KR100729381B1 - Fan heater indirectness - Google Patents

Abstract

An indirect warm-air device designed to exhaust high temperature warm air generated at an oil burner inside the body to the outside by lowering the temperature to the proper temperature by an air blower at the rear of the body in the first step and an external exhauster with a suction blower at the front of the body in the second step is provided. The device is applicable to a relatively large-scale drying. The indirect warm-air device is characterized in that it contains: a warm-air device including a body with a flue tube(18) at the peripheral rim, a blocking member for blocking the interior of the body, a combustion chamber with a combustion space in the central region of the blocking member, an oil burner(40) on one side of the body to generate heat and a temperature control unit(A); and an external exhauster(70) removably coupled to the front of the body to suck and exhaust warm air. The temperature control unit comprises: a plurality of assembly holes at the edge of the front and rear flange of the blocking member; an outside air exhaust pipe(52) successively inserted into the assembly hoses to exhaust outside air in a heated state; and an air blower(54) installed in the rear region of the body to exhaust the outside air through the outside air exhaust pipe.

Description

Fan heater indirectness

1 is a cross-sectional view showing the internal structure of a conventional warm air fan.

2 is a cross-sectional view showing an operating state of a conventional warm air fan.

Figure 3 is a side view of the warm air of the indirect warmer according to the present invention.

Figure 4 is a cross-sectional view showing the internal structure of the warm air blower of the indirect warmer according to the present invention.

5 is an enlarged cross-sectional view of the main portion of FIG.

Figure 6 is a cross-sectional view of the combined state of the hot air blower and the external discharger of the indirect hot air blower according to the present invention.

7 is a cross-sectional view showing a state of use of the indirect warmer according to the present invention.

8 is a cross-sectional view showing another embodiment according to the present invention.

9A and 9B are enlarged cross-sectional views of the main portion of FIG. 8;

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

10: the main body of the hot air 18, 32: communication

20: blocking member 22, 24: first and second blocking flange

30: combustion chamber 40: oil burner

50: assembly worker 52: external air discharge pipe

54: blower blower 60: hot air blower

70: external ejector 71: coupling groove

72: coupling portion 73: pedestal

74: ejector body 76: vertical connecting member

77: suction blower 78: horizontal connector

78a: discharge hole 80: air inlet member

90: main air inlet pipe 92: coupling end

92a: engaging projection 100: auxiliary inlet pipe

100a: coupling groove 110: expansion portion

120: reduction unit 150: air inlet hose

The present invention relates to a hot air blower, and in particular, by installing a blow blower at the rear of the hot air blower main body, the hot air generated by the oil burner mounted inside the hot air blower body is lowered and discharged to a proper temperature, and a blow blower inside the hot air blower main body is discharged. It is related to an indirect warmer configured to allow a wide range of warm air to be applied to a relatively large scale by increasing the capacity of the built-in external discharger is selectively coupled to quickly discharge the lowered warm air to the outside.

In general, a hot air fan has a heating wire made of a heater or a coil in the main body, and has an electric heating method in which a heated gas is heated to a high temperature by connecting an electric wire, and then discharged to the outside using a blower fan, or in a combustion chamber. It is a combustion heating method that discharges high temperature high heat generated by burning fuel to the outside.

The hot air is hot in the location where the range of hot air discharged directly through the discharge port is close to the hot air, and the distance is far from the remote air, which makes it difficult to control the temperature of the entire room. There has been a problem of operating with or using multiple hot air fans.

In order to solve this problem, the applicant has developed Patent Registration No. 10-055771 (name of the invention: hot air blower). This is composed of a structure that discharges the hot air lowered to an appropriate temperature by mixing the high heat generated from the hot air and the outside air to the outside.

Referring to the accompanying drawings for such a conventional hot air fan, Figure 1 is a cross-sectional view showing the internal structure of a conventional hot air fan, Figure 2a, 2b is a cross-sectional view showing the operating state of a conventional hot air fan.

As shown in Figure 1 and 2, the conventional hot air blower and the hot air blower body 100 forming an appearance; A combustion chamber 200 installed in the hot air blower main body 100 to provide a combustion space; A heat shield plate 300 surrounding the combustion chamber 200; A burner 400 installed at one side of the hot air blower main body 100 to generate heat of high heat into the combustion chamber 200; It consists of a temperature control means for discharging the hot air lowered to an appropriate temperature by mixing the high heat generated from the burner 400 and the outside air.

The conventional heat blower configured as described above is mainly used for heating in factories, large restaurants, vinyl houses, flower gardens, barns, and the like.

This, the heating space 530 of the vinyl house 500 installed on the ground so that the heating space 530 is formed between the inner vinyl house 510 and the outer vinyl house 520 and the discharge pipe 220 of the hot air blower body 100 To be connected through a separate connector (600).

