JP2020176340A - Hood support - Google Patents

Abstract

To make environment of an operator in a hood when the hood is worn on a head more comfortable.SOLUTION: A hood support (helmet) 200 which is worn on the head of an operator and supports a bag-like hood covering the head of the operator from inside comprises: blower means (a blower cylinder housing 202, a blower fan 203, an intake port 205, and a front head exhaust port 801) for blowing air near the front head of the operator, which is covered by the hood; and a wind direction adjustment indication member (wind direction adjusting lever) 208 for controlling a wind direction change member for changing a direction of wind blown by the blower means and adjusting the direction of wind blown by the blower means. The wind direction adjustment indication member 208 is a manual lever adjustable in a state where a whole hood member is grasped from outside the hood. Thus, the operator can easily adjust the wind direction near the front head.SELECTED DRAWING: Figure 2

Description

The present invention relates to a hood support that is attached to the operator's head and supports a bag-shaped hood that covers the operator's head from the inside of the hood.

It is generally said that surgical invasion reduces the patient's resistance to infection. In particular, bones are vulnerable to infection, and once infected, treatment is often extremely difficult. Patients are at risk of being infected by health care workers' hair, sweat, exhaled breath, and filthy manipulation. On the other hand, even the surgeon (operator) who performs the surgery does not know what kind of bacteria or virus the patient has, and even if he / she knows it, he / she cannot escape from the surgery for that reason. Therefore, there is always a risk of transmission from the patient through blood or body fluids during surgery.

Therefore, in order to prevent infection between the surgeon and the patient, traditionally, like the so-called "space suit", a special hood is worn on the head and the whole body is covered to prevent hair and sweat. Surgical gowns have been developed to prevent falling and collect exhaled breath. With it, the surgeon does not directly receive blood return from the patient during surgery. The surgeon will see the affected area and instruments through the shield (transparent window) provided on the hood. Such surgical gowns are generally referred to as a personal protection system. This system is often used, for example, to prevent infection in hip arthroplasty.

As a related technique, specifically, for example, when the shield is attached to the head unit, the radius of curvature of the shield changes along the long axis in the vertical direction (the radius of curvature at the top of the shield is relatively large). Between the pins, the shield has a smaller radius of curvature and is more curved). The advantage of this configuration is that near eye level, the shield is less curved and has a relatively flat contour, which makes it possible to minimize glare and also a relatively large transparent shield. Free space between the hood and the hood is obtained around the crown. There is technology relating to personal protection systems that facilitates the attachment of auxiliary equipment, such as heads-up displays, cameras, other communication devices, or light sources around the wearer's head (eg, the following patent documents). See 1.).

Also, as a related technique, specifically, for example, a face shield having a centering mounting mechanism formed so as to be mounted on a mounting device for centering a helmet assembly. The centering mounting mechanism is on the face shield so that the face shield is positioned on the helmet assembly mounting member when the mounting mechanism is mounted on the helmet assembly centering mounting device. There is a technique relating to a hood including a face shield to be arranged (see, for example, Patent Document 2 below).

Also, as a related technique, specifically, for example, anterior air outlets and posterior sides located at the front and rear of the helmet assembly to effectively distribute air to both the user's face and neck, respectively. There is a technique relating to a helmet assembly used in a user-worn personal protection system with an air outlet (see, eg, Patent Document 3 below).

Japanese Unexamined Patent Publication No. 2013-100636 Japanese Unexamined Patent Publication No. 2014-141767 Japanese Unexamined Patent Publication No. 2016-35130

However, in the conventional technique, the environment in the operator's hood is often sacrificed by making the prevention of infection between the operator and the patient more reliable. For example, the hood seals the entire head, including the face, causing conditions such as increased temperature, poor visibility due to clouding of the shield, and increased carbon dioxide concentration. There is a problem that these situations put physical and mental stress on the surgeon and may affect the success rate in surgical operations that require high accuracy and concentration. It was. This problem becomes particularly noticeable during long-term surgery.

An object of the present invention is to make the environment of the operator in the hood more comfortable when the hood is worn on the head in order to solve the above-mentioned problems caused by the prior art.

In order to solve the above-mentioned problems and achieve the object, the hood support according to the present invention is attached to the operator's head, and a bag-shaped hood member covering the operator's head is supported from the inside of the hood member. The hood support is provided with a blower means for blowing air near the forehead of the operator covered by the hood member and a wind direction changing member for changing the direction of the wind blown by the blower means. It is characterized by that.

Further, the hood support according to the present invention is characterized in that, in the above invention, the hood support member includes a wind direction adjusting indicating member that controls the wind direction changing member and adjusts the direction of the wind blown by the blowing means.

Further, the hood support according to the present invention is characterized in that, in the above invention, the wind direction adjusting indicating member is a manual lever that can be adjusted while being gripped together with the hood member from the outside of the hood member. ..

Further, the hood support according to the present invention is a hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member. It is characterized by providing a blowing means for blowing air near the crown of the operator covered with.

The hood support according to the present invention is a hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member. The upper part of the shield member provided in the hood member is curved about a substantially vertical direction so as to have the first radius of curvature, and the upper part fixing member fixed from the inside of the hood member and the lower part of the shield member are the second. A lower fixing member that is curved about a substantially vertical direction so as to have a radius of curvature and is fixed from the inside of the hood member is provided, and the first radius of curvature and the second radius of curvature are substantially the same curvature. It is characterized in that it has a relationship of becoming a radius or a relationship in which the second radius of curvature is larger than the first radius of curvature.

