CN220062489U - Novel energy-saving constant temperature box - Google Patents

Abstract

The utility model discloses a novel energy-saving incubator, which structurally comprises a processing table, a main body and a discharging table, wherein the right end face of the processing table is connected with the main body, the main body is provided with five parts, the discharging table is connected with the rightmost end face of the main body, the main body comprises an outer heat insulation layer, a conveying device, an inner heat insulation layer, an air inlet pipe, an air outlet pipe, an air guide groove, a heating box and a circulating fan, the outer heat insulation layer is connected with the end face of the processing table, the conveying device is provided with two parts, the conveying device is arranged in the outer heat insulation layer, and the inner heat insulation layer is provided with two parts.

Description

Novel energy-saving constant temperature box

Technical Field

The utility model relates to the technical field of thermostats, in particular to a novel energy-saving thermostated container.

Background

The utility model provides a constant temperature case still name blast drying cabinet is the requisite test equipment in fields such as aviation, car, household electrical appliances, scientific research for parameter and performance after the temperature environment that test was carried out to test and confirm electrician, electron and other products and materials carries out high temperature, when processing the sole, need process the sole through the constant temperature case, in order to improve the performance of sole, and when processing, the sole is kept flat and is entered into the constant temperature case at the terminal surface of conveyer belt and is heated, and the bottom terminal surface laminating of sole is in the terminal surface of conveyer belt and is received hot-blast impact, leads to the bottom of sole to be heated less, has influenced the holistic performance of sole.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model is realized by the following technical scheme: the utility model provides a novel energy-conserving thermostated container, its structure includes processing platform, main part, ejection of compact platform, the right side terminal surface of processing platform is connected with the main part, the main part is equipped with five, ejection of compact platform is connected in the right side terminal surface of main part.

As the further optimization of this technical scheme, the main part includes outer heat preservation, conveyer, interior heat preservation, air-supply line, goes out tuber pipe, wind-guiding groove, heating cabinet, circulating fan, outer heat preservation is connected in the terminal surface of processing platform, conveyer is equipped with two, and conveyer arranges in the inside of outer heat preservation, interior heat preservation is equipped with two, and interior heat preservation is connected with conveyer's both sides terminal surface, the air-supply line is equipped with two, and the air-supply line runs through in the terminal surface of interior heat preservation, go out the terminal surface of tuber pipe setting at the interior heat preservation of left side, the wind-guiding groove sets up between outer heat preservation and interior heat preservation, the inside bottom at outer heat preservation is installed to the heating cabinet, circulating fan installs in the bottom of outer heat preservation and just intermediate position, and is connected with the heating cabinet.

As the further optimization of this technical scheme, conveyer includes bottom heat preservation, support frame, conveyer belt, wind-guiding piece, reposition of redundant personnel piece, the inside upper end on bottom heat preservation outside being located, the support frame is equipped with two, and sets up respectively at the top both ends of bottom heat preservation, the conveyer belt is connected in the terminal surface of support frame, the wind-guiding piece is equipped with more than five, and transversely arranges in the top terminal surface of bottom heat preservation, the reposition of redundant personnel piece is located the positive front end of air-supply line.

As the further optimization of this technical scheme, the conveyer belt includes conveyer, rubber pad, sunken groove, runs through the groove, conveyer and support frame clearance fit, the rubber pad sets up the up end at the conveyer, sunken groove is equipped with more than five, and transversely arranges in the top terminal surface of rubber pad, run through the bottom that the groove is located sunken groove, and run through in the terminal surface of conveyer.

As a further optimization of the technical scheme, the included angle formed by the air guide plate and the end face of the conveyor belt is 45 degrees.

As a further optimization of the technical scheme, the included angle formed by the flow dividing sheet and the end face of the conveyor belt is 30 degrees.

As a further optimization of the technical scheme, the inner heat preservation layer is made of rock wool.

Advantageous effects

Compared with the prior art, the novel energy-saving incubator has the following advantages:

according to the utility model, the air flow blown out by the air inlet pipe can be downwards guided by the flow dividing sheet, so that hot air can flow at the bottom end face of the conveyor belt, and then the hot air is upwards guided by the air guiding sheet, so that the hot air can pass through the through groove to contact with the bottom of the sole placed at the end face of the conveyor body through the end face of the concave groove, thereby carrying out heat treatment on the bottom of the sole and improving the integral performance of the sole.

