KR101938192B1 - A device for manufacturing a Mold type insulating material and a heat insulating material manufactured using the same - Google Patents

Abstract

The present invention relates to a manufacturing device for a mold-type insulation material and an insulation material manufactured using the same, and more specifically, to a manufacturing device for a mold-type insulation material and an insulation material manufactured using the same, which enhance productivity and cuts production costs by enabling easy and simple manufacture of an insulation material, thereby improving manufacturing competitiveness. To this end, the present invention is integrally provided with a plurality of cut parts such that a single insulation material to be cut is transported in one direction to be cut in three pieces, allowing the cut parts to have a sloped shape corresponding to each other. Immediately after the cutting, a diagonal cut surface of a second and third piece at both sides of a first piece in the middle is corresponded in a ′V′ shape so as to correspond to glass fabric to be bonded therewith.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mold-type heat insulating material manufacturing apparatus and a heat insulating material manufactured using the same,

The present invention relates to a mold-type heat insulating material manufacturing apparatus capable of cutting a single heat insulating material into a plurality of heat insulating materials capable of being manufactured by a single cutting process and bonding and assembling the same with a single heat insulating material.

In general, stiffeners are installed at decks or inner walls of vessels at regular intervals, and decks, inner walls and stiffeners are treated with a thermal insulation material so that fireproofing, insulation and soundproofing are performed.

To attach the insulation, install a fixing pin on the deck or wall and the stiffener at regular intervals. Then, put a non-combustible insulation material on the fixing pin to cover the deck or wall and the stiffener, .

However, in the above-described conventional heat insulating material, a step of forming three unit laminated sheets by slicing the predetermined position in the longitudinal direction of the flat mineral wool laminated sheet in which the mineral wool is laminated is spaced equidistantly to form three unit laminated sheets, A step of placing the unit laminated sheet positioned in the middle of the two unit laminated sheets in an inverted position between the two unit laminated sheets so as to form a groove portion between the unit laminated sheets and a step of forming an adhesive layer on the processing material made of a glass cloth So that there is a problem that productivity and workability are deteriorated due to a large number of work operations.

In addition, when the mineral wool laminated sheet is cut obliquely, there is a problem that the size of the cut mineral wool laminated sheet and the cut surface thereof are uneven according to the skill of the operator, thereby deteriorating the quality of the product.

In addition, when a circular saw is used to cut a large number of such insulating materials, the cutting size and dimensions can be adjusted easily. However, since only one PCS is cut at the time of one cutting, And the operator's fatigue is high, and the cutting standard has to be checked from time to time.

Accordingly, there is a growing demand for a heat insulating material manufacturing apparatus capable of cutting many PCS even by rotary cutting when a heat insulating material is cut, and capable of cutting easily even in a large-scale operation.

Korean Registered Patent No. 10-1841912 (Registered on March 20, 2018)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cutting device which has a plurality of cutting portions each having a cutting blade rotating in the form of a closed loop, The second and third pieces on both sides correspond to the first piece-to-be-cut sides in the middle, and the second piece, the first piece and the third piece sequence Which is assembled by being bonded to the eucalyptus fiber, so that a single set of the heat insulating material can be manufactured, and a heat insulating material manufactured using the same.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by the means and the combination shown in the claims.

SUMMARY OF THE INVENTION The present invention, as a means for solving the above problems,

