CN112297114A - Molding device for insulating material production and using method thereof - Google Patents

Abstract

The invention discloses a molding device for insulating material production and a using method thereof, and the molding device comprises a workbench, a pouring mechanism, a hot-pressing forming mechanism and a collecting box, wherein the hot-pressing forming mechanism is arranged in the center of the top of the workbench, the pouring mechanism is arranged on one side of the hot-pressing forming mechanism, the hot-pressing forming mechanism comprises a lower die and an upper die, the lower die is arranged below the upper die, the molding device also comprises a blanking mechanism and a slitting mechanism, four supporting columns are connected below the lower die through bolts, and the supporting columns are connected above the workbench through bolts. The lower die is in a suspended state due to the arrangement of the support columns in the hot-pressing forming mechanism, so that the cooling of the lower die is accelerated, the cooling of materials is accelerated, and the forming efficiency of the materials is improved; the blanking mechanism is arranged to realize the automatic blanking function and is matched with the slitting mechanism for the material is cut into the slitting, the subsequent slitting process is reduced, and the production efficiency is improved.

Description

Molding device for insulating material production and using method thereof

Technical Field

The invention relates to the technical field of insulating material production, in particular to a molding device for insulating material production and a using method thereof.

Background

In the production process of the insulating material product, a hot-press forming machine is generally used for extruding to obtain a final product. The insulating material hot-press forming machine used at present generally comprises an upper template, a lower template, a supporting platform for supporting the lower template, and a driving device for driving the upper template or the lower template to move.

Chinese patent publication No. CN204687335U discloses a hot briquetting device for insulating material, including first actuating cylinder, first buffer block, guide bar, movable mould, cover half, holding down plate and the second buffer block of driving, the guide bar is connected in the first lower extreme transmission that drives actuating cylinder, first drive and be equipped with first buffer block between actuating cylinder and the frame, the second buffer block is connected to the lower extreme of holding down plate, and the lower extreme of second buffer block is equipped with the base, the one end of second buffer block is connected with the second and drives actuating cylinder, and the one end of second buffer block is equipped with the second and drives actuating cylinder, and second buffer block and second drive and be connected with the carriage release lever between the actuating cylinder, the inside of mounting bracket be equipped with and touch the inductor, but the device has following shortcoming: 1. after hot pressing is finished, the first driving cylinder drives the second buffer block to move leftwards so as to drive the fixed die to move leftwards until an inductor far away from the mounting frame is touched, and the cylinder stops moving; workers are required to take out the product on the fixed die, and the temperature of the material is high at the moment, so that the workers are easily scalded; 2. the material melts in the cover half inside, leads to the cover half to need continuous cooling and heating, leads to the production time extension, has reduced production efficiency.

Chinese patent publication No. CN209063404U discloses preliminary molding equipment for producing cable insulation materials, and relates to the technical field of cable insulation material production. This cable insulation material production is with tentatively moulding equipment, including supporting mechanism, moulding mechanism and notes material mechanism, supporting mechanism is including bearing platform, support column, spandrel girder, conveyor, supporting leg, and the quantity of support column is two, and two support column symmetry fixed connection are in the left and right sides of bearing platform top portion, and the spandrel girder setting is at the top between the support column of both sides, and conveyor fixed connection is in the centre of bearing platform top portion, and the quantity of supporting leg is two, and two supporting leg symmetry fixed connection are in the left and right sides of bearing platform bottom portion.

Disclosure of Invention

The invention aims to solve the problems and provide a molding device for producing insulating materials and a using method thereof.

The invention realizes the purpose through the following technical scheme:

