Patent Description:
Nowadays, air conditioners have almost become a necessity in people's lives. The air conditioner generally has both heating and cooling functions. Heating function of the air conditioner usually refers to the heat-pump heating, which is a heating manner that utilizes Freon as the medium to transfer the heat to save electricity. A compressor in an outdoor unit is used to make Freon become a high-temperature and high-pressure gas, which then enters the evaporator in an indoor unit, releases the heat and condenses into a liquid. The released heat is transferred into the room, achieving the heating effect. The liquid Freon flows back to the outdoor unit to absorb the heat of the outdoor air and becomes a gaseous Freon which then flows back to the compressor to complete one cycle and start the next one, thereby saving a lot of electricity; however when in winter the outdoor temperature is below minus <NUM> degrees, the heating effect of the air conditioner will be greatly affected. It is almost impossible for the outdoor unit to obtain sufficient heat from the ambient to change the liquid Freon into the gaseous Freon, and the icing, frosting, or other phenomena of the outdoor unit may also occur, which affects the use of the air conditioner and cannot meet the heating requirement for the indoor unit. In this case, even if the air conditioner is turned on, there is no temperature change because the heating effect is affected. Therefore, it is necessary to propose an evaporator with an auxiliary heating device, to at least solve a part of the problems existed in the related art.

<CIT> discloses an evaporator with an auxiliary heating device according to the preamble of claim <NUM>. This document provides an electric heating installation structure and an air conditioner, and relates to the field of air conditioning. It is used to install an electric heating device on an air conditioner and includes an electric heating body, a first connecting piece, a second connecting piece, a first mounting plate, a second mounting plate and a reinforcing bracket. The first connecting piece is provided with a boss. The first mounting plate is provided with a clamping hole. The second mounting plate is arranged opposite to the first mounting plate. The second mounting plate includes a mounting piece extending from the surface of the second mounting plate toward the direction of the first mounting plate. The reinforcing bracket fixedly connects the middle part of the electric heating body with the bottom plate. The second connecting piece is attached and connected to the mounting piece by screws. The electric heating installation structure does not require additional design components to install and fix the electric heating device, and the installation method is simple, and the installation or disassembly is convenient, which solves the problem of the electric heating device having many installation parts and low installation efficiency.

<CIT> discloses a PTC electric heating device. The PTC electric heating device includes a PTC electric heating pipe. A first insulation end and a first installation plate are arranged at the first end of the PTC electric heating pipe, wherein the first installation plate is used for installing the PTC electric heating pipe to an evaporator and is connected with the first installation end. A controller, a power line, a second insulation end, a second installation plate and an elastic module are arranged at the second end of the PTC electric heating pipe, wherein the power line is electrically connected with the controller, the second installation plate is connected with the second insulation plate, and the elastic module is arranged at the second insulation end. Due to the fact that the elastic module produces shape change springback, the PTC electric heating pipe is moved towards the first installation plate to be attached to the evaporator, the PTC electric heating pipe cannot slide, and a gap between the PTC electric heating pipe and a left end plate of the evaporator and a gap between the PTC electric heating pipe and a right end plate of the evaporator are eliminated. The PTC electric heating pipe is not prone to sliding, and the situation that the position of the PTC electric heating pipe is repeatedly adjusted due to hole displacement cannot occur. Thus, production and installation are facilitated, and the production efficiency is effectively improved. The PTC electric heating pipe is provided with a radiator and an electric heater, and the electric heater is provided in the radiator.

Compared to the related art, the present invention at least enables the following beneficial effects.

In the evaporator with the auxiliary heating device according to the present invention when the outdoor temperature is below minus <NUM> degrees, the heating device is activated to heat and transfer the heat to the room, thus when the heating function of the air conditioner is used, it will not be limited by the outdoor temperature; moreover, icing, frosting or the like phenomena of the outdoor unit will not occur to affect the use of the air conditioner, the auxiliary heating device has a good heating effect and can achieve the purpose of rapid and powerful heating.

The present invention relates to an evaporator with an auxiliary heating device.

The accompanying drawings are used to provide further understanding of the present invention, and constitutes a part of the specification, and are intended to explain the present invention with the following specific implementation.

The present invention is described in further detail below with reference to the drawings and the embodiments, to enable a person skilled in the art to implement according to the text of the specification.

It should be understood that the terms used herein, such as "have", "include" and "comprise" do not exclude existence or addition of one or more other element or combination thereof.