The hood support according to the present invention is a hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member. The upper part of the shield member having a substantially rectangular shape is curved around the axis in the substantially vertical direction and fixed from the inside of the hood member, and the lower part of the shield member is defined as the axis in the substantially vertical direction. A lower fixing member that is curved and fixed from the inside of the hood member is provided, and the linear distance from one end to the other end of the upper part of the shield fixed by the upper fixing member in the horizontal direction is defined as X1 and the lower fixing member is fixed. It is characterized in that it has a relationship of X1 ≦ X2 when the linear distance from one end to the other end in the lower horizontal direction of the shield fixed by the member is X2.

Further, in the above invention, the hood support according to the present invention is attached to the blowing means for blowing air to at least one of the vicinity of the frontal region and the vicinity of the crown of the operator covered by the hood member and the lower fixing member. It is characterized in that it is provided with an air volume adjusting instruction member for adjusting the air volume of the air blown by the blowing means.

Further, in the above invention, the shape of the hood support according to the present invention can be grasped by the air volume adjusting indicating member touching through the hood member from the outside of the hood member, and the hood support can be operated through the hood member. It is characterized by being a simple button.

Further, in the hood support according to the present invention, in the above invention, the air blowing means sucks air from an intake port for sucking air, a transport path for transporting air, an exhaust port for discharging air, and the intake port. It is characterized by having a blower device for discharging air to the exhaust port through the transport path.

According to the hood support according to the present invention, the environment of the operator in the hood when the hood is worn on the head can be made more comfortable.

It is explanatory drawing which shows an example of the appearance of a helmet system. It is explanatory drawing which shows an example of the structure of a shield. It is a perspective view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is a front view which shows an example of the structure of the hood support of the embodiment which concerns on this invention. It is a rear view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is a right side view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is a left side view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is a top view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is a bottom view which shows an example of the structure of the hood support of embodiment which concerns on this invention. It is explanatory drawing which shows an example of the structure of the wind direction changing member. It is explanatory drawing which shows an example of the wearing example of the surgeon of the hood support of embodiment which concerns on this invention.

A preferred embodiment of the hood support according to the present invention will be described in detail below with reference to the accompanying drawings.

(Appearance of helmet system)
First, the appearance of the helmet system 100 including the hood support 200 of the embodiment according to the present invention will be described. FIG. 1A is an explanatory view showing an example of the appearance of the helmet system.

In FIG. 1A, reference numeral 101 is a hood worn by the operator on the head, and reference numeral 102 is a gown worn by the operator. When the helmet system 100 is used for performing surgery, the operator is a doctor, a nurse, or a medical worker (hereinafter referred to as "surgeon") who performs work in an operating room or the like. Further, the operator may be, for example, a person in charge of performing work in a clean room such as a semiconductor manufacturing factory.

The hood 101 has a bag-like shape having only one opening. Further, the hood 101 is provided with a window portion, and a shield 103 is attached to the window portion. In this way, what is equipped like a so-called "space suit" or "protective suit" is the appearance of the helmet system 100 or the personal protection system. The surgeon wears a gown 102 and wears a hood 101 on his head so that he or she wears it completely through the opening. As a result, the surgeon can pass through the shield 103 made of a transparent material even though the head is completely covered with the hood 101, and the situation outside the hood 101, that is, the target area for surgery. And various instruments, etc., can be seen reliably on the outside.

The materials of the hood 101 and gown 102 are breathable and block the invasion of bacteria. Further, the materials of the hood 101 and the gown 102 are preferably light, soft and soft to the touch in consideration of direct contact with the operator. Further, it is preferable that the product has a predetermined durability and flexibility. Specifically, as the material of the hood 101 and the gown 102, for example, a non-woven fabric or the like can be used.

Further, the material of the hood 101 and the gown 102 may be a material other than the non-woven fabric (for example, cloth, chemical fiber, paper, etc.). The material of the hood 101 and the material of the gown 102 may be the same or different from each other. In particular, the hood 101 is preferably made of a breathable material so that the operator can breathe, but the gown 102 does not have to consider the breathability.

In this way, the surgeon can breathe naturally through the hood 101 even when the hood 101 is worn or without using a special device for breathing, while wearing the hood 101. This makes it possible to reliably prevent the invasion of bacteria into the inside of the hood 101. In addition, it is possible to reliably prevent the operator's breathing, dust from the skin, hair, sweat, etc. from falling out of the hood 101.

Then, in FIG. 1A, although not shown, when the operator attaches the hood 101, a bag-shaped hood member that is attached to the operator's head and covers the operator's head is attached to the hood member. A dedicated helmet 200, which is an example of a hood support that supports from the inside, is used. The helmet 200 supports the hood 101 from the inside of the hood 101 between the operator's head and the hood 101, and prevents the operator's visibility from being deteriorated due to the shield 103 being displaced. .. Further, the helmet 200 plays a role of adjusting the environment of the operator in the hood 101 when the hood 101 is worn.

(Shield configuration)
FIG. 1B is an explanatory diagram showing an example of a shield configuration. FIG. 1B is a view in which the hood 101 is turned upside down and the shield 103 is viewed from the inside of the hood 101. The shield 103 can be made of a transparent and flexible material such as transparent plastic, more specifically polycarbonate, acrylic or polyethylene terephthalate (PET).