In this state, by rotating the opening and closing member 320 installed in the flue 310 of the heat shield plate 300 to open the flue 330, and then supplying power to the hot air fan to heat the burner 400, the combustion chamber 200 ), A high heat is generated, and the hot plate 220 provided in the opening of the combustion chamber 200 is heated by the high heat.

The high heat generated as described above is a hot air whose temperature is lowered by mixing with the outside air introduced through the air inlet hole 110 of the hot air blower body 100 by the blower 700 operated according to the power supply of the hot air blower. The converted and discharged to the outside through the discharge pipe 230.

The hot air discharged through the discharge pipe 220 is introduced into the heating space 530 of the vinyl house 500 through the connection pipe 600 so that the interior of the vinyl house 500 is heated to an appropriate temperature.

However, such a conventional hot air blower is not suitable for heating a relatively large vinyl house due to its small capacity, which causes the problem of having to install several units and a problem that the entire product becomes large in order to increase its capacity. .

The present invention has been made to solve such a conventional problem, the present invention is equipped with a blow blower in the rear of the hot air blower body to lower the high temperature hot air generated by the oil burner inside the hot air blower body to an appropriate temperature and discharge, The front of the main body is equipped with an external blower with a built-in suction blower inside, so that the lowered warm air is sucked out and discharged to the outside, so that its capacity is increased, so it can be applied to a relatively large scale. The purpose is to provide.

The present invention for achieving the above object is a hot air blower body provided with communication on the outer periphery; Blocking member for blocking the inside of the warmer main body; A combustion chamber installed in a central region of the blocking member and provided with a combustion space, and communicating with the combustion chamber; An oil burner installed at one side of the main body of the hot air fan to generate high heat into the combustion chamber; A hot air fan comprising a temperature control means for discharging hot air lowered to an appropriate temperature using high heat generated by the oil burner as external air; And an external discharger configured to be detachably coupled to the front of the warmer main body to discharge the lowered warm air to the outside.

Hereinafter, an indirect warmer according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a side view of the warm air of the indirect warmer according to the present invention, Figure 4 is a short cut showing the internal structure of the warm air of the indirect warmer according to the present invention, Figure 5 is an enlarged main portion of FIG. 6 is a cross-sectional view of a state in which a warm air fan and an external exhaust device of an indirect warm air fan according to the present invention are coupled, FIG. 7 is a cross-sectional view showing a state of use of the indirect warm air fan according to the present invention, and FIG. 9 is a cross-sectional view illustrating main parts of FIG. 8.

As shown in Fig. 3 to 7, the indirect warmer 1 according to the present invention includes a warmer main body 10 forming an appearance; Blocking member 20 for blocking the inside of the warmer main body 10; A combustion chamber 30 installed in a central region of the blocking member 20 to provide a combustion space; An oil oil burner 40 installed at one side of the warmer main body 10 to generate high heat into the combustion chamber 20; Hot air heater (60) consisting of a temperature control means (A) for discharging the warm air generated by the oil burner (40) to the appropriate temperature as the outside air to the appropriate temperature; And an external ejector 70 detachably coupled to the front side of the warmer main body 10 to quickly discharge the lowered warm air to the outside.

The warmer main body 10 is provided with a moving wheel 11 at the bottom to be movable in the outer peripheral center area, the rear side for filtering foreign matters for the oil supplied to the control box 13 and the oil burner 40 An oil filter 15 and a fixed base 17 provided with an oil pump 16 for pumping oil are provided.

In addition, the outer periphery of the warmer main body 10 is provided with a communication 18 through which waste gas is discharged to the outside. This communication 18 is configured to open and close the manual by the opening and closing device 19 therein.

The blocking member 20 includes a front blocking flange 22 and a rear blocking flange 24 which are installed vertically in front and rear regions of the inside of the hot air blower body 10 and in which the combustion chamber 30 is positioned.

The combustion chamber 30 is provided in horizontal communication with the central region of the rear flange 24 of the blocking member 20, the front is made of a cylindrical blockage, a plurality of communication 32 is formed in communication with the outer diameter, The oil burner 40 is coupled to the rear. At this time, the communication 32 is formed in the front outer diameter region of the combustion chamber 30 to increase the thermal efficiency. On the other hand, the high heat generated in the oil burner 40 is maintained at about 1000 ℃.

The temperature control means (A) is a plurality of assembly holes 50 formed to correspond to the edge of the front and rear flanges 22, 24 of the blocking member 20; External air discharge pipes 52 respectively inserted into the assembly holes 50 to discharge external air; It is mounted to the rear region of the main body 10, the blower blower blower 54 for discharging the external air through the external air discharge pipe (52).