a molding device for insulating material production comprises a workbench, a pouring mechanism, a hot-press forming mechanism and a collecting box, wherein the hot-press forming mechanism is arranged in the center of the top of the workbench, the pouring mechanism is arranged on one side of the hot-press forming mechanism, the hot-press forming mechanism comprises a lower die and an upper die, the lower die is arranged below the upper die, the molding device further comprises a blanking mechanism and a slitting mechanism, four supporting columns are connected to the lower side of the lower die through bolts and are connected to the upper side of the workbench through bolts, the lower die is in a suspended state due to the arrangement, the cooling of the lower die is accelerated, the cooling of materials is accelerated, the molding efficiency of the materials is improved, the blanking mechanism is arranged on the inner side of the pouring mechanism, the slitting mechanism is arranged on the other side of the hot-press forming mechanism, the collecting box is arranged on one side, away from the, The device comprises an inner cylinder, an outer cylinder, a spring, a top plate and a limiting plate, wherein a blanking cylinder is connected to the top of a workbench through a bolt, the output end of the blanking cylinder is connected with a pushing frame through a bolt, one end of an upper support rod of the pushing frame is connected with a push plate through a bolt, one end surface of a lower support rod of the pushing frame is an inclined surface, a wedge-shaped block is arranged above the inclined surface, the top of the wedge-shaped block is welded with the inner cylinder, the upper part of the inner cylinder is connected to the inner side of the outer cylinder in a sliding manner, the spring is arranged inside the outer cylinder and the inner cylinder, the outer cylinder is welded below the top plate, the top plate is connected inside a lower die in a sliding manner, the outer side of the outer cylinder is connected with the limiting plate through a bolt, the size of the, the roof promotes the material, make the material by the release lower mould, the limiting plate supports below the lower mould this moment, then the unloading cylinder continues to take propelling movement frame to remove, under the effect of spring and limiting plate, the material no longer rises, the last connecting rod of propelling movement frame drives the push pedal and promotes the material, make the material remove to the backup pad top, the function of automatic unloading has been realized, slitting mechanism includes the support frame, there is the backup pad support frame top through bolted connection, there is N type frame one side near hot briquetting mechanism at the backup pad top through bolted connection, the spout has been seted up at N type frame top, inboard sliding connection of spout has a plurality of slider, there is slitting sword slider bottom through bolted connection, set up the in-process that promotes the unloading mechanism at unloading like this, the material is cut into the strip by the slitting sword, the process of follow-up slitting has been reduced, and.

Preferably, the pouring mechanism includes big support, little support, the raw material tank, the heating cabinet, the pouring tube, the extraction pump, big support passes through bolted connection at the workstation top, big support top has little support through bolted connection, little support inboard has the raw material tank through bolted connection, raw material tank top is provided with the end cover, raw material tank outside below fixedly connected with heating cabinet, raw material tank bottom has the pouring tube through bolted connection, and the pouring tube other end passes through the screw connection on the lower mould, there is the extraction pump through bolted connection between the pouring tube, and the extraction pump passes through bolted connection in big support top, it can produce the heat to set up like this through the heating cabinet circular telegram, make the inside raw and other materials of raw material tank melt, then start the extraction pump, make inside taking the lower mould to the raw and other materials that melt.

Preferably, the inside forming cavity that is provided with of lower mould, and the opening makes progress, and the inboard edge in this forming cavity is provided with the recess, and the lower mould bottom is provided with the opening, sets up like this and in can making during the unloading and the material pressurization material piece that the tea produced enters into the recess, then this part material influences the removal of roof and prevents that the roof from producing the slope under the support of this part material.

Preferably, the bottom of the raw material box is funnel-shaped, the heating box is internally provided with a resistance heating wire and heat conducting oil, the spiral part of the heating wire is arranged inside the raw material box, the resistance heating wire which can be arranged inside the heating box is electrified to generate heat, and then the heat conducting oil is used for uniformly heating the material.

Preferably, the raw material tank bottom is for leaking hopper-shaped, and the heating cabinet is inside to be provided with ceramic heating pipe and conduction oil, sets up like this and can produce the heat through the ceramic heating pipe circular telegram of the heating cabinet inside, then under the effect of conduction oil for the material thermally equivalent.

Preferably, the sliding block is connected with a locking screw in a threaded mode, a rotating head is arranged above the locking screw, the lower end of the locking screw abuts against the top of the N-shaped frame, the sliding block can be fixed through the locking screw, and the function of fixing the slitting knife is achieved.

Preferably, the clamping groove is formed in the top of the N-shaped frame, the inner side of the clamping groove is connected with the graduated scale through the screw, and the distance between adjacent slitting knives can be rapidly measured through the graduated scale.

