CN210657303U

CN210657303U - Energy-saving hot box

Info

Publication number: CN210657303U
Application number: CN201921272991.3U
Authority: CN
Inventors: 刘光容; 朱爱萍; 朱曰春
Original assignee: Shaoxing County Huayu Textile Machinery Co ltd
Current assignee: Shaoxing County Huayu Textile Machinery Co ltd
Priority date: 2019-08-07
Filing date: 2019-08-07
Publication date: 2020-06-02
Anticipated expiration: 2029-08-07

Abstract

The utility model discloses an energy-saving hot case, including hot rail, box shell, hot case door shell, its characterized in that: a connecting block is arranged on the inner side of the shell of the hot box door, a reflecting film is arranged on one surface of the connecting block facing the hot rail, the reflecting film is attached to the appearance of the hot rail, and the distance between the reflecting film and the hot rail is 5-12 mm; the utility model discloses a rationally set up the reflect meter structure, simultaneously, adjust the interval between reflectance coating and the hot rail, through practice inspection: when the distance between the reflecting film and the hot rail is controlled to be 5-12 mm meters, electricity can be saved by 0.1 degree/hour.

Description

Energy-saving hot box

The technical field is as follows:

the utility model relates to an improve the hot case of elasticizer, specifically indicate an energy-saving hot case.

Background art:

the false twist texturing machine is chemical fiber yarn processing equipment for processing pre-oriented yarn or drawn yarn such as terylene, chinlon and the like into elastic yarn through a false twist texturing process. Before the raw material yarn enters the false twister for false twisting, the raw material yarn needs to be heated by a texturing hot box, and the heated raw material yarn is subjected to false twisting of repeated Z twisting or S twisting in the false twister to be regenerated into elastic yarns with different process specifications (the polyester yarn also needs to be shaped by a heat-setting hot box).

At present, a common deformation hot box is divided into a biphenyl heating box and an electric heating hot box, and two side metal plates of a hot box shell and a hot box door shell of the existing deformation hot box extend to the upper part of a hot rail through a folded edge, so that heat emitted by the hot rail is conducted to a metal plate on the surface of the shell through the side metal plates to generate large-area high-temperature emission. Because the heat insulation of high-temperature components is not ideal, the temperature of the surface of the hot box body and the surface of the hot box door reaches more than 50 ℃, large-area heat dissipation is generated, larger energy consumption is generated, and meanwhile, the working environment of a workshop deteriorates.

In the prior art, a reflecting film is arranged on a heat box door to reflect heat radiation, so that heat loss is reduced, but the structure is limited, and the effect is not good.

The utility model has the following contents:

an object of the utility model is to improve current deformation machine hot box, solve its heat and scatter and disappear the problem, provide a more energy-conserving, environmental protection hot box.

The utility model discloses a realize that the technical scheme that above-mentioned purpose was taken as follows:

the utility model provides an energy-saving hot case, includes hot rail, box shell, hot case door shell, its characterized in that: install a connecting block in the inboard of hot case door shell, the connecting block is provided with the reflectance coating towards the one side of hot rail, the appearance of reflectance coating and hot rail is laminated mutually, and the interval between reflectance coating to the hot rail is 5 ~ 12mm.

The further setting is that:

the case body shell adopts a flat plate type or boss type structure, the case body of the hot box door adopts a flat plate type or boss type structure,

the hot rail is an arc-shaped hot rail, and the connecting block and the reflecting film are arranged into an arc shape and attached to the hot rail.

The hot rail heat insulation layer, the box body heat insulation layer and the hot box door heat insulation layer are surrounded on the hot rail to form a hot rail heat cavity with the periphery closed.

The heat insulation layer material is a ceramic fiber board, or a silicon dioxide nano aerogel heat insulation board or other high temperature resistant heat insulation materials.

The utility model has the advantages as follows:

1. through reasonable setting of the reflecting device structure, simultaneously, the interval between reflective film and the hot rail is adjusted, and the practical inspection is carried out: when the distance between the reflecting film and the hot rail is controlled to be 5-12 mm meters, electricity can be saved by 0.1 degree/hour.

