KR101093519B1 - Structure for heat exchanged ventilation unit and the method of the same - Google Patents

Abstract

The present invention is produced by injecting the enclosure into a single mold, thereby simplifying the process, productivity is improved, and the selection of insulation materials is easy, so that separate insulation construction can be omitted, and the material has a low elastic modulus to reduce noise and vibration. The present invention relates to a housing for a ventilation unit having a heat exchange function having an improved air flow and having a smooth curved surface, and a method of manufacturing the same.

In the form of a quadrangular enclosure, the upper surface portion forms an opening 11, the lower portion forms a closed bottom, and a pair of supply / exhaust holes 14, 15, 16, 17 are formed on two opposite sides of the four sides, and one side surface. Is formed in the control panel mounting groove 18, the inner space of the opening 11 to form a guide groove 12a downward to form four support portions 12 extending to the bottom floor,

The upper and lower mold sets 110 and 120 are formed of molten resin and formed into a balloon-shaped resin film 10a in which a spout is formed. The spout of the resin film 10a is an air inlet ( 130 is placed in the air, and the resin film 10a is brought into close contact with inner walls of the upper and lower molds 110 and 120, followed by air cooling, and the resin film 10b is separated.

 Heat exchanger, enclosure unit, manufacturing method

Description

Box for ventilation unit having heat exchange function and its manufacturing method {Structure for heat exchanged ventilation unit and the method of the same}

The present invention relates to a ventilating unit housing having a heat exchange function and a method of manufacturing the same, and in particular, by producing the injection molded into a single mold to simplify the process, the productivity is improved, the process cost is reduced, and the weight is It is lightweight and easy to install, and material cost is reduced, and it is easy to select insulation materials, so it is possible to omit separate insulation construction. It is a resin-based material with low elastic modulus, which reduces noise and vibration. The present invention relates to an enclosure for a ventilation unit having an improved heat exchange function and a method of manufacturing the same.

In the accompanying drawings, a conventional heat exchanger ventilator shown in FIG. Generates wind and is opposed to the other side of each suction port so that the indoor and outdoor air blowers mounted inside the respective suction ports and the indoor and outdoor air sucked by the blowing force of each blower are discharged to the outside and the indoors. The indoor discharge port and the outdoor discharge port, and heat exchange elements through which the indoor and outdoor air sucked through the respective suction ports are heat-exchanged with each other, are installed in the inner center of the ventilator.

In addition, the outdoor suction opening may be provided with an opening and closing member for opening and closing the outdoor suction opening by the control of a solenoid (not shown) to control the suction of outdoor air sucked into the outdoor suction opening, the outdoor suction opening provided with the opening and closing member Inside of the dust filter for filtering the foreign matter contained in the outdoor air sucked through the outdoor suction port is installed.

The operation state of the conventional ventilation device is as follows.

First, when the microcomputer determines the necessity of ventilating the room by applying power to the ventilation device, the outdoor suction opening is opened by the opening and closing member, and the indoor blower and the outdoor blower are driven.

In addition, by the driving of the indoor blower, the indoor air in the warm or cold state of the room is forcedly sucked as an arrow and discharged to the outside through the outdoor discharge port through the heat exchange element, and simultaneously, by the driving of the outdoor blower. Outdoor air in the cold or warm state of the outdoor is sucked as an arrow and discharged into the room through the indoor discharge port via the heat exchange element.

Meanwhile, the conventionally improved ventilation unit shown in FIG. 1B of the accompanying drawings proposed to improve the assemblability of the ventilation unit is manufactured by separately welding the outer casing, and then attaches a heat insulating material therein, in particular, a heat exchange element. It was produced by improving the mounting structure, but there were many problems in the manufacture of such an outer enclosure.

In other words, according to the welding and bolting of the outer casing, the process is complicated, the process cost is increased, and the weight is heavy, so the installation is not easy, and the cost of the material is dualized into the casing material and the heat insulating material, and the cost is increased; The selection of materials is limited and expensive, and it is not vulnerable to noise and vibration because the material of synthetic resin cannot be selected, and the air flow is not good due to the assembly lumps such as welding bolts, etc. There had to be a problem.

