CN113931331A

CN113931331A - Thermal insulation material and processing method thereof

Info

Publication number: CN113931331A
Application number: CN202111351970.2A
Authority: CN
Inventors: 陈肖飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-16
Filing date: 2021-11-16
Publication date: 2022-01-14

Abstract

The invention relates to the field of heat insulation materials, in particular to a heat insulation material and a processing method thereof. The heat insulation material comprises a bottom box, a top box and a channeling prevention device, wherein heat insulation materials are filled in the bottom box, the top box is buckled on the bottom box, and a plurality of channeling prevention devices are arranged in the bottom box. The processing method of the heat insulation material comprises the following steps: s1: a plurality of anti-channeling devices are arranged in the bottom box; s2: buckling the top box on the upper side of the bottom box; s3: the heat insulation material is introduced between the bottom box and the top box through a round pipe on the top box; s4: the top box is clamped in the bottom box, so that the top box and the bottom box are fixed. The heat insulation material in the invention can be filled with heat insulation substances, and the filled heat insulation substances are not easy to move randomly.

Description

Thermal insulation material and processing method thereof

Technical Field

The invention relates to the field of heat insulation materials, in particular to a heat insulation material and a processing method thereof.

Background

The traditional heat-insulating material is mainly used for improving gas phase void ratio and reducing heat conductivity coefficient and conduction coefficient. The fiber heat-insulating material needs a thicker coating layer to increase the convective heat transfer and the radiant heat transfer in the use environment; the section inorganic heat-insulating material needs to be assembled and constructed, and has the defects of more seams, attractive appearance, poor waterproofness, short service life and the like. After the traditional heat insulation material can be filled with heat insulation substances, the filled heat insulation substances are easy to move randomly.

Disclosure of Invention

The invention provides a heat insulation material and a processing method thereof in order to overcome the defects of the prior art, and has the advantages that the heat insulation material can be filled with heat insulation substances, and the filled heat insulation substances are not easy to move randomly.

A heat insulation material comprises a bottom box, a top box and a channeling-preventing device, wherein heat insulation materials are filled in the bottom box, the top box is buckled on the bottom box, and a plurality of channeling-preventing devices are arranged in the bottom box.

The heat-insulating material is one or more of rock wool and glass wool.

The anti-channeling device comprises a bottom disc, two ends and a stand column, wherein the bottom disc is provided with a plurality of stand columns, and the stand columns are provided with a plurality of double ends.

The anti-channeling device further comprises a threaded column, the threaded column is fixedly connected to the lower side of the bottom disc, the threaded column is inserted into the lower side of the bottom box, and the lower end of the threaded column is connected with a nut through threads.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of an insulation material and an insulation material processing device;

FIG. 2 is a schematic structural diagram II of a heat insulating material and a heat insulating material processing device;

FIG. 3 is a first schematic structural view of a thermal insulation material;

FIG. 4 is a schematic structural diagram II of the thermal insulation material;

FIG. 5 is a first structural diagram of the bottom case;

FIG. 6 is a second structural view of the bottom case;

FIG. 7 is a first schematic structural diagram of a set-top box;

FIG. 8 is a second schematic structural diagram of a set-top box;

FIG. 9 is a first structural view of a bottom disk;

FIG. 10 is a second schematic structural view of the bottom disk;

FIG. 11 is a first structural view of the stent;

fig. 12 is a structural schematic diagram of a stent.

In the figure: a bottom disc 101; a threaded post 102; a double-ended hook 103; a column 104; a plug-in post 105; a top disk 106; a clamp spring 107;

a bottom case 201; a card slot 202; a side groove 203;

a set-top box 301; a strip 302; a hook 303; a circular tube 304; a retainer ring 305; a bar hole 306;

a support 401; a V-shaped frame 402; a spring sleeve post 403; a horizontal axis 404; a gear 405;

a T-shaped frame 501; side posts 502; a telescopic rod I503; a traversing post 504; a square column 505; a shift fork 506; a vertical shaft 507; a slide seat 508; an extension rod II 509.

