CN113529989A - Clean and environment-friendly heat preservation engineering device - Google Patents

Abstract

The invention discloses a clean and environment-friendly heat preservation engineering device which comprises a main board, wherein an installation mechanism and a heat insulation mechanism are installed on the main board, a convex lens is fixedly installed on the main board through an outer side plate, a dust removal mechanism is installed on the outer side plate, a heat accumulation plate, a wave heat insulation plate and a fixing plate are fixedly installed in the main board, a heat accumulation plate is fixedly installed between the heat accumulation plate and the fixing plate through a heat conduction plate, the heat accumulation plate is located at the lower part of the convex lens, a heat release plate is fixedly installed on the heat accumulation plate through a heat conduction column, two rotating rods are installed in the main board through a moving mechanism, and a plurality of memory alloy rods are fixedly installed on the fixing plate. Has the advantages that: the solar energy heat preservation device has the advantages that heat energy is generated through sunlight irradiation, the characteristic of the temperature difference between the inside and the outside of a structure is utilized to store the heat energy, the heat energy can be conducted to the inside of the structure to be heated, a good heat preservation effect can be achieved, no harmful substance is generated in the whole heat preservation and heating process, and the solar energy heat preservation device is clean and environment-friendly.

Description

Clean and environment-friendly heat preservation engineering device

Technical Field

The invention relates to the technical field of heat preservation engineering, in particular to a clean and environment-friendly heat preservation engineering device.

Background

The heat preservation engineering is an engineering for preventing the heat energy of a structure from dissipating by arranging a heat preservation device on the structure, and through retrieval, the Chinese patent with the patent number of CN109322414A discloses an environment-friendly heat preservation engineering device which comprises a bonding layer, wherein the bonding layer is arranged on a wall body, the bonding layer is also provided with a heat preservation layer, a transition layer and a decorative layer from inside to outside, two opposite sides of the decorative layer are provided with grooves, sealing strips capable of sealing the grooves are extruded on the top surfaces of the grooves, a bottom coating agent is coated on the lower bottom surfaces of the sealing strips, locking pieces are clamped at the positions of the grooves, the lower parts of the locking pieces are connected with anchoring pieces through connecting pieces, and the lower parts of the anchoring pieces are arranged on the wall body through the fastening pieces;

the above device also has the following disadvantages when in use:

1. the existing device has a simple structure, only adopts a temperature isolation mode for heat preservation, and the heat preservation mode has single function, poor heat preservation effect and poor heat preservation performance;

2. the existing device cannot utilize the temperature difference outside the structure, cannot generate heat energy by itself and cannot automatically heat the inside of the structure;

3. the existing device cannot utilize and store external sunlight in the daytime and cannot automatically heat a structure at night, and the device has certain limitations;

therefore, it is necessary to design a clean and environment-friendly heat-preservation engineering device to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a clean and environment-friendly heat-insulation engineering device.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a heat preservation engineering device of clean environmental protection, includes the mainboard, install installation mechanism and thermal-insulated mechanism on the mainboard, there is convex lens through outer panel fixed mounting on the mainboard, and installs dust removal mechanism on the outer panel, fixed mounting has heat accumulation board, wave heat insulating board, fixed plate in the mainboard, and has a heat accumulation dish through heat-conducting plate fixed mounting between heat accumulation board and the fixed plate, and gathers the lower part that the heat dish is located convex lens, there is a heat release plate through heat conduction post fixed mounting on the heat accumulation board, install two bull sticks through moving mechanism in the mainboard, fixed mounting has a plurality of memory alloy poles on the fixed plate, and equal fixed mounting has the lantern ring with corresponding bull stick matched with on every memory alloy pole, two install friction mechanism between bull stick and the heat accumulation board.

Further, the moving mechanism comprises two limiting plates fixedly mounted on the main board, two sliding blocks are mounted on the limiting plates through matching of limiting grooves and limiting blocks in a sliding mode, and the two rotating rods are respectively rotatably mounted between the two corresponding sliding blocks.