The present invention relates to a new type of ventilation unit enclosure and its manufacturing method in view of the above problems, to simplify the process of the ventilation unit to improve productivity, reduce the process cost, lighten the weight to facilitate installation, The material cost is reduced, and the material can be selected as a material having excellent insulation properties and low elastic modulus value. The insulation material can be selected as a resin-based material with a low elastic modulus, which reduces noise and vibration, and softens overall. Consists of a curved surface to improve the air flow, and to provide a new housing and a method for manufacturing the ventilation unit having a heat exchange function that mono-controlled the control panel storage space in the body.

Ventilation unit housing having a heat exchange function of the present invention for achieving the above object,

In the form of a quadrangular enclosure, the upper surface portion forms an opening, the lower portion forms a closed bottom, and a pair of air supply and exhaust holes are formed on two opposite sides of the four sides, and one side forms a control panel long wearing recess, In the inner space, guide grooves are formed downward to form four support portions formed to extend to the bottom bottom.

Such a manufacturing process of the enclosure for a ventilation unit having a heat exchange function of the present invention,

Preparing an upper and a lower mold set in which an air inlet is formed; Primary molding a balloon-shaped resin film made of a predetermined resin material and forming a spout; Inserting the spout of the resin film into the air inlet in the upper and lower molds; Injecting predetermined air into the injection hole of the upper and lower molds in which the spout of the resin film is located, and then cooling the resin film to the upper and lower mold inner walls and then cooling it; The upper and lower molds are separated, and the upper surface heat exchange element insertion hole of the first injected enclosure, and the supply and exhaust inlet of the side by cutting a predetermined length to produce a completed ventilation unit enclosure comprising a step of manufacturing a completed ventilation unit enclosure It is achieved by the method of preparation.

Thus, the ventilation unit enclosure of the present invention is a single injection of the ventilation unit of the opening 11, the supply and discharge 14, 15, 16, 17, the groove portion 18 and the support portion 12 formed The enclosure 10 is provided to simplify the process, thereby greatly improving productivity, reducing the process cost, and reducing the weight, making it easy to install, reducing the material cost, and easily selecting the insulating material. The construction is omitted, and the resin material with low elastic modulus is made of noise, vibration reduction, and smooth curved surface as a whole to improve air flow, and the control panel accommodating space is monobodied in the main body, which has an advantageous effect on process, cost, and standardization.

2 is an exploded perspective view showing an assembly structure of a ventilation unit to which the ventilation unit housing having the heat exchange function of the present invention is applied, and FIG. 3 is a ventilation unit to which the enclosure for the ventilation unit having the heat exchange function of the present invention is applied. 4 is an exploded perspective view of the cover, and FIG. 4 is a cross-sectional view of the ventilation unit to which the enclosure for the ventilation unit having the heat exchange function of the present invention is applied.

Ventilation unit housing having a heat exchange function of the present invention according to the drawings,

In the form of a quadrangular enclosure, the upper surface portion forms an opening 11, the lower portion forms a closed bottom, and a pair of supply / exhaust holes 14, 15, 16, 17 are formed on two opposite sides of the four sides, and one side surface. The control panel mounting groove 18 is formed, and in the inner space of the opening 11, guide grooves 12a are formed downward to form four support portions 12 extending to the bottom bottom.

The control panel 30 is inserted into the recess 18 to close the cover 19, and the edge of the heat exchange element 40 toward the upper opening 11 is supported by the support member 12. To fit into the guide groove (12a) of the mounting. After the heat exchange element 40 is mounted to cover the cover 20 thereon to complete the primary ventilation unit.

The ventilation unit to which the enclosure of the ventilation unit of the present invention is applied includes indoor and outdoor air supply devices installed opposite to both sides of the ventilation device so that indoor and outdoor air is sucked, and indoor and outdoor air are sucked through each air supply. Each of the air supply pipes generates an air blowing force so that the indoor and outdoor air blowers mounted inside the air supply pipes are discharged to the outside and the indoor air and the indoor air sucked by the air blowing power of the respective air blowers. An indoor exhaust and an outdoor exhaust disposed opposite to the other side, and a heat exchange element in which the indoor and outdoor air sucked through each of the air supply exchange with each other are installed in the inner center of the ventilator.

In addition, the outdoor air supply may be provided with an opening and closing member (not shown) for opening and closing the outdoor air supply by the control of a solenoid (not shown) to control the suction of outdoor air sucked into the outdoor air supply. The inside of the air supply is provided with a dust filter for filtering foreign matter contained in outdoor air sucked through the outdoor air supply. The operating state of such a ventilation device is as follows.

