KR100824368B1 - Fixer for heat exchange element of ventilation unit - Google Patents

Abstract

A fixing element for a heat exchanger of a ventilation unit is provided to couple a heat exchange element into a ventilation unit in a short time conveniently and to exchange the same with a new one simply, wherein air is prevented from leaking via gaps between side walls but moves along a ventilation path, thereby improving the heat exchanger efficiency. A fixing element for a heat exchanger of a ventilation unit includes supporting plates(100) for helping the withdrawal of a heat exchange element(16) and preventing the leakage of sucked or discharged air while the air flows, wherein the supporting plate has a rib coupling groove by a set length section in a direction, which has an opened upper part for fitting a fixing rib(20) and a sealed lower part. Guide plates(200) are extended from the sealed bottom surface of the supporting plates integrally and each has two inner supporting surfaces branched by an angle corresponding to that of square corners of the heat exchange element to be joined with outer surfaces of the corners of the heat exchange element by an adhesive agent. Each filter-coupling plate(300) is extended from a side of an outer surface of the branched guide plates upward vertically and then in parallel to the branched surfaces of the guide plates and has a filter coupling groove.

Description

Fixture for heat exchange element of ventilation unit

The present invention relates to a fixture for a heat exchange element of the ventilation unit, the technical gist of the ventilation unit is provided so that the air (inside-> outside / outside-> inside) to be transported or ventilated in the room or outside in the transfer process In the heat exchange element, the heat exchange element is formed to ensure fast and easy coupling and mounting of the ventilation unit, and the exchangeability is improved according to post-maintenance, and is transferred to the divided side walls (indoor and outdoor side) of the ventilation unit. It relates to a fixture for a heat exchange element of a ventilation unit, characterized in that the air is formed so as to be completely transferred along the ventilation conveyance path without being leaked between the sidewall gaps.

In general, the ventilation unit (VENTILATION UNIT) is formed to discharge the indoor polluted air to the outside and to supply the fresh air to the interior space.

In other words, by blowing the air from the indoor or outdoor side to the opposite or outdoor side, the school, hospital, cooking room, office building, subway station, underground shopping center, terminal waiting room, airport facility, library, museum, jjimjilbang It is formed to keep pleasant indoor environment such as PC room and office.

In the conventional ventilation unit structure, as shown in FIG. 7, the air inlet 12 and the air outlet 13 are formed at one end of the case 11, and the air outlet 14 and the air inlet 14 are formed at the other end. 15 is formed, the outside air inlet fan 18 and the air discharge fan 19 is installed inside the case, the heat exchange element 16 and the filter member 30 is installed in the inner center to form a basic configuration. do.

In the conventional ventilation unit of this structure, the outdoor air is introduced into the case by the outside air inlet fan, which is filtered by the filter member, and then discharged into the interior, and at the same time, the indoor air is supplied into the case by the air exhaust fan to the filter member. It is formed to be discharged to the outside after filtering.

At this time, in the above-mentioned ventilation process, the heat exchange element absorbs heat of indoor air discharged to the outside in winter (winter) and heat-exchanges to increase the cold temperature of the outdoor air introduced therein, thereby minimizing heating loss, and in the summer (outdoor) The high temperature of the outdoor air introduced by absorbing the cold air of the indoor air discharged to the low heat exchange is formed to minimize the cooling loss.

As described above, the heat exchange element 16 which substantially performs heat exchange of air passing through the room and the outside is generally formed in a rectangular shape, but is formed of a heat dissipation net having a high heat conductivity (heat exchange rate). It is combined to form an inclined angle of 45 ° at the right position for the ventilation path of the air transported indoors and out.

That is, in the heat exchange element coupled inside the case 11, one or the other edge front end is positioned on the upper and lower inner wall surfaces of the case 11, and the other one or the other edge front end is the first and second partitions 17a and 17b. It is formed so as to be positioned with the end of the (forms a rhombus when viewed from the front)

On the other hand, the conventional heat exchange element 16 described above requires a separate fixing member to be mounted inside the case 11 and facilitated withdrawal, which is usually heat exchanged to the fixed rib 20 made of metal It is formed to correspond to each corner of the element 16 and fixed to the position to be inserted into the case 11 by welding or the like, so that the heat exchange element 16 is formed to be drawn out when mounted and exchanged through the fixing rib.

