JP2018204942A - Push unit for push-pull type ventilation device and push-pull type ventilation device - Google Patents

Abstract

To provide a push unit for a push-pull type ventilation device that can follow movement of an operator while suppressing an increase in cost, and to provide a push-pull type ventilation device.SOLUTION: A push unit 2 for a push-pull type ventilation device includes a push air blowout part 6 that an operator can mount. The push air blowout part is disposed in a breast part of the operator S in mounting.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a push-pull type ventilator push unit and a push-pull type ventilator, and more specifically, a push unit constituting a push-pull type ventilator used in a work space when performing dusting work such as welding. And a push-pull type ventilator.

  In the welding operation, dust such as fumes harmful to the human body is generated from the welded portion. A push-pull type ventilation device is used as a device for preventing an operator who performs a welding operation from being exposed to such a fume.

  This push-pull type ventilator generates a trapped airflow (push air) that flows from the upstream side of the dust generation source, such as a welding point, to the downstream side of the dust generation source by the push unit. A device that captures harmful dust such as fume and removes harmful dust from the work site by taking the airflow that captured the harmful dust into the suction hood of a pull unit located downstream of the dust source. It is.

  The push unit that generates the trapped airflow (push air) is usually located on the back side of the operator, and the suction hood and the welding portion, which are pull units, are located on the front side of the operator. Therefore, the operator is located between the push unit and the suction hood that is the pull unit and the welding location during the welding operation, and becomes an obstacle that blocks the push air. As a result, there has been a problem that the airflow capturing fume and the like generated during welding work cannot be efficiently taken into the suction hood.

  In addition, such a push-pull type ventilator has a problem in that it is costly because it is a fixed facility as a whole, and there is a problem that it cannot follow the movement when the operator moves.

  As a countermeasure against the problem of the operator blocking the push air, a push-pull ventilator including an auxiliary airflow generating device that generates an auxiliary airflow near the operator's hand has been proposed (Patent Document 1).

Japanese Patent Laid-Open No. 2004-257706

According to the push-pull type ventilator described in the above-mentioned Patent Literature 1, harmful dust such as fumes generated at the welding location near the operator's hand is efficiently generated by the auxiliary airflow directed from the operator's hand to the suction hood. Although it can be suctioned well, the problem that it is not possible to follow the movement of the worker has not been solved because the auxiliary airflow generation device is fixed.
Furthermore, since an auxiliary airflow generation device is required, a new problem has arisen in that additional costs are generated.

  The present invention has been made in view of these points, and a push-pull type ventilator push unit and a push-pull type ventilator that can follow the movement of an operator while suppressing an increase in cost. The purpose is to provide.

According to another preferred embodiment of the invention,
Push-pull type ventilator push unit,
It has a push air outlet that can be worn by workers,
The push air blowing portion is disposed on the chest of the operator when worn.
A push unit is provided.

  According to such a configuration, the push air outlet is arranged in the chest of the operator at the time of wearing, whereby the outlet of the push unit is arranged between the operator and the source of the harmful substance, Since push air flows from the chest of the operator toward the pull unit, it is possible to efficiently suck harmful dust such as fumes generated at the welding location without using an additional airflow generation device.

  Furthermore, since the outlet of the push unit is attached to the chest of the operator, the push unit can follow the movement of the operator even if the operator moves, and contains harmful dust even if the operator moves. The airflow can be taken in efficiently.

According to another preferred embodiment of the invention,
The push unit is integrated into a work clothes worn by an operator,
The outlet of the push unit is disposed on the chest of the work clothes.

  According to such a configuration, the push unit can be mounted by a normal operation of wearing work clothes.

According to another preferred embodiment of the invention,
An intake port that is in fluid communication with the air outlet through an air flow path is provided on the back of the work clothes,
A blower fan is disposed in the air flow path.

  According to such a configuration, since the outside air sucked by the blower fan passes through the work clothes, it is possible to suppress an increase in the body temperature of the worker.

According to another preferred embodiment of the invention,
The push unit includes a box-shaped casing and a mounting belt,
The push air blowing portion is provided in the casing;
The push unit is configured to be attachable to an operator by the mounting belt.