First, when the microcomputer of the control panel 30 determines the necessity of ventilating the room by supplying power to the ventilation device, the outdoor suction opening is opened by an opening / closing member (not shown), and the indoor blowing unit and the outdoor blowing The addition will be driven.

In addition, by the driving of the indoor blower, the indoor air in the warm or cold state of the room is forcedly sucked as an arrow and discharged to the outside through the outdoor discharge port through the heat exchange element, and simultaneously, by the driving of the outdoor blower. Outdoor air in the cold or warm state of the outdoor is sucked as an arrow and discharged into the room through the indoor discharge port via the heat exchange element.

Figure 5a is a schematic cross-sectional view of a mold for injecting the ventilating unit housing having a heat exchange function of the present invention, Figure 5b is a cross-sectional view of the individuality of the ventilating unit enclosure having a heat exchange function of the present invention separated from the mold and injected 5C is a schematic cross-sectional view showing a state of processing a required portion after injection of the enclosure for a ventilation unit having the heat exchange function of the present invention.

The manufacturing process of the enclosure for a ventilation unit having a heat exchange function of the present invention according to the drawings is as follows.

<Step 1>

The upper and lower mold sets 110 and 120 on which the air inlet 130 is formed are prepared and installed. These molds are generally well known, and thus detailed structures and descriptions thereof are omitted.

<Step 2>

The balloon-shaped resin film 10a made of a resin material and formed with a spout is first molded.

<Step 3>

The spout of the resin film 10a in the upper and lower molds 110 and 120 is positioned at the air inlet 130 of the upper and lower molds 110 and 120, and then air is inserted therein.

<Step 4>

A predetermined air is injected into the air inlet 130 of the upper and lower molds 110 and 120 where the spouts of the resin film 10a are positioned so that the resin film 10a is upper and lower molds 110 and 120. Close to the inner wall and cool.

<Step 5>

Then, the upper and lower molds 110 and 120 are opened to separate the resin film 10b. The ventilation unit enclosure 10 is cut by cutting the opening 11 for inserting the upper surface heat exchange element of the primary injection-molded resin film 10c and the supply / exhaust inlets 14, 15, 16, 17 of the side surfaces by a predetermined length. Complete

As described above, the ventilation unit enclosure 10 of the present invention forms an opening 11, a supply / exhaust port 14, 15, 16, 17, a recess 18, and a support 12 as a single mold injection. By providing the housing 10 of the ventilation unit to improve the assembly, increase the manufacturability, the structure is also simple to lower the manufacturing cost.

Figures 1a, 1b illustrates an embodiment of the conventional heat exchanger housing and the proposed ventilation unit structure,

Figure 2 is an exploded perspective view showing the assembly structure of the ventilation unit is applied to the ventilation unit housing having a heat exchange function of the present invention,

3 is an exploded perspective view of a cover of the ventilation unit to which the housing for the ventilation unit having the heat exchange function of the present invention is applied;

Figure 4 is a cross-sectional view after the assembly of the ventilation unit is applied to the ventilation unit housing having a heat exchange function of the present invention,

Figure 5a is a schematic cross-sectional view of a mold for injecting the enclosure for the ventilation unit having a heat exchange function of the present invention,

Figure 5b is a cross-sectional view of the opening of the ventilation unit enclosure having a heat exchange function of the present invention is separated from the mold and injected;

Figure 5c is a schematic cross-sectional view showing a state of processing a required portion after the injection of the ventilating unit housing having a heat exchange function of the present invention.

Claims (2)

delete In the manufacturing method of the enclosure for the ventilation unit having a heat exchange function, Preparing upper and lower mold sets 110 and 120 having an air injection hole 130 formed therein; Primary molding a balloon-shaped resin film 10a made of a predetermined resin material and having a spout formed therein; Inserting air into the upper and lower molds 110 and 120 so that the spout of the resin film 10a is positioned at the air injection hole 130; The resin film 10a is in close contact with the inner walls of the upper and lower molds 110 and 120 by injecting predetermined air into the air inlet 130 of the upper and lower molds 110 and 120 where the snout of the resin film is located. Cooling after the air and separating the resin film 10b; The upper and lower molds 110 and 120 are separated and the opening 11 for inserting the heat exchange element of the upper surface of the encapsulated resin film 10c, which is first injected, and the supply / exhaust inlets 14, 15, 16 and 17 of the side surfaces. Method of manufacturing a ventilation unit enclosure having a heat exchange function comprising the step of cutting a predetermined length) to manufacture a completed ventilation unit enclosure (10).

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