CN209869196U - Efficient energy-saving film heater for pure electric passenger car - Google Patents

Abstract

The utility model discloses a high-efficient energy-saving film heater for pure [ electric ] motor coach, can solve current film heater for [ electric ] motor coach and adopt hot water to heat the cartridge heater at the mode of cartridge heater inner loop, thereby make the film that covers on the cartridge heater outer wall be heated, this kind of mode leads to the heat transfer effect relatively poor because the water circulating line is installed inside the cartridge heater, and the heat also runs off extremely easily, and also lower to the heating efficiency of film, and the water circulating line does not have fine recycle yet at the inside heat that gives off of cartridge heater, unsatisfied high-efficient energy-conserving demand's problem. Including first end seat, second end seat and be located the parcel shell between the two, parcel shell internally mounted has first cartridge heater, second cartridge heater, install the top cap that can overturn on the outer wall of parcel shell top, be provided with two on the first end seat lateral wall and be used for the fixed butt joint hole of butt joint with first cartridge heater, second cartridge heater.

Description

Efficient energy-saving film heater for pure electric passenger car

Technical Field

The utility model relates to a film heater field, concretely relates to energy-efficient type film heater for pure [ electric ] motor coach.

Background

The film for the electric motor coach needs to be heated during production and processing, and a specific heater needs to be used for heating. However, current film heater for [ electric ] motor coach still has certain defect, the heater adopts hot water to heat the cartridge heater in the mode of cartridge heater inner loop, thereby make the film that covers on the cartridge heater outer wall be heated, this kind of mode leads to the heat transfer effect relatively poor because the water circulating pipe is installed inside the cartridge heater, and the heat also runs off very easily, and also lower to the heating efficiency of film, and the water circulating pipe does not have fine recycle yet at the inside heat that gives off of cartridge heater, unsatisfied energy-efficient demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a film heater for energy-efficient pure [ electric ] motor coach, can solve current film heater for [ electric ] motor coach and adopt hot water to heat the cartridge heater at the mode of cartridge heater inner loop, thereby make the film that covers on the cartridge heater outer wall be heated, this kind of mode leads to the heat transfer effect relatively poor because the water circulating pipe is installed inside the cartridge heater, and the heat also runs off extremely easily, and also lower to the heating efficiency of film, and the water circulating pipe does not have fine recycle yet at the inside heat that gives off of cartridge heater, unsatisfied high-efficient energy-conserving demand's problem.

The purpose of the utility model can be realized by the following technical scheme:

a film heater for a high-efficiency energy-saving pure electric bus comprises a first end seat, a second end seat and a wrapping shell positioned between the first end seat and the second end seat, wherein a first heating cylinder and a second heating cylinder are installed inside the wrapping shell, a turnable top cover is installed on the outer wall of the top of the wrapping shell, two butt joint holes for butt joint and fixation with the first heating cylinder and the second heating cylinder are formed in the side wall of the first end seat, the two butt joint holes are connected through a U-shaped connecting groove positioned inside the first end seat, and a first pump body and a second pump body are installed at the top of the second end seat;

a plurality of cylindrical water tanks which are uniformly distributed and used for water flowing are arranged inside the inner walls of the first heating cylinder and the second heating cylinder, the first heating cylinder is connected with one end of the cylindrical water tank of the second heating cylinder through a U-shaped connecting pipe, one end of the cylindrical water tank of the first heating cylinder is connected with the bottom of the first pump body through a connecting pipe, one end of the cylindrical water tank of the second heating cylinder is connected with the bottom of the second pump body through a connecting pipe, inner grooves used for gas circulation are arranged inside the first heating cylinder and the second heating cylinder, and a blowing fan is arranged at one end, close to the first end seat, of the first heating cylinder;

the power is all installed at first pump body, second pump body top, just the heating tube has all been inserted to first cartridge heater and the inside of second cartridge heater, be connected with a flow pipe on the lateral wall of second pump body bottom, flow pipe one end is connected with the first pump body, flow pipe top is provided with a outlet duct that is located on the lateral wall of the second pump body, outlet duct one end is connected to the one end of first cartridge heater installation blast fan, second pump body bottom is connected with an intake pipe, intake pipe one end is connected with the one end that the second cartridge heater is close to the second pump body.

Preferably, the periphery of the top cover is provided with a sealing ring for sealing, and the inner wall of the wrapping shell is filled with cotton for heat preservation.

Preferably, a water circulation structure is formed between the first pump body and the second pump body through the first heating cylinder and the cylindrical water tank on the inner wall of the second heating cylinder.

