KR200448587Y1 - Scaffold heater use hot wind - Google Patents

Abstract

The present invention relates to a scaffold heater using warm air, and looks at the configuration, the blower 12 for sucking the outside air through the inlet 12a, and the heater unit in communication with the blower 12 to heat the outside air ( 14 and a body 10 provided with a plate-shaped conveying path 16 so that the warm air heated by the heater unit 14 is distributed and conveyed; And a footrest 20 installed on the transport path 16 of the body 10 and provided with a plurality of discharge holes 22 so that warm air is supplied to the foot of the worker. It features.

Accordingly, by individually heating the feet of the site workers to be able to perform the work in a more comfortable environment without being greatly affected by the overall site temperature, and in particular, the hot air heating by circulating air to maximize energy efficiency It works.

Warm air, scaffolding, heating, blower, heater, sensor

Description

Scaffold heater use hot wind}

1 is a configuration diagram showing the scaffold heater as a whole using the warm air according to the present invention.

Figure 2 is a configuration diagram showing an enlarged scaffold of the scaffold heater using the warm air according to the present invention.

3a to 3b is a block diagram showing a sensor of the scaffold heater using the warm air according to the present invention.

* Explanation of symbols on the main parts of the drawings

10: body 12: blower 12a: suction port

14: heater unit 16: transfer path 20: scaffold

22: discharge hole 30: wind direction blade 32: rotation axis

40: insulation pad 50: sensor

The present invention relates to a scaffold heater using warm air, and more specifically, by using individual warm air heating locally on the feet of a site worker, using warm air to enable a worker to work in a comfortable environment without heating the entire site. It is about scaffold heater.

In general, as most manufacturing processes are changed to mass production through automated production lines, all processing processes except some processes are dependent on automated machines. However, there are still a large number of tasks that are difficult to process through a mechanical device, and many of them are placed on a work table or a mechanical device and are manually or semi-automatically processed.

For example, in a site that is divided into 1st factory, 2nd factory, etc. and has a considerable amount of space, a section operator is arranged along a table or a transfer conveyor of a manufacturing factory line, and the worker performs the repeated work continuously standing all day at the designated location. Done.

In addition, the worker has always kept the work site at a constant temperature using a cooling / heating machine to improve working efficiency in a more comfortable environment. However, the following problems have been raised when heating in winter.

First, the time and power consumption of heating a large space as a whole is quite large, it is difficult to expect the improvement of workability until the site temperature reaches the set temperature.

Secondly, if the work is performed unreasonably with the muscles stiffened by the cold, the incidence of safety accidents and product defects increase due to the carelessness of the worker.

Third, even if the site rises above the set temperature due to heating for a long time, the temperature of the floor is kept below the set temperature due to convection, so that the feet are caught in frostbite or the muscles are stiff, which increases the fatigue of the workers. Followed.

Accordingly, the present invention has been devised in view of the above points, and more specifically, it is possible to individually heat the feet of field workers to perform work in a more comfortable environment without being greatly affected by the overall site temperature. It relates to a scaffold heater using a warm air for.

In order to achieve the above object, the present invention provides a blower 12 that sucks outside air through the inlet 12a, a heater unit 14 that communicates with the blower 12 to heat the outside air, and the heater unit 14. A fuselage body 10 having a plate-shaped conveying path 16 to disperse the heated warm air therethrough; And a footrest 20 installed on the transport path 16 of the body 10 and provided with a plurality of discharge holes 22 so that warm air is supplied to the foot of the worker. It features.

At this time, the discharge hole 22 of the scaffold 20 is formed to be inclined toward the inlet 12a, the inlet 12a is characterized in that formed higher than the scaffold 20 at one end position of the body 10. .

In addition, the wind vane 30 on the discharge hole 22 of the scaffold 20 is characterized in that it is installed so as to pivot around the rotating shaft (32).

In addition, the thermal insulation pad 40 is attached to the outer wall of the body 10 to block heat loss of the warm air heated through the heater unit 14.

In addition, the blower 12 and the heater 14 is installed on the body 10 is characterized in that the operation is controlled by a sensor 50 for detecting the load applied to the footrest 20 or the movement of the operator. do.

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

1 is a plan view showing the scaffold heater using the warm air according to the present invention as a whole, Figure 2 is a configuration showing an enlarged scaffolding of the scaffold heater using the warm air according to the present invention, Figure 3a to 3b is a warm air according to the present invention It is a block diagram which shows the sensor of the scaffold heater which used.

The present invention relates to a scaffolding heater using a warm air, wherein the scaffolding heater is standing in the field all day, and the blower 12, the heater 14 to locally heat the foot of the worker who is easy to stiffen the frostbite or muscles The main body 10 is composed of a conveying path 16, and a footrest 20 on which the discharge hole 22 is formed.

The fuselage 10 according to the present invention is a blower 12 for sucking the outside air through the inlet 12a, a heater unit 14 for communicating with the blower 12 to heat the outside air, and the heater unit 14 It is provided with a plate-shaped conveying path 16 so that the warm air heated through the dispersion. The fuselage 10 is formed in the form of a plate so that the worker moves up, down, left and right, and performs a predetermined manufacturing operation, and is located on the floor of the site.