The shield 103 has a substantially rectangular shape and has rounded corners. The shield 103 is fixed to the window portion of the hood 101 by an adhesive, crimping, welding or other methods. In FIG. 1B, a hole 111 for inserting a convex portion of the shield alignment member 210, which will be described later, is provided near the center of the upper side of the shield 103.

Further, upper fixing members (surface fasteners, which are an example) 112 are provided at both ends on the upper side of the shield 103. Further, lower fixing members (surface fasteners as an example) 113 are provided at both ends on the lower side of the shield 103. Since the hook-and-loop fastener is a fastener that can be attached and detached on a surface (so-called "magic tape (registered trademark)"), the shield 103 can be freely attached to or removed from the shield upper fixing member 211 described later.

(Helmet configuration)
Next, an example of the configuration of the helmet 200, which is an example of the hood support according to the embodiment of the present invention, will be described with reference to FIGS. 2 to 10. FIG. 2 is a “perspective view” showing an example of the configuration of the hood support according to the embodiment of the present invention, FIG. 3 is a “front view”, and FIG. 4 is a “rear view”. Yes, FIG. 5 is the same “right side view”, FIG. 6 is the same “left side view”, FIG. 7 is the same “top view”, and FIG. 8 is the same “bottom view”. is there. Further, FIG. 9 is an explanatory view showing an example of the configuration of the wind direction changing member, and FIG. 10 is an explanatory view showing an example of wearing an operator of the hood support according to the embodiment of the present invention.

(Mounting mechanism)
In each of FIGS. 2 to 8, the helmet 200 includes a wearing band 201. The wearing band 201 is a band that is worn in a ring shape, that is, in a so-called “headband” shape, from the operator's frontal region, through the temporal region, and over the occipital region (see FIG. 10). Specifically, the material of the mounting band 201 may be plastic, cloth, leather, or the like.

As can be seen from FIG. 8, the ring-shaped wearing band 201 can change its peripheral length according to the shape and size of the operator's head. The length around the mounting band 201 can be adjusted by the mounting band adjusting handle 401. For example, the mounting band 201 and the mounting band adjusting handle 401, which are not shown, have a rack and pinion mechanism, and convert the rotational force of the mounting band adjusting handle 401 into a linear motion. That is, the mounting band 201 is tooth-cut and overlapped. They are configured by engaging the gears included in the mounting band adjusting handle 401. More specifically, for example, the peripheral length of the mounting band 201 can be shortened by rotating the mounting band adjusting handle 401 clockwise. On the contrary, by rotating the mounting band adjusting handle 401 counterclockwise, the peripheral length of the mounting band 201 can be increased.

When the helmet 200 is worn, the surgeon lengthens the circumference of the wearing band 201 in advance, and causes the wearing band 201 to come into contact with the upper circumferences of both ears of the head in a "hachimaki" shape. (See FIG. 10), and then the peripheral length of the mounting band 201 is adjusted by rotating the mounting band adjusting handle 401 clockwise. The length around the wearing band 201 should be adjusted so that the helmet 200 does not wobble because it is too loose and the helmet 200 is not tightened too much and the head is not pressed too much by the wearing band 201.

Further, even during the operation, the surgeon can adjust the wearing band for each hood 101 from above the hood 101 without removing the hood 101 and without inserting a hand or the like through the opening into the hood 101. By grasping the handle 401 and rotating it in either direction, the wearing comfort of the helmet 200 can be freely adjusted by changing the length around the mounting band 201. In this way, in the long-term surgery, the helmet 200 to be continuously worn can be freely adjusted at any time, thereby relieving the stress of the operator and providing a more comfortable environment in the hood 101. it can.

(Blower mechanism)
Next, the ventilation mechanism in the hood 101 will be described. In each of FIGS. 2 to 8, the helmet 200 includes a blower housing 202. The blower cylinder housing 202 has a hollow inside, and realizes a function as a transport path for transporting air. The blower housing 202 is fixed by the mounting band 201. Then, the blower cylinder housing 202 is arranged on the upper side of the head of the operator wearing the wearing band 201 from the vicinity of the crown to the vicinity of the frontal region. A blower fan 203 is provided near the crown of the blower cylinder housing 202, and a blower fan cover member 204 that covers the blower fan 203 is provided in the blower cylinder housing 202. The blower fan 203 realizes a function as a blower device. As the material of the blower cylinder housing 202 and the blower fan cover member 204, a material that is as light and durable as possible, for example, ABS (Acrylonitrile butadiene style) resin, polypropylene, or other plastic may be used. it can.

Reference numeral 207 is a power cord that supplies power to the blower fan 203. The power cord 207 is connected to a battery (for example, a dry battery case) (not shown) or the like to supply power from the battery to the blower fan 203. The battery can be attached to the operator's waist or back.

As can be seen from the top view of FIG. 7, the blower fan cover member 204 is provided with an opening on the upper side, and the opening serves as an intake port 205. Further, the intake port 205 is provided with a grid-like fence member 206. The fence member 206 can prevent the hood 101 from being caught in the blower fan 203 during intake. Further, the fence member 206 can prevent an operator or the like from accidentally touching the blower fan 203 with a finger or the like via the hood 101. If the hood 101 or a finger touches the rotating blower fan 203, it will be caught by the blower fan 203 that rotates at high speed, resulting in unexpected injury, the blower will be stopped, and the blower fan 203 or blower will be blown. The motor provided in the fan 203 may be damaged. The fence member 206 serves as an intake port 205 that can efficiently take in air from the crown direction, and is provided as a safety measure for the blower fan 203 that rotates at high speed.