Detailed Description

Referring to fig. 1-12, an embodiment of the present invention is provided, which solves the main technical problem of preventing the insulation material between the bottom case 201 and the top case 301 from moving freely, and further,

because the thermal insulation material comprises the bottom box 201, the top box 301 and the anti-channeling device, the thermal insulation material is arranged between the bottom box 201 and the top box 301, and the plurality of anti-channeling devices in the bottom box 201 can prevent the thermal insulation material between the bottom box 201 and the top box 301 from moving randomly, so that the thermal insulation effect of the thermal insulation material is improved.

Referring to fig. 1-12, an embodiment of the present invention is provided to solve the main technical problem of effectively making a thermal insulation material have a thermal insulation effect, and further,

because the heat preservation material is one or more of rock wool and glass wool, the heat preservation material can effectively have the heat preservation effect by filling the rock wool and the glass wool between the bottom box 201 and the top box 301.

Referring to fig. 1-12, an embodiment of the present invention is provided to solve the main technical problem of preventing the insulation material from moving freely relative to the bottom case 201 to affect the insulation effect, and further,

because the anti-channeling device includes end disc 101, double-end colludes 103 and stand 104, and a plurality of stands 104 set up on end disc 101, all is provided with a plurality of double-ends from last to colluding 103 down on every stand 104, and a plurality of double-ends collude 103 and can collude on the heat preservation material of intussuseption in end box 201, and then prevent that the heat preservation material from removing the influence heat preservation effect at will relatively end box 201.

Referring to fig. 1-12, an embodiment of the present invention is provided, which solves the main technical problem of fixing the bottom disk 101 on the lower side of the bottom case 201, and further,

because the anti-channeling device still includes threaded column 102, the downside fixedly connected with threaded column 102 of end disc 101, and end disc 101 inserts the downside at end box 201 through threaded column 102, and then will prevent channeling the device and connect on end box 201, and threaded column 102's lower extreme has the nut through threaded connection, and the nut can be fixed end disc 101 at end box 201's downside.

Referring to fig. 1-12, an embodiment of the present invention is provided, which solves the main technical problem that the clamp spring 107 is clamped on the thermal insulation material filled in the bottom case 201 after being contracted, and further,

because the anti-channeling device also comprises a top disc 106 and a clamping spring 107, the clamping spring 107 is arranged at the center of the upper side of the bottom disc 101, the top disc 106 is fixedly connected to the upper end of the clamping spring 107, when the top box 301 is pressed into the bottom box 201, the top box 301 is pressed on the top disc 106, the clamping spring 107 is compressed downwards when the top disc 106 moves downwards, the clamping spring 107 can be clamped on the heat insulation material filled in the bottom box 201 after being contracted, and further the heat insulation material is prevented from moving relative to the bottom box 201.

Referring to fig. 1-12, an embodiment of the present invention is provided, which solves the main technical problem that a plurality of insert pins 105 are inserted on the thermal insulation material filled in the bottom case 201, and further,

because the anti-channeling device still includes inserting the post 105, a plurality of posts 105 of inserting set up in the downside of top disc 106, and a plurality of posts 105 of inserting can insert on the heat preservation material of filling in end box 201, and then further prevent that the heat preservation material from removing with respect to end box 201.

Referring to fig. 1-12, an embodiment of the present invention is provided to solve the main technical problem of preventing the top box 301 from separating from the bottom box 201 after being pressed into the bottom box 201, and further,

because insulation material still includes draw-in groove 202 and trip 303, two draw-in grooves 202 set up both sides around end box 201 respectively, the equal fixedly connected with trip 303 in both sides around the top box 301, two trip 303 can block respectively on two draw-in grooves 202, and then make the top box 301 impress in end box 201 after can not break away from end box 201.