As illustrated in <FIG>, the present invention provides an evaporator with an auxiliary heating device including an evaporator <NUM>, a heating device <NUM>, and two mounting plates <NUM>. The two mounting plates <NUM> are provided at two ends of the evaporator <NUM> respectively, and two ends of the heating device <NUM> are connected to the two mounting plates <NUM> respectively.

Working principle of the above-described technical solution is: the two mounting plates <NUM> are secured to the two ends of the evaporator <NUM> respectively, the material and the structure of the two mounting plates <NUM> are determined according to the practical requirements; the mounting plate <NUM> and the evaporator <NUM> may employ a connection method such as welding, threaded connection, snap-fit connection, etc.; the two ends of the heating device <NUM> can be secured to the mounting plates <NUM> through threaded connection, snap-fit connection, or other methods, and the two ends of the heating device <NUM> can be secured to the mounting plate <NUM> by selecting different connection methods respectively; the heating device <NUM> employs PCT electric auxiliary heating technology, the PTC is a semiconductor heating ceramic, when the outside temperature decreases, the resistance value of the PTC decrease accordingly, but the generated heat increases accordingly; after the heating device <NUM> is energized, the electric energy is converted into the thermal energy to be transferred into the room.

Beneficial effects of the above-described technical solution are: when the outdoor temperature is below minus <NUM> degrees, the heating device <NUM> is activated to heat and transfer the heat to the room, thus when the heating function of the air conditioner is used, it will not be limited by the outdoor temperature; moreover, icing, frosting or the like phenomena of the outdoor unit <NUM> will not occur to affect the use of the air conditioner, the auxiliary heating device has a good heating effect and can achieve the purpose of rapid and powerful heating.

In one embodiment, the heating device <NUM> includes a heating body <NUM>-<NUM>, and a plurality of radiators <NUM>-<NUM>, the plurality of radiators <NUM>-<NUM> is provided at upper and lower faces of the heating body <NUM>-<NUM>, and two ends of the heating device <NUM> are symmetrically provided with mounting frames <NUM>-<NUM>.

Working principle of the above-described technical solution is: the heating device <NUM> has a cuboid structure as a whole, and the upper and lower faces of the heating body <NUM>-<NUM> have large area and emit more heat; the heating body <NUM>-<NUM> emits heat after being energized, and transfers the heat to the radiator <NUM>-<NUM>, and the radiator <NUM>-<NUM> can effectively transfer the heat to the room; the number of the plurality of radiators <NUM>-<NUM> can be determined according to requirements, and the plurality of radiators <NUM>-<NUM> can be detachably connected to the heating body <NUM>-<NUM> through thread; two radiators <NUM>-<NUM> may be provided and symmetrically disposed at the upper and lower faces of the heating body <NUM>-<NUM>, and there are at least three connection methods for them; the first is that the radiator <NUM>-<NUM> and the heating body <NUM>-<NUM> are integrally formed, the second is that a base of the radiator <NUM>-<NUM> is welded to the heating body <NUM>-<NUM>, and the third is that an end of the radiator <NUM>-<NUM> and an end of the heating body <NUM>-<NUM> are fixed through the mounting frame <NUM>-<NUM>, thereby connecting them.

Beneficial effects of the above-described technical solution are: the radiator <NUM>-<NUM> provided on the heating body <NUM>-<NUM> can transfer the heat generated by the heating body <NUM>-<NUM> to the room more rapidly, improving the heat transfer efficiency; there are various connection methods for the radiator <NUM>-<NUM> and the heating body <NUM>-<NUM>, which can be selected according to practical requirements.

In one embodiment, the heating body <NUM>-<NUM> and the plurality of radiators <NUM>-<NUM> are integrally formed.

Working principle of the above-described technical solution is: two radiators <NUM>-<NUM> may be provided, the upper and lower faces of the heating body <NUM>-<NUM> is symmetrically provided with the radiators <NUM>-<NUM>, and they can be integrally formed in the production process.

Beneficial effects of the above-described technical solution are: the heating body <NUM>-<NUM> and the radiator <NUM>-<NUM> are integrally formed and can be used directly, saving the assembly time and having high heat conduction efficiency.

In one embodiment, bottom faces of the plurality of radiators <NUM>-<NUM> are welded to the upper and lower faces of the heating body <NUM>-<NUM>.

Working principle of the above-described technical solution is: the number of the radiators <NUM>-<NUM> can be determined according to requirements, and two or more radiators may be provided; the radiator <NUM>-<NUM> is welded to the heating body <NUM>-<NUM>, they are produced separately, and the heating body <NUM>-<NUM> can be welded with radiators <NUM>-<NUM> of different specifications.