Further, the friction mechanism comprises a plurality of friction plates fixedly mounted on the heat storage plate, the friction plates are matched with the heat storage plate, a plurality of friction rollers are fixedly mounted on the rotating rod, and the friction rollers are extruded and attached to the corresponding friction plates.

Furthermore, the outer side surface of the outer side plate is set to be black, the inner side surface of the outer side plate is obliquely arranged, and the bottom end of the inner side surface of the outer side plate is fixedly installed on the heat conducting plate.

Further, installation mechanism includes well position board, two side splint of fixed mounting on the mainboard, and well position board and two side splint are located the both sides of mainboard respectively and the two is mutually supported, all set up threaded hole between well position board and two side splint.

Further, heat-proof mechanism includes fixed mounting at the inboard box of mainboard lower part, fixed mounting has two heated boards in the inboard box, and is provided with vacuum thermal-protective coating between two heated boards.

Further, dust removal mechanism is including seting up two vertical grooves, a plurality of side ways and the arc wall on the outer panel, and a plurality of side ways, arc wall communicate with two vertical grooves mutually respectively, two equal slidable mounting in the vertical groove has from the release link, and two all rotate from the release link and install the collection box, two the ash discharging structure is all installed to the vertical inslot.

Further, arrange grey structure and include the ash pipe of fixed mounting between vertical groove bottom and outer panel, equal fixedly connected with reset spring rope between the upper portion of collecting the box and the roof in vertical groove, vertical inslot fixed mounting have with collecting box matched with upset pole.

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

1: this device can collect and save the outside light heat energy of structure with sunshine shines during the daytime to automatically give off the heat energy of storage to the inside of structure when night, can carry out the self-heating intensification to the inside of structure night.

2: this device adopts two wave thermal-insulated boards, two heated boards and the mode of vacuum insulating layer mutually supporting can play better thermal-insulated heat retaining effect, can effectively avoid the inside heat energy of structure to give off to the outside of structure.

3: the device can utilize the temperature difference between the inside and the outside of a structure, utilize the characteristic that the memory alloy rod deforms due to the change of temperature, and utilize the matching of a plurality of structures in the device to generate mechanical heat energy for storage and release, thereby further playing a role in heat preservation.

In conclusion, the solar energy heat preservation device can store heat energy by using the characteristics of heat energy generated by sunlight irradiation and temperature difference between the inside and the outside of the structure, can conduct the heat energy to the inside of the structure for heating, can play a good heat preservation role, does not generate harmful substances in the whole heat preservation and heating process, and is clean and environment-friendly.

Drawings

Embodiments of the invention are described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic structural diagram of a clean and environment-friendly heat-preservation engineering device provided by the invention;

FIG. 2 is a schematic view of the structure of FIG. 1 rotated by a certain angle;

FIG. 3 is a schematic diagram of an internal structure of the motherboard shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the inner case of FIG. 3;

FIG. 5 is a schematic view of a connection structure between the convex lens and the heat storage plate in FIG. 3;

FIG. 6 is an enlarged view of the two limiting plates and a portion of the connection structure therebetween shown in FIG. 3;

FIG. 7 is a schematic view of a connection structure between the outer plate and the upper portion of the outer plate in FIG. 3;

fig. 8 is a side view of the positional relationship between the collection cassette and the flip bar of fig. 7.

In the figure: the heat-insulating plate comprises a main plate 1, a middle plate 2, a side clamping plate 3, a threaded hole 4, an outer plate 5, a convex lens 6, an inner box 7, a heat-releasing plate 8, a heat-accumulating plate 9, a wave heat-insulating plate 10, a limiting plate 11, a heat-insulating plate 12, a vacuum heat-insulating layer 13, a fixing plate 14, a heat-conducting column 15, a heat-collecting plate 16, a memory alloy rod 17, a sliding block 18, a rotating rod 19, a lantern ring 20, a friction roller 21, a friction plate 22, a vertical groove 23, an arc groove 24, a side groove 25, a collection box 26, a return spring rope 27, an ash discharge pipe 28, an overturning rod 29 and a self-return rod 30.