At this time, the external cold air generated by the blower blower 54 passes through the external air discharge pipe 52 heated by the high heat generated by the oil burner 40, and the external air is warmed to a proper temperature (about 500 ° C.). Will be lowered.

The outer discharge unit 70 is the coupling groove 71 is detachably coupled to the front side of the warmer main body 10, the coupling portion 72; An ejector body 74 having a coupling part 72 fastened to communicate in front and provided with a pedestal 73 at a lower portion thereof; A vertical connecting member 76 installed in communication with the discharger main body 74; It is composed of a suction blower 77 for quickly discharging the warm air is mounted inside the discharger main body 74 through the vertical connection member 76.

The vertical connection member 76 is made of a 'T' shape or 'L' shape, etc., the horizontal connection pipe 78 is connected horizontally and is discharged to the inside of the plastic house.

The horizontal connecting pipe 78 is formed with a plurality of discharge holes (78a) for the lowered warm air is discharged to the outside. At this time, the warm air lowered to about 500 ° C is lowered to about 120 ~ 130 ° C while passing through the vertical connection member 76 by the suction of the suction blower 77, a plurality of discharge holes (78a) formed in the horizontal connection tube (78) ) And the temperature is lowered gradually passing through) is discharged to the outside.

Meanwhile, as illustrated in FIGS. 8 and 9, the oil burner 40 coupled to the rear of the combustion chamber 30 is provided with an air inflow member 80 to introduce fresh air into the oil burner 40 to burn the oil burner 40. Will increase the ignition rate.

The air inlet member 80 is the main air inlet pipe 90 is screwed to communicate with one side of the oil burner 40; An auxiliary inlet pipe 100 detachably coupled to the main air inlet pipe 90; The air inlet hose 150 is selectively coupled to the main air inlet pipe 90 or the auxiliary inlet pipe 100 to introduce external air.

At this time, the coupling end 92 in which the end of the auxiliary inlet pipe 100 is in close contact with the outer diameter of the other region of the main air inlet pipe 90 is formed, and the coupling protrusion 92a is formed at the outer diameter of the coupling end 92. Coupling force is maintained by the coupling groove (100a) formed in the inner diameter of the auxiliary inlet pipe (100).

And, the auxiliary inlet pipe 100 is in close contact with the coupling end 92 of the main air inlet pipe 90, the expansion portion 110 is formed with a coupling groove (100a) coupled to the coupling projection (92a); It consists of a reduction unit 120 formed in communication with the expansion unit 110 integrally.

On the other hand, in the case of setting a large amount of external air flowing into the oil burner 40, the large diameter of the air inlet hose 150 in close contact with the outer diameter of the coupling end 92 of the main air inlet pipe 90, and then tightened, When the amount of external air flowing into the oil burner 40 is set less, the small diameter air inlet hose is fastened to the outer diameter of the reduced part 120 of the auxiliary inlet pipe 100.

The indirect warmer of the present invention configured as described above is mainly used for heating in factories, large restaurants, vinyl houses, flower gardens, barns, and the like as shown in FIGS. 3 to 7.

Referring to the operation state of the heater is applied in this way, if the communication 18 provided on the outer periphery of the heater main body 10 is opened by the opening and closing device 19, the control box 13 is operated to supply power to the heater. The oil in the oil tank (not shown) is ejected into the combustion chamber 30 by the pumping of the oil pump 16 and the oil burner 40 is ignited to generate high heat in the combustion chamber 30.

As described above, the high heat (about 1000 ° C.) generated in the combustion chamber 30 is discharged to the outside through the communication 32 of the outer diameter, and inserted into the assembly holes 50 at the edges of the front and rear flanges 22 and 24, respectively. The air discharge pipe 52 is heated. At this time, the communication 32 is formed in the front region of the combustion chamber 30 to increase the thermal efficiency.

At the same time, the external air discharge pipe 52 inserted into the assembly holes 50 at the edges of the front and rear flanges 22 and 24 is the external cold air generated by the operation of the blow blower 54 constituting the temperature control means (A). The temperature is lowered to about 500 ℃ while passing through) is heated to be delivered to the external discharger (70).

The warm air with the temperature lowered as described above is rapidly sucked into the discharger main body 74 by the operation of the suction blower 77 constituting the external discharger 70 and discharged through the upper vertical connection member 76. It will be lowered to about 120 ~ 130 ℃.

Accordingly, the warm air having a lower temperature passing through the vertical connection member 76 is introduced into the horizontal connection tube 78 horizontally connected to the vertical connection member 76, and discharged sequentially through the plurality of discharge holes 78a. Is done.

