CN215040332U - 3D printing consumable drying oven capable of reducing heat loss - Google Patents

Abstract

The utility model discloses a reduce 3D printing consumables drying cabinet of heat loss, it is including the box, the inside cavity that is equipped with of box is equipped with the insulation construction who is used for reducing the heat loss on the box. The heat preservation structure can be arranged on the inner side wall of the box body or/and on the outer surface of the box body, or on the inner side wall of the upper cover or/and on the outer surface of the upper cover, or on the inner side wall of the base or/and on the outer surface of the base. The heat preservation can be carried out by adopting a mode of coating, sponge, a double-layer structure and a heat preservation cover. The utility model has the advantages that: can reduce the heat and flow away, simple structure, with low costs, stable in structure, long service life's advantage.

Description

3D printing consumable drying oven capable of reducing heat loss

Technical Field

The utility model relates to a 3D printing consumables drying cabinet technical field.

Background

The 3D printing consumables drying cabinet technique on the market all has a problem with the technique about 3D printing consumables drying cabinet retrieves at patent document, and the heat that just heater work was sent out has a lot of heats and outwards gives off from the box when 3D printing consumables to the coiling, just there is some heat waste, does not have the use in the heating to the consumptive material, also has the waste of electric energy.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide the 3D printing consumables drying cabinet that reduces the heat and run off, it can reduce the heat and run off toward outer, simple structure, and is with low costs, stable in structure, long service life's advantage.

The utility model adopts the technical proposal that:

reduce heat loss's 3D printing consumables drying cabinet, it is equipped with the cavity including the box, the box is inside, is equipped with the insulation construction who is used for reducing heat loss on the box.

Further, the box body comprises a base and an upper cover.

The first scheme is as follows:

the heat insulation structure is a first heat insulation material layer; and a first heat-insulating material layer is arranged on the inner side wall of the box body or/and the outer surface of the box body.

Further, the first heat-insulating material layer is a first heat-insulating material coating, or a first heat-insulating cotton layer, or a first plastic heat-insulating layer; the first heat preservation material layer is an isolation conduction type heat insulation coating layer, or a reflection type heat insulation coating layer, or a radiation type heat insulation coating layer.

Furthermore, the first heat-insulating material coating is a transparent heat-insulating material coating, and the first plastic heat-insulating layer is a transparent heat-insulating layer; a gap is arranged between the first plastic heat-insulating layer and the box body.

The second scheme is as follows:

because some cases are constructed so that they include a base and an upper cover.

The heat insulation structure is a second heat insulation material layer; and a second heat-insulating material layer is arranged on the inner side wall of the upper cover or/and the outer surface of the upper cover.

Further, the second heat-insulating material layer is a second heat-insulating material coating, or a second heat-insulating cotton layer, or a second plastic heat-insulating layer; the second heat preservation material layer is an isolated conduction type heat insulation coating layer, or a reflection type heat insulation coating layer, or a radiation type heat insulation coating layer.

In the third scheme:

because some cases are constructed so that they include a base and an upper cover.

The heat insulation structure is a third heat insulation material layer; a third heat-insulating material layer is arranged on the inner side wall of the base or/and the outer surface of the base; the third heat-insulating material layer is a third heat-insulating material coating, or a third heat-insulating cotton layer, or a third plastic heat-insulating layer; the third heat preservation material layer is that the first heat preservation material layer is an isolated conduction type heat insulation coating layer, or a reflection type heat insulation coating layer, or a radiation type heat insulation coating layer.

The fourth scheme is as follows:

the heat preservation structure is a heat preservation cover, the heat preservation cover is formed by sewing and splicing cloth materials, the heat preservation cover wraps the outer portion of the upper cover, and the heat preservation cover is provided with a wire outlet hole.

The first heat-insulating material coating, the second heat-insulating material layer and the third heat-insulating material layer are all heat-insulating material coatings on the market, have no other special requirements, and can be purchased on the market. The first heat-preservation cotton layer, the second heat-preservation cotton layer and the third heat-preservation cotton layer are all heat-preservation cotton layers made of sponge. Or the first plastic heat-insulating layer, the second plastic heat-insulating layer and the third plastic heat-insulating layer are all made of plastic materials the same as the upper cover material and are matched with the box body to form a double-layer structure, and the inside of the double-layer structure can be filled with air, can also be in a vacuum state and can also be filled with inert gas. The inert gas is heat-insulating inert gas and plays a role in heat insulation.

The first heat-insulating material coating, the second heat-insulating material layer and the third heat-insulating material layer are collectively called heat-insulating material layers; the first heat insulation cotton layer, the second heat insulation cotton layer and the third heat insulation cotton layer are collectively called as heat insulation cotton layers; the first plastic heat-insulating layer, the second plastic heat-insulating layer and the third plastic heat-insulating layer are collectively called plastic heat-insulating layers.

