CN204830475U - Vacuum gasification electric fan heater - Google Patents

Abstract

Vacuum gasification electric fan heater, including cabinet -type air conditioner and fan, cabinet -type air conditioner lateral wall upper portion be provided with the air outlet, cabinet -type air conditioner lateral wall lower part is provided with the air intake, the key is: vacuum gasification electric fan heater still includes vacuum phase transition heating pipe and baffle, and the middle part is fixed with the baffle in the cabinet -type air conditioner, is provided with phase transition heating pipe in vacuum on the baffle, and the mouth of drying of fan sets up with vacuum phase transition heating pipe relatively, and phase transition heating pipe in vacuum sets up with the air outlet of cabinet -type air conditioner relatively, is provided with superconduction liquid in the vacuum phase transition heating pipe. The device's fan heat source is vacuum phase transition heating pipe, and heating rod in heating pipe temperature to superconduction liquid's the gas -liquid conversion critical value that only need rise can conduct heat for the fin, and the device heaies up soon, and it is faster to conduct heat, only needs less heat energy offer the heating rod, can make the heating pipe temperature rise to the desired temperature, when the heat pump self -energy is not enough, only need through the filling opening with superconduction liquid can, energy -concerving and environment -protective, when the user uses power consumption seldom, the manufacturing cost of enterprise has also been reduced to the while.

Description

Vacuum gasifying warm-air drier

Technical field

The utility model relates to fan heater device, particularly vacuum gasifying warm-air drier.

Background technology

Warm-air drier is as the term suggests be a kind of equipment that can send warm braw, and in general, maximum temperature is about 70-300 DEG C.It is applicable to the forced circulation air heating of various types of workshop and building, and room temperature can be made at short notice to reach temperature required, is the desirable heating equipment of modernization factory building, dining room, the contour large space building in cinema.

Warm-air drier is primarily of blower fan thermal source and blower fan composition, and blower fan cooling heat source, then blower fan is sent, and indoor air temperature is regulated.But existing blower fan thermal source energy consuming ratio is larger; Heat up slow, conduct heat also slow, the time that whole space temperature is elevated to design temperature needs is long; Heat resource equipment as electric furnace heating wire can produce insalubrious electromagnetic radiation; General blower fan heat resource equipment operating efficiency is lower.

Utility model content

In order to overcome the defect that above-mentioned prior art exists, the utility model provides vacuum gasifying warm-air drier, this blower fan thermal source is phase transition of vacuum heating tube, and the heating rod in heating tube only needs raised temperature to transform critical value to the gas-liquid of superconducting fluid, can conduct heat to fin, then sent by blower fan, this device heats up rapidly, and transmit thermal source faster, operating efficiency is high, energy-conserving and environment-protective, reduce the production cost of enterprise and the cost of use of user.

The purpose of this utility model can be achieved through the following technical solutions: vacuum gasifying warm-air drier, comprise cabinet-type air conditioner and blower fan, described cabinet-type air conditioner side wall upper part is provided with air outlet, cabinet-type air conditioner lower sidewall is provided with air inlet, blower fan is arranged on the bottom in cabinet-type air conditioner, blower fan is provided with blowing mouth, key is: vacuum gasifying warm-air drier also comprises phase transition of vacuum heating tube and dividing plate, in described cabinet-type air conditioner, middle part is fixed with dividing plate, dividing plate is provided with phase transition of vacuum heating tube, blowing mouth and the phase transition of vacuum heating tube of blower fan are oppositely arranged, the air outlet of phase transition of vacuum heating tube and cabinet-type air conditioner is oppositely arranged, superconducting fluid is provided with in described phase transition of vacuum heating tube.

Described phase transition of vacuum heating tube comprises catheter and radiating tube, described catheter is the airtight tubular structures in two ends, radiating tube is the tubular structure of both ends open, described catheter comprises catheter and lower catheter, the upper end of radiating tube is connected with upper catheter, the bottom of radiating tube is connected with lower catheter, heating rod is provided with in described lower catheter, described upper catheter is provided with the first filling opening, first filling opening place is provided with vent valve, is provided with superconducting fluid in described catheter and radiating tube.

Be set with sleeve pipe in described lower catheter, be provided with superconducting fluid in sleeve pipe, described sleeve pipe is provided with filling opening, and filling opening place is provided with vent valve, is provided with heating rod in innermost layer sleeve pipe.