Detailed Description

Referring to fig. 1 and 4, a clean and environment-friendly heat preservation engineering device comprises a main board 1, wherein a mounting mechanism and a heat insulation mechanism are mounted on the main board 1, and a convex lens 6 is fixedly mounted on the main board 1 through an outer side plate 5;

the following points are notable:

1. the main board 1 is mounted on a structure with the outer side board 5 on the outer side of the structure and the inner box 7 on the inner side of the structure.

2. Installation mechanism includes well position board 2 of fixed mounting on mainboard 1, two side splint 3, and well position board 2 and two side splint 3 are located mainboard 1's both sides respectively and the two is mutually supported, all set up threaded hole 4 between well position board 2 and two side splint 3, well position board 2 can cooperate with two side splint 3, when carrying out the installation of a plurality of mainboards 1, can be with on 2 blocks of well position board on one mainboard 1 to two side splint 3 on another mainboard 1, reuse a plurality of positioning bolt pass on well position board 2 and two side splint 3, can fix between two mainboards 1.

3. The heat insulation mechanism comprises an inner side box 7 fixedly installed on the lower portion of the main board 1, two heat insulation boards 12 are fixedly installed in the inner side box 7, a vacuum heat insulation layer 13 is arranged between the two heat insulation boards 12, the two heat insulation boards 12 are matched with the vacuum heat insulation layer 13 to achieve a good heat insulation effect, and the temperature inside the structure can be effectively prevented from losing.

Referring to fig. 2-3 and 5, a heat storage plate 9, a wave heat insulation plate 10 and a fixing plate 14 are fixedly installed in the main plate 1, a heat collecting disc 16 is fixedly installed between the heat storage plate 9 and the fixing plate 14 through a heat conducting plate, the heat collecting disc 16 is located at the lower part of the convex lens 6, and a heat releasing plate 8 is fixedly installed on the heat storage plate 9 through a heat conducting column 15;

the above points are noteworthy as follows:

1. when sunshine is penetrated directly daytime, sunshine shines and to gather on heat dish 16 because convex lens 6's spotlight nature when being on convex lens 6, gathers heat dish 16 and can heat up when receiving direct irradiation, gathers heat dish 16 and can pass through the heat-conducting plate conduction to heat accumulation board 9 with heat energy when heating up promptly, and heat accumulation board 9 can store the heat this moment promptly.

2. At night, the temperature inside the structure is reduced, the temperature of the heat release plate 8 is reduced, the heat energy stored in the heat storage plate 9 is conducted into the heat release plate 8 through the heat conduction columns 15 by utilizing the heat energy from high to low conduction characteristic, the heat energy on the heat release plate 8 is dissipated into the structure, the temperature inside the structure is increased, and the phase change effect of heat preservation is achieved.

3. The lateral surface of outer panel 5 sets up to the black, and the medial surface of outer panel 5 sets up for the slope, and the bottom fixed mounting of medial surface on outer panel 5 on the heat-conducting plate, and black outer panel 5 has better light absorption nature, and it can produce heat energy when receiving sunshine irradiation, and heat energy can be conducted to heat accumulation board 9 in through the heat-conducting plate in, can accelerate the speed that heat accumulation board 9 stored heat energy.

Referring to fig. 6-8, two rotating rods 19 are installed in the main plate 1 through a moving mechanism, a plurality of memory alloy rods 17 are fixedly installed on the fixed plate 14, a lantern ring 20 matched with the corresponding rotating rod 19 is fixedly installed on each memory alloy rod 17, and a friction mechanism is installed between the two rotating rods 19 and the heat storage plate 9;

the above points are noteworthy as follows:

1. the moving mechanism comprises two limiting plates 11 fixedly mounted on the main board 1, two sliding blocks 18 are mounted on the two side plates 11 through matching of limiting grooves and limiting blocks in a sliding mode, two rotating rods 19 are respectively rotatably mounted between the two corresponding sliding blocks 18, and the moving mechanism is used for enabling the rotating rods 19 to horizontally slide between the two limiting plates 11 relatively and cannot deviate or incline when moving.

