KR100686546B1 - Building structure for rotor sealing rubber in heat exchanger - Google Patents

Abstract

A mounting structure for a rotor sealing rubber in a heat exchanger is provided to mount the rotor sealing rubber in close contact with a rotor without welding for preventing deformation or generation of reject caused by welding heat. A mounting structure for a rotor sealing rubber in a heat exchanger includes a frame(10) rotatively mounted with a rotor(11), a cover(20), a sealing rubber(50) mounted in the frame for closing all portions around the rotor except both ends of the rotor, and sealing rubber guides(40) in the shape of "L". The sealing rubber guides are mounted on corners of the frame and are formed with insertion grooves(41,42) cut in the center of both ends, so that the sealing rubber is mounted in the one of the insertion grooves and contacts the rotor, and the cover is mounted in the other one. The insertion grooves are formed with first and second coupling holes(43,44) to fix coupling elements such as rivets(R) by penetrating the sealing rubber and the cover.

Description

BUILDING STRUCTURE FOR ROTOR SEALING RUBBER IN HEAT EXCHANGER}

1 is a front, side, side view showing a frame of the total heat exchanger in which the rotor seal rubber is installed according to the present invention;

Figure 2 is a front, side, side view showing a cover of the total heat exchanger is installed rotor seal rubber according to the present invention,

3 is a partially enlarged cross-sectional view showing a rotor seal rubber installation structure of the total heat exchanger according to the present invention;

Figure 4 is a schematic configuration diagram showing a conventional total heat exchanger,

5 is a schematic perspective view showing a conventional rotor,

6 is a cross-sectional view showing a rotor sealing rubber installation structure of a conventional total heat exchanger.

<Explanation of symbols for the main parts of the drawings>

10: Frame 11: Rotor

20: cover 30: separator

40: sealed rubber guide 41, 42: insertion groove

43: fastener first 44: second fastener

50: sealed rubber R: rivet

The present invention relates to a rotor of a total heat exchanger, and more particularly, to a rotor seal rubber installation structure of a total heat exchanger, in which a work load is reduced without welding, and the work is quick and convenient, and product deformation or defects are prevented by welding heat. It is about.

In general, the total heat exchanger refers to a device that supplies energy by exchanging heat by using a temperature difference, and uses heat according to industrial development to heat the waste heat discharged to the atmosphere in order to recover and use the remaining heat. To be used as recycled energy.

Waste heat passes the heat released into the air through the blower fan in the process of producing the product by applying heat to suck the waste heat, and blows the waste heat back to the heat exchanger by the blower fan to flow into the heat exchanger. Raise the temperature to the set temperature and use it as alternative energy.

Figure 4 is a schematic diagram showing the principle of the general heat exchanger, the installation of the chamber frame (F) sealed in the supply and exhaust passage of the fluid and partitioned the interior into two areas, the supply passage and the exhaust passage by the partition wall (P), An electrothermal heat exchanger (E) is installed in the middle of the chamber frame (F) so as to share the supply and exhaust passages, while the rotor is rotated at a low speed, the outside air is sucked into the air supply fan (B1) and waste gas is discharged through the exhaust fan (B2). Discharge it.

Then, the waste heat is absorbed by exchanging the enthalpy difference between the two fluids by the dual heat exchange (absorption and heat dissipation) of the rotating rotor while continuously passing through the supply and exhaust fluids, thus preheating, precooling, humidifying and dehumidifying the air supply. By doing so, the energy required for cooling and heating can be greatly reduced.

5 is a perspective view schematically showing the rotor of the total heat exchanger, in which a rotor 3 for heat-exchanging the inside discharged from the inside of the frame 1 having a rectangular frame shape and sucked outside air is rotatably mounted.

The frame 1 is detachably provided with a cover 2 that shields the periphery of the rotor 3 so that only both sides of the rotor 3 are exposed to the outside, and the openings on both sides of the cover 2 partition the flow of the inside and the outside air. Separators 4 are installed to face each other to prevent the inflow to the other side, and geared motor 5 is installed at one side of the frame 1 so as to be electrically connected by the rotor 3 and the belt 6. .

By the way, as shown in FIG. 6, the conventional rotor 3 sealing rubber 7 welds the sealing rubber guide 8 of the long plate shape to the cover 2 vertically, and the reinforcement piece 9 in one side end part. And a sealing means (7) between the sealing rubber guide (8) and the reinforcing piece (9) was fixed by the fastening means.

Therefore, since the sealing rubber guide 8 and the cover 2 are combined by welding, not only the work is burdensome, but also there is a disadvantage of causing thermal deformation in the product, and a separate reinforcing piece 9 is required and the sealing rubber is required. It was not easy to position the sealing rubber 7 accurately between the guide 8 and the reinforcing piece 9 to be engaged.

The present invention has been made to solve the problems of the prior art as described above, the need for welding work to reduce the work burden and prevent side effects due to welding heat and the heat exchanger that can be installed quickly, easily so that the sealing rubber is in contact with the rotor To provide a rotor seal rubber installation structure of

The rotor seal rubber installation structure of the total heat exchanger of the present invention for achieving the above object is a frame in which a rotor is rotatably mounted to heat exchange the inside and the outside air sucked into the rectangular space-shaped interior space, and is installed on the frame. A cover and a sealing rubber shielding the periphery of the rotor so that only the two sides of the rotor are exposed to the outside, and a separator installed to separate the flow of the inside and the outside air in the openings on both sides of the cover to prevent both from entering the other side. In the rotor seal rubber installation structure of the total heat exchanger,

B shape and the rotor in contact with the rotor in the state in which the sealing rubber is mounted on one side insertion groove of the sealed rubber guide in which the insertion groove is cut along the center of both ends,

One end of the cover is mounted to the other insertion groove of the sealed rubber guide.