Beneficial effects of the above-described technical solution are: the welding is firm, and the heat conduction efficiency is high.

In one embodiment, the upper and lower faces of the heating body <NUM>-<NUM> are symmetrically provided with the radiators <NUM>-<NUM>, and an end of the heating body <NUM>-<NUM> and an end of the radiator <NUM>-<NUM> are fixedly connected through the mounting frame <NUM>-<NUM>.

Working principle of the above-described technical solution is: the number of the radiators <NUM>-<NUM> may be two, the length and width of the radiator <NUM>-<NUM> are both equal to the length and the width of the heating body <NUM>-<NUM>, and they are symmetrically disposed at the upper and lower faces of the heating body <NUM>-<NUM>; two ends of each of the two radiators <NUM>-<NUM> and the heating body <NUM>-<NUM> can be inserted into the first groove <NUM>-<NUM>-<NUM> of the mounting frame <NUM>-<NUM>, and the two radiators <NUM>-<NUM> and the heating body <NUM>-<NUM> are fixedly connected by interference fit with the first groove <NUM>-<NUM>-<NUM>, such that bottom faces of the radiators <NUM>-<NUM> are in complete contact with the heating body <NUM>-<NUM>.

Beneficial effects of the above-described technical solution are: the heating body <NUM>-<NUM> and the radiator <NUM>-<NUM> are connected only by the mounting frame <NUM>-<NUM>, if the heating body <NUM>-<NUM> is damaged, the replacement thereof is very convenient; the specifications of the radiator <NUM>-<NUM> can be selected freely to combine with the heating body <NUM>-<NUM>.

According to the invention, the radiator <NUM>-<NUM> includes a radiator base <NUM>-<NUM>-<NUM> and a plurality of first fins <NUM>-<NUM>-<NUM>, the plurality of first fins <NUM>-<NUM>-<NUM> is distributed vertically and uniformly on the radiator base <NUM>-<NUM>-<NUM>, and a width of the first fin <NUM>-<NUM>-<NUM> is equal to a width of the radiator base <NUM>-<NUM>-<NUM>.

Working principle of the above-described technical solution is: the overall structure of the radiator <NUM>-<NUM> is a cuboid, the radiator base <NUM>-<NUM>-<NUM> is fixedly connected to the upper face or the lower face of the heating body <NUM>-<NUM>, the radiator base <NUM>-<NUM>-<NUM> is used to fix the plurality of first fins <NUM>-<NUM>-<NUM>, and the radiator <NUM>-<NUM> can effectively absorb the heat from the heating body <NUM>-<NUM> through the plurality of first fins <NUM>-<NUM>-<NUM>.

Beneficial effects of the above-described technical solution are: the plurality of first fins <NUM>-<NUM>-<NUM> of the radiator <NUM>-<NUM> can rapidly absorb the heat generated by the heating body <NUM>-<NUM>, and efficiently transfer the heat.

In one embodiment, the radiator <NUM>-<NUM> is provided with a fixing sheet <NUM>-<NUM>-<NUM> for fixing the plurality of first fins <NUM>-<NUM>-<NUM>, the fixing sheet <NUM>-<NUM>-<NUM> has a width equal to the width of the radiator base <NUM>-<NUM>-<NUM>, and the fixing sheet <NUM>-<NUM>-<NUM> and the radiator base <NUM>-<NUM>-<NUM> are disposed parallel to each other.

Working principle of the above-described technical solution is: the radiator <NUM>-<NUM> may also be provided with a fixing sheet <NUM>-<NUM>-<NUM> for fixing the first fins <NUM>-<NUM>-<NUM> according to requirements, thereby protecting the first fins <NUM>-<NUM>-<NUM> from damage to some extent.

Beneficial effects of the above-described technical solution are: the fixing sheet <NUM>-<NUM>-<NUM> can make fixation of the first fins <NUM>-<NUM>-<NUM> more firm and can prevent the first fins <NUM>-<NUM>-<NUM> from deformation due to external forces to some extent, which otherwise affects the heat radiation effect.

In one embodiment, a central position of the radiator base <NUM>-<NUM>-<NUM> is provided with a first round hole <NUM>-<NUM>-<NUM>, and a central position of the fixing sheet <NUM>-<NUM>-<NUM> is provided with a first oblong hole <NUM>-<NUM>-<NUM> corresponding to the first round hole <NUM>-<NUM>-<NUM>.

