JP6914668B2 - Suction type gas detector - Google Patents

Description

The present invention relates to a suction type gas detector provided with a detector main body that detects a detection target gas from sucked gas and a removable filter portion on the detector main body.

In the suction type gas detector as described above, the detector main body is provided with a suction unit that sucks gas through the attached filter unit and a detection unit that detects the detection target gas from the gas sucked by the suction unit. (See, for example, Patent Document 1).

In the detector described in Patent Document 1, an attachment portion is attached to the tip of a filter portion attached to the detector main body, and gas is sucked into the detector main body through the attachment portion and the filter portion by the suction action of the suction portion. Has been done. The filter unit is provided with a gas flow passage that circulates the gas sucked by the suction unit and guides it to the detector main body, and a filter that acts on the flowing gas is arranged in the middle of the gas flow passage. There is. As a result, when the gas is sucked by the suction part, the water can be cut by the filter, and the water is prevented from entering the inside of the detector main body.

Japanese Unexamined Patent Publication No. 2013-29473

In the suction type gas detector, if the sucked gas contains an interfering gas or the like, the detection of the detection target gas may be adversely affected. Therefore, when there is a possibility that the gas to be sucked contains an interfering gas or the like, it is preferable to use the suction type gas detector in a form provided with an adsorbent for adsorbing the interfering gas or the like. As described above, when the suction type gas detector is used, it is not fixed in one form and used, but a form having an adsorbent and an adsorbent are not provided depending on various situations such as the gas to be sucked. A suction type gas detector is used by switching to the form.

Since the detector described in Patent Document 1 is only provided with a filter in the filter portion, when an adsorbent is provided, an adsorbent accommodating member containing the adsorbent is provided separately from the filter portion. Is required. Therefore, when the suction type gas detector is used in the form of providing an adsorbent, for example, the adsorbent accommodating member is attached to the detector body, and the filter portion is attached to the adsorbent accommodating member to form a filter. An adsorbent accommodating member is provided separately from the portion. On the other hand, when the suction type gas detector is used without an adsorbent, only the filter portion is provided by attaching the filter portion to the detector body as in the detector described in Patent Document 1 above. ing.

However, in the suction type gas detector as described above, when switching from the form without the adsorbent to the form with the adsorbent, in addition to the work of accommodating the adsorbent, the adsorbent accommodating member containing the adsorbent is used. Work such as mounting is required, which complicates the switching work. Further, when the suction type gas detector is used in the form of providing an adsorbent, an adsorbent accommodating member must be provided separately from the filter portion, which causes an increase in the number of members and a complicated configuration. become.

In view of this situation, the main subject of the present invention is the case where the suction type gas detector is used in the form provided with the adsorbent and the case where the suction type gas detector is used in the form not provided with the adsorbent. The point is to provide a suction type gas detector that can simplify the switching work without causing an increase or complicated configuration.

The first feature configuration of the present invention includes a detector main body and a filter unit that can be attached to and detached from the detector main body.
In the suction type gas detector, the detector main body is provided with a suction unit that sucks gas through the attached filter unit and a detection unit that detects a detection target gas from the gas sucked by the suction unit. ,
The filter unit is provided with a gas flow passage that circulates the gas sucked by the suction unit and guides the gas to the detector main body.
In the gas flow passage, a filter acting on the flowing gas and an adsorbent accommodating space capable of accommodating the adsorbent acting on the flowing gas are arranged in order from the upstream side in the gas flow direction.
The filter unit can be used by switching between an adsorbent accommodating form in which the adsorbent is accommodated in the adsorbent accommodating space and a non-adsorbent accommodating form in which the adsorbent is not accommodated in the adsorbent accommodating space. There is a point.

According to this configuration, since the adsorbent accommodating space is arranged in the gas flow passage of the filter unit, the adsorbent can be simply configured by switching whether or not the adsorbent is accommodated in the adsorbent accommodating space. The filter unit can be used by switching between the accommodating form and the non-adsorbent accommodating form. When the filter unit is used in the adsorbent accommodating form, for example, it is sufficient to accommodate the adsorbent in the adsorbent accommodating space without adding a member accommodating the adsorbent. It is possible to prevent the complication of the above. Moreover, when the filter unit is used in the non-adsorbent accommodating form, the adsorbent is not accommodated in the adsorbent accommodating space, so that the adsorbent accommodating space becomes a hollow space. Therefore, when the gas is sucked by the suction part, the adsorbent accommodating space becomes a storage space where the sucked gas is temporarily stored, and the gas can be stably sucked by the suction part. It is possible to prevent the occurrence of unstable movements such as pulsation.