Preferably, the air blown by the blower fan flows to the inner groove of the second heating cylinder along the inner groove of the first heating cylinder, then is blown into the second pump body through the air inlet pipe, and then is sent into the inner groove of the first heating cylinder again through the air outlet pipe.

Preferably, the U-shaped connecting pipe is arranged inside the U-shaped connecting groove.

The working method of the efficient energy-saving film heater for the pure electric bus comprises the following specific steps:

the method comprises the following steps: the method comprises the following steps that a top cover is opened, a film to be heated is placed on a first heating cylinder and a second heating cylinder, water flows into a cylindrical water tank inside the first heating cylinder from a first pump body firstly, the water is heated by a heating pipe inside the first pump body for the first time, then hot water flows into the cylindrical water tank inside the second heating cylinder from a U-shaped connecting pipe, the hot water transfers heat to the outer wall of the heating cylinder in the circulating process so as to heat the film, the hot water flows into the second pump body along the connecting pipe between the second heating cylinder and the second pump body, at the moment, the heat is lost more, the heating pipe inside the second pump body heats the water again and then flows into the first pump body along a water conveying pipe, and hot water circulation is completed;

the hot water has partial heat to stay inside the heating cylinder in the circulating process, the air blown out by the blowing fan flows to the inner groove of the second heating cylinder along the inner groove of the first heating cylinder and then is blown into the interior of the second pump body through the air inlet pipe, the air is then fed into the interior of the inner groove of the first heating cylinder again through the air outlet pipe, the residual heat inside the heating cylinder is blown by the blowing fan and is fed into the interior of the second pump body together with the air to be mixed with the water, the water is utilized to absorb the heat, and after the heating of the film is finally completed, the top cover is opened to take out the film.

The utility model has the advantages that: the cylindrical water tank is used for circulating hot water and transferring heat required by heating the film, and is directly arranged in the inner wall of the heating cylinder to replace a traditional water pipe in the heating cylinder, so that the heat of the hot water is directly transferred to the outer wall of the heating cylinder;

the first heating cylinder and the second heating cylinder form a water circulation structure between the first pump body and the second pump body through the cylindrical water tank on the inner wall of the first heating cylinder, water flows into the cylindrical water tank inside the first heating cylinder from the first pump body firstly, the water is heated for the first time by the heating pipe inside the first pump body, then hot water flows into the cylindrical water tank inside the second heating cylinder from the U-shaped connecting pipe, the hot water transfers heat to the outer wall of the heating cylinder in the circulating process so as to heat the film, the hot water flows into the second pump body along the connecting pipe between the second heating cylinder and the second pump body, at the moment, the heat is lost more, the heating pipe inside the second pump body heats the water again and then flows into the first pump body along the water conveying pipe, the effect of timely supplementing heat is achieved, and the heating effect is ensured;

because the existence of the blower fan, and the air that the blower fan was bloated again through the intake pipe after flowing to the inside groove of second heating cylinder along the inside groove of first heating cylinder inside the second pump body, the inside of the inside groove of rethread outlet duct refeed into first heating cylinder for the inside remaining heat of heating cylinder can be sent into the inside and water mixture of second pump body along with wind through the blower fan blast air together, utilize water absorption heat, thereby play the effect of thermal cycle utilization, make the heater more energy-conserving when using.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the present invention after the package housing is disassembled;

FIG. 3 is a schematic structural view of a first heating cylinder of the present invention;

fig. 4 is a side view of a first heating cartridge of the present invention;

FIG. 5 is a schematic view of the first end seat of the present invention;

FIG. 6 is a schematic view of the internal structure of the second pump body according to the present invention;

in the figure: 1. a first end seat; 2. a second end seat; 3. wrapping the shell; 4. a first pump body; 5. a second pump body; 6. a top cover; 7. a first heating cartridge; 8. a second heating cartridge; 9. a connecting pipe; 10. an air outlet pipe; 11. a cylindrical water tank; 12. a U-shaped connecting pipe; 13. a blower fan; 14. an inner tank; 15. a butt joint hole; 16. a U-shaped connecting groove; 17. an air inlet pipe; 18. a power source; 19. a heat generating tube; 20. and a water supply pipe.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, a film heater for a high-efficiency energy-saving pure electric bus comprises a first end seat 1, a second end seat 2 and a wrapping shell 3 positioned between the first end seat and the second end seat, wherein a first heating cylinder 7 and a second heating cylinder 8 are installed inside the wrapping shell 3, a reversible top cover 6 is installed on the outer wall of the top of the wrapping shell 3, two butt-joint holes 15 for butt-joint fixing with the first heating cylinder 7 and the second heating cylinder 8 are formed in the side wall of the first end seat 1, the two butt-joint holes 15 are connected through a U-shaped connecting groove 16 positioned inside the first end seat 1, and a first pump body 4 and a second pump body 5 are installed at the top of the second end seat 2;