Referring to fig. 1-12, an embodiment of the present invention is provided to solve the main technical problem of avoiding excessive accumulation of the heat insulating material at one position of the bottom case 201 when the heat insulating material is introduced, and further,

because the thermal insulation material also comprises a strip 302, a round pipe 304 and a strip hole 306, the strip hole 306 is arranged on the top box 301, the round pipe 304 is fixedly connected to the middle part of the strip 302, the round pipe 304 is transversely and slidably connected to the strip hole 306, and the strip 302 is blocked at the lower side of the top box 301. And then can insert the hose on pipe 304, then let in the heat preservation material between end box 201 and top box 301 through pressure to can drive pipe 304 and strip 302 at this moment and move about at strip hole 306 department, and then let in the different positions in end box 201 with the heat preservation material, avoid letting in the heat preservation material when heat preservation material piles up too much in end box 201 in one place.

When the heat insulation material is just introduced, the bottom box 201 and the top box 301 keep a large distance, so that the heat insulation material is conveniently filled between the bottom box 201 and the top box 301, and then the heat insulation material is compacted when the distance between the bottom box 201 and the top box 301 is reduced.

Referring to fig. 1-12, an embodiment of the present invention is provided to solve the main technical problem of preventing the fork 506 from separating from the tube 304, and further,

since the thermal insulation material further includes a stopper ring 305, the stopper ring 305 is disposed on the upper side of the circular tube 304, and the stopper ring 305 functions to prevent the shift fork 506 from being separated from the circular tube 304.

The processing method of the heat insulation material comprises the following steps:

s1: a plurality of anti-channeling devices are installed in the bottom case 201;

s2: the top box 301 is buckled on the upper side of the bottom box 201;

s3: the heat insulation substance is introduced between the bottom box 201 and the top box 301 through the round pipe 304 on the top box 301;

s4: the top box 301 is snapped into the bottom box 201 such that the top box 301 and the bottom box 201 are secured together.

Two sides of the bottom box 201 are provided with side grooves 203; the processing insulation material still uses an insulation material processingequipment, including T shape frame 501, the side pillar 502, telescopic link I503, sideslip post 504 and square column 505, the equal fixedly connected with side pillar 502 in both ends of T shape frame 501, the equal transversely sliding connection in upper portion of two side pillars 502 has sideslip post 504, the equal fixedly connected with square column 505 in inner of two sideslip posts 504, equal fixedly connected with telescopic link I503 on two side pillars 502, the movable end of two telescopic link I503 is fixed connection respectively in the outer end of two sideslip posts 504, two square columns 505 press from both sides respectively on the side channel 203 of end box 201 both sides.

Telescopic link I503 can drive corresponding sideslip post 504 horizontal slip when flexible, and then drives two square columns 505 and be close to each other simultaneously or keep away from, and then makes two square columns 505 press from both sides respectively and erect end box 201 in the left and right sides of end box 201, and square column 505 inserts and can improve the combination degree between square column 505 and the end box 201 in the side channel 203.

The heat-insulating material processing device further comprises a shifting fork 506, a vertical shaft 507, a sliding seat 508 and a telescopic rod II509, the sliding seat 508 is vertically connected to the middle of the T-shaped frame 501 in a sliding mode, the telescopic rod II509 is fixedly connected to the middle of the T-shaped frame 501, the movable end of the telescopic rod II509 is fixedly connected to the sliding seat 508, the vertical shaft 507 driven by a servo motor is arranged on the sliding seat 508, the shifting fork 506 is arranged on the upper portion of the vertical shaft 507 and inserted on the circular tube 304, and the shifting fork 506 is located between the top box 301 and the retainer ring 305.

Can drive shift fork 506 forward or reverse rotation when servo motor driven vertical axis 507 rotates, and then drive pipe 304 and strip 302 and remove about strip hole 306 department, and then let in the different positions in end box 201 with the heat preservation material, heat preservation material piles up too much in end box 201 in one place when avoiding letting in the heat preservation material. And when the telescopic rod II509 is lifted, the sliding seat 508 can be driven to lift, so that the shifting fork 506 is driven to lift, when the shifting fork 506 is lifted, the circular tube 304 and the top box 301 can be driven to move up and down, so that the top box 301 is driven to be inserted into the bottom box 201 or pulled out of the bottom box 201.