The second characteristic configuration of the present invention is that the filter unit is composed of an upstream distribution unit for forming an upstream portion in the gas flow direction with respect to the filter in the gas flow passage and the filter in the gas flow passage. Is also separably configured as a downstream distribution section for configuring the downstream portion in the gas flow direction.
The downstream distribution section is formed of an inseparable tubular body in which the adsorbent storage space is formed.

According to this configuration, the downstream distribution unit is composed of an inseparable tubular body in which an adsorbent storage space is formed. Therefore, there are two filter units, an upstream distribution unit and a downstream distribution unit. It can be composed of members. As a result, the number of members in the filter unit can be reduced, and the configuration of the filter unit can be simplified.

The third characteristic configuration of the present invention is that the adsorbent accommodating space is provided with an input port for charging the adsorbent.
The inlet is located at the upstream end in the gas flow direction in the adsorbent storage space.

According to this configuration, the adsorbent can be accommodated in the adsorbent accommodating space by injecting the adsorbent from the inlet of the adsorbent accommodating space, and the adsorbent non-accommodating form can be switched to the adsorbent accommodating form. It can be done easily. Since the inlet is arranged at the upstream end of the gas flow direction in the adsorbent storage space, a space for providing another configuration at the downstream end of the gas flow direction in the adsorbent storage space is provided. While securing, the input port can be provided, and the input port and other configurations can be efficiently arranged. For example, in the adsorbent accommodating space, a mounting portion for mounting the filter portion on the detector main body can be provided at the downstream end portion in the gas flow direction.

The fourth characteristic configuration of the present invention is that the adsorbent accommodating space in which the adsorbent is accommodated is provided with a closing portion that closes the inlet in a state that allows the passage of gas.

According to this configuration, by providing the closed portion, the inlet of the adsorbent accommodating space can be closed, and the passage of gas from the inlet to the adsorbent accommodating space can be allowed. As a result, the inlet can be closed at the closed portion to appropriately maintain the state in which the adsorbent is contained in the adsorbent accommodating space, so that the adsorbing action on the flowing gas can be appropriately exerted. Interfering gas and the like can be appropriately removed.

In the fifth characteristic configuration of the present invention, the closed portion is installed under the filter.
Even when the filter unit is used in the form in which the adsorbent is not contained, the filter unit can be used with the closed portion installed.

According to this configuration, since the closed portion is arranged at the lower part of the filter, the filter can be replaced while using the closed portion, and the replacement work can be simplified. For example, when an operator removes the filter by picking the filter with a finger, a closed portion exists at the bottom of the filter, so that a part of the filter or the like is received and supported by the closed portion, and a part of the filter is supported. It becomes easier to lift up and pick up the filter.

And, not only when the filter part is used in the adsorbent containing form, but also when the filter part is used in the adsorbent non-containing form, the filter part can be used with the closed part installed. When the filter unit is used not only in the adsorbent-accommodating form but also in the adsorbent-non-accumulating form, the filter replacement work can be simplified.

The sixth characteristic configuration of the present invention is that the detector main body is provided with a wireless communication unit capable of short-range wireless communication with the outside or wireless communication having directivity.
The wireless communication in the entire length direction when the filter unit is attached to the detector main body depending on whether the filter unit is used as the adsorbent accommodating form or the adsorbent non-accommodating form. The point is that the positions of the parts are the same or substantially the same.

According to this configuration, since the detector main body is provided with a wireless communication unit for communicating various information with the outside, various information and the like related to the suction type gas detector can be acquired externally. As a result, various information acquired can be effectively utilized when performing various operations on the suction type gas detector, such as inspection of the suction type gas detector, and the work efficiency can be improved. Can be done. Then, in order to acquire various information about the suction type gas detector from the outside, the detector is used in both the case where the filter unit is used as the adsorbent accommodating form and the case where the filter unit is used as the adsorbent non-accommodating form. It is required that wireless communication between the wireless communication unit of the main body and an external communication device can be appropriately performed.

Therefore, in this configuration, by switching whether or not to accommodate the adsorbent in the adsorbent accommodating space arranged in the gas flow passage of the filter unit, it is possible to switch between the adsorbent accommodating form and the adsorbent non-accommodating form. The filter part is used. As a result, the length of the filter unit can be the same or substantially the same between the adsorbent-accommodating form and the adsorbent-non-accommodating form. In the case where the filter unit is attached to the detector main body, the position of the wireless communication unit in the entire length direction is the same or substantially the same position.