It could be understood that, the expression "a first element corresponds to a second element" used herein means that the first element is able to be fitted with the second element. For example, the first oblong hole <NUM>-<NUM>-<NUM> corresponds to the first round hole <NUM>-<NUM>-<NUM>, that is, the first oblong hole <NUM>-<NUM>-<NUM> is able to be fitted with the first round hole <NUM>-<NUM>-<NUM>.

Working principle of the above-described technical solution is: the first round hole <NUM>-<NUM>-<NUM> of the radiator base <NUM>-<NUM>-<NUM> is used to connect the heating body <NUM>-<NUM>, a certain amount of mounting space is left around the first round hole <NUM>-<NUM>-<NUM>, a center of the first oblong hole <NUM>-<NUM>-<NUM> and a center of the first round hole <NUM>-<NUM>-<NUM> coincide, and a size of the first oblong hole <NUM>-<NUM>-<NUM> is not smaller than a size of the mounting space left around the first round hole <NUM>-<NUM>-<NUM>.

Beneficial effects of the above-described technical solution are: the radiator <NUM>-<NUM> is detachably connected to the heating body <NUM>-<NUM> through the first round hole <NUM>-<NUM>-<NUM>, the mounting space for the nut is left around the first round hole <NUM>-<NUM>-<NUM>, and the fixing sheet <NUM>-<NUM>-<NUM> is provided with the first oblong hole <NUM>-<NUM>-<NUM>, which all make the detachment of the radiator <NUM>-<NUM> more convenient.

In one embodiment, a plurality of first studs <NUM>-<NUM>-<NUM> corresponding to the first round hole <NUM>-<NUM>-<NUM> are distributed on the upper and lower faces of the heating body <NUM>-<NUM>.

Working principle of the above-described technical solution is: the plurality of first studs <NUM>-<NUM>-<NUM> is uniformly distributed in the length direction of the heating body <NUM>-<NUM>, and is used to mount the radiator <NUM>-<NUM>; the first round hole <NUM>-<NUM>-<NUM> of the radiator base <NUM>-<NUM>-<NUM> allows the first stud <NUM>-<NUM>-<NUM> to pass through, and the nut is used to threaded onto the first stud <NUM>-<NUM>-<NUM>, to lock the radiator <NUM>-<NUM>, and make the radiator base <NUM>-<NUM>-<NUM> and the heating body <NUM>-<NUM> have sufficient contact and firm fixation.

Beneficial effects of the above-described technical solution are: the radiator <NUM>-<NUM> can be secured to the heating body <NUM>-<NUM> firmly, such that they can be in sufficient contact to transfer the heat better.

Preferably, at least an end of the heating body <NUM>-<NUM> is provided with a plug <NUM>-<NUM>-<NUM>.

Working principle of the above-described technical solution is: the plug <NUM>-<NUM>-<NUM> provided to the at least an end of the heating body <NUM>-<NUM> can be used to fix the heating device <NUM>.

Beneficial effects of the above-described technical solution are: the plug <NUM>-<NUM>-<NUM> is used to fix the heating device <NUM> to the mounting frame <NUM>-<NUM>, limiting the displacement of the heating device <NUM> to some extent.

In one embodiment, a width of the heating body <NUM>-<NUM> is equal to the width of the radiator base <NUM>-<NUM>-<NUM>.

Working principle of the above-described technical solution is: the heating body <NUM>-<NUM> and the plurality of radiators <NUM>-<NUM> form a complete cuboid heating device <NUM>, the heating body <NUM>-<NUM> has a width equal to that of the radiator base <NUM>-<NUM>-<NUM>, thus the contact area therebetween is maximized, and the heat transfer efficiency is the highest.

Beneficial effects of the above-described technical solution are: the heating body <NUM>-<NUM> has a width equal to that of the radiator base <NUM>-<NUM>-<NUM>, such that the contact area therebetween can be maximized; when the heating body <NUM>-<NUM> heats, the heat can transfer to the radiator <NUM>-<NUM> more efficiently, resulting in better heat output.

In one embodiment, a side of the mounting frame <NUM>-<NUM> is provided with a first groove <NUM>-<NUM>-<NUM> allowing the end of the heating device <NUM> to be inserted therein, the opposite side thereof is provided with a connection portion, and the first groove <NUM>-<NUM>-<NUM> is internally provided with a socket <NUM>-<NUM>-<NUM> corresponding to the plug <NUM>-<NUM>-<NUM>.