2. Because the heat insulation effect of inside box 7 for the structure inside and outside can have certain temperature difference, when the structure outside temperature is lower, low temperature can conduct to memory alloy pole 17 department, makes the near temperature of memory alloy pole 17 reduce, utilizes memory alloy pole 17 to be in extension state, the characteristic that can contract under the low temperature at normal atmospheric temperature for memory alloy pole 17 can contract when cooling down, so that carry out subsequent operation.

3. Friction mechanism includes a plurality of friction plates 22 of fixed mounting on heat accumulation plate 9, and friction plate 22 cooperatees with heat accumulation plate 9, equal fixed mounting has a plurality of friction rollers 21 on two bull sticks 19, and a plurality of friction rollers 21 all extrude the laminating mutually with corresponding friction plate 22, can pull lantern ring 20 when memory alloy pole 17 contracts and move, can pull bull stick 19 when lantern ring 20 moves and carry out horizontal migration, and can rotate when bull stick 19 moves, thereby can drive friction roller 21 and carry out horizontal migration and rotation, friction roller 21 moves when can with corresponding friction plate 22 between rotational friction, thereby can produce friction heat energy, friction heat energy part can be conducted and store in heat accumulation plate 9, part can be lost to mainboard 1 in, thereby heat memory alloy pole 17 and make its extension, so that contract once more.

4. The outer side plate 5 is provided with a dust removing mechanism, the dust removing mechanism comprises two vertical grooves 23, a plurality of side grooves 25 and an arc-shaped groove 24 which are arranged on the outer side plate 5, the side grooves 25 and the arc-shaped groove 24 are respectively communicated with the two vertical grooves 23, self-resetting rods 30 are slidably arranged in the two vertical grooves 23, and collecting boxes 26 are rotatably arranged on the two self-resetting rods 30;

because the outer panel 5 is located outside the structure, dust can be accumulated on the upper portion of the outer panel 5 after long-term accumulation, the dust falling on the outer panel 5 can fall into the collecting boxes 26 in the two vertical grooves 23 through the arc-shaped grooves 24 and the side grooves 25, automatic collection can be carried out on the dust, and the dust not falling into the collecting boxes 26 can directly fall to the bottoms of the vertical grooves 23, and can be directly discharged through the vertical grooves 23.

5. The two vertical grooves 23 are internally provided with an ash discharging structure, the ash discharging structure comprises an ash discharging pipe 28 fixedly arranged between the bottom of the vertical groove 23 and the outer side plate 5, the upper part of the collecting box 26 and the top wall of the vertical groove 23 are fixedly connected with a return spring rope 27, the vertical groove 23 is internally fixedly provided with an overturning rod 29 matched with the collecting box 26, when the dust in the collecting box 26 gradually increases, the weight of the dust can be increased, and the collecting box 26 can be pressed to descend in the vertical groove 23;

when the collecting box 26 descends to contact with the turning rod 29, the collecting box 26 is blocked by the turning rod, and then the collecting box 26 turns over by taking the self-resetting rod 30 as an axis, so that the dust in the collecting box 26 falls to the bottom of the vertical groove 23 and is discharged through the dust discharging pipe 28;

the collection box 26 can stretch the return spring rope 27 when descending, and after the dust in the collection box 26 was poured out, the lower tension that the return spring rope 27 received reduced can contract automatically and reset promptly to can stimulate the collection box 26 and rise to reset, and can separate with upset pole 29 when collecting the box 26 and rising, the collection box 26 can be at this moment from automatic re-setting under the effect of reset lever 30 and just right to be convenient for carry out the recollection of dust again.