And, one end of the sealed rubber guide is characterized in that the first fastening hole through which the fastening means is inserted to penetrate the sealed rubber mounted vertically.

In addition, the other end of the sealed rubber guide is characterized in that the second fastening hole through which the fastening means is inserted through the mounted cover is vertically drilled.

On the other hand, the fastening means coupled to the first and second fastening hole is characterized in that the rivet (Rivet).

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a rotor seal rubber installation structure of the total heat exchanger according to the present invention.

As shown in the drawing, the heat exchanger in which the rotor sealing rubber of the present invention is installed has a frame in which a rotor 11 is rotatably mounted to heat exchange the inside and the sucked air discharged into the inner space having a rectangular frame shape. 10 is constituted.
The frame 10 includes a fastener 12 and a connection frame 13. The fastener 12 is located at each vertex of the rectangular frame, the connecting frame 13 connects the fasteners 12 to each other.

In addition, the cover 20 is installed on the frame 10 and shields the periphery so that only the both sides of the rotor 11 are exposed to the outside, and the flow of the inside and outside air is divided into openings on both sides of the cover 20, Separator 30 is installed in the center to prevent both from entering the other side is configured.

Sealing rubber guide 40 is b-shaped and is partially cut in the longitudinal direction along the center of both ends is formed with insertion grooves (41, 42).

One end of the sealed rubber 50 is inserted and mounted in one side of the sealed rubber guide 40 (the rotor 11 side at the time of coupling), and the free end of the sealed rubber 50 is formed inside, It is hermetically contacted with the rotor 11 while being slightly elastically rounded to prevent leakage of outside air.

In addition, one end of the cover 20 is inserted and mounted in the other side (the cover 20 side when the coupling 20 is inserted) of the sealed rubber guide 40, and the other end of the frame 10 is the frame 10. Is coupled to.

Preferably, the first fastening hole through which the rivet R is inserted and fixed at one end of the sealed rubber guide 40 (at the rotor 11 side when combined) passes through the sealed rubber 50 mounted for firm coupling. 43 is perforated vertically.

In addition, the second fastening hole 44 through which the rivet R is inserted and fixed through the cover 20 mounted for firm coupling at the other end (the cover 20 side) of the sealed rubber guide 40. ) Is perforated vertically.

The rotor seal rubber installation structure of the total heat exchanger of the present invention configured as described above acts as follows.

Looking at the process of installing the rotor seal rubber of the present invention, first one end of the seal rubber 50 is inserted into one side insertion groove 41 of the seal rubber guide 40, the other free end of the seal rubber 50 The rotor 11 is brought into contact with it being slightly rounded.

At this time, the rivet (R) is inserted and fixed by penetrating the first fastening hole 43 vertically drilled to one end of the sealed rubber guide 40 in which the sealed rubber 50 is mounted.

Therefore, since the sealing rubber 50 can be combined by rapid operation by insertion and riveting while maintaining the sealing force, the welding burden and the side effects thereof can be prevented as well as easily installed and the bonding force is also robust.

Next, one end of the cover 20 is inserted into the other insertion groove 42 of the sealed rubber guide 40, and the other end of the cover 20 is coupled to the frame 10.

In addition, the rivet (R) is inserted and fixed by penetrating the second fastening hole 44 vertically drilled to the other end on which the frame 10 is mounted in the sealed rubber guide 40.

Therefore, no welding work is required even between the frame 10 and the sealed rubber guide 40, so that various deformations and defects due to welding heat are prevented, and solid coupling is ensured only by quick and easy operation of insertion and riveting.

The rotor seal rubber installation structure of the heat exchanger of the present invention configured as described above can reduce the work load without welding and can be installed quickly and easily, and the seal rubber tightly contacts the rotor while preventing product deformation or defects due to welding heat. Exerting a useful effect.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the present invention, and such modifications or variations are attached thereto. Belong to the claims.

Claims (4)

The frame is rotatably mounted with a rotor for exchanging the inside and outside air sucked into the rectangular space, and the cover and sealing rubber installed on the frame to shield the surroundings so that only both sides of the rotor are exposed to the outside. In the rotor sealing rubber mounting structure of the total heat exchanger including a separator for separating the flow of the inside and the outside air in both openings of the cover to prevent the flow of both to the other side, B shape and the rotor in contact with the rotor in the state in which the sealing rubber is mounted on one side insertion groove of the sealed rubber guide in which the insertion groove is cut along the center of both ends, The rotor sealing rubber installation structure of the total heat exchanger, characterized in that one end of the cover is mounted in the other insertion groove of the seal rubber guide. The method of claim 1, Rotor seal rubber installation structure of the total heat exchanger, characterized in that the one end of the seal rubber guide penetrates the mounted seal rubber to the first fastening hole is inserted vertically. The method of claim 2, The rotor sealing rubber installation structure of the total heat exchanger, characterized in that the other end of the seal rubber guide penetrates through the mounted cover and the second fastening hole into which the fastening means is inserted is vertically drilled. The method of claim 3, The fastening means coupled to the first and second fastening hole is a rotor sealing rubber installation structure of the total heat exchanger, characterized in that the rivet.

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