Preferably, the zero scale of the graduated scale is coplanar with one side wall of the forming cavity in the lower die, so that the position of the first slitting knife is conveniently fixed.

Preferably, the hot briquetting mechanism still includes hot pressing cylinder, mounting bracket, and the mounting bracket passes through bolted connection in the workstation top, and there is hot pressing cylinder at the mounting bracket top through bolted connection, and the output of hot pressing cylinder stretches into the mounting bracket inboard, and through bolted connection at last mould top central authorities, sets up like this and can fix hot pressing cylinder through the mounting bracket, and hot pressing cylinder drives the mould lift, has realized the function of last mould pressurization material.

The invention also provides a use method of the molding device for producing the insulating material, which comprises the following steps:

the method comprises the following steps: when the device is used, the distance between the slitting knives is adjusted according to the width of the required material to be slit, the sliding blocks can move to drive the slitting knives to move, so that the distance between the slitting knives is proper, and then the sliding blocks are fixed by the locking screws;

step two: then, placing the raw materials in a raw material box, closing an end cover, electrifying a resistance heating wire or a ceramic heating pipe in a heating box so as to melt the raw materials in the raw material box, and starting a suction pump so as to suck the melted raw materials into the lower die;

step three: then starting a hot-pressing cylinder, driving an upper die to descend by the hot-pressing cylinder, and extending the lower end of the upper die into the lower die to pressurize the raw material so as to form the raw material;

step four: then the hot-pressing cylinder is reset and the blanking cylinder is started, the blanking cylinder drives the pushing frame to move, the lower support rod of the pushing frame pushes the wedge block to ascend, the wedge block drives the inner cylinder to ascend, the inner cylinder drives the spring to ascend, the spring drives the outer cylinder to ascend, the outer cylinder drives the top plate to ascend, the top plate pushes the material, the material is pushed out of the lower die, the limiting plate is abutted to the lower die at the moment, then the blanking cylinder continues to drive the pushing frame to move, the material does not ascend under the action of the spring and the limiting plate, and the upper support rod of the pushing frame drives the push plate to push the material so that the material moves to the;

step five: under the promotion of push pedal, the material removes in the backup pad, then the material is cut into the strip by slitting knife, and the material of final slivering falls inside the collecting box and collects.

Has the advantages that:

1. the device can support the lower die through the support column, so that the lower die is in a suspended state, the cooling of the lower die is accelerated, the cooling of materials is accelerated, and the forming efficiency of the materials is improved;

2. the device can drive the pushing frame to move through the blanking cylinder, the lower support rod of the pushing frame pushes the wedge block to ascend, the wedge block drives the inner cylinder to ascend, the inner cylinder drives the spring to ascend, the spring drives the outer cylinder to ascend, the outer cylinder drives the top plate to ascend, the top plate pushes materials to push the materials out of the lower die, the limiting plate is abutted to the lower die at the moment, then the blanking cylinder continues to drive the pushing frame to move, the materials do not ascend under the action of the spring and the limiting plate, the upper support rod of the pushing frame drives the push plate to push the materials to move to the position above the supporting plate, and the automatic blanking function is achieved;

3. this device promotes the in-process of material unloading at feed mechanism, and the material is cut into the strip by the slitting knife, has reduced the process of follow-up slitting, has improved production efficiency.

Additional features of the invention and advantages thereof will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a molding apparatus for producing an insulating material according to the present invention;

FIG. 2 is a top plan view of a molding apparatus for the production of an insulation material according to the present invention;

FIG. 3 is a cross-sectional view A-A of a molding apparatus for producing an insulating material according to the present invention;

FIG. 4 is a sectional view B-B of a molding apparatus for producing an insulating material according to the present invention;

FIG. 5 is an enlarged view of a portion I of a molding apparatus for producing an insulating material according to the present invention;

FIG. 6 is an enlarged view of a portion II of a molding apparatus for producing an insulating material according to the present invention;

FIG. 7 is a schematic view of the slitting mechanism of the molding machine for the production of insulation material according to the present invention;

fig. 8 is a left side view of the slitting mechanism of the molding apparatus for the production of insulation material according to the present invention.