A conveying rail part (10) comprising a plurality of conveying rollers (11) spaced from each other so that the heat insulating material (P) to be cut is conveyed in one direction; The first cutting edge 21 is provided on one side of the conveying rail part 10 and rotates with a closed loop shape. The first cutting edge 21 is provided on the upper side of the conveying rail part 10, And a part of the first cutting edge 21 is positioned between the conveying roller 11 and the conveying roller 11 so that one side of the heat insulating material P to be conveyed is inclined at a first inclination A first cut section (20) which cuts in the longitudinal direction to an end face (C1); A second cutting edge 31 is provided on the other side of the conveyance rail 10 and rotated in a closed loop in the upward and downward directions of the conveyance rail 10, And a part of the second cutting edge 31 is positioned between the feed roller 11 and the feed roller 11 so that the cut target heat insulator P to be fed is placed at a position facing the cutting edge 21, So that the other side of the heat insulating material P is simultaneously cut in the longitudinal direction at the second inclined end face C2 of the '/' shape opposed to the first inclined end face C1 at the progress of the cutting process of the first cut portion 20. [ A single piece of heat insulator P is divided into a first piece P1 at the center and a second piece P1 cut at both sides by the first and second cutouts 20, The first and second pieces P1 and P2 are made of a total of three pieces composed of three pieces P2 and P3 and both sides of the heat insulating material P to be cut are obliquely cut in the first and second inclined cross- 2, 3 blood The molds can be manufactured by correspondingly bonding the slits P2 and P3 so that the oblique cut surfaces are in the shape of 'V', and correspondingly bonded to the glass fabric.

INDUSTRIAL APPLICABILITY As has been described above, the present invention has an effect that it is possible to cut a 1 SET of a heat insulating material by a single cutting operation of a manufacturing apparatus.

In the present invention, the cutting blade is constituted by a band saw, which has the effect of reducing the dust compared to the circular blade and the non-conformity due to the increase of the cutting blade temperature in the continuous operation.

Further, according to the present invention, the heat insulating material can be cut into 1 SET (3PCS) by performing the cutting process once to the same standard with only one adjustment of the cutting standard and the dimensions, thereby achieving an effect that mass work can be performed.

Further, the present invention has an effect that continuous cutting operation can be performed after confirming the initial specification for cutting the heat insulating material in the manufacturing apparatus.

In addition, since the present invention can constitute a predetermined heat insulation material shape in a single cut at once, there is an effect that a post-process can be performed immediately after the cutting process.

In addition, the present invention has the effect of enhancing the productivity and manufacturing cost by reducing the production cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an embodiment showing a main part of a mold-type heat insulating material manufacturing apparatus according to the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a conveying roller, an upper roller, a guide portion, and a suction portion.
3 is a perspective view of an embodiment showing the configuration of a guide part and a suction part according to the present invention.
4 is a view of an embodiment showing a heat insulator according to the present invention.

Before describing in detail several embodiments of the invention, it will be appreciated that the application is not limited to the details of construction and arrangement of components set forth in the following detailed description or illustrated in the drawings. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

The present invention has the following features in order to achieve the above object.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

An embodiment according to the present invention will be described below.

A conveying rail part (10) comprising a plurality of conveying rollers (11) spaced from each other so that the heat insulating material (P) to be cut is conveyed in one direction; The first cutting edge 21 is provided on one side of the conveying rail part 10 and rotates with a closed loop shape. The first cutting edge 21 is provided on the upper side of the conveying rail part 10, And a part of the first cutting edge 21 is positioned between the conveying roller 11 and the conveying roller 11 so that one side of the heat insulating material P to be conveyed is inclined at a first inclination A first cut section (20) which cuts in the longitudinal direction to an end face (C1); A second cutting edge 31 is provided on the other side of the conveyance rail 10 and rotated in a closed loop in the upward and downward directions of the conveyance rail 10, And a part of the second cutting edge 31 is positioned between the feed roller 11 and the feed roller 11 so that the cut target heat insulator P to be fed is placed at a position facing the cutting edge 21, So that the other side of the heat insulating material P is simultaneously cut in the longitudinal direction at the second inclined end face C2 of the '/' shape opposed to the first inclined end face C1 at the progress of the cutting process of the first cut portion 20. [ A single piece of heat insulator P is divided into a first piece P1 at the center and a second piece P1 cut at both sides by the first and second cutouts 20, The first and second pieces P1 and P2 are made of a total of three pieces composed of three pieces P2 and P3 and both sides of the heat insulating material P to be cut are obliquely cut in the first and second inclined cross- 2, 3 blood And the molds (P2, P3) are made to correspond to each other so that the oblique cut surfaces are in the shape of a letter "V" and correspondingly bonded to the glass fabric.