When the blower 12 sucks the outside air and transfers it to the heater unit 14 through the suction port 12a formed at one end of the body 10, the outside air is heated in the heater unit 14 to transfer the path 16. Is supplied through, but the transfer path 16 is formed on the bottom surface of the scaffold 20 to be described later that is installed so that the worker stepped on the warm air is supplied.

In this case, as shown in FIG. 1, the side wall corresponding to the heater unit 14 is formed to be inclined as shown in FIG. 1, and when the warm air reaches the side wall along the transfer path 16, the transfer direction toward the suction port 12a is changed. It has a structure that is converted and circulated.

On the other hand, reference numeral F is a filter, wherein the filter (F) is that the foreign matter is infiltrated together while the outside air is sucked through the blower 12 to cause the failure of the blower 12 or the heater unit 14 occurs. It is installed on the inlet 12a to prevent it.

In addition, the body 10 is a heat insulating pad 40 is attached to the outer wall so that the heat loss is blocked while the hot air heated through the heater unit 14 is transferred. The thermal insulation pad 40 is attached to the side of the fuselage 10 and the bottom of the floor in particular close to the site, and in particular, the thermal efficiency is improved by blocking heat loss due to the temperature deviation from the outside while the warm air is being transferred. .

In addition, the footrest 20 according to the present invention is installed so that the operator stepped on the transfer path 16 of the body 10, a plurality of discharge holes 22 are provided so that the warm air is supplied to the foot of the worker. . The scaffold 20 is installed to close the upper part of the conveyance path 16 formed in a plate shape on the body 20, and a plurality of discharge holes 22 are formed to communicate with the conveyance path 16 on the front surface so that the warm air is Distributed supply.

At this time, the discharge hole 22 of the scaffold 20 is formed to be inclined toward the inlet 12a, as shown in Figure 2, the inlet 12a is formed higher than the scaffold 20 at one end of the body 10. . This is the warm air heated in the heater unit 14 is supplied to the transport path 16 is supplied to the foot of the worker through the discharge hole 22, at this time the warm air is simply discharged to the upper portion is not dispersed and dissipated to the work site, Since the inlet is introduced to the inlet 12a side, the warm air is reheated in a circulating manner, thereby heating, thereby improving thermal efficiency.

Meanwhile, although the position of the suction port 12a is shown to protrude upward to reheat the warm air discharged through the discharge hole 22 as shown in FIG. 1, the present invention is not limited thereto. It is also possible to be configured to suck the outside air.

In addition, the wind vane 30 is installed on the discharge hole 22 of the scaffold 20 to pivot about the rotation shaft 32. The wind vane 30 is positioned below the discharge hole 22 so that the end is not exposed to the upper portion of the scaffold 20 when turning about the rotating shaft 32 as shown in the enlarged view of FIG. 1.

Thus, the operator arbitrarily adjusts the angle of the wind vane 30 to adjust the injection direction of the warm air supplied to the discharge hole 22 through the conveying path 16, the warm air is concentrated supplied to the place where the operator is mainly located Heating performance is improved.

In addition, the blower 12 and the heater unit 14 is installed on the body 10, the operation is controlled by the sensor 50 for detecting the load applied to the scaffold 20 or the movement of the operator. At this time, the sensor 50 for detecting the load as shown in Figure 3a is installed on the fuselage 10 supporting the edge of the footrest 20 to detect this when the operator climbs on the footrest 20, and also to detect the movement of the worker Sensor 50 is installed on the body 10 in close proximity to the inlet (12a), as shown in Figure 3b is to detect the worker's leg on the footrest 20.

And the data detected through the sensor 50 is transmitted to the control box (not shown) to turn on the operation of the blower 12 and the heater unit 14, even if you leave the room for a certain time even if the operator is not detected by the sensor The operation of the blower 12 and the heater unit 14 is set so that the operation is not turned OFF.

Therefore, even if the operator does not control the operation of the blower 12 and the heater unit 14 by using the ON / OFF switch (not shown), the sensor 50 detects the operator and automatically operates the ON / OFF operation. It is simple and automatically turns off when you leave your seat for a long time.

On the other hand, the scaffold heater using the warm air is to install an overheat prevention fuse (not shown) in or adjacent to the heater unit 14 in order to prevent the occurrence of fire due to overheating of the heater unit 14 during use. desirable.

According to the above configuration and operation, the present invention locally heats the feet of field workers so that the work can be performed in a more comfortable environment without being greatly influenced by the overall site temperature, and especially in a manner of circulating air Heating has a useful effect of maximizing energy efficiency.

Claims (5)

delete delete A blower 12 formed at one side corresponding to the foot of the worker and having an inlet 12a for sucking outside air, a heater 14 communicating with the blower 12 to heat the outside air, and a heater part A body 10 provided with a plate-shaped conveying path 16 so that the warm air heated by the 14 is distributed and conveyed; A plurality of discharge holes are installed so that the worker stands on the conveyance path 16 of the fuselage 10 and positioned lower than the suction port so that the warm air flows into the heater unit 14 through the worker's foot and reheats and circulates. It comprises a; (22) is a footrest 20 which is formed to be inclined toward the suction port 12a; Scaffold heater using a warm air, characterized in that the wind vane 30 is installed on the discharge hole 22 of the scaffold 20 to pivot about the rotary shaft (32). delete delete

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