Described sleeve pipe is two-layer, two-layer sleeve pipe is from inside to outside set with setting successively, two-layer sleeve pipe is from inside to outside followed successively by the first sleeve pipe and the second sleeve pipe, all superconducting fluid is provided with in first sleeve pipe and the second sleeve pipe, the first described sleeve pipe is provided with the second filling opening, and the second filling opening place is provided with the second vent valve, and the second sleeve pipe is provided with the 3rd filling opening, 3rd filling opening place is provided with the 3rd vent valve, is provided with heating rod in the first described sleeve pipe.

Described phase transition of vacuum heating tube is provided with fin, described fin is provided with through hole, radiating tube suit on a heat sink.

Described fin is multiple, and multiple fin be arranged in parallel.

Described radiating tube is multiple.

The upper end of described radiating tube is vertical with upper catheter to be arranged, and the bottom of radiating tube is vertical with lower catheter to be arranged.

Described heating rod is carbon fiber heating rod or silicon nitride heating rod.

The beneficial effects of the utility model are: the blower fan thermal source of this device is phase transition of vacuum heating tube, heating rod in heating tube only needs raised temperature to transform critical value to the gas-liquid of superconducting fluid, can conduct heat to fin, the cold wind of blower fan blowout affects by fin and then transfers warm braw to, multilayer sleeve suit is arranged, transferring heat successively, only needs 5 minutes, and indoor temperature can obviously promote.This device quick heating, conduct heat faster, less heat energy is only needed to be supplied to heating rod, whole heating tube temperature can be made to be increased to temperature required, when heating tube self-energy is not enough, only need to add superconducting fluid, energy-conserving and environment-protective by filling opening, when user uses, power consumption is little, also greatly reduces the production cost of enterprise simultaneously.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model in embodiment 1.

In accompanying drawing, 1 is cabinet-type air conditioner, and 2 is blower fans, and 3 is air outlets, and 4 is air inlets, and 5 is dividing plates, and 6 is radiating tubes, and 7 is upper catheters, and 8 is lower catheters, and 9 is heating rods, and 10 is first filling openings, and 11 is fin.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

Specific embodiment 1, as shown in Figure 1, vacuum gasifying warm-air drier, comprise cabinet-type air conditioner 1 and blower fan 2, described cabinet-type air conditioner 1 side wall upper part is provided with air outlet 3, cabinet-type air conditioner 1 lower sidewall is provided with air inlet 4, blower fan 2 is arranged on the bottom in cabinet-type air conditioner 1, cold air enters blower fan 2 from air inlet 4, blower fan 2 is provided with blowing mouth, key is: vacuum gasifying warm-air drier also comprises phase transition of vacuum heating tube and dividing plate 5, in described cabinet-type air conditioner 1, middle part is fixed with dividing plate 5, dividing plate 5 is provided with phase transition of vacuum heating tube, blowing mouth and the phase transition of vacuum heating tube of blower fan 2 are oppositely arranged, the air outlet 3 of phase transition of vacuum heating tube and cabinet-type air conditioner 1 is oppositely arranged, cold air is subject to the impact of phase transition of vacuum heating tube heat transfer and is converted to hot-air, and discharge from air outlet 3, in order to improve heat transfer efficiency, superconducting fluid is provided with in described phase transition of vacuum heating tube.Described phase transition of vacuum heating tube comprises catheter and radiating tube 6, described catheter is the airtight tubular structures in two ends, radiating tube 6 is the tubular structure of both ends open, described radiating tube 6 is multiple, described catheter comprises catheter 7 and lower catheter 8, the upper end of radiating tube 6 is connected with upper catheter 7, the bottom of radiating tube 6 is connected with lower catheter 8, the upper end of described radiating tube 6 is vertical with upper catheter 7 to be arranged, the bottom of radiating tube 6 is vertical with lower catheter 8 to be arranged, heating rod 9 is provided with in described lower catheter 8, be preferably carbon fiber heating rod or silicon nitride heating rod, described upper catheter 7 is provided with the first filling opening 10, first filling opening 10 place is provided with vent valve, superconducting fluid is provided with in described catheter and radiating tube 6.Superconducting fluid is added at the first filling opening 10, heating rod 9 is warming up to the critical-temperature that superconducting fluid liquid-phase conversion is gas phase, superconducting fluid gasification in the chamber of catheter and radiating tube 6, pressure increases, now need to open vent valve venting, avoid air pressure excessive and heating tube explosive conditions occurs, along with the minimizing of superconducting fluid in heating tube, needing constantly to add superconducting fluid by the first filling opening 10 and maintain the transformation of heating tube self-energy.In order to increase heating surface area, described phase transition of vacuum heating tube is provided with fin 11, described fin 11 is provided with through hole, radiating tube 6 is sleeved on fin 11, and described fin 11 is multiple, and multiple fin 11 be arranged in parallel.