The heat insulation material processing device further comprises a support 401, V-shaped frames 402, spring sleeve columns 403, a transverse shaft 404 and a gear 405, the middle of the transverse shaft 404 is rotatably connected to the support 401, the gear 405 is arranged on the transverse shaft 404, the V-shaped frames 402 are fixedly connected to the left end and the right end of the transverse shaft 404, the spring sleeve columns 403 in the front-back direction are arranged on the upper portions of the two V-shaped frames 402, the T-shaped frame 501 is slidably connected to the two spring sleeve columns 403 in the front-back direction, two compression springs are sleeved on each spring sleeve column 403, and the two compression springs on the same spring sleeve column 403 are located on the front side and the back side of the T-shaped frame 501 respectively.

Can drive cross axle 404 and gear 405 rotation through outside driving gear, and then drive two V-arrangement frame 402 luffing motion, at this moment T shape frame 501 can slide around on two spring sleeve posts 403 through inertia for T shape frame 501 swings the relative spring sleeve post 403 in limit and slides, and then makes the heat preservation material rock in end box 201, makes the heat preservation material evenly fill in end box 201, and the compression spring of every spring sleeve post 403 both sides can help T shape frame 501 to get back to the middle part position of two spring sleeve posts 403.

Claims

1. An insulation material, includes end box (201), top box (301) and prevents scurrying the device, its characterized in that: the bottom box (201) is filled with heat preservation materials, the top box (301) is buckled on the bottom box (201), and a plurality of anti-channeling devices are arranged in the bottom box (201).

2. An insulating material according to claim 1, characterized in that: the heat-insulating material is one or more of rock wool and glass wool.

3. An insulating material according to claim 1, characterized in that: the anti-channeling device comprises a bottom disc (101), double-head hooks (103) and stand columns (104), wherein the bottom disc (101) is provided with a plurality of stand columns (104), and the stand columns (104) are provided with the double-head hooks (103).

4. A thermal insulation material according to claim 3, characterized in that: the anti-channeling device further comprises a threaded column (102), the threaded column (102) is fixedly connected to the lower side of the bottom disc (101), the threaded column (102) is inserted into the lower side of the bottom box (201), and the lower end of the threaded column (102) is connected with a nut through threads.

5. An insulating material according to claim 4, characterised in that: the anti-channeling device further comprises a top disc (106) and a clamping spring (107), the clamping spring (107) is arranged in the center of the upper side of the bottom disc (101), and the top disc (106) is fixedly connected to the upper portion of the clamping spring (107).

6. An insulating material according to claim 5, characterised in that: the anti-channeling device further comprises inserting columns (105), and a plurality of inserting columns (105) are annularly arranged on the lower side of the top disc (106).

7. An insulating material according to claim 6, characterised in that: the heat insulation material further comprises clamping grooves (202) and clamping hooks (303), the clamping grooves (202) are formed in the front side and the rear side of the bottom box (201), the clamping hooks (303) are arranged on the front side and the rear side of the top box (301), and the two clamping hooks (303) can be clamped on the two clamping grooves (202) respectively.

8. An insulating material according to claim 7, characterized in that: the heat insulation material further comprises a strip sheet (302), a round pipe (304) and a strip hole (306), the strip hole (306) is formed in the top box (301), the round pipe (304) is transversely connected to the strip hole (306) in a sliding mode, the strip sheet (302) is arranged on the lower side of the round pipe (304), and the strip sheet (302) is blocked on the lower side of the top box (301).

9. An insulating material according to claim 8, characterised in that: the heat insulation material further comprises a retaining ring (305), and the retaining ring (305) is arranged on the upper side of the circular tube (304).

10. An insulating material according to claim 9, characterised in that: the processing method of the heat insulation material comprises the following steps:

s1: installing a plurality of anti-channeling devices in the bottom box (201);

s2: the top box (301) is buckled on the upper side of the bottom box (201);

s3: the heat insulation material is introduced between the bottom box (201) and the top box (301) through a round pipe (304) on the top box (301);

s4: the top box (301) is clamped in the bottom box (201) so that the top box (301) and the bottom box (201) are fixed.