a plurality of cylindrical water tanks 11 which are uniformly distributed and used for water flowing are arranged inside the inner walls of the first heating cylinder 7 and the second heating cylinder 8, one ends of the cylindrical water tanks 11 of the first heating cylinder 7 and the second heating cylinder 8 are connected through U-shaped connecting pipes 12, one end of the cylindrical water tank 11 of the first heating cylinder 7 is connected with the bottom of the first pump body 4 through a connecting pipe 9, one end of the cylindrical water tank 11 of the second heating cylinder 8 is connected with the bottom of the second pump body 5 through a connecting pipe 9, inner grooves 14 used for gas circulation are arranged inside the first heating cylinder 7 and the second heating cylinder 8, and one end, close to the first end seat 1, of the first heating cylinder 7 is provided with a blowing fan 13;

the first pump body 4, power 18 is all installed at the second pump body 5 top, and first heating cylinder 7 has all inserted the heating tube 19 with the inside of second heating cylinder 8, be connected with a flow pipe 20 on the lateral wall of 5 bottoms of the second pump body, flow pipe 20 one end is connected with the first pump body 4, flow pipe 20 top is provided with an outlet duct 10 that is located on the lateral wall of the second pump body 5, the one end of outlet duct 10 is connected to the one end of first heating cylinder 7 installation blast fan 13, the second pump body 5 bottom is connected with an intake pipe 17, intake pipe 17 one end is connected with the one end that second heating cylinder 8 is close to the second pump body 5.

Install the seal circle of sealed usefulness all around top cap 6, the inside packing of 3 inner walls of parcel shell has the cotton of heat preservation usefulness, and the existence of seal circle makes top cap 6 close the back sealed to reduce thermal loss, the existence of parcel shell 3 makes the cartridge heater no longer directly expose externally, greatly reduced thermal loss.

The first pump body 4 and the second pump body 5 are connected through the first heating cylinder 7, the cylindrical water tank 11 on the inner wall of the second heating cylinder 8 forms a water circulation structure, water flows from the first pump body 4 to the inside of the cylindrical water tank 11 in the first heating cylinder 7 firstly, and the water is heated by the heating pipe 19 in the first pump body 4 for the first time, then the hot water flows from the U-shaped connecting pipe 12 to the inside of the cylindrical water tank 11 in the second heating cylinder 8, the hot water transfers heat to the outer wall of the heating cylinder in the circulating process so as to heat the film, the hot water flows to the second pump body 5 along the connecting pipe 9 between the second heating cylinder 8 and the second pump body 5, at the moment, the heat is lost more, the heating pipe 19 in the second pump body 5 heats the water again and then flows to the inside of the first pump body 4 along the water conveying pipe 20, the effect of timely supplementing heat is achieved, and the heating.

The air blown out by the blower fan 13 flows to the inner groove 14 of the second heating barrel 8 along the inner groove 14 of the first heating barrel 7 and then is blown into the second pump body 5 through the air inlet pipe 17, and then is sent into the inner groove 14 of the first heating barrel 7 again through the air outlet pipe 10, so that the heat remained in the heating barrel can be sent into the second pump body 5 together with the air through the blower fan 13 to be mixed with water, the water is utilized to absorb the heat, the heat recycling effect is achieved, and the heater is more energy-saving when in use.

U type connecting pipe 12 is installed inside U type spread groove 16, avoids the heat to run off.

The working method of the efficient energy-saving film heater for the pure electric bus comprises the following specific steps:

the method comprises the following steps: the top cover 6 is opened to place the film to be heated on the first heating cylinder 7 and the second heating cylinder 8, water flows into the cylindrical water tank 11 inside the first heating cylinder 7 from the first pump body 4 firstly, the water is heated for the first time by the heating pipe 19 inside the first pump body 4, then hot water flows into the cylindrical water tank 11 inside the second heating cylinder 8 from the U-shaped connecting pipe 12, the hot water transfers heat to the outer wall of the heating cylinder in the circulating process to heat the film, the hot water flows into the second pump body 5 along the connecting pipe 9 between the second heating cylinder 8 and the second pump body 5, at the moment, the heat is lost more, the heating pipe 19 inside the second pump body 5 heats the water again and then flows into the first pump body 4 along the water conveying pipe 20 to complete hot water circulation;