The reference numerals are explained below:

1. a work table; 2. a pouring mechanism; 3. a hot press forming mechanism; 4. a blanking mechanism; 5. a slitting mechanism; 6. a collection box; 201. a large support; 202. a small support; 203. a raw material tank; 204. a heating box; 205. a pouring tube; 206. a pump; 301. a pillar; 302. a lower die; 303. an upper die; 304. a hot-pressing cylinder; 305. a mounting frame; 401. a blanking cylinder; 402. a pushing frame; 403. a wedge-shaped block; 404. an inner barrel; 405. an outer cylinder; 406. a spring; 407. a top plate; 408. a limiting plate; 409. pushing the plate; 501. a support frame; 502. a support plate; 503. an N-shaped frame; 504. a chute; 505. a slider; 506. locking screws; 507. a slitting knife; 508. a graduated scale.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

As shown in fig. 1-8, a molding device for insulating material production comprises a workbench 1, a pouring mechanism 2, a hot-press molding mechanism 3, and a collecting box 6, wherein the hot-press molding mechanism 3 is arranged in the center of the top of the workbench 1, the pouring mechanism 2 is arranged on one side of the hot-press molding mechanism 3, the hot-press molding mechanism 3 comprises a lower die 302 and an upper die 303, the lower die 302 is arranged below the upper die 303, the molding device further comprises a blanking mechanism 4 and a slitting mechanism 5, four supporting columns 301 are connected below the lower die 302 through bolts, and the supporting columns 301 are connected above the workbench 1 through bolts, so that the lower die 302 is in a suspended state, the cooling of the lower die 302 is accelerated, the cooling of materials is accelerated, the molding efficiency of the materials is improved, the blanking mechanism 4 is arranged on the inner side of the pouring mechanism 2, the slitting mechanism 5 is arranged on the other side of the hot-press molding mechanism 3, the collecting box 6 is arranged on, the blanking mechanism 4 comprises a blanking cylinder 401, a pushing frame 402, a wedge-shaped block 403, an inner cylinder 404, an outer cylinder 405, a spring 406, a top plate 407 and a limiting plate 408, the blanking cylinder 401 is connected to the top of the workbench 1 through a bolt, the output end of the blanking cylinder 401 is connected to the pushing frame 402 through a bolt, one end of an upper support rod of the pushing frame 402 is connected to the pushing plate 409 through a bolt, one end surface of a lower support rod of the pushing frame 402 is an inclined surface, the wedge-shaped block 403 is arranged above the inclined surface, the inner cylinder 404 is welded to the top of the wedge-shaped block 403, the upper portion of the inner cylinder 404 is slidably connected to the inner side of the outer cylinder 405, the spring 406 is arranged inside the outer cylinder 405 and the inner cylinder 404, the outer cylinder 405 is welded below the top plate 407, the top plate 407 is slidably connected to the inside of the lower die, the lower support rod of the pushing frame 402 pushes the wedge-shaped block 403 to ascend, the wedge-shaped block 403 drives the inner cylinder 404 to ascend, the inner cylinder 404 drives the spring 406 to ascend, the spring 406 drives the outer cylinder 405 to ascend, the outer cylinder 405 drives the top plate 407 to ascend, the top plate 407 pushes materials to push the materials out of the lower die 302, the limiting plate 408 is abutted to the lower die 302 at the moment, then the blanking cylinder 401 continues to drive the pushing frame 402 to move, the materials do not ascend under the action of the spring 406 and the limiting plate 408, the upper support rod of the pushing frame 402 drives the push plate 409 to push the materials to move to the upper part of the support plate 502, the automatic blanking function is realized, the slitting mechanism 5 comprises a support frame 501, the support plate 502 is connected to the upper part of the support frame 501 through bolts, one side, close to the hot-pressing forming mechanism 3, of the top of the support plate 502 is connected with an N-shaped frame 503, the bottom of the sliding block 505 is connected with a slitting knife 507 through a bolt, the pouring mechanism 2 comprises a large support 201, a small support 202, a raw material tank 203, a heating tank 204, a pouring pipe 205 and an extraction pump 206, the large support 201 is connected to the top of the workbench 1 through a bolt, the small support 202 is connected to the top of the large support 201 through a bolt, the raw material tank 203 is connected to the inner side of the small support 202 through a bolt, an end cover is arranged on the top of the raw material tank 203, the heating tank 204 is fixedly connected to the lower side of the outer side of the raw material tank 203, the pouring pipe 205 is connected to the bottom of the raw material tank 203 through a bolt, the other end of the pouring pipe 205 is connected to the lower die 302 through a bolt, the extraction pump 206 is connected between the pouring pipes 205 through a bolt, and the extraction pump 206 is connected to the upper side of the large support 201 through a bolt, the heating box 204 can be electrified to generate heat, so that the raw material in the raw material box 203 is melted, the extraction pump 206 is started to extract the melted raw material into the lower die 302, the lower die 302 is internally provided with a forming cavity with an upward opening, the inner side edge of the forming cavity is provided with a groove, the bottom of the lower die 302 is provided with an opening, so that material scraps generated by tea during blanking and material pressurization can enter the groove, then the part of the material influences the movement of the top plate 407 and prevents the top plate 407 from being supported by the part of the material, the top plate 407 inclines, the bottom of the raw material box 203 is funnel-shaped, the heating box 204 is internally provided with a resistance heating wire and heat conducting oil, the spiral part of the heating wire is arranged in the raw material box 203, so that the resistance heating wire in the heating box 204 can be electrified to generate heat and then the heat conducting oil is acted, so that the material is uniformly heated, a locking screw 506 is in threaded connection above the sliding block 505, a rotating head is arranged above the locking screw 506, the lower end of the rotating head is abutted against the top of the N-shaped frame 503, the sliding block 505 can be fixed through the locking screw 506, and the function of fixing the slitting knives 507 is realized, a clamping groove is formed in the top of the N-shaped frame 503, the inner side of the clamping groove is connected with a graduated scale 508 through a screw, so that the distance between the adjacent slitting knives 507 can be rapidly measured through the graduated scale 508, the zero scale of the graduated scale 508 is coplanar with one side wall of a forming cavity in the lower die 302, so that the position of the first slitting knife 507 can be conveniently fixed, the hot-pressing forming mechanism 3 further comprises a hot-pressing cylinder 304 and a mounting frame 305, the mounting frame 305 is connected above the workbench 1 through a bolt, the top of the mounting frame 305 is connected with the, and through bolted connection in last mould 303 top center, set up like this and can fix hot pressing cylinder 304 through mounting bracket 305, hot pressing cylinder 304 drives and goes up and down mould 303, has realized the function of last mould 303 pressurization material.