The blower fan 203 has a built-in motor (not shown), and the motor is rotated by the supplied power supply. By the rotation of the motor, air is sucked from the intake port 205 through the blower fan cover member 204. Then, the sucked air is sent out to the front exhaust port 801 through the blower housing 202. The sent out air is exhausted from the frontal exhaust port 801. As a result, ventilation is realized near the frontal region of the operator. Further, a part of the air sucked from the upper side is also exhausted from the top exhaust port 803 by the rotation of the motor. As a result, the air is blown near the top of the operator's head.

As can be seen from FIG. 8, the crown exhaust ports 803 are provided at four locations at predetermined intervals directly below the blower fan 203. From the top exhaust port 803, the air is exhausted to the top of the operator's head while maintaining the momentum of intake by the blower fan 203. Further, the top exhaust port 803 may be provided with a nozzle or the like to adjust the wind speed, the air volume, the wind direction, and the like.

In FIG. 8, four crown exhaust ports 803 are provided and arranged at each apex so as to draw a quadrangle, but the number and arrangement of the crown exhaust ports 803 are not limited to this. Only one place may be provided, or two, three places, or five or more places may be provided, and the arrangement can be freely determined according to the number of places to be provided. Further, depending on the preference of the operator, a lid member (not shown) that closes all or part of the provided parietal exhaust port 803 may be provided.

By blowing air downward from the crown in this way, sweating near the crown can be efficiently suppressed. Sweat near the crown often flows along the head toward the frontal region, and this sweat enters the operator's eyes or adheres to the shield 103, which deteriorates the operator's visibility. It is one of the factors that make it happen. When the hood 101 is worn, it is not possible to wipe the sweat that has entered the eyes, which puts a strong stress on the surgeon both physically and mentally. Blowers near the crown by the top exhaust port 803 can more reliably solve these problems. In addition, the air blown from the crown exhaust port 803 reaches the vicinity of the operator's neck from the operator's crown through the vicinity of the front and back of the ear. As a result, sweating in the vicinity of the neck can be suppressed, and a refreshing feeling or comfort in the vicinity of the neck can be provided to the operator. In this way, by providing the crown exhaust port 803 near the crown, the blower is not directly blown to the vicinity of the operator's neck, but is indirectly blown to the neck. Is gentle, and the discomfort caused by direct and continuous contact for a long period of time can be suppressed.

In FIG. 8, the forehead exhaust port 801 is provided with a horizontally long opening that is long in the left-right direction, and the discharged air extends over the left-right direction of the shield 103 or the left-right direction of the operator's forehead. It is supposed to be ejected. Therefore, it is preferable that the blower cylinder housing 202 also has a flat shape that is long in the left-right direction in accordance with the shape of the opening of the frontal exhaust port 801.

The forehead exhaust port 801 is provided with a wind direction changing member 802. As shown in FIG. 9, the wind direction changing member 802 is composed of a shaft portion 811 and three plate-shaped members 812 provided on the shaft portion 811. The number of the plate-shaped members 812 is not limited to three. A wind direction adjusting lever 208 is attached to the shaft portion 811. In FIG. 9, all three plate-shaped members 812 are attached to the shaft portion 811 at the same angle, but they may be attached so as to have different angles. Further, the shaft portion 811 and the plate-shaped member 812 may be integrally formed. Further, the wind direction adjusting lever 208 may be integrally formed.

As shown in FIG. 8, the shaft portion 811 of the wind direction changing member 802 is located near the center of the frontal exhaust port 801 in the vertical direction along the longitudinal direction of the horizontally long opening. Is rotatably provided around the axis. Then, the plate-shaped member 812 rotates about the shaft portion 811 in response to the movement of the wind direction adjusting lever 208.

Specifically, in FIG. 5, when the wind direction adjusting lever 208 is moved so as to be tilted to the right toward FIG. 5, the plate-shaped member 812 is moved clockwise in response to the movement, that is, the plate-shaped member 812. The upper part moves closer to the operator, and the lower part of the plate-shaped member 812 moves away from the operator. By doing so, the air discharged from the top exhaust port 803 can flow to the shield 103 side.

On the contrary, in FIG. 5, when the wind direction adjusting lever 208 is moved so as to be tilted to the left toward FIG. 5, the plate-shaped member 812 is moved counterclockwise, that is, the upper portion of the plate-shaped member 812 in response to the movement. Moves away from the operator and the lower part of the plate-shaped member 812 moves closer to the operator. By doing so, the air discharged from the crown exhaust port 803 can flow to the operator side.

Similarly, in FIG. 5, when the wind direction adjusting lever 208 is moved so as to stand substantially vertically, the upper portion and the lower portion of the plate-shaped member 812 also become substantially vertical according to the movement. By doing so, the air discharged from the crown exhaust port 803 can flow between the shield 103 side and the operator side.

