wherein: and mutually repulsive magnetic field force exists between the magnetic repulsion points (63) and the electrified electromagnet (13).

7. The slow-release type blanking support for the heat-insulating plate cutting device as claimed in claim 4, wherein: the utility model discloses a liquid storage tank, including anticreep fixed plate (64), locating plate (8) is separated from between the groove to tip lower extreme that anticreep fixed plate (64) is close to linking arc layer (61) and slow, anticreep fixed plate (64) and slow have been placed between the inslot bottom and trade gasbag (9), the oral area of trading gasbag (9) is fixed to run through locating plate (8) and extend to locating plate (8) and linking arc layer (61), fine hair paster (62) and slow in the space that encloses from the groove, trade and be equipped with some face between gasbag (9) and anticreep fixed plate (64) and trade the liquid mechanism, trade gasbag (9) and slow inslot and all fill compressed gas.

8. The slow-release type blanking support for the heat-insulating plate cutting device according to claim 7, is characterized in that: the point face trades liquid mechanism includes that the excavation trades magnetism hole (92) and a plurality of connection at trading magnetism hole (92) of trading magnetism hole (92) below oral area at anticreep fixed plate (64) lower extreme, a plurality of excavation trades magnetism hole (92) at anticreep fixed plate (64) middle part, trade magnetism hole (92) intercommunication magnetism face chamber (91) and magnetism point bag (93), it is a plurality of all pack in magnetism point bag (93) has magnetorheological suspensions.

9. The slow-release type blanking support for the heat-insulating plate cutting device according to claim 8, is characterized in that: the upper end of the air changing bag (9) is fixedly embedded with a plurality of pneumatic push pieces (11) which are sunken towards the inner side of the air changing bag (9), and the pneumatic push pieces (11) are matched with the magnetic point bag (93).

10. The slow-release type blanking support for the heat-insulating plate cutting device according to claim 9, is characterized in that: the pneumatic push sheet (11) is of a flexible sealing structure, and the air change bag (9) is of a hard structure.

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