By adopting this configuration, if the external communication device is fixed at a desired position, the radio of the detector main body can be used depending on whether the filter unit is used as an adsorbent accommodating form or a non-adsorbent accommodating form. The relative positional relationship between the communication unit and the external communication device does not change, and wireless communication between the wireless communication unit of the detector main body and the external communication device can be appropriately performed. Therefore, in both the case where the filter unit is used as the adsorbent accommodating form and the case where the filter unit is used as the adsorbent non-accommodating form, various information and the like regarding the suction type gas detector can be acquired externally, and the suction type can be obtained. It is possible to improve the efficiency of various operations on the gas detector.

Perspective view showing the whole of the suction type gas detector Schematic diagram showing the inside of a suction type gas detector Cross-sectional view of the filter part, cap part, and attachment part An exploded perspective view of the filter part and the cap part The figure which shows the whole outline of the suction type gas detector and the inspection device. A cross-sectional view showing a state in which a suction type gas detector is attached to an inspection device.

An embodiment of an inspection system using a suction type gas detector according to the present invention will be described with reference to the drawings.
As shown in FIG. 5, this inspection system includes a suction type gas detector 1 and an inspection device 100 for inspecting the state of the suction type gas detector 1. The suction type gas detector 1 is configured to suck the gas, detect the detection target gas (for example, flammable gas such as hydrogen or methane or carbon monoxide gas) from the sucked gas, and issue an alarm or the like. Has been done. The inspection device 100 is configured to inspect whether or not the suction type gas detector 1 normally detects the detection target gas.

First, the suction type gas detector 1 will be described with reference to FIGS. 1 to 4.
As shown in FIG. 1, the suction type gas detector 1 includes a detector main body 2, a filter portion 3 that can be attached to and detached from the detector main body 2, and a cap portion that can be attached to and detached from the tip of the filter portion 3. 5 and a detachable attachment portion 6 are provided at the tip portion of the cap portion 5. The cap portion 5 and the attachment portion 6 are configured as accessories of the filter portion 3, and as shown in FIG. 3, a distribution space through which gas can flow is formed therein.

Returning to FIG. 1, the front portion of the detector main body 2 is provided with a display unit 21 having a display and a lamp unit on the upper side thereof to perform various displays, and an operation unit for performing various operations on the lower side thereof. 22 is provided. An introduction unit 23 for introducing gas is provided at the upper end portion of the detector main body 2, and the gas can be introduced into the inside of the detector main body 2 from the introduction unit 23. The lateral portion of the detector main body 2 is provided with an exhaust unit 24 that discharges the gas introduced into the inside of the detector main body 2 from the introduction unit 23 to the outside.

As shown in FIG. 2, the detector main body 2 has a suction unit 25 that sucks gas from the introduction unit 23 into the inside of the detector main body 2 through the attached filter unit 3, and the gas that is sucked by the suction unit 25. A detection unit 26 for detecting the gas to be detected from the above, a detector-side wireless communication unit 27 capable of wireless communication with the outside, and a control unit 28 are provided. The control unit 28 is configured to control the operating state of the suction unit 25, the detection unit 26, and the detector-side wireless communication unit 27, and to issue an alarm or the like based on the detection result of the detection unit 26.

The detector-side wireless communication unit 27 is configured to be capable of short-range wireless communication with the outside or wireless communication having directivity. As for short-range wireless communication or wireless communication having directivity, for example, infrared wireless communication, which is wireless communication capable of communicating at a short distance and having strong directivity, is preferable. Further, instead of infrared wireless communication, wireless communication that can communicate only at a short distance or wireless communication with a weak radio wave strength that makes communication impossible due to the presence of an obstacle can be applied.

As shown in FIG. 3, the filter unit 3 is formed in a cylindrical shape extending in the vertical direction, and the gas sucked by the suction unit 25 of the detector body 2 is circulated inside the filter unit 3 to flow the gas to the detector body 3. A gas flow passage 31 leading to the introduction portion 23 of 2 is provided.

In the gas flow passage 31, a filter 32 acting on the flowing gas and an adsorbent acting on the flowing gas in order from the upstream side in the gas flow direction (from the upper side to the lower side) An adsorbent storage space 34 capable of accommodating 33 is arranged. The filter 32 is configured to act on the circulating gas to cut water and prevent the water from entering the inside of the detector main body 2. When the adsorbent 33 is accommodated in the adsorbent accommodating space 34, the adsorbent 33 is configured to adsorb and remove the interfering gas contained in the flowing gas.

Here, FIG. 3A is a cross-sectional view showing a state in which the adsorbent 33 is housed in the adsorbent storage space 34, and FIG. 3B shows the adsorbent 33 housed in the adsorbent storage space 34. It is sectional drawing which shows the absence state.