The wind direction adjusting lever 208 can be adjusted to a desired angle between the right end and the left end in FIG. 5 (for the operator, between the back and front (see FIG. 7)). More specifically, the operator grips the wind direction adjusting lever 208 together with the hood 101 through the hood 101, moves the wind direction adjusting lever 208, and then grips the wind direction adjusting lever 208 at a desired position. release. Since the shaft portion 811 is subjected to a predetermined torque, it is possible to maintain the state in which the movement of the wind direction adjusting lever 208 and the plate-shaped member 812 is stopped at the position.

In this way, the wind direction adjusting lever 208 can be easily operated by grasping it from above the hood 101 with a fingertip or the like (the operator's left hand), and can easily block its movement to form a plate. The member 812 can be easily fixed in a desired position. Then, by frequently operating the wind direction adjusting lever 208, it is possible to quickly and surely set a comfortable state with respect to the ever-changing environment in the hood 101.

By adjusting the wind direction in this way, it is possible to suppress an increase in the temperature and carbon dioxide concentration in the hood 101, sweating of the operator, and fogging of the shield 103 due to exhalation of the operator. Therefore, even if the hood 101 is worn for a long period of time, the surgeon is more likely to breathe, and is irritated by poor visibility due to his / her exhalation, and mental stress such as a feeling of oppression and a feeling of obstruction. Can be further reduced.

(Shield fixing mechanism)
Next, a shield fixing mechanism for fixing the shield 103 will be described. In FIG. 2, an upper shield support member 209 is provided at the tip of the blower cylinder housing 202 on the frontal side. The upper shield support member 209 is formed at a position horizontally separated from the position of the frontal region of the mounting band 201 by a predetermined distance. As a result, the distance between the operator's face and the shield 103 can be reliably secured. The upper shield support member 209 can fix the upper side of the shield 103 to the helmet 200 when the hood 101 is worn. As can be seen from FIGS. 7 and 8, the upper shield support member 209 has a curved shape with the upper portion of the shield 103 in contact with the axis in the substantially vertical direction. As the material of the upper shield support member 209, a material as light and durable as possible, for example, plastic, more specifically, polycarbonate, acrylic, polyethylene terephthalate (PET), or the like can be used.

Further, the upper shield support member 209 is provided with a shield alignment member 210 near the center thereof. The shield alignment member 210 has the shape of a convex portion protruding upward. When the hood 101 is worn, the convex portion is inserted into the hole 111 provided on the upper side of the shield 103 shown in FIG. 1B. Thereby, the shield 103 can be positioned with respect to the helmet 200. Then, as shown in FIG. 1B, with the hood 100 turned inside out, the shield 103 is curved along the curved portion of the upper shield support member 209, and both ends of the curved surface of the upper shield support member 209. The upper fixing member (surface fastener) 112 of the shield 103 is attached and fixed to the shield upper fixing member (surface fastener) 211 provided in the portion.

Further, the wearing band 201 is provided with a lower shield support member 212 extending to the periphery of the operator's chin portion. The lower shield support member 212 fixes the lower side of the shield 103 to the helmet 200 when the hood 101 is worn. As can be seen from FIGS. 7 and 8, the lower shield support member 212 has a curved shape with the lower portion of the shield 103 in contact with the lower portion, similarly to the upper portion of the shield 103. The material of the lower shield support member 212 may be as light and durable as possible, such as plastic, more specifically polycarbonate, acrylic or polyethylene terephthalate (PET). Further, any material having flexibility is preferable so that it can absorb an impact from the outside. By doing so, it is possible to prevent the lower shield support member 212 from being easily damaged when hit.

The shield 103, which is fixed to be curved along the upper shield support member 209, is curved along the curved portion of the lower shield support member 212, and the lower part of the shield provided on the curved surface of the lower shield support member 212. The lower fixing member (surface fastener) 113 of the shield 103 is attached to and fixed to the fixing member (surface fastener (an example) 213. Since the shield lower fixing member 213 and the lower fixing member 113 are composed of a hook-and-loop fastener, the shield 103 can be freely attached to and removed from the shield lower fixing member 213 in the same manner as the shield upper fixing member 211. .. Further, the mounting position, shape and number of the shield lower portion fixing members 213 can be appropriately adjusted depending on the dimensions and shape of the shield 103. As a result, not only a dedicated hood but also various types of commercially available hoods can be used.

Here, by using the upper shield support member 209 and the shield upper fixing member 211, the upper portion of the shield 103 can be curved and fixed about a substantially vertical direction so as to have a first radius of curvature. Further, by using the lower shield support member 212 and the shield lower fixing member 213, the lower portion of the shield 103 is curved and fixed about a substantially vertical direction so as to have a second radius of curvature.

Then, the first radius of curvature and the second radius of curvature are made to have a relationship of substantially the same radius of curvature. In this case, since the shield 103 is made of a flexible material, it is fixed by drawing substantially the same arc on the upper side and the lower side. Therefore, there is no distortion on the upper side and the lower side of the shield 103, and the shield 103 is fixed in a curved state with substantially the same curvature. As a result, the operator can further improve the visibility in the field of view through the shield 103.

Further, the first radius of curvature and the second radius of curvature may have a relationship in which the second radius of curvature is larger than the first radius of curvature. In this case, since the shield 103 is made of a flexible material, it is fixed in a curved state in an arc with a larger curvature on the lower side with respect to the upper side. As a result, a wider area near the operator's mouth or nose is secured, and it is possible to suppress fogging of the shield 103 due to the operator's exhalation and an increase in carbon dioxide concentration near the mouth or nose. .. Therefore, it is easier to breathe, and it is possible to further reduce the irritability caused by poor visibility due to one's exhalation and the mental stress such as a feeling of oppression and a feeling of obstruction. Further, by wearing the hood 101, it is possible to secure an area for wearing a microphone (not shown) or the like, which is used to eliminate the difficulty of reaching the outside of the voice, in the vicinity of the mouth.