A part of the third cutting blade 41, which is provided on one side of the conveying rail part 10 and rotates in the form of a closed loop, rotates between the conveying roller 11 and the conveying roller 11, The third cut portion (20) is formed so that one side of the heat-insulating object (P) to be cut is cut at the same time in the longitudinal direction and the width thereof is adjusted during the cutting process of the first and second cut portions (20, 30) 40) are further provided.

The first, second and third cutting portions 20, 30 and 40 are provided between the conveying roller 11 and the conveying roller 11 so that the positions of the first, The position of the heat insulating material P to be cut is adjusted according to the standard of the heat insulating material to be assembled and manufactured so that the first, second and third pieces P1, P2, and P3) can be adjusted.

The first and second guides 54 and 55 are provided on both sides of the upper surface of the conveying rail part 10 so as to guide the conveying direction of both sides of the heat insulating material P to be conveyed. (54) and (55) are provided so as to be able to move back and forth between each other, the guide part (50) being adjustable in spacing with the width of the heat insulating material (P); Is further provided.

The first, second and third cutting portions 20, 30 and 40 are provided adjacent to the cutting position of the heat insulating material P to be cut so that the heat insulating material powder and fine dust generated during cutting can be sucked and discharged to the outside A suction unit 70 for supplying the suction force; Respectively.

The first, second, and third cut portions 20, 30, and 40 are formed at the cut positions of the heat insulating material P to be cut in the grooves through which the cutting edges of the first, second and third cut portions 20, And the position fixing plate 14 for forming the heat insulating member 15 so as to prevent the heat insulating material P to be cut, which is cut in the rotating direction of the cutting blade, from being bent and maintain a uniform cut surface.

In addition, a plurality of upper rollers (not shown) are installed rotatably on the conveying rollers 11 at the position where the thermal insulating material P to be cut is cut so as to prevent the thermal insulating material P to be cut, (60); Is further provided.

Further, the present invention is characterized by a mold-type heat insulating material manufactured by using a mold-type heat insulating material producing apparatus.

Hereinafter, a mold-type heat insulating material manufacturing apparatus and a heat insulating material manufactured using the same according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4. FIG.

The apparatus for manufacturing a mold-type heat insulating material according to the present invention and the heat insulating material manufactured by using the apparatus include a conveying rail part 10, a first cut part 20, a second cut part 30, a third cut part 40, a guide part 50, An upper roller 60, and a suction portion 70.

The conveying rail part 10 has a structure in which a plurality of conveying rollers 11 are rotatably installed to be spaced apart from each other such that the conveying rail part 10 is horizontally aligned with the paper surface at the upper end of a separate stand 12, And the single piece of the heat-insulating material P to be cut, which is placed on one end (ex: right side), is transferred toward the other end (ex: left side).

Of course, in order to automatically transfer the heat insulating material P to be cut, any one of the plurality of conveying rollers 11 (ex: the conveying roller 11 positioned at the endmost position where the to- 1 motor M1 can be installed and rotated.

Of course, one side of the conveying roller 11 connected to the first motor M1 is connected to one side of a plurality of adjacent conveying rollers 11 arranged continuously and by power cutting means So that the plurality of conveying rollers 11 are simultaneously rotated in one direction.

The upper roller 60 is disposed in the vicinity of a position where the cutting process is performed by the first, second and third cut portions 20, 30, and 40 to be described later in the conveying rail portion 10 composed of the plurality of conveying rollers 11 described above And is mounted on the upper portion of the plurality of conveying rollers 11.

That is, the upper roller 60 is rotatably installed on both sides of the fixing plate 13 on which the both ends of the conveying rollers 11 are rotatably fixed on both sides of the upper portion of the cradle 12. The upper roller 60 And the conveying roller 11 are maintained at a gap of a distance larger than the thickness of the heat insulating material P to be cut so that the heat insulating material P to be cut is conveyed or cut, So that the cutting target heat insulator P is prevented from being lifted.

Of course, according to the embodiment of the present invention, the position of the upper roller 60, to which both sides are fixed to the fixing plate 13, can be adjusted up and down according to the embodiment of the present invention. It is possible to adjust the lower position.