However, the conventional fixed rib 20, which is formed to draw out the conventional heat exchange element 16, requires a separate pipe forming and cumbersome processing such as bending according to the shape of the outer peripheral surface of the heat exchange element as a metal material as described above. In particular, in order to keep the insertion and separation smoothly in the one-way sliding mounting coupling of the heat exchange element 16, the welding process of the fixed rib 20 must be made very precisely, the manufacturing process is difficult, the defect rate is high and the manufacturing cost and labor costs are increased There is a problem that the productivity and economics are deteriorated.

In addition, in order to fix the filter member 30 which is secondarily attached to the outer circumferential surface of the heat exchange element, a separate fixing part should be added or formed integrally with the fixing rib 20, which also increases workability such as manufacturing cost. This is deteriorating and it becomes an inefficient problem.

In other words, as shown in FIG. 8, the conventional heat exchange element is formed to weld and set a minimum tolerance when coupling with a fixed rib for drawing back and forth, which inevitably generates a gap (gap) of a constant interval to flow the outside air. When the time lapse occurs, this causes an inefficient problem in the smooth heat exchange, in particular, the operator has a difficult problem of precision processing due to welding during the initial construction.

This is shown in the conventional ventilation unit implemented in the Republic of Korea Patent Publication No. 2005-7279 shown in Figs. 9 to 10, the efficiency of the heat exchange is reduced due to the problem caused in the manufacturing of the heat exchange element and the fixed ribs described above The problem is occurring.

In other words, the heat exchange element described in the above-mentioned patent is required to be installed in the ventilation unit, the installation of the internal and external air between the gap (gap) of the corner of the heat exchange element, as well as twisting or bending during the welding of the fixture It has been difficult to manufacture precisely, which has been the cause of preventing the smooth installation of the heat exchange element sliding in the front and rear or up and down draw method.

The present invention is to improve the above-mentioned problems, the technical gist of the invention is improved by the fasteners improved in the process of conveying the air (bet-> outside / outside-> bet) to be transferred or ventilated indoors and outside through the heat exchange element Is formed so that the guide plate (a plurality of ribs coupled with the outer peripheral surface of the corner of the heat exchange element) of the fixture is applied with a separate adhesive is applied to the contact surface so as to facilitate a complete sealing when combined with the heat exchange element is leaked (漏 氣) is formed to prevent the original, while the support plate of the fixture is crimped and interviewed in a wide state when combined with the fixing ribs of the ventilation unit, so that it can be quickly and precisely mounted when combined back and forth in a sliding manner with respect to the fixing ribs. Heat exchange of the ventilation unit, characterized in that formed to improve heat exchange efficiency due to leakage blocking To provide an incontinence it is an object of the fastener.

In order to achieve the above object, the present invention is formed of a case, but the case 11 is formed with a fixed rib 20 on one side of the upper and lower ends of the inside of the enclosure, the internal air exhaust mechanism 12 formed on one side end of the case and The outside air intake port 13, the outside air exhaust port 14 and the inside air intake port 15 formed at the other end of the case, the heat exchange element 16 inserted into the case 11 by dividing the inside, and the heat exchanger. First and second plate plates 17a and 17b coupled to the left and right ends of the element 16 to divide the case 11, and the fixing ribs 20 are formed at the end portions of the case 11, which are in contact with the edges of the heat exchange element. In the ventilation unit (10) consisting of a supply fan (18) for sending the outdoor air to the interior and an exhaust fan (19) for sending the indoor air to the outside, it is possible to draw out the heat exchange element (16) in one direction or Prevents leakage of intake and exhaust during transfer in the other direction A support plate (100) formed with a length section set in one direction, the rib coupling groove (110) of which an upper portion is opened and the lower portion is closed to correspond to the fixed rib (20); Integrally extending from the closed bottom surface of the support plate 100 and branched into two branches, the two branched inner support surface is branched at an angle corresponding to the square corner angle of the heat exchange element 16 and the outer peripheral surface of the corner A guide plate 200 formed to be bonded by an adhesive; The filter coupling plate is formed so as to have a filter coupling groove 310 is formed so as to be horizontally extended with the branched surface of the guide plate 200 after vertically extending upward from one side of the outer peripheral surface of each of the guide plate 200 branched again 300; It is made up.