the hot water has partial heat to stay in the heating cylinder in the circulating process, the air blown by the blowing fan 13 flows to the inner groove 14 of the second heating cylinder 8 along the inner groove 14 of the first heating cylinder 7 and then is blown into the second pump body 5 through the air inlet pipe 17, and is sent into the inner groove 14 of the first heating cylinder 7 again through the air outlet pipe 10, the residual heat in the heating cylinder is blown by the blowing fan 13 and is sent into the second pump body 5 along with the air to be mixed with the water, the water absorbs the heat, and after the heating of the film is finally completed, the top cover 6 is opened to take out the film.

The utility model has the advantages that: the cylindrical water tank 11 is used for circulating hot water and transferring heat required by heating the film, and the cylindrical water tank 11 is directly arranged inside the inner wall of the heating cylinder to replace a traditional water pipe inside the heating cylinder, so that the heat of the hot water is directly transferred to the outer wall of the heating cylinder;

because a water circulation structure is formed between the first pump body 4 and the second pump body 5 through the first heating cylinder 7 and the cylindrical water tank 11 on the inner wall of the second heating cylinder 8, water firstly flows into the cylindrical water tank 11 inside the first heating cylinder 7 from the first pump body 4, the water is primarily heated by the heating pipe 19 inside the first pump body 4, then hot water flows into the cylindrical water tank 11 inside the second heating cylinder 8 from the U-shaped connecting pipe 12, the hot water transfers heat to the outer wall of the heating cylinder in the circulating process so as to heat the film, the hot water flows into the second pump body 5 along the connecting pipe 9 between the second heating cylinder 8 and the second pump body 5, at the moment, the heat is lost more, the heating pipe 19 inside the second pump body 5 heats the water again and then flows into the first pump body 4 along the water conveying pipe 20, the function of timely supplementing heat is achieved, and the heating effect is ensured;

due to the existence of the blowing fan 13, the air blown out by the blowing fan 13 flows to the inner groove 14 of the second heating cylinder 8 along the inner groove 14 of the first heating cylinder 7 and then is blown into the second pump body 5 through the air inlet pipe 17, and then is sent into the inner groove 14 of the first heating cylinder 7 again through the air outlet pipe 10, so that the heat remained in the heating cylinder can be sent into the second pump body 5 together with the air through the blowing fan 13 to be mixed with water, the water is utilized to absorb the heat, the heat recycling effect is achieved, and the heater is more energy-saving when in use.