At this time, the plurality of discharge holes (78a) are formed through the horizontal connection tube 78, the temperature gradually goes to the discharge hole 78a gradually away from the discharge hole (78a) formed in the vicinity of the vertical connection member 76 It is gradually lowered and discharged to the outside of the plastic house to be heated.

That is, the temperature (120-130 ° C.) discharged through the vertical connection member 76 is gradually maintained as the discharge hole 78a formed in the horizontal connection tube 78 near the vertical connection member 76. Will be lowered.

On the other hand, as shown in FIG. 8, when foreign materials such as dust flow into the oil burner 40 or the oxygen supply amount decreases during heating of a vinyl house in which there is a lot of dust such as a poultry farm or in the interior of the oil burner 40, The ignition rate is lowered.

In order to solve this problem, the external air is directly supplied to the oil burner 40, which is provided with an air inflow member 80 in the oil burner 40 coupled to the combustion chamber 30, thereby providing an oil burner 40. ) To increase fresh ignition rate.

In order to introduce a lot of external air into the oil burner 40 through the air inlet member 80, the main air inlet pipe 90 is screwed to communicate with one side of the oil burner 40 as shown in Figure 9a After inserting the air inlet hose 150 having an appropriate inner diameter into the stage 92, it is fastened with a fastening van 160.

At this time, the end of the air inlet hose 150 is a fresh air is introduced by moving to a non-contaminated area.

And, as shown in Figure 9b, when setting the amount of external air flowing into the oil burner 40, the auxiliary inlet pipe to the coupling end 92 on the other side of the main air inlet pipe 90 screwed to one side of the oil burner 40 Insert the expansion part 110 of the (100) is coupled to the coupling end 92 by the coupling groove (100a), and then insert the air inlet hose 150 in the outer diameter of the reduced portion 120 of the auxiliary inlet pipe 100 And, if it is fastened by the fastening band 160, the air inlet hose 150 is small diameter is coupled through which less fresh air is introduced.

According to the present invention described above, the blower blower is mounted on the rear side of the main body of the hot air blower to lower the high temperature hot air generated by the oil burner inside the main body of the hot air blower to an appropriate temperature. The built-in external discharger is combined to lower the temperature secondly and discharge the warm air to the outside to increase its capacity, which can be applied to a relatively large scale, thereby providing a wide range of warm air.

In addition, the oil burner is provided with an air inflow member, so that fresh air is introduced into the oil burner to increase the ignition rate.

Claims (6)

A warmer main body provided with communication at an outer periphery; Blocking member for blocking the inside of the warmer main body; A combustion chamber installed in a central region of the blocking member and provided with a combustion space, and communicating with the combustion chamber; An oil burner installed at one side of the main body of the hot air fan to generate high heat into the combustion chamber; A hot air fan comprising a temperature control means for discharging hot air lowered to an appropriate temperature using high heat generated by the oil burner as external air; And An external discharger detachably coupled to the front of the main body of the hot air blower to inhale the hot air to lower the temperature to discharge the air to the outside; Indirect warmer, characterized in that configured to include. The method of claim 1, The temperature control means A plurality of assembly holes formed to correspond to edges of the front and rear flanges of the blocking member; An external air discharge pipe which is sequentially inserted into the assembly hole and discharges external air in a heated state by the high heat of the oil burner; And A blow blower mounted on an inner rear region of the warmer main body to discharge the outside air through the heated outside air discharge pipe; Indirect warmer, characterized in that consisting of. The indirect warmer of claim 1, wherein the communication is formed in communication with the front of the combustion chamber. The method of claim 1, wherein the external discharge unit A coupling part having a coupling groove detachably coupled to the front of the warmer main body; An ejector body fastened to communicate with the coupling part at a front side thereof and having a pedestal at a lower portion thereof; A vertical connection member installed in communication with the ejector body; And A suction blower mounted inside the discharger main body to suck the warm air to lower the temperature to discharge the air through the vertical connection member; Indirect warmer, characterized in that consisting of. According to claim 4, The vertical connecting member is horizontally connected to the horizontal connecting pipe, Indirect warmer, characterized in that the horizontal connection pipe is formed with a plurality of discharge holes for discharging the warm air to the outside. According to claim 1, wherein the oil burner of the combustion chamber is provided with an air inlet member for introducing external air, The air inlet member A main air inlet pipe which is provided in communication with the oil burner and has a coupling end having a coupling protrusion on the other side thereof; An expansion part inserted into a coupling end of the main air inlet pipe and having a coupling groove coupled to the coupling protrusion; Auxiliary inlet pipe consisting of a reduced portion formed in communication with the expansion unit integrally; And An air inlet hose selectively coupled to the main air inlet pipe or the auxiliary inlet pipe to introduce external air into the oil burner; Indirect warmer, characterized in that consisting of.

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