The guide portion 50 is installed in the longitudinal direction on both sides of the conveying roller 11 at the upper portion of the plurality of conveying rollers 11 described above. The guide portion 50 may be provided on both sides of the conveying roller 11 in the entire lengthwise direction, or may be installed only in a partial position (on both sides of the conveying roller 11 where the cutting process proceeds).

The guide portion 50 guides both sides (the first guide 54 and the second guide 55) of the heat insulating material P to be cut to be conveyed from one side to the other over the plurality of conveying rollers 11, Direction and the position of the heat insulating material P to be cut to be transferred is not changed.

The guides 50 are provided on both sides of the conveying rollers 11 so as to be positioned on both sides of the conveying rollers 11. The guide portions 50 provided on both sides of the conveying rollers 11 are horizontally arranged, It is possible to have a structure capable of being reversed so that the interval between them can be adjusted. Thus, in accordance with the width of the heat insulating material P to be cut. The distance between the plurality of guide portions 50 can be adjusted.

A separate mounting plate 51 is protruded from both sides of the mounting table 12 and a control rod 52 is screwed into the mounting plate 51 so as to be passed therethrough. The guide bar 53 is positioned at the upper portion of the guide bar 52 and is fixedly connected to the adjustment bar 52. As a result, the position of the guide bar 53 on the conveying roller 11 also has a shape of forward and backward (toward the longitudinal direction of the conveying roller 11) as the control rod 52 is moved forward and backward will be.

The first cut portion 20 is provided on one of the left and right sides (ex: left side) where the heat insulating material P to be cut is fed from the conveying rail portion 10 described above. The first cutting portion 20 forms a first cutting blade 21 having a structure that is closed by a second motor M2 while having a closed loop shape.

The first cutting blade 21 is rotated in a slanting manner such as '\' toward the center of the conveying rail part 10 from the upper end to the lower end of the conveying rail part 10 So that the heat insulating material P to be cut to be conveyed from one end to the other end at the upper portion of the conveying rail part 10 has a first inclined section C1 of a first predetermined angle To be two pieces of the first piece (P1) and the second piece (P2) in total.

The second cut portion 30 is formed in the conveying rail part 10 described above so that the conveying rail 10 having one of the left and right sides (ex: right side), that is, the first cut part 20, And is provided on the rear end side of the conveying rail part 10 rather than the first cut part 20 and does not correspond to the first cut part 20, So that another cutting process is simultaneously performed by the second cut portion 30 after the cutting process is firstly started by the first cut portion 20 while being transferred from the conveying rail portion 10.

The second cutting portion 30 also has a second cutting edge 31 having a closed loop shape and being rotated by the third motor M3.

The second cutting blade 31 is rotated in a form inclined at a slope of '/' toward the center of the conveying rail part 10 from the upper end to the lower end of the conveying rail part 10 So that the first cutting edge 21 is opposed to the inclined shape of the first cutting edge 21.

Thus, the heat insulating material P to be cut, which is transferred from one end to the other end at the upper part of the conveying rail part 10, is cut into a second inclined section C2 having a shape of '/' (having a preset angle) The other side of the first piece P1 at the center which is the main body among the first and second pieces P1 and P2 cut by the cutting portion 20 is again cut into the third piece P3, ).

The third cut portion 40 is provided on one side of the conveying rail part 10 which is the same as any one of the first and second cut portions 20 and 30 described above in the conveying rail part 10, The cutting process is preferentially performed by the first cutting portion 20 while the cutting target heat insulating material P is being conveyed from the conveying rail portion 10 by being provided at the rear end side of the conveying rail portion 10 from the two cut portions 20, After that, after the second cutting step is performed by the second cutting part 30 at the same time, a third cutting step is then performed by the third cutting part 40, so that a total of three cutting steps are performed simultaneously or So as to be sequentially performed.

In the present invention, at one side of the conveying rail part 10 in which the first cut part 20 is located, the conveying rail part 10 which is spaced apart from the first cut part 20 and is not opposed after the second cut part 30 Respectively.

The third cutting portion 40 has a closed loop shape similar to the first and second cut portions 20 and 30 described above and is provided with a third cutting edge 41 rotated by the fourth motor M4, A part of the third cutting edge 41 is rotated in the vertical direction between the feed roller 11 and the feed roller 11 so that the cut target heat insulator P can be cut in the longitudinal direction so that the width of the heat insulating material P to be cut can be adjusted.