When the utility model is used, firstly, the whole heater is assembled, the cylindrical water tank 11 is used for circulating hot water and transferring the heat required by heating the film, and the cylindrical water tank 11 is directly arranged inside the inner wall of the heating cylinder to replace the traditional water pipe inside the heating cylinder, so that the heat of the hot water is directly transferred to the outer wall of the heating cylinder, the mode not only has little heat loss and better heat transfer effect, but also has lower cost without using the water pipe, one end of the cylindrical water tank 11 of the first heating cylinder 7 and the second heating cylinder 8 is connected through the U-shaped connecting pipe 12, the U-shaped connecting pipe 12 is arranged inside the U-shaped connecting groove 16, the first heating cylinder 7 and the second heating cylinder 8 are fixedly connected with the first end seat 1 after the cylindrical water tank 11 of the first heating cylinder 7 and the second heating cylinder 8 are connected, then, one end of the cylindrical water tank 11 of the first heating cylinder 7 is connected with the first pump body 4 through the connecting pipe 9, one end of a cylindrical water tank 11 of the second heating cylinder 8 is connected with the second pump body 5 through a connecting pipe 9, the second pump body 5 is connected with the second heating cylinder 8 through an air inlet pipe 17, the first pump body 4 is connected with the second pump body 5 through a water feeding pipe 20, the second pump body 5 is connected with the first heating cylinder 7 through an air outlet pipe 10, and the second end base 2 is fixedly installed to be put into use. When the film heating device is used, the top cover 6 is opened, a film to be heated is placed on the first heating cylinder 7 and the second heating cylinder 8, a water circulation structure is formed between the first pump body 4 and the second pump body 5 through the cylindrical water tanks 11 on the inner walls of the first heating cylinder 7 and the second heating cylinder 8, water firstly flows from the first pump body 4 to the inside of the cylindrical water tank 11 inside the first heating cylinder 7, the water is heated for the first time by the heating pipe 19 inside the first pump body 4, then hot water flows from the U-shaped connecting pipe 12 to the inside of the cylindrical water tank 11 of the second heating cylinder 8, the hot water transfers heat to the outer wall of the heating cylinder in the circulation process so as to heat the film, the hot water flows to the second pump body 5 along the connecting pipe 9 between the second heating cylinder 8 and the second pump body 5, at the moment, the heat is lost much, the heating pipe 19 inside the second pump body 5 heats the water again and then flows to the inside of the first pump body 4 along the water, the hot water circulation is completed, partial heat of the hot water is left in the heating cylinder in the circulation process, due to the existence of the blowing fan 13, the air blown out by the blowing fan 13 flows to the inner groove 14 of the second heating cylinder 8 along the inner groove 14 of the first heating cylinder 7 and then is blown into the second pump body 5 through the air inlet pipe 17, and then is sent into the inner groove 14 of the first heating cylinder 7 again through the air outlet pipe 10, so that the residual heat in the heating cylinder can be sent into the second pump body 5 together with the air through the blowing fan 13 to be mixed with the water, the water is utilized to absorb the heat, the heat circulation utilization effect is achieved, the heater is more energy-saving in use, and after the heating of the film is finally completed, the top cover 6 is opened to take out the film.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. A high-efficiency energy-saving film heater for a pure electric bus comprises a first end seat (1), a second end seat (2) and a wrapping shell (3) positioned between the first end seat and the second end seat, wherein a first heating barrel (7) and a second heating barrel (8) are arranged inside the wrapping shell (3), and the film heater is characterized in that a turnover top cover (6) is arranged on the outer wall of the top of the wrapping shell (3), two butt joint holes (15) which are fixedly butted with the first heating barrel (7) and the second heating barrel (8) are formed in the side wall of the first end seat (1), the two butt joint holes (15) are connected through a U-shaped connecting groove (16) positioned inside the first end seat (1), and a first pump body (4) and a second pump body (5) are arranged at the top of the second end seat (2);

a plurality of cylindrical water tanks (11) which are uniformly distributed and used for water flowing are arranged inside the inner walls of the first heating cylinder (7) and the second heating cylinder (8), one ends of the cylindrical water tanks (11) of the first heating cylinder (7) and the second heating cylinder (8) are connected through U-shaped connecting pipes (12), one end of the cylindrical water tank (11) of the first heating cylinder (7) is connected with the bottom of the first pump body (4) through a connecting pipe (9), one end of the cylindrical water tank (11) of the second heating cylinder (8) is connected with the bottom of the second pump body (5) through the connecting pipe (9), inner grooves (14) used for gas circulation are arranged inside the first heating cylinder (7) and the second heating cylinder (8), and a blowing fan (13) is installed at one end, close to the first end seat (1), of the first heating cylinder (7);

power (18) are all installed at first pump body (4), the second pump body (5) top, just heating tube (19) have all been inserted with second heating tube (8) inside in first heating tube (7), be connected with a flow pipe (20) on the lateral wall of second pump body (5) bottom, flow pipe (20) one end is connected with first pump body (4), flow pipe (20) top is provided with outlet duct (10) that are located on the second pump body (5) lateral wall, outlet duct (10) one end is connected to the one end of first heating tube (7) installation blast fan (13), second pump body (5) bottom is connected with an intake pipe (17), intake pipe (17) one end is connected with the one end that second heating tube (8) are close to second pump body (5).

2. The efficient energy-saving film heater for the pure electric passenger car according to claim 1, wherein a sealing ring for sealing is arranged around the top cover (6), and cotton for heat preservation is filled in the inner wall of the wrapping shell (3).

3. The film heater for the pure electric bus with high efficiency and energy saving according to claim 1, characterized in that a water circulation structure is formed between the first pump body (4) and the second pump body (5) through the cylindrical water tank (11) on the inner walls of the first heating cylinder (7) and the second heating cylinder (8).

4. The film heater for the pure electric bus of claim 1, wherein the air blown by the blower fan (13) flows along the inner groove (14) of the first heating cylinder (7) to the inner groove (14) of the second heating cylinder (8), then is blown into the second pump body (5) through the air inlet pipe (17), and then is sent into the inner groove (14) of the first heating cylinder (7) again through the air outlet pipe (10).

5. The thin film heater for a pure electric bus of high efficiency and energy saving type as claimed in claim 1, wherein the U-shaped connecting pipe (12) is installed inside the U-shaped connecting groove (16).