  According to such a configuration, since the fixing belt is provided on the frame constituting the air outlet of the push unit, it is possible to easily attach the air outlet of the push unit to the operator's chest and perform work. .

According to another preferred embodiment of the invention,
A blower fan is provided in the casing.

  According to the other preferable aspect of this invention, the said casing is comprised so that the ventilation mechanism installed outside through the connection hose is connectable.

  According to such a configuration, since not only the blower fan but also the pressurized air source installed in the factory can be used as the blower mechanism in the push unit, the cost can be further reduced.

According to another aspect of the invention,
A push-pull type ventilator comprising a push unit and a pull unit arranged at positions facing each other across a work space,
The push unit is provided with a push air blowing portion that can be worn by an operator, and the push air blowing portion is a push unit that is disposed on the chest of the worker when worn,
The pull unit has a suction port facing the working space;
A push-pull type ventilator is provided.

  ADVANTAGE OF THE INVENTION According to this invention, the push unit for push-pull type ventilators and a push-pull type ventilator which can follow an operator's movement can be provided, suppressing a raise of cost.

It is a perspective view from the front side of the jacket in which the push unit of the 1st Embodiment of this invention is integrated. It is a perspective view from the back side of the jacket in which the push unit of the 1st Embodiment of this invention is incorporated. It is typical drawing which shows the structure of a push-pull type ventilator in which the push unit of the 1st embodiment of this invention is used, and a use aspect. It is a perspective view which shows the structure of the push unit of the 2nd Embodiment of this invention. It is a schematic sectional drawing which shows the structure of the ventilation unit of the push unit of the 2nd Embodiment of this invention. It is a perspective view which shows the state with which the push unit of the 2nd Embodiment of this invention was mounted | worn. It is a perspective view of the modification of the push unit of the 2nd Embodiment of this invention.

  Hereinafter, a push unit according to a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view from the front side of the jacket 4 in which the push unit 2 according to the first embodiment of the present invention is incorporated, and FIG. 2 is a perspective view from the back side of the jacket 4.

  In this embodiment, the push unit 2 constituting the push-pull type ventilation device is a work clothes integrated type, and is incorporated in a jacket (work clothes) 4 worn by an operator.

  As shown in FIG. 1, a push air outlet 6 of the push unit 2 is formed in the chest of the jacket 4. The air outlet 6 has a high air permeability and is configured as an opening covered with an air permeable material layer capable of blowing the air flow supplied from the inside substantially uniformly. As the breathable material, for example, a synthetic fiber nonwoven fabric for collecting coarse dust is used. Synthetic fiber nonwoven fabrics for collecting coarse dust are used to blow out air substantially uniformly. In addition to the air permeable material layer, a layer having a rectifying effect, for example, a honeycomb core layer is disposed at the air outlet 6.

  The blower outlet 6 has a rectangular shape extending from one side end side of the chest of the jacket 4 to the other side end side, and has dimensions of, for example, a width of about 30 cm and a height of about 15 cm.

  As shown in FIG. 2, intake ports 8 and 8 of the push unit 2 are provided at lower positions on both sides of the back portion of the jacket 4. Each intake port 8 is in fluid communication with the air outlet 6 via an air flow path 10 of the push unit 2 disposed inside the jacket 4.

  Further, a blower fan 12 of the push unit 2 is attached to an inner position of each intake port 8, 8. The blower fan 12 is connected to a power supply unit 14 including a battery and a control device. The blower fan 12 is configured to be rotationally driven by a battery under the control of the control device. The power supply unit 14 is preferably stored in a dedicated pocket inside the jacket 4.

  With such a configuration, when the blower fan 12 is operated, outside air is sucked from the intake ports 8 and 8. The sucked outside air is sent to the air outlet 6 through the air flow path 10 and is blown out as push air from the air outlet 6. Note that the push air is blown straight out in a direction orthogonal to the surface of the air outlet 6.

  It is desirable that the air flow path 10 is made of a flexible and airtight material. However, if a material having a slight air permeability is used, the air leaked from the air flow path 10 causes the operator's body to flow. Can be cooled. For this reason, a material having a slight air permeability may be used as a measure against the heat in summer. As the material, for example, a high-density woven fabric made of nylon is preferable.