As shown in FIGS. 3 and 4, the filter unit 3 includes an upstream distribution unit 35 for forming an upstream portion in the gas flow direction with respect to the filter 32 in the gas flow passage 31, and a filter in the gas flow passage 31. It is separably configured as a downstream distribution section 36 for forming a downstream portion in the gas flow direction with respect to 32. The upstream distribution unit 35 is composed of an inseparable tubular body, and the downstream distribution unit 36 is composed of an inseparable tubular body in which an adsorbent storage space 34 is formed. As described above, the filter unit 3 is composed of two members, an upstream distribution unit 35 and a downstream distribution unit 36, as members for forming the gas flow passage 31.

In the upstream distribution unit 35, as shown mainly in FIG. 3, the intermediate portion in the gas flow direction (intermediate portion in the vertical direction) is larger than the upstream portion (upper side portion) and the downstream side portion (lower side portion). It is formed in a cylindrical shape having a protruding portion 37 protruding outward in the radial direction. In the upstream distribution portion 35, a filter side screw portion 38 is provided on the outer wall portion of the upstream side portion (upper side portion) in the gas flow direction with respect to the protrusion 37. By screwing the filter-side screw portion 38 and the cap-side screw portion 51 of the cap portion 5, the cap portion 5 can be freely attached to the filter portion 3. In the upstream distribution portion 35, the downstream portion (lower portion) in the gas flow direction from the protrusion 37 is provided with a convex engaging portion 39 projecting radially outward on the outer wall portion thereof. By engaging the joint portion 39 and the engaged portion 40 of the downstream distribution portion 36, the upstream distribution portion 35 can be freely attached to the downstream distribution portion 36.

In the upstream distribution section 35, as a gas flow passage 31, a first flow path portion 31a having a diameter larger than the flow path diameter of the cap portion 5 and a first flow path portion 31a thereof, in order from the upstream side (upper end portion) in the gas flow direction, are provided. A second flow path portion 31b having a diameter larger than that of the flow path portion 31a is provided. The first flow path portion 31a is a flow path from the upstream end portion to the position corresponding to the protrusion 37 in the gas flow direction in the upstream side flow section 35, and the second flow path portion 31b is on the upstream side. In the distribution section 35, the flow path is from a position corresponding to the protrusion 37 in the gas flow direction to the downstream end.

In the downstream distribution unit 36, the upstream side portion (upper end side portion) in the gas flow direction is an opening space into which the upstream side distribution unit 35 can be inserted and removed, and the upstream side distribution unit 35 is engaged in the inner wall portion thereof. A concave engaged portion 40 that can be engaged with the joint portion 39 is provided. When the upstream distribution unit 35 is attached to the downstream distribution unit 36, the upstream distribution unit 35 is inserted into the opening space of the downstream distribution unit 36 and rotated to rotate the engaging portion 39 of the upstream distribution unit 35. By engaging the engaged portion 40 of the downstream distribution portion 36 with the engaged portion 40, the upstream distribution portion 35 can be fitted into the downstream distribution portion 36. When the upstream distribution unit 35 is attached to the downstream distribution unit 36, the protruding portion 37 of the upstream distribution unit 35 comes into contact with the upstream end (upper end) of the downstream distribution unit 36 in the gas flow direction. There is.

A mounting screw portion 41 for mounting the filter portion 3 on the detector main body 2 is provided on the downstream side portion (lower side portion) of the downstream distribution unit 36 in the gas distribution direction. By screwing the mounting screw portion 41 and the screw portion of the detector main body 2, the filter portion 3 (downstream distribution portion 36) can be freely mounted on the detector main body 2.

In the gas flow passage 31 inside the downstream distribution unit 36, an opening space into which the upstream distribution unit 35 can be inserted and removed, and a filter installation unit 42 for installing the filter 32, in order from the upstream side in the gas distribution direction, A closing portion installation portion 44 for installing a closing portion 43 for closing the adsorbent accommodating space 34 and an adsorbent accommodating space 34 are provided. The filter installation portion 42 and the closed portion installation portion 44 are provided in a vertically aligned state, and the filter 32 and the closed portion 43 are installed in a vertically aligned state. The closed portion installation portion 44 has a diameter larger than that of the adsorbent accommodating space 34, and the filter installation portion 42 has a diameter larger than that of the closed portion installation portion 44.