A method for using a molding device for insulating material production comprises the following steps:

the method comprises the following steps: when the device is used, the distance between the slitting knives 507 is adjusted according to the width of the required material to be slit, the sliding block 505 can move to drive the slitting knives 507 to move by moving the sliding block 505, so that the distance between the slitting knives 507 is proper, and then the sliding block 505 is fixed by the locking screw 506;

step two: then, the raw materials are placed in the raw material box 203, the end cover is closed, then the resistance heating wire in the heating box 204 is electrified, so that the raw materials in the raw material box 203 are melted, and then the extraction pump 206 is started, so that the melted raw materials are extracted into the lower die 302;

step three: then starting the hot-pressing cylinder 304, wherein the hot-pressing cylinder 304 drives the upper die 303 to descend, and the lower end of the upper die 303 extends into the lower die 302 to pressurize the raw materials so as to form the raw materials;

step four: then, the hot pressing cylinder 304 is reset, the blanking cylinder 401 is started, the blanking cylinder 401 drives the pushing frame 402 to move, the lower support rod of the pushing frame 402 pushes the wedge-shaped block 403 to ascend, the wedge-shaped block 403 drives the inner cylinder 404 to ascend, the inner cylinder 404 drives the spring 406 to ascend, the spring 406 drives the outer cylinder 405 to ascend, the outer cylinder 405 drives the top plate 407 to ascend, the top plate 407 pushes the material, the material is pushed out of the lower die 302, the limiting plate 408 abuts against the lower die 302 at the moment, then the blanking cylinder 401 continues to drive the pushing frame 402 to move, the material does not ascend under the action of the spring 406 and the limiting plate 408, and the upper support rod of the pushing frame 402 drives the pushing plate 409 to push the material, so that the material;

step five: under the pushing of the pushing plate 409, the materials move on the supporting plate 502, then the materials are cut into strips by the strip cutter 507, and finally the strips fall into the collecting box 6 for collection.