Namely, the heat insulation effect is achieved through the blocking conduction, or the heat insulation effect is achieved through the reflection effect, or the heat insulation effect is achieved through the radiation, the heat loss is reduced, the energy-saving effect is achieved, and the influence of heating on the indoor environment temperature is reduced, especially in hot summer.

Generally, install the heater inside the cavity, then install 3D printing consumables inside the cavity, generate heat through controller control heater, the heat heats 3D printing consumables, disperses the inside moisture of 3D printing consumables out for 3D printing consumables's water content is lower, in order to improve the printing effect, avoids printing the bubble.

The utility model has the advantages that: can reduce the heat and flow away, simple structure, with low costs, stable in structure, long service life's advantage.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of the second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a third embodiment of the present invention;

fig. 4 is a schematic structural principle diagram of a fourth aspect of the present invention.

Detailed Description

As shown in fig. 1 to 4, the utility model discloses reduce 3D printing consumables drying cabinet of heat loss, it is including box 1, the inside cavity 2 that is equipped with of box 1 is equipped with the insulation construction who is used for reducing the heat loss on the box 1.

The case 1 includes a base 11 and an upper cover 12.

The heat insulation structure is a first heat insulation material layer 31; the inner side wall of the box body 1 or/and the outer surface of the box body 1 are/is provided with a first heat-insulating material layer 31.

The first heat-insulating material layer 31 is a first heat-insulating material coating, or a first heat-insulating cotton layer, or a first plastic heat-insulating layer; the first thermal insulation material layer 31 is an insulating and conducting type thermal insulation coating layer, or a reflective type thermal insulation coating layer, or a radiation type thermal insulation coating layer.

The first heat-insulating material coating is a transparent heat-insulating material coating, and the first plastic heat-insulating layer is a transparent heat-insulating layer; a gap is arranged between the first plastic heat-insulating layer and the box body 1.

The heat insulation structure is a second heat insulation material layer 32; and a second heat-insulating material layer 32 is arranged on the inner side wall of the upper cover 12 or/and the outer surface of the upper cover 12.

The second heat-insulating material layer 32 is a second heat-insulating material coating, or a second heat-insulating cotton layer, or a second plastic heat-insulating layer; the second thermal insulation material layer 32 is an insulating and conducting thermal insulation coating layer, or a reflective thermal insulation coating layer, or a radiant thermal insulation coating layer.

The heat insulation structure is a third heat insulation material layer 33; a third heat insulation material layer 33 is arranged on the inner side wall of the base 11 or/and the outer surface of the base 11; the third heat-insulating material layer 33 is a third heat-insulating material coating, or a third heat-insulating cotton layer, or a third plastic heat-insulating layer; the third thermal insulation material layer 33 is the first thermal insulation material layer 31, which is an isolated conduction type thermal insulation coating layer, or a reflection type thermal insulation coating layer, or a radiation type thermal insulation coating layer.

The heat preservation structure is heat preservation cover 34, and heat preservation cover 34 is heat preservation cover 34 that cloth material sewing concatenation formed, and heat preservation cover 34 wraps up in the upper cover 12 outside, and heat preservation cover 34 is equipped with the wire hole.

Namely, the heat insulation effect is achieved through the blocking conduction, or the heat insulation effect is achieved through the reflection effect, or the heat insulation effect is achieved through the radiation, the heat loss is reduced, the energy-saving effect is achieved, and the influence of heating on the indoor environment temperature is reduced, especially in hot summer.

Generally, install the heater inside the cavity, then install 3D printing consumables inside the cavity, generate heat through controller control heater, the heat heats 3D printing consumables, disperses the inside moisture of 3D printing consumables out for 3D printing consumables's water content is lower, in order to improve the printing effect, avoids printing the bubble.

The utility model has the advantages that: can reduce the heat and flow away, simple structure, with low costs, stable in structure, long service life's advantage.

Claims (3)

1. Reduce heat loss's 3D printing consumables drying cabinet, it is equipped with cavity (2), its characterized in that including box (1), box (1) inside: the box body (1) is provided with a heat insulation structure for reducing heat loss; the box body (1) comprises a base (11) and an upper cover (12); the heat insulation structure is a first heat insulation material layer (31); a first heat-insulating material layer (31) is arranged on the inner side wall of the box body (1); the first heat-insulating material layer (31) is a first plastic heat-insulating layer.

2. The 3D printing consumable drying cabinet capable of reducing heat loss according to claim 1, characterized in that: the first heat-insulating material coating is a transparent heat-insulating material coating, and the first plastic heat-insulating layer is a transparent heat-insulating layer; a gap is arranged between the first plastic heat-insulating layer and the box body (1).

3. The 3D printing consumable drying cabinet capable of reducing heat loss according to claim 1, characterized in that: the heat preservation structure is heat preservation cover (34), and heat preservation cover (34) are heat preservation cover (34) that cloth material sewing concatenation formed, and heat preservation cover (34) parcel is outside at upper cover (12), and heat preservation cover (34) are equipped with the wire hole.

Images