The adsorbent accommodating space 34 is formed in a columnar shape having the same flow path diameter and extending by a predetermined length in the gas flow direction. The adsorbent accommodating space 34 is secured with a sufficient accommodating amount as the adsorbent 33 so that the adsorbent 33 capable of sufficiently adsorbing and removing the interfering gas and the like can be accommodated. The adsorbent storage space 34 is provided with an input port 49 for charging the adsorbent 33, and the input port 49 is arranged at the upstream end (upper end) in the gas flow direction in the adsorbent storage space 34. There is. In the adsorbent storage space 34, the opening at the upstream end (upper end) in the gas flow direction is the inlet 49, and in the adsorbent storage space 34, the downstream end (lower end) in the gas flow direction. The opening has a diameter smaller than that of the input port 49.

As shown in FIGS. 3 and 4, the filter portion 3 has a diameter larger than that of the first ring 45 (for example, O-ring) and the second ring 46 (for example, the first ring 45) as members that can be mounted inside the filter portion 3. The O-ring), the filter 32, the closing portion 43, the first contact portion 47, and the second contact portion 48 are provided.

As shown in FIG. 3A, the closing portion 43 is configured to close the inlet 49 with respect to the adsorbent accommodating space 34 accommodating the adsorbent 33 in a state allowing the passage of gas. .. The closing portion 43 is formed in a cylindrical shape, and a rib portion 43a (see FIG. 4) that projects radially outward is provided on the outer wall portion thereof. The closed portion 43 is configured to be installable in the closed portion installation portion 44 by press-fitting the rib portion 43a into the downstream distribution portion 36 in a state where the rib portion 43a is in contact with the inner wall portion of the downstream distribution portion 36.

The first contact portion 47 and the second contact portion 48 are composed of, for example, a wire mesh or the like, and have an upstream end portion (upper end portion) and a downstream end portion (lower end portion) in the gas flow direction in the adsorbent storage space 34. It is arranged in the department). The first contact portion 47 and the second contact portion 48 are sandwiched between the adsorbent 33 housed in the adsorbent storage space 34 on the upstream side and the downstream side in the gas flow direction. The first contact portion 47 and the second contact portion 48 come into contact with the adsorbent 33 housed in the adsorbent storage space 34 to prevent the adsorbent 33 from moving out of the adsorbent storage space 34. ing.

As described above, since the filter unit 3 is provided with the adsorbent accommodating space 34, as shown in FIG. 3A, an adsorbent accommodating form in which the adsorbent 33 is accommodated in the adsorbent accommodating space 34 and the figure. As shown in 3 (b), the filter unit 3 can be used by switching to an adsorbent non-containing form in which the adsorbent 33 is not accommodated in the adsorbent accommodating space 34. Regarding switching between using the filter unit 3 in the adsorbent-containing form and the adsorbent-non-containing form, for example, the sucked gas contains an interfering gas that adversely affects the detection of the detection target gas. It can be switched according to various situations such as whether or not it is installed.

As shown in FIG. 3A, the filter unit 3 is used by switching to the adsorbent accommodating form, and the filter unit 3 is attached to the detector main body 2 to adsorb the gas to be introduced. The suction type gas detector 1 is used by switching to the adsorbent equipped form equipped with the agent 33. In this case, the adsorbent 33 is charged from the inlet 49 of the adsorbent storage space 34 with the second contact portion 48 installed at the downstream end of the adsorbent storage space 34 in the gas flow direction. , The adsorbent 33 is housed in the adsorbent storage space 34. With the first contact portion 47 installed at the upstream end of the adsorbent accommodating space 34 in the gas flow direction, the closed portion 43 is press-fitted into the downstream flow portion 36 to fit into the closed portion installation portion 44. A closing portion 43 is installed to close the input port 49. As a result, the state in which the adsorbent 33 is stored in the adsorbent storage space 34 is maintained. Then, the filter 32 is installed in the filter installation unit 42, and the upstream distribution unit 35 is attached to the downstream distribution unit 36 with the second ring 46 interposed between the downstream distribution unit 36 and the upstream distribution unit 35. Then, the filter unit 3 is used in the adsorbent accommodating form. Regarding the cap portion 5 and the attachment portion 6, the cap portion 5 is attached to the filter portion 3 with the first ring 45 interposed between the upstream distribution portion 35 and the cap portion 5, and the cap portion 5 is attached. The attachment portion 6 is attached in a state of being fitted externally.