Example 2

Example 2 differs from example 1 in that: raw materials case 203 bottom is for leaking hopper-shaped, and heater box 204 is inside to be provided with ceramic heating pipe and conduction oil, sets up like this and can produce the heat through the ceramic heating pipe circular telegram of heater box 204 inside, then under the effect of conduction oil for the material thermally equivalent.

A method for using a molding device for insulating material production comprises the following steps:

the method comprises the following steps: when the device is used, the distance between the slitting knives 507 is adjusted according to the width of the required material to be slit, the sliding block 505 can move to drive the slitting knives 507 to move by moving the sliding block 505, so that the distance between the slitting knives 507 is proper, and then the sliding block 505 is fixed by the locking screw 506;

step two: then, placing the raw material in the raw material box 203, closing the end cover, electrifying the ceramic heating pipe in the heating box 204, further melting the raw material in the raw material box 203, and starting the extraction pump 206 to extract the melted raw material into the lower die 302;

step three: then starting the hot-pressing cylinder 304, wherein the hot-pressing cylinder 304 drives the upper die 303 to descend, and the lower end of the upper die 303 extends into the lower die 302 to pressurize the raw materials so as to form the raw materials;

step four: then, the hot pressing cylinder 304 is reset, the blanking cylinder 401 is started, the blanking cylinder 401 drives the pushing frame 402 to move, the lower support rod of the pushing frame 402 pushes the wedge-shaped block 403 to ascend, the wedge-shaped block 403 drives the inner cylinder 404 to ascend, the inner cylinder 404 drives the spring 406 to ascend, the spring 406 drives the outer cylinder 405 to ascend, the outer cylinder 405 drives the top plate 407 to ascend, the top plate 407 pushes the material, the material is pushed out of the lower die 302, the limiting plate 408 abuts against the lower die 302 at the moment, then the blanking cylinder 401 continues to drive the pushing frame 402 to move, the material does not ascend under the action of the spring 406 and the limiting plate 408, and the upper support rod of the pushing frame 402 drives the pushing plate 409 to push the material, so that the material;

step five: under the pushing of the pushing plate 409, the materials move on the supporting plate 502, then the materials are cut into strips by the strip cutter 507, and finally the strips fall into the collecting box 6 for collection.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a type of moulding device of insulating material production, includes workstation, pouring mechanism, hot briquetting mechanism, collecting box, and workstation top central authorities are provided with hot briquetting mechanism, and hot briquetting mechanism one side is provided with pouring mechanism, and hot briquetting mechanism includes the lower mould, goes up the mould, and it is provided with lower mould, its characterized in that to go up the mould below: the automatic feeding device comprises a lower die, a pouring mechanism, a strip cutting mechanism, a collecting box, a hot-pressing forming mechanism, a feeding mechanism, a strip cutting mechanism, a discharging mechanism, a strip cutting mechanism, a hot-pressing forming mechanism, a collecting box and a pushing mechanism, wherein four supporting columns are connected below the lower die through bolts, the supporting columns are connected above a workbench through bolts, the feeding mechanism is arranged on the inner side of the pouring mechanism, the strip cutting mechanism is arranged on the other side of the hot-pressing forming mechanism, the collecting box is arranged on one side, away from the hot-pressing forming mechanism, of the strip cutting mechanism, the feeding mechanism comprises a feeding cylinder, a pushing frame, a wedge-shaped block, an inner cylinder, an outer cylinder, a spring, a top plate and a limiting plate, the feeding cylinder is connected to the top of the workbench through bolts, the output end of the feeding cylinder is connected with the pushing frame through bolts, roof sliding connection is inside the lower mould, and there is the limiting plate in the urceolus outside through bolted connection, and the size of limiting plate is greater than the size of lower mould, and slitting mechanism includes the support frame, and there is the backup pad support frame top through bolted connection, and there is N type frame one side that the backup pad top is close to hot briquetting mechanism through bolted connection, and the spout has been seted up at N type frame top, and inboard sliding connection of spout has a plurality of slider, and there is slitting sword bottom the slider through bolted connection.

