KR200438903Y1 - Scaffold heater - Google Patents

Abstract

The present invention relates to a scaffold heater, and looks at the features of the configuration, the body 10 is seated on the site floor surface through the support 12 provided on the bottom, the inside of the reflector plate 14 is installed to face upwards ); A heater 20 installed in front of the reflector plate 14 and controlling ON / OFF operation and strength by a control box 22; And a footrest 30 installed at an upper portion of the heater 20 to perform an operation by lifting a worker, and formed in a mesh shape so that the heating heat of the heater 20 is supplied to the upper portion.

Accordingly, by locally heating the feet of the field workers tend to stiffen the frostbite or muscles in winter, there is an effect to perform the work in a more comfortable environment without being greatly affected by the overall site temperature.

Scaffolding, heating, blower, heater, sensor

Description

Scaffold heater {Scaffold heater}

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

Figure 2 is a configuration diagram showing an enlarged main portion of the scaffold heater according to the present invention.

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

Figure 4 is a block diagram showing a groove of the scaffold heater according to the present invention.

* Explanation of symbols on the main parts of the drawings

10: body 12: support 14: reflector

20: heater 22: control box 30: scaffold

40: heat resistant transparent member 50: sensor 60: groove

The present invention relates to a scaffold-type heater, and more particularly, to a scaffold-type heater for locally heating the lower part of the floor of a site worker to work in a warm and comfortable environment without being greatly influenced by the overall temperature of the site. .

In general, the manufacturing process of mass products is performed continuously, except for some processes, depending on the automated machine. However, there are still a lot of tasks that are difficult to process through automated machines, and many of them are placed on work tables or machinery and are processed manually or semi-automatically.

For example, in sites that are divided into factories 1 and 2, or have a significant amount of space, operators are operated on various machines, or sections are arranged along tables or transfer conveyors in the manufacturing process line. You will perform a series of repetitive tasks.

And, in order to improve the work efficiency of the worker by using a cooling and heating machine, the work site is always maintained at a constant temperature, but 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 accident rate and product defect rate increase due to the carelessness of the worker, and the production rate is significantly reduced.

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

Accordingly, the present invention has been devised in view of the above points, and more particularly, radiant heat is transmitted vertically to the field workers who are susceptible to frostbite or muscle stiffness in winter, thereby heating the lower part of the body or the whole body from the sole of the foot, and thus greatly affecting the overall site temperature. It relates to a scaffold heater for enabling the operation in a more comfortable environment without receiving.

In order to achieve this purpose, the present invention is mounted on the site bottom surface through the support 12 provided on the bottom, the body 10 is installed so that the reflector 14 is directed upward; A heater 20 installed in front of the reflector plate 14 and controlling ON / OFF operation and strength by a control box 22; And a footrest 30 installed at an upper portion of the heater 20 to perform an operation by lifting a worker, and formed in a mesh shape so that the heating heat of the heater 20 is supplied to the upper portion.

In this case, the heat resistant transparent member 40 is installed to be spaced apart from the bottom of the scaffold 30 to protect the heater 20.

In addition, the heater 20 is characterized in that the ON / OFF operation is automatically controlled by the sensor 50 provided on the body 10 to detect the load applied to the scaffold 30 or the movement of the operator. .

In addition, the groove 60 is formed on the body 10 adjacent to the edge of the reflector 14.

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

1 is a configuration diagram showing the scaffold heater according to the present invention as a whole, Figure 2 is a configuration diagram showing an enlarged main portion of the scaffold heater according to the present invention, Figures 3a to 3b is a It is a block diagram which shows a sensor, and FIG. 4 is a block diagram which shows the groove | channel of the scaffold type heater which concerns on this invention.

The present invention relates to a scaffold heater, in which the scaffold heater is a body that is provided with a reflector plate 14 for heating from the sole to the whole body of a worker who is standing and working all day at a designated position and is susceptible to frostbite or muscles. 10) and the heater 20, the footrest 30, etc. are characterized by the main configuration.

The fuselage 10 according to the present invention is seated on the site floor surface through the support 12 provided on the bottom, and installed inside the reflector plate 14 to face upward. The body 10 is installed on the floor of the site where the worker is located is manufactured in the form of a plate so as to perform the work while moving the position within a predetermined range in the state the worker is raised, the support is provided on the bottom edge ( 12) is tightly seated to prevent flow on the site floor.

And the fuselage 10 has a central portion is open, the reflection plate 14 is installed therein, the reflection plate 14 is formed to be concave upward to reflect the heating heat emitted from the heater 20 to be described later to the upper portion Do this.

