CN218485182U - Energy-saving and consumption-reducing component of distiller - Google Patents

Abstract

The utility model discloses a distiller energy-saving consumption-reducing component, which comprises a component main body, wherein one side of the component main body is provided with an opening, a through groove is arranged near the opening side, the inner side of the through groove is connected with a replaceable sealing component in a sliding way, the sealing component comprises two sliding plates, a reset mechanism and a notch matched with the extending end of the distiller are arranged between the two sliding plates, and the reset mechanism comprises a fixed block and a spring; the mounting groove has been seted up to the inboard of subassembly main part, and the inboard of mounting groove is provided with energy saving and consumption reduction mechanism, and energy saving and consumption reduction mechanism is including thermoelectric element, the inboard bottom fixedly connected with mounting panel of subassembly main part, the upside fixedly connected with charging device of mounting panel, and charging device's inboard is pegged graft and is had the battery. The opening of the energy-saving consumption-reducing component of the distiller is provided with the replaceable sealing component, so that the opening can be sealed after the energy-saving consumption-reducing component is placed into the distiller in various shapes, heat can be absorbed efficiently, and energy and consumption are saved.

Description

Energy-saving and consumption-reducing component of distiller

Technical Field

The utility model relates to an energy saving and consumption reduction technical field specifically is an energy saving and consumption reduction subassembly of distiller.

Background

Distillation is a thermodynamic separation process that utilizes the difference in boiling points of components in a mixed liquid or liquid-solid system to vaporize lower boiling components and recondense to separate the entire component, a combination of both vaporization and condensation unit operations. Compared with other separation means, such as extraction, filtration crystallization and the like, the method has the advantage that other solvents except the system components are not required, thereby ensuring that no new impurities are introduced.

However, the existing distiller can be heated when in use, a large amount of electric energy can be consumed, and then the distiller can be put into the energy-saving and consumption-reducing component of the distiller to work, and the energy-saving and consumption-reducing component of the distiller can absorb heat emitted by the distiller and convert the electric energy to supply power for the distiller.

However, the existing energy saving and consumption reducing component of the distiller has certain disadvantages in use, firstly, the whole component cannot be closed after the existing energy saving and consumption reducing component of the distiller is placed into the distiller, and a large amount of heat is dissipated, and secondly, the energy saving and consumption reducing effect of the existing energy saving and consumption reducing component of the distiller is poor, so that the energy saving and consumption reducing component of the distiller is provided.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, the utility model provides a distiller energy saving and consumption reduction subassembly, the opening part of this kind of distiller energy saving and consumption reduction subassembly is equipped with replaceable seal assembly for this energy saving and consumption reduction subassembly can both seal the opening after putting into the distiller of various shapes, possesses the heat that prevents that the distiller from giving off and scatters and lose too much and the inside advantage of carrying out high-efficient energy saving and consumption reduction of being convenient for.

In order to achieve the above purpose, the utility model provides a following technical scheme: an energy-saving consumption-reducing component of a distiller comprises a component main body, wherein one side of the component main body is provided with an opening, a through groove is formed in the side close to the opening side, the inner side of the through groove is connected with a replaceable sealing component in a sliding mode, the sealing component comprises two sliding plates, a reset mechanism and a notch matched with the extending end of the distiller are arranged between the two sliding plates, and the reset mechanism comprises a fixed block and a spring; the utility model discloses an assembly, including subassembly main part, installation groove, energy saving and consumption reduction mechanism, the inboard of subassembly main part has been seted up the mounting groove, the inboard of mounting groove is provided with energy saving and consumption reduction mechanism, energy saving and consumption reduction mechanism is including thermoelectric element, the inboard bottom fixedly connected with mounting panel of subassembly main part, the upside fixedly connected with charging device of mounting panel, the inboard of charging device is pegged graft and is had the battery.

In the above technical solution, preferably, the outer sides of the two sliding plates are fixedly connected with handles.

In the above technical scheme, preferably, the fixed blocks and the sliding plate are fixedly connected, the fixed blocks are arranged in a plurality of groups and symmetrically, and the springs are fixedly connected with the fixed blocks.

In the above technical solution, preferably, the number of the mounting grooves is a plurality of groups and is arranged annularly, and the thermoelectric element is fixedly connected with the module main body.

In the above technical solution, preferably, an electric conduit is fixedly connected between the charging device and the thermoelectric element, and the thermoelectric element and the charging device are electrically connected through the electric conduit.