As shown in FIG. 3B, by switching to the adsorbent non-containing form and using the filter unit 3 and attaching the filter unit 3 to the detector main body 2, the adsorbent 33 is not equipped. The suction type gas detector 1 is used by switching to the form. In this case, the adsorbent 33 is not charged into the adsorbent accommodating space 34, but first, the closed portion 43 is press-fitted into the downstream distribution portion 36, and the closed portion 43 is installed in the closed portion installation portion 44. is doing. Then, the filter 32 is installed in the filter installation unit 42, and the upstream distribution unit 35 is attached to the downstream distribution unit 36 with the second ring 46 interposed between the downstream distribution unit 36 and the upstream distribution unit 35. Therefore, the filter unit 3 is used in a non-adsorbent-containing form. Further, regarding the cap portion 5 and the attachment portion 6, the cap portion 5 is attached to the filter portion 3 with the first ring 45 interposed between the upstream distribution portion 35 and the cap portion 5, as in the adsorbent equipped form. The attachment portion 6 is attached with the cap portion 5 fitted therein.

As shown in FIG. 3A, the closing portion 43 is installed not only in the adsorbent accommodating form but also in the case where the filter portion 3 is used in the adsorbent non-accommodating form as shown in FIG. 3B. is doing. When replacing the filter 32 of the filter unit 3, the filter 32 installed in the filter installation unit 42 is exposed by removing the upstream distribution unit 35 from the downstream distribution unit 36. Then, the operator removes the filter 32 from the filter installation portion 42 by picking the filter 32 with a finger or the like. At this time, if the closing portion 43 is installed in the lower part of the filter 32, a part of the filter 32 or the like is received and supported by the closing portion 43, and a part of the filter 32 is easily lifted from the filter installing portion 42, so that the filter It becomes easier to pick 32. Therefore, when the filter unit 3 is used not only in the adsorbent-accommodating form but also in the adsorbent-non-accommodating form, it is possible to simplify the replacement work of the filter 32 and the like.

As described above, the filter unit 3 is used in the adsorbent accommodating form because the adsorbent accommodating form and the adsorbent non-accommodating form are switched depending on whether or not the adsorbent 33 is accommodated in the adsorbent accommodating space 34. When the suction type gas detector 1 is used in the adsorbent-equipped form and when the suction type gas detector 1 is used in the adsorbent-free form using the filter unit 3 With, the filter unit 3 can be made common. As a result, when the filter unit 3 is attached to the detector main body 2, when the suction type gas detector 1 is used in the adsorbent equipped form (when the filter unit 3 is used in the adsorbent accommodating form), When the suction type gas detector 1 is used in the adsorbent-free form (when the filter unit 3 is used in the adsorbent-free form), suction is performed in the direction in which the detector body 2 and the filter unit 3 are lined up. The length of the type gas detector 1 is the same or substantially the same.

From the above, the detector main body 2 is provided with the detector-side wireless communication unit 27. Regarding the position of the detector-side wireless communication unit 27, the suction type gas detector 1 is provided in the form of an adsorbent equipped. When using (when using the filter unit 3 in the adsorbent-containing form) and when using the suction type gas detector 1 in the adsorbent-free form (when using the filter unit 3 in the adsorbent-free form) The position of the detector-side wireless communication unit 27 in the direction in which the detector main body 2 and the filter unit 3 are lined up is the same or substantially the same position.

Next, the inspection device 100 will be described with reference to FIGS. 5 and 6.
As shown in FIG. 5, the inspection device 100 is provided with a plurality (for example, four) mounting portions 101 on which the suction type gas detector 1 can be mounted, and the suction type gas detector 1 to be inspected is mounted. By attaching it to the unit 101, it is configured to perform various inspections on the suction type gas detector 1 to be inspected. An adapter 102 that can be attached to and detached from the mounting portion 101 is provided, and the suction type gas detector 1 is configured to be mountable to the mounting portion 101 via the adapter 102.

A cover 103 that closes the opening of the mounting portion 101 is detachably provided on the front surface portion, and a cover 103 is attached to the mounting portion 101 on which the suction type gas detector 1 is not mounted. Incidentally, when the suction type gas detector 1 is attached to the mounting portion 101, the attachment portion 6 is removed from the cap portion 5 and the suction type gas detector 1 is attached to the mounting portion 101.

In addition to the mounting portion 101, devices such as a display 104, other operation switches, and a speaker are provided on the front surface of the inspection device 100, and a plurality (for example, two) of gas containers 105 are attached to and detached from the lower portion of the display 104. It is configured to be possible. The gas container 105 is capable of storing a raw material gas containing a specific component to which the detection unit 26 provided in the suction type gas detector 1 to be inspected is sensitive.

The mounting portion 101 is formed as a rectangular cross-sectional recess that opens to the front surface side. On the inner inner surface side of the mounting unit 101, a gas supply unit 106 for supplying a gas such as an inspection gas to the suction type gas detector 1 and an exhaust gas discharged from the suction type gas detector 1 are sucked. An exhaust suction unit 107 for discharging to the outside and a mounting unit side connector 108 that can be connected to the adapter side connector 109 of the adapter 102 are provided.