2. A profiling device for insulation production according to claim 1, characterised in that: pouring mechanism includes big support, little support, the raw material tank, the heating cabinet, the pouring tube, the extraction pump, big support passes through bolted connection at the workstation top, there is little support big support top through bolted connection, there is the raw material tank little support inboard through bolted connection, the raw material tank top is provided with the end cover, raw material tank outside below fixedly connected with heating cabinet, there is the pouring tube raw material tank bottom through bolted connection, and the pouring tube other end passes through the screw connection on the lower mould, there is the extraction pump through bolted connection between the pouring tube, and the extraction pump passes through bolted connection in big support top.

3. A profiling device for insulation production according to claim 1, characterised in that: the inside shaping chamber that is provided with of lower mould, and the opening makes progress, and the inboard edge in this shaping chamber is provided with the recess, and the lower mould bottom is provided with the opening.

4. A profiling device for insulation production according to claim 2, characterised in that: raw materials bottom of the case portion is for leaking hopper-shaped, and the heating cabinet is inside to be provided with resistance heating wire and conduction oil, and this heater strip spiral part is inside raw materials incasement portion.

5. A profiling device for insulation production according to claim 2, characterised in that: the raw material tank bottom is for leaking hopper-shaped, and the heating cabinet is inside to be provided with ceramic heating pipe and conduction oil.

6. A profiling device for insulation production according to claim 1, characterised in that: and a locking screw is in threaded connection with the upper part of the sliding block, a rotating head is arranged above the locking screw, and the lower end of the locking screw abuts against the top of the N-shaped frame.

7. A profiling device for insulation production according to claim 1, characterised in that: a clamping groove is formed in the top of the N-shaped frame, and a graduated scale is connected to the inner side of the clamping groove through a screw.

8. A profiling device for insulation production according to claim 7, characterised in that: the zero scale of the graduated scale is coplanar with one side wall of the molding cavity in the lower die.

9. A profiling device for insulation production according to claim 1, characterised in that: hot briquetting mechanism still includes hot pressing cylinder, mounting bracket, and the mounting bracket passes through bolted connection in the workstation top, and there is hot pressing cylinder at the mounting bracket top through bolted connection, and hot pressing cylinder's output stretches into the mounting bracket inboard, and passes through bolted connection at last mould top central authorities.

10. The use method of the molding device for producing the insulating material is characterized in that: the method comprises the following steps:

the method comprises the following steps: when the device is used, the distance between the slitting knives is adjusted according to the width of the required material to be slit, the sliding blocks can move to drive the slitting knives to move, so that the distance between the slitting knives is proper, and then the sliding blocks are fixed by the locking screws;

step two: then, placing the raw materials in a raw material box, closing an end cover, electrifying a resistance heating wire or a ceramic heating pipe in a heating box so as to melt the raw materials in the raw material box, and starting a suction pump so as to suck the melted raw materials into the lower die;

step three: then starting a hot-pressing cylinder, driving an upper die to descend by the hot-pressing cylinder, and extending the lower end of the upper die into the lower die to pressurize the raw material so as to form the raw material;

step four: then the hot-pressing cylinder is reset and the blanking cylinder is started, the blanking cylinder drives the pushing frame to move, the lower support rod of the pushing frame pushes the wedge block to ascend, the wedge block drives the inner cylinder to ascend, the inner cylinder drives the spring to ascend, the spring drives the outer cylinder to ascend, the outer cylinder drives the top plate to ascend, the top plate pushes the material, the material is pushed out of the lower die, the limiting plate is abutted to the lower die at the moment, then the blanking cylinder continues to drive the pushing frame to move, the material does not ascend under the action of the spring and the limiting plate, and the upper support rod of the pushing frame drives the push plate to push the material so that the material moves to the;

step five: under the promotion of push pedal, the material removes in the backup pad, then the material is cut into the strip by slitting knife, and the material of final slivering falls inside the collecting box and collects.

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