Specific embodiment 2, as the improvement to embodiment 1, be set with sleeve pipe in described lower catheter 8, be provided with superconducting fluid in sleeve pipe, described sleeve pipe is provided with filling opening, and filling opening place is provided with vent valve, is provided with heating rod 9 in innermost layer sleeve pipe.When sleeve pipe is set to two-layer, two-layer sleeve pipe is from inside to outside set with setting successively, two-layer sleeve pipe is from inside to outside followed successively by the first sleeve pipe and the second sleeve pipe, all superconducting fluid is provided with in first sleeve pipe and the second sleeve pipe, the first described sleeve pipe is provided with the second filling opening, second filling opening place is provided with the second vent valve, second sleeve pipe is provided with the 3rd filling opening, 3rd filling opening place is provided with the 3rd vent valve, heating rod 9 is provided with in the first described sleeve pipe, multilayer sleeve suit is arranged, transferring heat successively, in heating tube, temperature raises rapidly and flows to fin 11, heating tube quick heating, transmit thermal source faster, energy-conserving and environment-protective, operating efficiency is high.

Claims (9)

1. vacuum gasifying warm-air drier, comprise cabinet-type air conditioner (1) and blower fan (2), described cabinet-type air conditioner (1) side wall upper part is provided with air outlet (3), cabinet-type air conditioner (1) lower sidewall is provided with air inlet (4), blower fan (2) is arranged on the bottom in cabinet-type air conditioner (1), blower fan (2) is provided with blowing mouth, it is characterized in that: vacuum gasifying warm-air drier also comprises phase transition of vacuum heating tube and dividing plate (5), in described cabinet-type air conditioner (1), middle part is fixed with dividing plate (5), (5) are provided with phase transition of vacuum heating tube with dividing plate, blowing mouth and the phase transition of vacuum heating tube of blower fan (2) are oppositely arranged, the air outlet (3) of phase transition of vacuum heating tube and cabinet-type air conditioner (1) is oppositely arranged, superconducting fluid is provided with in described phase transition of vacuum heating tube.

2. vacuum gasifying warm-air drier according to claim 1, it is characterized in that: described phase transition of vacuum heating tube comprises catheter and radiating tube (6), described catheter is the airtight tubular structures in two ends, the tubular structure that radiating tube (6) is both ends open, described catheter comprises catheter (7) and lower catheter (8), the upper end of radiating tube (6) is connected with upper catheter (7), the bottom of radiating tube (6) is connected with lower catheter (8), heating rod (9) is provided with in described lower catheter (8), described upper catheter (7) is provided with the first filling opening (10), first filling opening (10) place is provided with vent valve, superconducting fluid is provided with in described catheter and radiating tube (6).

3. vacuum gasifying warm-air drier according to claim 2, it is characterized in that: in described lower catheter (8), be set with sleeve pipe, superconducting fluid is provided with in sleeve pipe, described sleeve pipe is provided with filling opening, filling opening place is provided with vent valve, is provided with heating rod (9) in innermost layer sleeve pipe.

4. vacuum gasifying warm-air drier according to claim 3, it is characterized in that: described sleeve pipe is two-layer, two-layer sleeve pipe is from inside to outside set with setting successively, two-layer sleeve pipe is from inside to outside followed successively by the first sleeve pipe and the second sleeve pipe, all superconducting fluid is provided with in first sleeve pipe and the second sleeve pipe, the first described sleeve pipe is provided with the second filling opening, second filling opening place is provided with the second vent valve, second sleeve pipe is provided with the 3rd filling opening, 3rd filling opening place is provided with the 3rd vent valve, is provided with heating rod (9) in the first described sleeve pipe.

5. vacuum gasifying warm-air drier according to claim 1, it is characterized in that: described phase transition of vacuum heating tube is provided with fin (11), described fin (11) is provided with through hole, and radiating tube (6) is sleeved on fin (11).

6. vacuum gasifying warm-air drier according to claim 5, is characterized in that: described fin (11) is for multiple, and multiple fin (11) be arranged in parallel.

7. the vacuum gasifying warm-air drier according to claim 2 or 5, is characterized in that: described radiating tube (6) is for multiple.

8. vacuum gasifying warm-air drier according to claim 2, it is characterized in that: the upper end of described radiating tube (6) is vertical with upper catheter (7) to be arranged, the bottom of radiating tube (6) is vertical with lower catheter (8) to be arranged.

9. vacuum gasifying warm-air drier according to claim 1, is characterized in that: described heating rod (9) is carbon fiber heating rod or silicon nitride heating rod.