  The push unit 2 of this embodiment constitutes a push-pull type ventilation device in combination with a pull unit 18 provided at a work site W where work such as welding work is performed.

  FIG. 3 is a schematic diagram showing the configuration and usage of a push-pull type ventilator in which the push unit according to the first embodiment of the present invention is used.

  As shown in FIG. 3, a pull unit 18 that constitutes a push-pull type ventilation device is disposed in a work space W including the weld location Y at a position facing the worker S across the weld location Y. ing.

  The pull unit 18 constituting the push-pull type ventilator together with the push unit 2 of this embodiment includes a suction fan 20 and a suction hood 22 that is in fluid communication with the suction fan 20 and has a suction port 21 at the tip. As indicated by an arrow A, the pull unit 18 is configured to suck air in the vicinity of the welding spot Y and suck fumes H generated at the welding spot Y by the operation of the suction fan 20. The suction port 21 of the suction hood 22 is disposed so as to face the work space W.

  The wind speed (blowing speed) of the push air at the air outlet 6 of the push unit 2 of the present embodiment is set to about 0.5 to 1.5 m / s. On the other hand, the wind speed at the suction port 21 of the pull unit 18 is set to about 0.5 to 1.5 m / s or more. Moreover, it is desirable that the opening area of the suction port 21 is set to 1.5 to 2 times or more the opening area of the outlet 6 of the push unit 2.

  In the welding operation using the push-pull type ventilation device provided with the push unit 2 of the present embodiment, the blower fan 12 of the push unit 2 and the suction fan 20 of the pull unit 18 are arranged in the arrangement shown in FIG. Actuate and perform the welding operation. In other words, the ventilation fan 12 of the push unit 2 and the suction fan 20 of the pull unit 18 generate a ventilation airflow (captured airflow) from the chest of the operator through the welding location Y to the suction hood 22 in the welding state. Work is done.

  As a result, the fume H generated at the welding point Y is promptly transferred from the welding point Y to the suction hood 22 of the pull unit 18 by the ventilation airflow from the blower outlet 6 of the operator through the welding point Y to the suction hood 22. Will be aspirated.

  Next, a push unit according to a second embodiment of the present invention will be described. FIG. 4 is a perspective view showing the configuration of the push unit 30 according to the second embodiment of the present invention.

  The push unit 2 of the first embodiment is incorporated in a jacket (work clothes) worn by an operator, but the push unit 30 of the second embodiment is a unit separate from the work clothes. It has a configuration to be worn from above work clothes.

  The push unit 30 according to this embodiment includes a box-shaped air blowing unit 32 that is attached to the chest of the operator, an attachment belt 34, and a power supply unit 36. FIG. 5 is a schematic cross-sectional view showing the configuration of the blower unit 32.

  As shown in FIG. 5, the blower unit 32 includes a casing 38 having a thin, substantially rectangular parallelepiped shape slightly curved according to the outer shape of the wearer's chest, and a blower fan 40 built in the casing 38. ing. The casing 38 is formed of a material such as plastic resin.

  The blower fan 40 is rotationally driven by a battery in the power supply unit 36 by a control device in the power supply unit 36. When the blower fan 40 is operated, as indicated by an arrow C, outside air is sucked from the upper and lower gaps of the casing 38. The sucked outside air passes through the casing 38 as indicated by the arrow D, and is blown out as push air from the air outlet 42 on the front side of the casing 38 as indicated by the arrow E.

  As shown in FIG. 5, a breathable material layer 44 and a honeycomb core layer 46 are provided inside the air outlet 42. The breathable material layer 44 is made of a breathable material that allows airflow to pass substantially uniformly. As the breathable material, for example, a synthetic fiber nonwoven fabric for collecting coarse dust is used. The honeycomb core 46 is employed for rectifying push air.

  As shown in FIG. 4, the wearing belt 34 includes an annular horizontal portion 34 a extending around the chest of the wearer, and left and right shoulder straps 34 b that are hung on the shoulder of the wearer. Each part of the mounting belt 34 has a structure whose length can be changed according to the body shape of the operator.

  An attachment member (not shown) is attached to the power supply unit 36. The mounting member has a clip structure that can be engaged with the mounting belt 34 or the belt of the operator's pants.