As shown in FIG. 6, the adapter 102 includes an adapter-side connector 109, an inspection device-side wireless communication unit 110, and an adapter-side control unit 111. The adapter-side control unit 111 is configured to control the operating state of the inspection device-side wireless communication unit 110. Then, when the adapter 102 is mounted on the mounting unit 101 and the adapter side connector 109 of the adapter 102 and the mounting unit side connector 108 of the mounting unit 101 are connected, the adapter side control unit 111 and the inspection device side of the inspection device 100 are connected. Various types of information can be freely communicated with the control unit (not shown).

The inspection device side wireless communication unit 110 is configured to be capable of short-range wireless communication with the outside or wireless communication having directivity. As for short-range wireless communication or wireless communication having directivity, for example, infrared wireless communication, which is wireless communication capable of communicating at a short distance and having strong directivity, is preferable. Further, instead of infrared wireless communication, wireless communication that can communicate only at a short distance or wireless communication with a weak radio wave strength that makes communication impossible due to the presence of an obstacle can be applied.

As shown in FIG. 6, the adapter 102 has an air supply guide path 112 that guides the inspection gas from the gas supply unit 106 to the cap portion 5 of the suction type gas detector 1, and an exhaust gas of the suction type gas detector 1. An exhaust guide path 113 for guiding the exhaust gas from the unit 24 to the exhaust suction unit 107 is provided. The exhaust guide path 113 is provided with a mounting filter 114 at a position facing the exhaust portion 24 of the suction type gas detector 1 when the suction type gas detector 1 is mounted on the mounting portion 101.

When inspecting the suction type gas detector 1 to be inspected, first, as shown in FIG. 6, the suction type gas detector 1 is mounted on the mounting portion 101. The suction unit 25 is operated by the control unit 28 of the suction type gas detector 1, the suction type gas detector 1 is set to the operating state, and the suction type gas detector 1 in the operating state is inserted into the mounting unit 101, and the suction type is used. The tip of the cap portion 5 of the gas detector 1 is connected to the air supply guide path 112, and the exhaust portion 24 of the suction type gas detector 1 is arranged at a position facing the upstream end portion of the exhaust guide path 113. The suction type gas detector 1 is mounted on the mounting portion 101.

Then, when the suction type gas detector 1 is mounted at an appropriate position with respect to the mounting portion 101, the detector side wireless communication unit 27 of the suction type gas detector 1 and the inspection device side wireless communication unit 110 of the adapter 102 Are opposed to each other, and wireless communication is possible between the wireless communication unit 27 on the detector side and the wireless communication unit 110 on the inspection device side. As a result, the inspection device side control unit (not shown) of the inspection device 100 communicates wirelessly between the detector side wireless communication unit 27 and the inspection device side wireless communication unit 110 via the adapter side control unit 111. By detecting that this is possible, it is determined that the suction type gas detector 1 is mounted at an appropriate position with respect to the mounting portion 101.

When the suction type gas detector 1 is mounted at an appropriate position with respect to the mounting portion 101, the inspection device side control unit (not shown) of the inspection device 100 performs various inspections on the suction type gas detector 1. The processing for performing the above is sequentially performed.

For example, the inspection device side control unit (not shown) of the inspection device 100 passes through the adapter side control unit 111 by wireless communication between the detector side wireless communication unit 27 and the inspection device side wireless communication unit 110. By acquiring the battery remaining amount information of the suction type gas detector 1 from the control unit 28 of the suction type gas detector 1, an inspection for confirming the battery remaining amount of the suction type gas detector 1 is performed. Then, the inspection device side control unit (not shown) of the inspection device 100 opens the gas supply unit 106 to the atmosphere, and the suction type gas detector 1 sucks the air from the gas supply unit 106. An inspection is performed to confirm whether or not the suction flow rate of the detector 1 is within a desired range. Further, the inspection device side control unit (not shown) of the inspection device 100 is a gas supply unit for inspection gas (raw material gas stored in the gas container 105 or a gas obtained by diluting the raw material gas in the atmosphere). An inspection is performed to confirm whether or not the alarm function of the suction type gas detector 1 is normal by supplying the gas to the 106 and assuming that the suction type gas detector 1 sucks the inspection gas from the gas supply unit 106. Even when inspecting the suction flow rate and alarm function of the suction type gas detector 1, the inspection device side control unit (not shown) of the inspection device 100 is the detector side wireless communication unit 27 and the inspection device side wireless communication unit. Various information is transmitted and received to and from the control unit 28 of the suction type gas detector 1 via the adapter side control unit 111 by wireless communication with the 110.