In the above technical scheme, preferably, the inboard bottom fixedly connected with support column of subassembly main part, and the quantity of support column be four groups and be the annular and arrange, the board is placed to the upside fixedly connected with of support column, the support column, place the board and can be used for placing and support the distiller, the interface has been seted up to the outside bottom of subassembly main part, the interface can be connected with the distiller, also can be connected with other power consumption devices simultaneously, the outside fixedly connected with control panel of subassembly main part, and control panel and thermoelectric element, charging device electrically conductive connection.

Compared with the prior art, the beneficial effects of the utility model are that: this energy saving and consumption reduction subassembly of distiller, through leading to groove, slide and spring, when using, to both sides pulling slide, clearance between the slide can the grow, can put the distiller this moment on the inside board of placing of subassembly main part, loosens the slide again, and the breach of slide is aimed at and is pressed from both sides tight distiller and seal the opening, and the heat that makes the distiller send mostly stays inside the subassembly main part, can not distribute easily. The seal assembly can be pulled out completely from one side, so that replacement is realized, the seal assembly with different notches can be adapted to distillers with various shapes, and the opening can be sealed after the energy-saving and consumption-reducing assembly is placed into the distillers with various shapes.

This energy saving and consumption reduction subassembly of distiller, through thermoelectric element, charging device and battery, when the distiller moves in the inside of subassembly main part, can produce great heat, lead to the inside temperature of subassembly main part to rise sharply, the inside thermoelectric element of subassembly main part can absorb these heats this moment, turn into the electric energy with it through internal installation, transmit to charging device through the electric conduit on, charge for the battery, thereby store on the battery, then through the interface, can be connected with the distiller, also can be connected with other power consumption devices simultaneously, can provide the electric energy for them, high-efficient energy saving and consumption reduction's effect has been reached like this.

Drawings

Fig. 1 is a schematic view of the overall structure of the two sliding plates according to the embodiment of the present invention when they are pulled apart.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is a schematic view of a first internal structure of the present invention.

Fig. 4 is an enlarged view of B in fig. 3.

Fig. 5 is a schematic diagram of a second internal structure of the present invention.

Fig. 6 is an enlarged view of C in fig. 5.

In the figure: 1. a component body; 2. a through groove; 3. a slide plate; 4. a notch; 5. a handle; 6. a fixed block; 7. a spring; 8. mounting grooves; 9. a thermoelectric element; 10. mounting a plate; 11. a charging device; 12. a storage battery; 13. an electrical conduit; 14. a support pillar; 15. placing a plate; 16. an interface; 17. a control panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the utility model provides an energy saving and consumption reduction assembly for distiller, which comprises an assembly body 1, wherein a through groove 2 is arranged at the outer side of the assembly body 1, a replaceable sealing assembly is slidably connected at the inner side of the through groove 2, the sealing assembly comprises two sliding plates 3, a reset mechanism and a gap 4 matched with the extending end of the distiller are arranged between the two sliding plates 3, and the reset mechanism comprises a fixed block 6 and a spring 7; mounting groove 8 has been seted up to the inboard of subassembly main part 1, the inboard of mounting groove 8 is provided with energy saving and consumption reduction mechanism, energy saving and consumption reduction mechanism is including thermoelectric element 9, inboard bottom fixedly connected with mounting panel 10 of subassembly main part 1, the upside fixedly connected with charging device 11 of mounting panel 10, the inboard of charging device 11 is pegged graft and is had battery 12, the quantity that leads to groove 2 is two sets of and is the symmetry and arranges, and lead to groove 2 and be close to the open-top department of subassembly main part 1, in this embodiment, two breach 4 are semi-circular, two breach 4 are closed back and the appearance matching of distiller's stretched-in end, removable seal assembly that has different shape breach 4 as required, seal assembly can follow one side and pull out completely, thereby realize changing, the seal assembly that possesses different breachs can adapt to the distiller of various different shapes, make this energy saving and consumption reduction assembly can both seal the opening after putting into the distiller of various shapes, the outside fixedly connected with handle 5 of two slides 3, be fixed connection between fixed block 6 and slide 3, and the quantity of fixed block 6 is a plurality of groups and is the symmetry and arranges, be fixed connection between spring 7 and the fixed block 6.