According to the utility model, the outer heat-insulating layer made of rock wool is arranged on the outer end face of the inner heat-insulating layer, so that heat in the inner heat-insulating layer is subjected to double-layer heat insulation, heat loss is avoided, and energy consumption of the incubator during operation is increased.

Drawings

Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

fig. 1 is a schematic diagram of the front view structure of a novel energy-saving incubator of the present utility model.

Fig. 2 is a schematic side view of a main body of the novel energy-saving incubator.

Fig. 3 is a schematic side view of a novel energy-saving incubator conveyor apparatus.

Fig. 4 is a schematic diagram of a side view of a conveyor belt of the novel energy-saving incubator.

In the figure: the device comprises a processing table 1, a main body 2, a discharging table 3, an outer heat preservation layer 21, a conveying device 22, an inner heat preservation layer 23, an air inlet pipe 24, an air outlet pipe 25, an air guide groove 26, a heating box 27, a circulating fan 28, a bottom heat preservation layer 221, a supporting frame 222, a conveying belt 223, an air guide piece 224, a flow dividing piece 225, a conveying body a1, a rubber pad a2, a concave groove a3 and a penetrating groove a4.

Detailed Description

In order that the manner in which the utility model is accomplished, as well as the manner in which it is characterized and attained and the effects thereof, a more particular description of the utility model will be rendered by reference to the appended drawings.

Examples

Referring to fig. 1-4, the utility model provides a novel energy-saving incubator, which structurally comprises a processing table 1, a main body 2 and a discharging table 3, wherein the right end face of the processing table 1 is connected with the main body 2, five main bodies 2 are arranged, and the discharging table 3 is connected with the rightmost end face of the main body 2.

The main part 2 includes outer heat preservation 21, conveyer 22, interior heat preservation 23, air-supply line 24, air-supply line 25, wind-guiding groove 26, heating cabinet 27, circulating fan 28, outer heat preservation 21 is connected in the terminal surface of processing platform 1, conveyer 22 is equipped with two, and conveyer 22 arranges in the inside of outer heat preservation 21, interior heat preservation 23 is equipped with two, and interior heat preservation 23 is connected with the both sides terminal surface of conveyer 22, air-supply line 24 is equipped with two, and air-supply line 24 runs through the terminal surface in interior heat preservation 23, air-supply line 25 sets up the terminal surface at left side interior heat preservation 23, wind-guiding groove 26 sets up between outer heat preservation 21 and interior heat preservation 23, heating cabinet 27 installs in the inside bottom of outer heat preservation 21, circulating fan 28 installs in the bottom intermediate position of outer heat preservation 21, and is connected with heating cabinet 27.

The conveying device 22 comprises a bottom heat preservation layer 221, a support frame 222, a conveying belt 223, air guide plates 224 and flow dividing plates 225, wherein the bottom heat preservation layer 221 is located at the upper end of the inside of the outer heat preservation layer 21, the support frame 222 is provided with two conveying belts 223 which are respectively arranged at the two ends of the top of the bottom heat preservation layer 221, the conveying belt 223 is connected to the end face of the support frame 222, the air guide plates 224 are provided with more than five conveying belts and are transversely arranged on the end face of the top of the bottom heat preservation layer 221, and the flow dividing plates 225 are located at the front end of the air inlet pipe 24.

The conveyor belt 223 comprises a conveyor body a1, a rubber pad a2, a concave groove a3 and a penetrating groove a4, wherein the conveyor body a1 is movably matched with the supporting frame 222, the rubber pad a2 is arranged on the upper end face of the conveyor body a1, the concave groove a3 is provided with more than five transverse arranged on the top end face of the rubber pad a2, and the penetrating groove a4 is positioned at the bottom end of the concave groove a3 and penetrates through the end face of the conveyor body a 1.

The included angle formed by the air guide piece 224 and the end surface of the conveyor belt 223 is 45 degrees.

The angle formed by the diverter 225 and the end face of the conveyor belt 223 is 30 degrees.

The inner heat preservation layer is made of rock wool.