Thus, the heat insulating material P to be cut can be divided into the first, second, and third pieces P1 (P1, P2, P3) as the cutting process is continuously performed by the first, second and third cutouts 20, , P2, and P3). That is, by the first and second cut portions 20 and 30, a single heat insulating material P is divided into a total of 3 pieces consisting of the first piece P1 at the center and the second and third pieces P2 and P3 cut on both sides, Piece.

The second and third pieces P2 and P3 are disposed on both sides of the first piece P1 by the second and third pieces P1 and P2 because the both sides of the heat- The molds can be manufactured by correspondingly bonding the pieces P2 and P3 to the glass fabric GC in such a manner that the oblique cut surfaces are in a V shape.

In addition, the meaning of this mold type means to bond the cut insulation to the glass fabric having various shapes preset by the user, as described above.

In addition, according to the embodiment of the present invention, the glass fabric surrounding the cut insulation material may have various shapes (ex: 'T' shape, 'I' shape, etc.) And the number of the pieces of the heat insulating material used in the cutting may be a plurality of.

In the present invention, the above-mentioned three cut portions, that is, the first, second and third cut portions 20, 30 and 40, respectively, are formed on both sides of the conveying rail portion 10 so that the first, 33 and 43 are provided at the respective lower ends for allowing the sheets to be moved forward and backward between the feed roller 11 and the feed roller 11 so as to cut the heat- By adjusting the position, it is possible to adjust the cutting size of the first, second and third pieces (P1, P2, P3) to be cut.

The LM guides 22, 32 and 42 are used for the position adjustment parts 23, 33 and 43 so that the first cut part 20, the second cut part 30 and the third cut part 40 The front end of the first, second, and third cutouts 20, 30, and 40 can be rotated forward and backward while being slid at the upper ends of the respective position adjusting portions 23, 33, The first, second, and third cutouts 20, 30, and 30 may be formed so that the rotary bar is rotated so that the user can rotate the rotary knob in a direction in which the rotary knob rotates, 40 are capable of sliding forward and backward, the configurations of the respective position adjusting parts 23, 33, 43 may be variously changed.

The suction section 70 is provided adjacent to the cutting position (between the feed roller 11 and the feed roller 11) of the first, second and third cutouts 20, 30 and 40 of the heat insulating material P to be cut, This is an apparatus for sucking in air, so that powder and fine dust to be cut, which are generated during cutting, can be sucked and discharged to the outside.

To this end, the suction hose is positioned at one end adjacent to the cutting position of the first, second, and third cut portions 20, 30, 40. A suction motor and a fan are connected to the suction hose, A structure in which air is sucked, and so on.

In addition, in the present invention, in the empty space of the conveying roller 11 and the conveying roller 11, which are the cutting positions of the first, second and third cutouts 20, 30 and 40, The blade 21, the second cutting edge 31 of the second cutout 30 and the third cutting edge 41 of the third cutout 40 are arranged diagonally at their respective fixed positions and smoothly fixed and rotated A position fixing plate 14 made of a metal and provided with a groove 15 in which a cutting blade is inserted is installed horizontally in the empty space of the feed roller 11 and the feed roller 11, So that each cutting edge passes through the groove 15 and can be rotated. Thus, the position fixing plate 14 prevents the heat insulating material P from being bent in the rotating direction of each of the cutting blades 21, 31 and 41, thereby maintaining a uniform cut surface.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

10: Feed rail part 11: Feed roller
12: Cradle 13: Fixed plate
14: Position fixing plate 15: Home
20: first cut portion 21: first cutting blade
22, 32, 42: LM guides 23, 33, 43:
30: second cut section 31: second cutting edge
40: third cut section 41: third cutting edge
50: guide portion 51: mounting plate
52: adjusting rod 53: guide bar
54: first guide 55: second guide
60: upper roller 70: suction part
C1: first inclined cross section C2: second inclined cross section
M1: first motor M2: second motor
M3: Third motor M4: Fourth motor
P1: first piece P2: second piece
P3: Third piece P: Insulation to be cut