Claims (8)

1. The utility model provides a clean environmental protection's heat preservation engineering device, includes mainboard (1), its characterized in that, install installation mechanism and heat-proof mechanism on mainboard (1), there are convex lens (6) through outer panel (5) fixed mounting on mainboard (1), and install dust removal mechanism on outer panel (5), fixed mounting has heat accumulation plate (9), wave heat insulating board (10), fixed plate (14) in mainboard (1), and has heat gathering dish (16) through heat-conducting plate fixed mounting between heat accumulation plate (9) and fixed plate (14), and heat gathering dish (16) are located the lower part of convex lens (6), there are exothermic plate (8) through heat conduction post (15) fixed mounting on heat accumulation plate (9), install two bull sticks (19) through moving mechanism in mainboard (1), fixed mounting has a plurality of memory alloy poles (17) on fixed plate (14), and each memory alloy rod (17) is fixedly provided with a lantern ring (20) matched with the corresponding rotating rod (19), and a friction mechanism is arranged between the two rotating rods (19) and the heat storage plate (9).

2. A clean and environment-friendly heat preservation engineering device according to claim 1, characterized in that the moving mechanism comprises two limiting plates (11) fixedly mounted on the main board (1), two sliding blocks (18) are slidably mounted on the two limiting plates (11) through matching of limiting grooves and limiting blocks, and two rotating rods (19) are respectively rotatably mounted between the two corresponding sliding blocks (18).

3. A clean and environment-friendly engineering heat preservation device according to claim 1, characterized in that the friction mechanism comprises a plurality of friction plates (22) fixedly installed on the heat accumulation plate (9), the friction plates (22) are matched with the heat accumulation plate (9), a plurality of friction rollers (21) are fixedly installed on both the rotating rods (19), and the friction rollers (21) are pressed and jointed with the corresponding friction plates (22).

4. A clean and environment-friendly heat-insulating engineering device as claimed in claim 1, characterized in that the outer side of the outer side plate (5) is black, the inner side of the outer side plate (5) is inclined, and the bottom end of the inner side of the outer side plate (5) is fixedly mounted on the heat-conducting plate.

5. The clean and environment-friendly heat preservation engineering device as claimed in claim 1, wherein the mounting mechanism comprises a middle plate (2) and two side clamping plates (3) fixedly mounted on the main plate (1), the middle plate (2) and the two side clamping plates (3) are respectively located at two sides of the main plate (1) and are matched with each other, and threaded holes (4) are formed between the middle plate (2) and the two side clamping plates (3).

6. A clean and environment-friendly heat preservation engineering device according to claim 1, characterized in that the heat insulation mechanism comprises an inner box (7) fixedly installed at the lower part of the main board (1), two heat preservation boards (12) are fixedly installed in the inner box (7), and a vacuum heat insulation layer (13) is arranged between the two heat preservation boards (12).

7. The clean and environment-friendly heat preservation engineering device according to claim 1, characterized in that the dust removing mechanism comprises two vertical grooves (23), a plurality of side grooves (25) and an arc-shaped groove (24) which are arranged on the outer side plate (5), the side grooves (25) and the arc-shaped groove (24) are respectively communicated with the two vertical grooves (23), the self-resetting rods (30) are slidably arranged in the two vertical grooves (23), the two self-resetting rods (30) are rotatably arranged on the two self-resetting rods (30), and the dust discharging structures are arranged in the two vertical grooves (23).

8. A clean and environment-friendly heat preservation engineering device according to claim 7, characterized in that the ash discharge structure comprises an ash discharge pipe (28) fixedly installed between the bottom of the vertical groove (23) and the outer side plate (5), a return spring rope (27) is fixedly connected between the upper part of the collection box (26) and the top wall of the vertical groove (23), and a turning rod (29) matched with the collection box (26) is fixedly installed in the vertical groove (23).

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