Working principle: when the sole is to be processed, the sole can be processed on the processing table 1, then the sole is placed on the conveying device 22 in the main body 2 for conveying, the heater box 27 is used for heating, the air flow extracted by the circulating fan 28 can be provided with heat, the hot air flows into the inner heat preservation layer 23 through the air inlet pipe 24, the hot air can fully contact the end face of the sole in the inner heat preservation layer 23, the sole is subjected to heat treatment, the air flow blown by the air inlet pipe 24 can be downwards guided by the flow dividing sheet 225, the hot air can flow on the bottom end face of the conveying belt 223, the hot air is upwards guided by the air guiding sheet 224, the hot air can pass through the end face of the through groove a4 and is contacted with the bottom of the sole placed on the end face of the conveying body a1, the bottom of the sole can be subjected to heat treatment, the whole performance of the sole is improved, the outer heat preservation layer 21 made of rock wool material is arranged on the outer end face of the inner heat preservation layer 23, the heat in the inner heat preservation layer 23 is subjected to double-layer heat preservation, and the energy consumption of the heat preservation box during operation of the heat loss and the heat loss increase is avoided.

While there have been shown and described what are at present considered to be fundamental principles of the utility model, the main features and advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited by the foregoing embodiments, which are described in the foregoing description only illustrate the principles of the utility model, but are capable of other embodiments and modifications without departing from the spirit or essential features thereof, and therefore the scope of the utility model is defined by the appended claims and their equivalents, rather than by the foregoing description.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (3)

1. The utility model provides a novel energy-conserving thermostated container, its structure includes processing platform (1), main part (2), ejection of compact platform (3), its characterized in that: the right end face of the processing table (1) is connected with a main body (2), five main bodies (2) are arranged, and the discharging table (3) is connected to the rightmost end face of the main body (2);

the main body (2) comprises an outer heat preservation layer (21), conveying devices (22), inner heat preservation layers (23), air inlet pipes (24), air outlet pipes (25), air guide grooves (26), heating boxes (27) and circulating fans (28), wherein the outer heat preservation layer (21) is connected to the end face of a processing table (1), the conveying devices (22) are arranged in the outer heat preservation layer (21), the conveying devices (22) are arranged in the inner heat preservation layer (21), the inner heat preservation layers (23) are arranged in two, the inner heat preservation layers (23) are connected with the end faces of the two sides of the conveying devices (22), the air inlet pipes (24) are arranged in two, the air inlet pipes (24) penetrate through the end faces of the inner heat preservation layers (23), the air outlet pipes (25) are arranged on the end faces of the left inner heat preservation layers (23), the air guide grooves (26) are arranged between the outer heat preservation layers (21) and the inner heat preservation layers (23), and the circulating fans (28) are arranged at the bottom of the inner bottom of the outer heat preservation layer (21) and are connected with the middle heat preservation layers (27);

the conveying device (22) comprises a bottom heat preservation layer (221), two supporting frames (222), a conveying belt (223), air guide plates (224) and flow dividing plates (225), wherein the bottom heat preservation layer (221) is positioned at the upper end of the inner part of the outer heat preservation layer (21), the two supporting frames (222) are respectively arranged at the two ends of the top of the bottom heat preservation layer (221), the conveying belt (223) is connected to the end face of the supporting frames (222), the air guide plates (224) are provided with more than five air guide plates, the air guide plates are transversely arranged on the end face of the top of the bottom heat preservation layer (221), and the flow dividing plates (225) are positioned at the positive front end of the air inlet pipe (24);

the conveyer belt (223) is including conveying body (a 1), rubber pad (a 2), sunken groove (a 3), run through groove (a 4), conveying body (a 1) and support frame (222) clearance fit, rubber pad (a 2) set up the up end at conveying body (a 1), sunken groove (a 3) are equipped with more than five, and transversely arrange in the top terminal surface of rubber pad (a 2), run through groove (a 4) and be located the bottom in sunken groove (a 3), and run through in the terminal surface of conveying body (a 1).

2. A new energy saving incubator according to claim 1, characterized in that: the included angle formed by the air guide piece (224) and the end face of the conveyor belt (223) is 45 degrees.

3. A new energy saving incubator according to claim 1, characterized in that: the angle formed by the splitter blade (225) and the end face of the conveyor belt (223) is 30 degrees.