Claims (8)

A conveying rail part (10) comprising a plurality of conveying rollers (11) spaced from each other so that the heat insulating material (P) to be cut is conveyed in one direction;
The first cutting edge 21 is provided on one side of the conveying rail part 10 and rotates with a closed loop shape. The first cutting edge 21 is provided on the upper side of the conveying rail part 10, And a part of the first cutting edge 21 is positioned between the conveying roller 11 and the conveying roller 11 so that one side of the heat insulating material P to be conveyed is inclined at a first inclination A first cut section (20) which cuts in the longitudinal direction to an end face (C1);
A second cutting edge 31 is provided on the other side of the conveyance rail 10 and rotated in a closed loop in the upward and downward directions of the conveyance rail 10, And a part of the second cutting edge 31 is positioned between the feed roller 11 and the feed roller 11 so that the cut target heat insulator P to be fed is placed at a position facing the cutting edge 21, So that the other side of the heat insulating material P is simultaneously cut in the longitudinal direction at the second inclined end face C2 of the '/' shape opposed to the first inclined end face C1 at the progress of the cutting process of the first cut portion 20. [ And a second cut portion (30)
A single heat insulating material P is divided into a total of 3 pieces consisting of a first piece P1 at the center and second and third pieces P2 and P3 cut on both sides by the first and second cut portions 20 and 30, (P2, P3) are formed on both sides of the first piece (P1) due to the fact that both sides of the heat insulating material to be cut (P) are diagonal cut at the first and second inclined cross sections, Wherein the mold-type heat insulating material is made to correspond to the cut surface in the shape of " V "
The method according to claim 1,
A part of the third cutting blade 41 which is provided on one of both sides of the conveying rail part 10 and rotates in the form of a closed loop rotates between the conveying roller 11 and the conveying roller 11 in an upward, A third cutting portion 40 for cutting one side of the heat insulating material P to be cut at the same time in the longitudinal direction and controlling the width at the time of cutting the first and second cut portions 20 and 30, ;
Wherein the heat insulating material is further provided with a heat insulating material.
3. The method of claim 2,
The first, second, and third cutouts 20, 30,
The position adjusting portions 23, 33 and 43 are provided between the conveying roller 11 and the conveying roller 11 so that the positions of the first, second and third cutting blades can be arranged forward and backward, And the cut size of the first, second and third pieces (P1, P2, P3) to be cut can be adjusted by adjusting the cutting position of the heat insulating material P to be cut in accordance with the standard of the heat insulating material to be cut Manufacturing apparatus.
The method according to claim 1,
The first and second guides 54 and 55 are provided on both sides of the upper surface of the conveying rail part 10 to guide the conveying direction of both sides of the heat insulating material P to be conveyed. , 55) are provided so as to be able to move forward and backward with respect to each other, and are capable of adjusting a distance in accordance with the width of the heat insulating material (P);
Wherein the heat insulating material is further provided with a heat insulating material.
3. The method of claim 2,
The first, second, and third cutouts 20, 30,
A sucking part 70 provided adjacent to a cutting position of the heat insulating material P to be cut and allowing the heat insulating material and fine dust generated at the time of cutting to be sucked and discharged to the outside;
Respectively. The apparatus for manufacturing a mold-type heat insulating material according to claim 1,
3. The method of claim 2,
The first, second, and third cutouts 20, 30,
And the position fixing plate 14 that forms the groove 15 through which the cutting edge of each of the first, second and third cutouts 20, 30 and 40 is passed is provided at the cutting position of the cutting target insulator P, So as to prevent the cutting target heat insulator (P) cut in the rotating direction from being bent and to maintain a uniform cut surface.
The method according to claim 1,
A plurality of upper rollers 60 that are rotatably installed on the conveying rollers 11 at the position where the thermal insulating material P to be cut is cut so as to prevent the thermal insulating material P to be cut, );
Wherein the heat insulating material is further provided with a heat insulating material.
A mold-type heat insulating member manufactured by using the mold-type heat insulating material manufacturing apparatus according to any one of claims 1 to 7.

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