At this time, the fastener is preferably a material of synthetic resin. This reduces the cost and makes it easy to find the correct setting point when it is bonded to the heat exchange element (by applying adhesive to the guide plate). This is to interview and improve leak prevention.

As described above, the present invention provides a heat exchange element of a ventilation unit in which air (inside-> outside air / outside air) to be transferred or ventilated indoors or outdoors is cooled and heated during the transfer process, wherein the heat exchange element is provided in a ventilation unit. It is designed to ensure quick and easy coupling and mounting, and the exchangeability is improved according to post-maintenance, and air that is transferred to the divided side walls (indoor and outdoor) of the ventilation unit is not leaked between the gaps of the side walls. The heat exchange efficiency is improved by being formed to be completely transferred along the ventilation conveyance path.

The following describes the invention in more detail with reference to the accompanying drawings.

First, as shown in FIGS. 1 to 6, the fastener of the present invention facilitates the smooth storage and withdrawal of the heat exchange element 16 coupled to the case 11, and is mounted on the case 11 to improve mounting fastness. The manufactured fixed rib 20 is simply fitted to form the heat exchange element 16 as well as the neighboring mounting coupling of the filter member 30.

The basic configuration of the ventilation unit 10 to which the present invention is mounted is coupled to the case 11, which is formed in the housing and the fixing rib 20 is formed at one side of the upper and lower ends of the inside of the enclosure, and is formed at one end of the case. The internal air exhaust device 12 and the external air intake device 13, the outdoor air exhaust device 14 and the internal air intake device 15 formed at the other end of the case, and a heat exchange element inserted into the case 11 by dividing the inside of the case 11. 16 and the first and second partition plates 17a which are coupled to the left and right ends of the heat exchange element 16 to divide the case 11, and the fixing ribs 20 are formed at the end sides of the heat exchange elements that are in contact with the edges of the heat exchange elements 16. And 17b), a supply fan 18 for sending the introduced outdoor air to the interior, and an exhaust fan 19 for sending the indoor air to the outdoors.

At this time, the fixing rib 20 is formed as a flat rectangular plate material so as to correspond to the rib coupling groove of the fixture described later to form a firm fit. Accordingly, the fixing rib is preferably welded in the case.

On the other hand, the fixture of the present invention is the support plate 100, the guide plate 200 and the filter coupling plate 300 is configured integrally.

At this time, the support plate 100 is to be pulled forward and rearward of the heat exchange element 16, but is fitted to correspond to the fitting rib 20 so as to facilitate precise filtering of the intake, exhaust in the transfer in one direction or the other direction. A rib coupling groove 110 having an upper opening and a lower opening is formed with a length section set in one direction.

That is, the support plate 100 is a plate for supporting the heat exchange element to be received and is formed to correspond to the above-described fixing ribs to form a firm fixing.

At this time, the open upper end of the support plate 100 is formed to have a smaller gap than the closed lower end is formed so that a type of tightening coupling is made when the fixed rib is fitted in the form of the upper and lower light.

At this time, the support plate 100 is firmly fixed to the fixing ribs so that the indoor and outdoor air introduced into the case does not flow to the upper, lower, left, and right of the case.

Accordingly, the guide plate 200 is integrally extended from the closed bottom surface of the support plate 100 and bifurcated into two branches, but the bifurcated two inner support surfaces diverge at an angle corresponding to the square corner angle of the heat exchange element 16. Then, the outer peripheral surface of the heat exchange element is formed to be bonded by the adhesive 400.

That is, the guide plate 200 is formed to guide the sliding out of the heat exchange element. And the guide plate is to be bonded by the edge portion of the heat exchange element by the adhesive so as to prevent the leakage of the internal and external air flow inherently blocked.

As shown in FIG. 4, the fixture is integrally formed with the heat exchange element and is formed to be able to slide out with respect to the fixed ribs, so that the first manufacturing is precisely made in comparison with the conventional ventilation unit to prevent the occurrence of distortion or tolerance. As it is formed, it prevents the leakage of the internal and external air is eventually transferred to facilitate a smooth heat exchange.