Further, for example, when the shield 103 has a substantially rectangular shape as shown in FIG. 1B, one end of the upper portion of the shield 103 fixed by the upper shield support member 209 and the shield upper fixing member 211 in the horizontal direction (for example, Let X1 be the linear distance from the other end (point B shown in FIGS. 7 and 8) to the other end (point B shown in FIGS. 7 and 8), that is, the length of the string with respect to the arc formed in the upper part of the shield 103. , From one end (point C shown in FIGS. 7 and 8) to the other end (point D shown in FIGS. 7 and 8) of the shield 103 fixed by the lower shield supporting member 212 and the lower fixing member 113 in the lower horizontal direction. When the linear distance to, that is, the length of the chord with respect to the arc formed in the lower part of the shield 103 is X2, the relationship of X1 ≦ X2 may be obtained.

The curved surface of the portion of the upper shield support member 209 and the lower shield support member 212 in contact with the shield 103 may be formed so as to draw an arc, and is flat, that is, formed so that the curvature changes in the middle. May be good. In FIG. 8, in the upper shield support member 209, the curved surface of the portion in contact with the shield 103 draws a substantially circular arc, whereas in the lower shield support member 212, the curved surface of the portion in contact with the shield 103 is on both sides. The curvature of the central part is smaller than that (it is close to a straight line).

As described above, the upper shield support member 209 and the lower shield support member 212 may have the same shape when viewed from the upper side or the bottom side, and have different shapes as shown in FIG. You may. In any case, as described above, it suffices to have the relationship of X1 ≦ X2. This makes it possible to secure a wider area near the operator's mouth or nose.

Further, although the shield 103 is fixed to the helmet 200 by using a hook-and-loop fastener, the fixing method is not limited to this. For example, the upper shield support member 209 and the lower shield support member 212 are provided with a hook member or the like (not shown), and a hole (not shown) is provided at a predetermined position of the shield 103 so that the hole is hooked. It may be fixed by hooking it on a member. Further, as shown in FIG. 4, a shield lower fixing member (magnet) 402 is provided inside the lower shield supporting member 212, that is, on the face side of the operator, and on the shield 103 side, although not shown, is magnetic. By providing a reactive material (iron or the like), the shield 103 may be fixed to the helmet 200 by using magnetic force. As described above, as long as the relationship of X1 ≦ X2 is provided, the method of fixing the shield 103 may be any method.

In this way, the shield 103 can be fixed at a more comfortable position for the operator in consideration of the distance from the operator's face.

(Air volume adjustment mechanism)
Next, the air volume adjusting mechanism will be described. As shown in FIG. 4, the inside of the lower shield support member 212, that is, the lower portion of the lower shield support member 212, near the center of the operator's face side, is an example of the air volume adjusting support member, ON. A / off button 403 and an air volume adjusting button 404 are provided. The on / off button 403 controls the on / off of the blower, that is, the on / off of the power supply of the motor of the blower fan 203. When the on / off button 403 is pressed once, the blower fan 203 rotates to start blowing, and when the on / off button 403 is pressed again while the blower fan 203 is rotating, the blower fan 203 rotates. It stops and the ventilation stops.

The air volume adjustment button 404 is composed of two buttons. In FIG. 4, the button on the right side is the air volume increase button, and the button on the left side is the air volume decrease button. These two air volume adjusting buttons 404 control the current amount of the motor of the blower fan 203, whereby the rotation speed of the blower fan 203 can be adjusted and the air volume can be changed. Specifically, for example, when the air volume increase button is pressed, the current amount of the motor increases, which increases the rotation speed of the motor and increases the air volume blown by the blower fan 203. On the other hand, when the air volume reduction button is pressed, the current amount of the motor is reduced, whereby the rotation speed of the motor is reduced and the air volume blown by the blower fan 203 is reduced.

These buttons 403 and 404 can be operated (pressed) from the outside of the hood 101 through the hood member while the operator is wearing the hood 101. Specifically, when the operator sandwiches the lower portion of the lower shield support member 212 with the index finger and the thumb through the hood 101, the thumb naturally touches the buttons 403 and 404. In that state, by pressing any of the buttons 403 and 404 with the thumb, the operator can easily operate these buttons.

In addition, the air volume increase button has a "+" (plus) shape at the protrusion of the button. On the other hand, in the air volume reduction button, the protrusion of the button has a "-" (minus) shape. Further, the on / off button 403 has a circular shape. Therefore, the surgeon does not need to remember which is the air volume increase button, which is the air volume decrease button, and which is the on / off button 403. That is, the surgeon touches the buttons 403 and 404 from the outside of the hood 101 through the hood 101 while wearing the hood 101, and traces the shape of the protrusion of the button with the pad of the finger. Therefore, the shape can be grasped without visually observing the buttons 403 and 404, and it is possible to intuitively identify which button is the desired button.