2. Through setting up thermal-insulated component on easy radiating parts such as hot rail, box shell, hot case door shell, the effectual problem that has solved current deformation hot case heat and scatter and disappear, simultaneously through, set up box shell, hot case door shell and be plate, or boss type structure, with the thermal insulation material on hot rail, box shell, the hot case door shell, constitute a confined hot rail heat chamber all around, can effectually reach thermal-insulated purpose, energy-conserving effect.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention.

The specific implementation mode is as follows:

as shown in fig. 1, the utility model discloses an energy-saving hot box, including hot rail 1, box shell 2, hot box door shell 3, box shell 2 adopts plate, or boss type structure, and hot box door shell 3 adopts plate, or boss type structure, installs a connecting block 7 in the inboard of hot box door shell 3, and connecting block 7 is provided with reflectance coating 8 towards the one side of hot rail 1, reflectance coating 8 is laminated mutually with the appearance of hot rail 1, and reflectance coating 8 is 5 ~ 12mm to the interval between the hot rail 1.

Through reasonable setting of the reflecting device structure, simultaneously, the interval between reflective film and the hot rail is adjusted, and the practical inspection is carried out: when the distance between the reflecting film and the hot rail is controlled to be 5-12 mm meters, electricity can be saved by 0.1 degree/hour.

As shown in fig. 2, in a preferred embodiment, the heat rail 1 is an arc-shaped heat rail, and the reflective film 8 is disposed in an arc shape to be attached to the heat rail 1.

As a preferred embodiment, heat insulation elements are arranged around the heat rail 1, for example, in the embodiment shown in fig. 1, heat rail heat insulation layers 4 are respectively arranged on two side surfaces of the heat rail 1, a box heat insulation layer 5 is arranged on the box shell 2, a heat box door heat insulation layer 6 is arranged on the heat box door shell 3, and the heat rail heat insulation layers 4, the box heat insulation layer 5, and the heat box door heat insulation layer 6 surround the heat rail 1 to form a heat rail heat cavity 9 with a closed periphery.

The thermal insulation layer material can be a ceramic fiberboard, or a silicon dioxide nano aerogel thermal insulation board or other high-temperature-resistant thermal insulation materials, preferably a silicon dioxide nano aerogel thermal insulation board.

Through setting up thermal-insulated component on easy radiating parts such as hot rail, box shell, hot case door shell, the effectual problem that has solved current deformation hot case heat and scatter and disappear, simultaneously through, set up box shell, hot case door shell and be plate, or boss type structure, with the thermal insulation material on hot rail, box shell, the hot case door shell, constitute a confined hot rail heat chamber all around, can effectually reach thermal-insulated purpose, energy-conserving effect.

The above embodiments are only used as further illustration of the present invention, the technical solution of the present invention has been described in the claims, and all changes and modifications made without changing the basic structure of the present invention should be within the protection scope of the present invention.

Claims

1. The utility model provides an energy-saving hot case, includes hot rail, box shell, hot case door shell, its characterized in that: install a connecting block in the inboard of hot case door shell, the connecting block is provided with the reflectance coating towards the one side of hot rail, the appearance of reflectance coating and hot rail is laminated mutually, and the interval between reflectance coating to the hot rail is 5 ~ 12mm.

2. An energy saving hot box according to claim 1, characterized in that: the hot rail is an arc-shaped hot rail, and the connecting block and the reflecting film are arranged into an arc shape and attached to the hot rail.

3. An energy saving hot box according to claim 1, characterized in that: the case body shell adopts a flat plate type or boss type structure, and the case body of the hot box door adopts a flat plate type or boss type structure.

4. An energy saving hot box according to claim 1, characterized in that: the hot rail heat insulation layer, the box body heat insulation layer and the hot box door heat insulation layer are surrounded on the hot rail to form a hot rail heat cavity with the periphery closed.

5. An energy saving hot box according to claim 4, characterized in that: the heat insulation layer material is a ceramic fiber board, or a silicon dioxide nano aerogel heat insulation board or other high temperature resistant heat insulation materials.