Working principle of the above-described technical solution is: the heating device <NUM> is packaged in the interior of the evaporator <NUM>, and the mounting frames <NUM>-<NUM> provided at two ends of the heating device <NUM> are used to fix the heating device <NUM> in the evaporator <NUM>; the first groove <NUM>-<NUM>-<NUM> allows the end of the heating device <NUM> to be inserted therein, and the socket <NUM>-<NUM>-<NUM> provided in the first groove <NUM>-<NUM>-<NUM> allows the plug <NUM>-<NUM>-<NUM> of the heating body <NUM>-<NUM> to be inserted and snap-fitted therein, to firmly connect the heating device <NUM> to the mounting frame <NUM>-<NUM>; the connection portion provided to the mounting frame <NUM>-<NUM> is used to connect with the mounting plate <NUM>, there are various connection methods for the mounting frame <NUM>-<NUM> and the mounting plate <NUM>, such as combination of threaded connection, welding, snap-fit connection or the like.

Beneficial effects of the above-described technical solution are: the mounting frame <NUM>-<NUM> and the mounting plate <NUM> can cooperate to firmly fix the heating device <NUM> in the evaporator <NUM>, and the mounting frame <NUM>-<NUM> not only can fix the heating device <NUM> but also have an insulation effect; the various connection methods for the mounting frame <NUM>-<NUM> and the mounting plate <NUM> can combined and used freely according to the practical requirements.

In one embodiment, the connection portion includes a second stud a1, an end of the second stud a1 is connected to the mounting frame <NUM>-<NUM>, and the mounting frame <NUM>-<NUM> is provided with a second round hole a2 corresponding to the second stud a1.

Working principle of the above-described technical solution is: this is the first connection method for the mounting frame <NUM>-<NUM> and the mounting plate <NUM>, the second stud a1 of the mounting frame <NUM>-<NUM> can pass through the second round hole a2, and be locked on the mounting plate <NUM> by the nut.

Beneficial effects of the above-described technical solution are: the structure is simple, the mounting is convenient, and the fixation is firm.

In one embodiment, the connection portion includes a connecting rod b1 and a snap-fitting part b2, an end of the connecting rod b1 is connected to the mounting frame <NUM>-<NUM>, a middle portion and the other end of the connecting rod b1 are provided with the snap-fitting part b2 snap-fitted with the mounting plate <NUM>, a maximum diameter of the snap-fitting part b2 is smaller than a diameter of the connecting rod b1, and two symmetrical faces of the snap-fitting part b2 are each provided with a second groove b3; the mounting plate <NUM> is provided with an aperture b4 corresponding to the second groove b3, and a bottom end of the aperture b4 is provided with a third round hole b5 corresponding to the maximum diameter of the snap-fitting part b2.

Working principle of the above-described technical solution is: this is the second connection method for the mounting frame <NUM>-<NUM> and the mounting plate <NUM>, when mounting, the second groove b3 is aligned with the aperture b4 and inserted from top to bottom into the third round hole b5, and then the snap-fitting part b2 is rotated by <NUM> degrees, in this case, the maximum diameter arc of the snap-fitting part b2 and the third round hole b5 form interference fit, the great friction force therebetween limits the radial motion of the snap-fitting part b2; since the maximum diameter of the snap-fitting part b2 is smaller than the diameter of the connecting rod b1, in this case, the connecting rod b1 limits the axial motion of the snap-fitting part b2, and the mounting frame <NUM>-<NUM> is firmly fixed to the mounting plate <NUM>.

Beneficial effects of the above-described technical solution are: by means of snap-fitting of the snap-fitting part b2 and the mounting plate <NUM>, the disassembly and assembly of the mounting frame <NUM>-<NUM> become very convenient, they can be firmly fixed only by an external force without a tool.

It should note that, the two fixing methods for the mounting frame <NUM>-<NUM> and the mounting plate <NUM> can be combined and used according to practical situations, which is however not limited to the two fixing methods.

In one embodiment, the evaporator <NUM> includes a plurality of second fins <NUM>-<NUM> and a copper tube <NUM>-<NUM>, the second fin <NUM>-<NUM> is substantively C-shaped, the plurality of second fins <NUM>-<NUM> is parallel to each other and distributed uniformly, and the copper tuber <NUM>-<NUM> is continuously bent into a U shape, passes through the plurality of second fins <NUM>-<NUM> and is fixedly connected to the plurality of second fins <NUM>-<NUM>.