In addition, a groove 60 is formed on the body 10 adjacent to the edge of the reflecting plate 14. The groove 60 is formed to be recessed along the edge of the reflector 14 as shown in FIG. 4, and a fluid such as water, oil, or the like is installed while the scaffold heater is used. ) It acts to induce drainage to the outside without entering the inside.

On the other hand, the body 10 is not shown in detail through the drawings, but is provided with a support for stably supporting the body 10 by being interviewed on the floor, the support is preferably installed to adjust the height of the screw.

In addition, the heater 20 according to the present invention is installed in front of the reflector plate 14, the ON / OFF operation and the intensity is controlled by the control box 22. The heater 20 is installed so as to be spaced apart from the reflecting plate 14 in a state where both ends are fixed to a support (not shown), so that the electricity supply is interrupted or controlled by an operation of the control box 22 equipped with a switch and an adjustment lever. It is provided. In this case, it is preferable that the heater 20 uses an infrared lamp or ceramic plate and a heating wire to heat the object using infrared rays.

In addition, the scaffold 30 according to the present invention is installed on the heater 20, the worker is raised to perform the work, and is formed in a mesh shape so that the heating heat of the heater 20 is supplied to the top. The scaffold 30 is installed to close the upper surface of the heater 20, that is, the upper surface of the body 10, and the heating heat of the heater 20 is upper through the mesh-shaped gap in the lower state while supporting the load of the worker. It is heated while being supplied with.

In this case, the heat resistant transparent member 40 is installed to be spaced apart from the bottom of the scaffold 30 to protect the heater 20. Heat-resistant transparent member 40 is provided with a tempered glass, etc. that can pass the radiant heat and block the external shock, and is installed to close the upper part in the state in which the heater 20 is accommodated in the inside of the reflector 14, the footrest 30 ) Is installed on the upper portion of the heat resistant transparent member 40 so as to be spaced apart by a predetermined width. Therefore, when a worker, a tool, or a foreign object falls while the worker is working, a safety accident such as damaging the heater 20 or inserting a gap into the scaffold 30 or causing a fire is prevented. Serves to protect the In addition, when the dust or foreign matter is laminated on the heat-resistant transparent member 40 during use, and the heating heat transfer of the heater 20 is not smooth, the heat-resistant transparent member 40 and the scaffold as shown in FIG. 2 without removing the scaffold 30 are used. It is provided with the convenience of easily cleaning the surface of the heat-resistant transparent member 40 by pushing the rag and the like into the gap between the 30.

In addition, the heater 20 is ON / OFF operation is automatically controlled by the sensor 50 provided on the body 10 to detect the load applied to the scaffold 30 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 body 10 supporting the edge of the footrest 30 is provided to detect this when the worker climbs on the footrest 30, and also the movement of the worker Sensor 50 to detect is installed at the edge position of the body 10, as shown in Figure 3b is to detect this when the operator climbs on the footrest (30).

And the data detected through the sensor 50 is transmitted to the control box 22 to turn on the operation of the heater 20, the heater 20 for a certain time even if the worker is not detected by the sensor 50 when the worker is away for a while ) Is not set to OFF.

Therefore, even if the operator does not control the operation of the heater 14 by using the ON / OFF switch (not shown), the sensor 50 detects the operator and automatically turns on / off, thus making it easy to use for a long time. It is automatically turned off at the time, which has the advantage of having power saving function.

On the other hand, the scaffold-type heater is preferably installed overheat prevention fuse (not shown) in or adjacent to the heater 20 in order to prevent the occurrence of fire due to overheating of the heater 20 during use.

According to the above configuration and operation, the present invention is useful to make the work in a more comfortable environment without being strongly influenced by the overall site temperature by locally heating the feet of the field workers who are susceptible to frostbite or muscle stiffness in winter. It works.

Claims (4)

It is seated on the bottom surface through the support 12 provided on the bottom, the reflection plate 14 is installed in the upper side, the groove 60 is formed in a position adjacent to the edge of the reflecting plate 14 Fuselage 10; A heater 20 installed in front of the reflector plate 14 and controlling ON / OFF operation and strength by a control box 22; It is installed on the heater 20, the operator climbs to perform the work, the footrest 30 is formed in a mesh shape so that the heating heat of the heater 20 is supplied to the upper; heater. The method of claim 1, Scaffold type heater, characterized in that the heat-resistant transparent member 40 is installed to be spaced below the scaffold 30 to protect the heater (20). The method of claim 1, The heater 20 is a scaffold type, characterized in that the ON / OFF operation is automatically controlled by the sensor 50 provided on the body 10 to detect the load applied to the scaffold 30 or the movement of the worker heater. delete

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