  FIG. 6 is a view for explaining a mounting state of the push unit 30 of the present embodiment. As shown in FIG. 6, the push unit 30 has the casing disposed in front of the chest of the operator, wraps the horizontal portion 34 a of the mounting belt 34 around the chest, and puts both shoulder strap portions 34 b on the shoulders. It is installed.

  Similarly to the push unit 2 of the first embodiment, the push unit 30 of the present embodiment is combined with the pull unit 18 provided at the work site W where work such as welding work is performed, so that a push-pull type ventilation device is provided. Configure.

  When the operator wears the push unit 30 and operates the blower fan 40 as shown in FIG. 6 during use, the outside air is sucked into the push unit 30 and the sucked outside air is located near the chest of the worker. From the blower outlet 42 on the front side of the casing 38 to be blown out, it is blown out as push air in the forward direction.

  Also in the push-pull type ventilator of the present embodiment, the welding operation in the arrangement shown in FIG. 3 is performed in a state where the blower fan 40 of the push unit 30 and the suction fan 20 of the pull unit 18 are operated. . That is, the ventilation fan 40 of the push unit 30 and the suction fan 20 of the pull unit 18 generate a ventilation airflow from the air outlet 42 located in front of the operator's chest through the welding point Y to the suction hood 22. In the state, a welding operation is performed.

  As a result, the fumes H generated at the welding point Y are promptly transferred from the welding point Y to the suction hood 22 of the pull unit 18 by the ventilation airflow from the blower outlet 42 of the operator's chest through the welding point Y to the suction hood 22. Will be washed away.

  FIG. 7 is a perspective view of a push unit 50 according to a modification of the push unit 30 according to the second embodiment. Similar to the push unit 30 of the second embodiment, the push unit 50 according to the modification is a unit that is mounted on work clothes.

  Although the push unit 30 of 2nd Embodiment is provided with the casing which incorporated the ventilation fan, in the push unit 50 of a modification, the casing 52 does not incorporate ventilation mechanisms, such as a ventilation fan. The push unit 50 according to the modification is configured to use, as push air, pressurized air supplied from a separate pressurized air supply source (blower fan, compressor, factory air piping) via the connection hose 54.

  As with the push unit 30 of the second embodiment, a breathable material layer and a honeycomb core layer are provided inside the air outlet 56 of the casing 52 of the push unit 50 of the modification.

  Furthermore, the push unit 30 of the second embodiment includes a mounting belt 58 similar to the push unit 30 of the second embodiment.

  The present invention is not limited to the above-described embodiment, and various changes and modifications can be made within the scope of the technical idea described in the claims.

  For example, in the push units of the first and second embodiments, two blower fans are provided, but the number of blower fans is not limited to two, but one or three or more. There may be.

2, 30, 50: Push unit 4: Jacket 6: Air outlet 8: Air inlet 10: Air flow path 12: Blower fan 14: Power supply unit 18: Pull unit 20: Suction fan 22: Suction hood S: Worker Y: Weld location H: Hume

Claims (7)

Push-pull type ventilator push unit,
It has a push air outlet that can be worn by workers,
The push air blowing portion is disposed on the chest of the operator when worn.
Push unit characterized by that. The push unit is integrated into a work clothes worn by an operator,
The air outlet of the push unit is disposed on the chest of the work clothes;
The push unit according to claim 1. An intake port that is in fluid communication with the air outlet through an air flow path is provided on the back of the work clothes,
A blower fan is disposed in the air flow path,
The push unit according to claim 2. The push unit includes a box-shaped casing and a mounting belt,
The push air blowing portion is provided in the casing;
The push unit is configured to be attachable to an operator by the mounting belt.
The push unit according to claim 1. The casing is provided with a blower fan,
The push unit according to claim 4. The casing is configured to be connectable to a blower mechanism installed outside through a connection hose,
The push unit according to claim 4. A push-pull type ventilator comprising a push unit and a pull unit arranged at positions facing each other across a work space,
The push unit is provided with a push air blowing portion that can be worn by an operator, and the push air blowing portion is a push unit that is disposed on the chest of the worker when worn,
The pull unit has a suction port facing the working space;
This is a push-pull type ventilator.

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