Working principle of the above-described technical solution is: the copper tube <NUM>-<NUM> is used to pass the liquid or gaseous Freon, and the plurality of second fins <NUM>-<NUM> are tightly connected to the copper tube, such that the temperature of the copper tube <NUM>-<NUM> can be efficiently transferred to the plurality of second fins <NUM>-<NUM>, and then appropriate temperature is transferred to the room.

Beneficial effects of the above-described technical solution are: the copper tube <NUM>-<NUM> has excellent heat conduction performance, and the second fins <NUM>-<NUM> are mainly used to emit the heat from the copper tube <NUM>-<NUM> out and efficiently transfer the appropriate temperature to the room.

The present invention further provides an air conditioner, including an outdoor unit <NUM>; and an indoor unit <NUM> in communication with the outdoor unit <NUM> and including an above-described evaporator with the auxiliary heating device.

Working principle of the above-described technical solution is: the air conditioner includes an outdoor unit <NUM> and an indoor unit <NUM>, the outdoor unit <NUM> and the indoor unit <NUM> are communicated through the high-pressure tube <NUM> and the gas return tube <NUM>; the outdoor unit <NUM> is internally provided with a compressor, and a condensor; the indoor unit <NUM> is internally provided with an evaporator <NUM> and a cross flow fan; when the air conditioner employing an evaporator <NUM> without the auxiliary heating device performs heating, its heating principle is that the compressor in the outdoor unit <NUM> compresses Freon into a high-temperature and high-pressure gas, which enters the copper tube <NUM>-<NUM> of the evaporator <NUM> of the indoor unit <NUM> through the high-pressure tube <NUM>, the gaseous Freon in the high-temperature and high-pressure state encounters the low-temperature copper tube <NUM>-<NUM>, condenses into a liquid Freon, and release heat to rise the temperature of the air in the indoor unit <NUM>; the heated air is transferred to the room by the cross flow fan, thereby forming warm airflow; the liquid Freon will continue to flow along the copper tube <NUM>-<NUM> in the indoor unit <NUM> back to the outdoor unit <NUM>, the liquid Freon absorbs the heat of the outdoor air in the outdoor unit <NUM> through the condensor, becomes gaseous Freon, and flows back to the compressor, thus completing one cycle and starting next one; if the outdoor temperature is below minus <NUM> degrees, the heating effect of the air conditioner will be greatly affected, such that the icing, frosting or other phenomena of the outdoor unit <NUM> of the air conditioner are prone to occur, in which case the outdoor unit <NUM> needs to perform defrosting continuously, resulting in slow heat supply and low heat power, and even more the air conditioner cannot perform heating; therefore, adding the auxiliary heating device into the evaporator <NUM> can effectively improve the heating efficiency of the air conditioner, and ensure that the air conditioner can effectively perform heating at any outdoor temperature.

Beneficial effects of the above-described technical solution are: the air conditioner having an evaporator <NUM> with the auxiliary heating device can heat at a low temperature and transfer the heat to the room, without being affected by the outside temperature, and will not cause occurrence of the icing, frosting, or other phenomena of the outdoor unit <NUM> which otherwise will affect the use of the air conditioner.

In the specification, it is to be understood that terms such as "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial" and "circumferential" should be construed to refer to the orientation as then described or as shown in the drawings under discussion. These relative terms are for convenience of description and do not require that the present invention be constructed or operated in a particular orientation.

Claim 1:
An evaporator with an auxiliary heating device, comprising:
an evaporator (<NUM>),
a heating device (<NUM>), and
two mounting plates (<NUM>) provided at two ends of the evaporator (<NUM>) respectively,
wherein two ends of the heating device (<NUM>) are connected to the two mounting plates (<NUM>) respectively,
wherein the heating device (<NUM>) includes a heating body (<NUM>-<NUM>), and a plurality of radiators (<NUM>-<NUM>), the plurality of radiators (<NUM>-<NUM>) is provided at upper and lower faces of the heating body (<NUM>-<NUM>), and two ends of the heating device (<NUM>) are symmetrically provided with mounting frames (<NUM>-<NUM>),
characterized in that the radiator (<NUM>-<NUM>) comprises a radiator base (<NUM>-<NUM>-<NUM>) and a plurality of first fins (<NUM>-<NUM>-<NUM>), the plurality of first fins (<NUM>-<NUM>-<NUM>) is distributed vertically and uniformly on the radiator base (<NUM>-<NUM>-<NUM>), and a width of the first fin (<NUM>-<NUM>-<NUM>) is equal to a width of the radiator base (<NUM>-<NUM>-<NUM>).