Accordingly, the filter coupling plate 300 is vertically extended upward from one side of each upper outer peripheral surface of the branched guide plate 200 and then formed to be horizontal to the branched surface of the guide plate 200 again to form a filter coupling groove ( 310 is formed.

That is, the filter coupling plate 300 is attached to one side of the heat exchange element to provide a path that is coupled to the separate filter member for comfortable collection of air from outside the inlet and discharge the filter member is a filter coupling plate It is formed to be removable through the filter coupling groove of the.

The filter coupling plate 300 is formed integrally with the support plate and the guide plate and is formed so as not to flow into the divided upper, lower, left, and right compartments of the case, thereby improving dust collecting efficiency.

In addition, the fastener of the present invention is formed of a synthetic resin material to provide a convenient workability when fixing the support of the heat exchange element, such as low manufacturing cost and improved mounting and maintainability, while improving the productivity through cost reduction.

That is, when integrally bonded with the heat exchange element (applied by applying adhesive to the guide plate), the weight is formed lightly, and when coupled to the fixed rib, it is easy to find the correct setting point, the deformation is small and the support plate is fixed. This is to interview the rib and to improve leakage prevention.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a cross-sectional side view showing a state in which a fixture of the present invention is installed to fix a heat exchange element of a ventilation unit;

2 is a perspective view of the present invention,

3 is an enlarged front view of the present invention;

Figure 4 is a state of use showing a state in which the leakage of internal and external air is blocked by the fixture of the present invention and the heat exchange efficiency is improved,

5 is a plan view of a ventilation unit in which the fixture of the present invention is installed;

Figure 6 is a plan view showing a state in which the fixture is installed in the ventilation unit equipped with up and down heat exchange element as another embodiment of the present invention,

7 is an exemplary view showing a state in which a conventional heat exchange element is mounted in a ventilation unit;

8 is a side view showing a problem of leakage caused when a conventional fixture is combined with a heat exchange element;

9 to 10 is a side view showing a prior art Patent Publication No. 2005-7279.

<Brief description of symbols for the main parts of the drawings>

10 ... Ventilation unit 11 ... Case

12 ... Exhaust vent 13 ... Exhaust vent

14 ... Exhaust vent 15 ... Exhaust vent

16 ... heat exchange element 17a, 17b ... 1st, 2nd plate

18 ... Supply fan 19 ... Exhaust fan

20 ... fixed rib

100 ... support plate 110 ... rib coupling groove

200 ... guide plate 300 ... filter mounting plate

310 ... filter coupling groove 400 ... adhesive

Claims (2)

The case 11 is formed of a housing and the fixing rib 20 is formed on one side of the upper and lower ends of the inside of the enclosure, the internal air exhaust mechanism 12 and the outside air intake vent 13 formed on one side end of the case, and the It is coupled to the outside air exhaust mechanism 14 and the air intake vent 15 formed at the other end, the heat exchange element 16 is inserted into the case 11 is divided into two, and the left and right ends of the heat exchange element 16 The case 11 is divided, but the first and second plate 17a, 17b having a fixed rib 20 is formed on the end side of the contact portion corresponding to the edge of the heat exchange element and the supply fan for sending the introduced outdoor air into the room In the ventilation unit (10) consisting of 18 and an exhaust fan 19 for sending indoor air to the outside, A rib having an upper portion and a lower portion sealed to draw out the heat exchange element 16 to prevent leakage of intake and exhaust air in one direction or the other direction and to be fitted in correspondence with the fixed rib 20. A support plate 100 in which the coupling groove 110 has a length section set in one direction; Integrally extending from the closed bottom surface of the support plate 100 and branched into two branches, the two branched inner support surface is branched at an angle corresponding to the square corner angle of the heat exchange element 16 and the outer peripheral surface of the corner A guide plate 200 formed to be bonded by the adhesive 400; The filter coupling plate is formed so as to have a filter coupling groove 310 is formed so as to be horizontally extended with the branched surface of the guide plate 200 after vertically extending upward from one side of the outer peripheral surface of each of the guide plate 200 branched again 300; Fixture for heat exchange element of the ventilation unit, characterized in that the configuration. The method of claim 1, wherein the fastener Fixture for heat exchange element of the ventilation unit, characterized in that the material is a synthetic resin material.

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