Above-mentioned distiller energy saving and consumption reduction subassembly theory of operation is, through leading to groove 2, slide 3 and spring 7, when using, hand power handle 5, pull out slide 3 from leading to the inslot 2, can extend spring 7 this moment, open 1 upper end of subassembly main part simultaneously, can put the distiller on 1 inside board 15 of placing of subassembly main part this moment, loosen handle 5 again, because spring 7's characteristic, can drive slide 3 and reset, seal subassembly main part 1, breach 4 of two sets of slides 3 can form a circular distiller upper end pipeline of being convenient for simultaneously and pass through, the design can make the heat that the distiller sent mostly stay inside subassembly main part 1, can not distribute easily.

The quantity of mounting groove 8 is a plurality of groups and is the annular and arrange, be fixed connection between thermoelectric element 9 and the subassembly main part 1, charging device 11, equal fixedly connected with electric conduit 13 between the thermoelectric element 9, and through electric conduit 13 conductive connection between thermoelectric element 9 and the charging device 11, the inboard bottom fixedly connected with support column 14 of subassembly main part 1, and the quantity of support column 14 is four groups and is the annular and arranges, board 15 is placed to the upside fixedly connected with of support column 14, it can be used for placing the support distiller to place board 15, interface 16 has been seted up to the outside bottom of subassembly main part 1, interface 16 can be connected with the distiller, also can be connected with other power consumption device simultaneously, the outside fixedly connected with control panel 17 of subassembly main part 1, and control panel 17 and thermoelectric element 9, charging device 11 conductive connection.

In this embodiment, when the distiller runs in the main assembly 1, a large amount of heat is generated to rapidly raise the temperature inside the main assembly 1 through the thermoelectric element 9, the charging device 11 and the storage battery 12, at this time, the thermoelectric element 9 inside the main assembly 1 absorbs the heat, converts the heat into electric energy through the internal device, transmits the electric energy to the charging device 11 through the electric conduit 13, charges the storage battery 12, and stores the electric energy in the storage battery 12, and then can be connected with the distiller through the interface 16 and other electric devices to provide electric energy for the electric energy, thereby achieving the effects of saving energy and reducing consumption efficiently.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A distiller energy saving and consumption reduction subassembly, includes subassembly main part (1), its characterized in that: an opening is formed in one side of the component main body (1), a through groove (2) is formed in the side close to the opening side, a replaceable sealing component is connected to the inner side of the through groove (2) in a sliding mode, the sealing component comprises two sliding plates (3), a reset mechanism and a notch (4) matched with the extending end of the distiller are arranged between the two sliding plates (3), and the reset mechanism comprises a fixed block (6) and a spring (7); the solar module is characterized in that a mounting groove (8) is formed in the inner side of the module main body (1), an energy-saving and consumption-reducing mechanism is arranged on the inner side of the mounting groove (8), the energy-saving and consumption-reducing mechanism comprises a thermoelectric element (9), a mounting plate (10) is fixedly connected to the bottom of the inner side of the module main body (1), a charging device (11) is fixedly connected to the upper side of the mounting plate (10), and a storage battery (12) is inserted into the inner side of the charging device (11).

2. The distiller of claim 1, wherein the energy saving and consumption reduction assembly comprises: the outer sides of the two sliding plates (3) are fixedly connected with handles (5).

3. The still energy saving and consumption reduction assembly according to claim 1, wherein: the fixing blocks (6) are fixedly connected with the sliding plate (3), the fixing blocks (6) are arranged in a plurality of groups and symmetrically, and the springs (7) are fixedly connected with the fixing blocks (6).

4. The distiller of claim 1, wherein the energy saving and consumption reduction assembly comprises: the number of the mounting grooves (8) is a plurality of groups and is arranged in an annular shape, and the thermoelectric elements (9) are fixedly connected with the component main body (1).

5. The still energy saving and consumption reduction assembly according to claim 1, wherein: an electric conduit (13) is fixedly connected between the charging device (11) and the thermoelectric element (9).

6. The distiller of claim 1, wherein the energy saving and consumption reduction assembly comprises: the utility model discloses a solar module, including subassembly main part (1), the inboard bottom fixedly connected with support column (14) of subassembly main part (1), and the quantity of support column (14) is four groups and is the annular and arranges, board (15) are placed to the upside fixedly connected with of support column (14), interface (16) have been seted up to the outside bottom of subassembly main part (1), the outside fixedly connected with control panel (17) of subassembly main part (1).

Images