The surgeon may press the plus-shaped button (the rightmost button) if he wants to increase the air volume, while pressing the minus-shaped button if he wants to decrease the air volume. If you want to stop the ventilation, you can press the on / off button 403 (the leftmost button). With this configuration, it is possible to reduce erroneous button operations. In addition, if the button is pressed incorrectly and the air volume is contrary to the operator's intention, the environment of the operator in the hood 101 is deteriorated even temporarily, thereby not causing discomfort to the operator. I'm done.

In this way, the arrangement and shape of the operation buttons are taken into consideration so that the environment in the hood 101 that changes from moment to moment can be flexibly and immediately responded to. Therefore, the operator can surely press the button from above the hood 101 without removing the hood 101 and without inserting a hand or the like through the opening into the hood 101 even during the operation. Can be done. As a result, the environment of the operator in the hood 101 can always be made more comfortable.

The on / off button 403 can be used to control the on / off of other devices (for example, an LED light attached to the helmet 200, which is not shown). In this case, the air volume adjusting button 404 may be used to control the on / off of the blower fan 203. That is, when the plus-shaped button of the air volume adjusting button 404 is pressed, the blower fan 203 starts blowing air, and when the minus-shaped button is pressed during blowing, the blower fan 203 may stop blowing air. Furthermore, when the plus-shaped button is pressed during ventilation, the air volume increases, when the minus-shaped button is pressed during ventilation, the air volume decreases, and when the minus-shaped button is pressed and held for a predetermined second or longer, the air volume is increased. You may want to stop.

In any case, the surgeon may press the plus-shaped button when he / she wants to strengthen the blast, and press the minus-shaped button when he / she wants to weaken or stop the blast. That is, the surgeon intuitively grasps each shape of the air volume adjustment button 404 "+" (plus) and "-" (minus) with the pad of the finger, and the meaning and content indicated by those shapes ("+" = By intuitively understanding the increase in air volume and "-" = decrease in airflow) and pressing it with the pad of your finger, you can adjust the airflow inside the hood 101 more quickly, more accurately, and without stress. ..

As described above, the helmet 200, which is an example of the hood support according to the embodiment of the present invention, is attached to the operator's head, and the bag-shaped hood 101 covering the operator's head is attached to the inside of the hood 101. Blowers (blower housing 202, blower fan 203, intake port 205, frontal exhaust port 801) that blow air near the front head of the operator covered by the hood 101, and blow air by the blow means. Since the wind direction changing member 802 for changing the direction of the wind to be blown is provided, the wind direction of the blown wind can be maintained in the optimum state in the ever-changing environment inside the hood 101, and the temperature inside the hood 101 can be maintained. In addition, an increase in carbon dioxide concentration, sweating, and fogging of the shield 103 can be appropriately suppressed. As a result, the environment of the operator in the hood 101 when the hood is worn on the head can be made more comfortable.

Further, the helmet 200 of the embodiment according to the present invention controls the wind direction changing member 802 and is blown by the blowing means (blower cylinder housing 202, blowing fan 203, intake port 205, frontal exhaust port 801). Since the wind direction adjusting lever 208 for adjusting the direction of the wind is provided, the operator can freely adjust the wind direction based on his / her own feeling.

Further, in the helmet 200 of the embodiment according to the present invention, since the wind direction adjusting lever 208 is a manual lever that can be adjusted while being gripped together with the hood 101 from the outside of the hood 101, the operator has attached the hood 101. In the state, the direction of the blown air can be easily changed.

Further, the helmet 200, which is an example of the hood support device of the embodiment according to the present invention, is attached to the head of the operator and supports the bag-shaped hood 101 covering the head of the operator from the inside of the hood 101. , The blower means (blower housing 202, blower fan 203, intake port 205, crown exhaust port 803) for blowing air near the crown of the operator covered by the hood 101 is provided, so that the vicinity of the crown is appropriately air-cooled. It is possible to effectively suppress sweating in the vicinity of the crown.

Further, the helmet 200, which is an example of the hood support device of the embodiment according to the present invention, is attached to the operator's head and supports the bag-shaped hood 101 covering the operator's head from the inside of the hood 101. , Upper shield support member 209, which is fixed from the inside of the hood 101 by bending the upper part of the shield 103 provided on the hood 101 with a substantially vertical axis so as to have a first radius of curvature. Lower shield support member 212 and shield lower fixing member (surface fastener) that bend the lower part of the shield 103 and the fastener) 211 around the axis in the substantially vertical direction so as to have a second radius of curvature, and fix them from the inside of the hood member. ) 213, and has a relationship in which the first radius of curvature and the second radius of curvature are substantially the same radius of curvature, or a relationship in which the second radius of curvature is larger than the first radius of curvature. Therefore, the space area near the operator's nose and mouth can be appropriately secured.

Further, the helmet 200, which is an example of the hood support device of the embodiment according to the present invention, is attached to the operator's head and supports the bag-shaped hood 101 covering the operator's head from the inside of the hood 101. , Upper shield support member 209 and shield upper fixing member (surface fastener) 211 that are provided on the hood 101 and are fixed from the inside of the hood 101 by bending the upper portion of the shield 103 having a substantially rectangular shape about a substantially vertical direction. A lower shield support member 212 and a shield lower fixing member (surface fastener) 213 that bend the lower portion of the shield 103 about a substantially vertical direction and fix the hood 101 from the inside, and the upper shield support member 209. The linear distance from one end to the other end of the upper part of the shield fixed by the shield upper fixing member 211 is X1, and one end of the lower horizontal direction of the shield fixed by the lower shield supporting member 212 and the shield lower fixing member 213. When the linear distance from the other end to the other end is X2, there is a relationship of X1 ≦ X2. Therefore, similarly, a space area near the operator's nose and mouth can be appropriately secured.

Further, the helmet 200 of the embodiment according to the present invention has a blowing means (blower cylinder housing 202, blowing fan 203) for blowing air to at least one of the vicinity of the frontal region and the vicinity of the crown of the operator covered by the hood 101. , Intake port 205, frontal exhaust port 801, crown exhaust port 803), and an air volume adjustment indicator member (on / off button 403, which is provided on the lower shield support member 212 and adjusts the air volume of the air blown by the blowing means. Since the air volume adjusting button 404) is provided, the air volume of the air blown in the hood 101 can be made appropriate, and the environment in the hood 101 can be made more comfortable.

Further, in the helmet 200 of the embodiment according to the present invention, the shape can be grasped by the air volume adjusting instruction member touching through the hood member from the outside of the hood member, and the helmet 200 can be operated through the hood member. Since it is a button, the air volume can be easily adjusted while wearing the hood 101.

Further, in the helmet 200 of the embodiment according to the present invention, the ventilation means has an intake port 205 for sucking air, a transport path (blower housing) 202 for transporting air, and an exhaust port (front) for discharging air. Since it has a head exhaust port 801 and a crown exhaust port 803) and a blower device (blower fan) 203 for discharging the air sucked from the intake port 205 to the exhaust port through the transport path 202, a simpler configuration can be used. It is possible to blow air to an appropriate position in the hood 101.

As described above, the hood support according to the present invention is a hood support that is attached to the operator's head and supports the bag-shaped hood member that covers the operator's head from the inside of the hood member. , Suitable for hood supports that can make the operator's environment in the hood more comfortable when the hood is worn on the head.

100 Helmet system 101 Hood 102 Gown 103 Shield 111 Hole 112 Upper fixing member (hook-and-loop fastener)
113 Lower fixing member (hook-and-loop fastener)
200 Hood indicator (helmet)
201 Mounting band 202 Transport path (blower housing)
203 Blower (blower fan)
204 Blower fan cover member 205 Intake port 206 Fence member 207 Power cord 208 Wind direction adjustment indicator member (wind direction adjustment lever)
209 Upper shield support member 210 Shield alignment member 211 Shield upper fixing member (hook-and-loop fastener)
212 Lower shield support member 213 Shield lower fixing member (hook-and-loop fastener)
401 Mounting band adjustment handle 402 Shield lower fixing member (magnet)
403 On / Off button 404 Air volume adjustment button 801 Frontal exhaust port 802 Wind direction change member 803 Head top exhaust port 811 Shaft 812 Plate-shaped member

Claims (9)

A hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member.
Blower means for blowing air near the frontal region of the operator covered with the hood member, and
A wind direction changing member that changes the direction of the wind blown by the blowing means,
A hood support that is characterized by being equipped with. The hood support according to claim 1, further comprising a wind direction adjusting indicating member that controls the wind direction changing member and adjusts the direction of the wind blown by the blowing means. The hood support according to claim 2, wherein the wind direction adjusting indicating member is a manual lever that can be adjusted while being gripped together with the hood member from the outside of the hood member. A hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member.
A hood support that includes a blowing means for blowing air near the crown of the operator covered by the hood member. A hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member.
An upper fixing member that bends the upper part of the shield member provided on the hood member about a substantially vertical direction so as to have a first radius of curvature and fixes the upper part from the inside of the hood member.
A lower fixing member that bends the lower part of the shield member about a substantially vertical direction so as to have a second radius of curvature and fixes the lower part from the inside of the hood member.
With
The first radius of curvature and the second radius of curvature have a relationship of substantially the same radius of curvature, or a relationship in which the second radius of curvature is larger than the first radius of curvature. Hood support. A hood support that is attached to the operator's head and supports a bag-shaped hood member that covers the operator's head from the inside of the hood member.
An upper fixing member provided on the hood member, which is bent from the inside of the hood member by bending the upper portion of a shield member having a substantially rectangular shape about a substantially vertical direction, and an upper fixing member.
A lower fixing member that bends the lower part of the shield member about a substantially vertical direction and fixes it from the inside of the hood member.
With
The linear distance from one end to the other end of the upper part of the shield fixed by the upper fixing member in the horizontal direction is defined as X1, and the linear distance from one end to the other end in the lower horizontal direction of the shield fixed by the lower fixing member is defined as X1. A hood support that has a relationship of X1 ≦ X2 when it is set to X2. An air blowing means that blows air to at least one of the vicinity of the frontal region and the vicinity of the crown of the operator covered by the hood member.
An air volume adjusting instruction member provided on the lower fixing member for adjusting the air volume of the air blown by the blowing means, and
The hood support according to claim 5 or 6, wherein the hood support is provided. The seventh aspect of claim 7, wherein the air volume adjusting instruction member is a button whose shape can be grasped by touching through the hood member from the outside of the hood member and can be operated through the hood member. Hood support. The ventilation means
An intake port that sucks in air and
A transport path for transporting air and
An exhaust port that exhausts air and
An air blower that discharges air sucked from the intake port to the exhaust port through the transport path, and
The hood support according to any one of claims 1, 3, 6, and 7.

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