In this way, not only when performing various inspections on the suction type gas detector 1, but also when mounting the suction type gas detector 1 on the mounting unit 101, the detector side wireless communication unit 27 and the inspection device Wireless communication with the side wireless communication unit 110 is performed. In order to perform various inspections on the suction type gas detector 1, it is necessary to appropriately perform wireless communication between the detector side wireless communication unit 27 and the inspection device side wireless communication unit 110. There is.

Here, as described above, the suction type gas detector 1 is used by switching to the adsorbent equipped form equipped with the adsorbent 33 (see FIG. 3A), and the suction type gas detector 1 is not equipped with the adsorbent 33. It may be used by switching to the equipment form (see FIG. 3B). As a result, regardless of whether the suction type gas detector 1 is used in the adsorbent-equipped form or the suction type gas detector 1 is used in the adsorbent-less form, the detector side wireless communication unit 27 and the inspection device are used. It is required to properly perform wireless communication with the side wireless communication unit 110.

As described above, the suction type gas detector 1 detects in the direction in which the detector main body 2 and the filter unit 3 are aligned depending on whether the suction type gas detector 1 is used in the adsorbent-equipped form or in the adsorbent-free form. The position of the device-side wireless communication unit 27 is the same or substantially the same position. Further, since the inspection device side wireless communication unit 110 is fixed to the adapter 102 mounted on the mounting unit 101, the position of the inspection device side wireless communication unit 110 is fixed. As a result, both when the suction type gas detector 1 equipped with the adsorbent is mounted on the mounting portion 101 and when the suction type gas detector 1 not equipped with the adsorbent is mounted on the mounting portion 101, The relative positional relationship between the detector-side wireless communication unit 27 and the inspection device-side wireless communication unit 110 becomes a positional relationship facing each other, and the infrared rays between the detector-side wireless communication unit 27 and the inspection device-side wireless communication unit 110 It is within the wireless communication range.

In this way, the detector-side wireless communication unit 27 and the inspection device-side wireless communication unit 110 do not have an adsorbent even when the suction-type gas detector 1 in the form of being equipped with an adsorbent is mounted on the mounting unit 101. Even when the suction type gas detector 1 of the equipped form is mounted on the mounting portion 101, it is configured to enable wireless communication. Further, as the inspection device 100, the wireless communication unit 110 on the inspection device side also has the suction type gas detector 1 in the form of being equipped with the adsorbent mounted on the mounting unit 101, and the adsorbent not mounted on the mounting unit 101. The suction type gas detector 1 of the equipped form is also configured to be capable of short-range wireless communication or directional wireless communication (infrared wireless communication is possible). Therefore, even when the suction type gas detector 1 equipped with the adsorbent is mounted on the mounting portion 101, the suction type gas detector 1 not equipped with the adsorbent is mounted on the mounting portion 101. However, the suction type gas detector 1 can be mounted at an appropriate position on the mounting portion 101, and various inspections on the suction type gas detector 1 can be appropriately performed.

[Another Embodiment]
(1) In the above embodiment, the filter unit 3 is composed of two members, an upstream distribution unit 35 and a downstream distribution unit 36, and is composed of, for example, one or three or more members. The number of members of the filter unit 3 can be changed as appropriate.

(2) In the above embodiment, the filter portion 3 is formed in a cylindrical shape extending in the vertical direction, but the shape is not limited to this shape, and other shapes can be applied.

(3) In the above embodiment, the adsorbent storage space 34 is a columnar space, but the space is not limited to this shape, and other shapes can be applied. Further, the capacity of the adsorbent accommodating space 34 can be appropriately changed by changing the length of the adsorbent accommodating space 34 in the gas flow direction.

(4) In the above embodiment, the closing portion 43 that closes the inlet 49 of the adsorbent storage space 34 is formed in a cylindrical shape, but the shape is not limited to this shape, and other shapes can be applied. Further, it may be carried out without the first contact portion 47, the second contact portion 48, and the closing portion 43, or with another member.

(5) In the above embodiment, when the suction type gas detector 1 is mounted on the mounting portion 101 of the inspection device 100, the suction type gas detector 1 is mounted on the mounting portion 101 via the adapter 102. , The adapter 102 can be omitted, and the suction type gas detector 1 can be directly mounted on the mounting portion 101. In this case, the inspection device side wireless communication unit 110 is provided in the mounting unit 10.

1 Suction type gas detector 2 Detector body 3 Filter unit 25 Suction unit 26 Detection unit 27 Detector side wireless communication unit (wireless communication unit)
31 Gas flow passage 32 Filter 33 Adsorbent 34 Adsorbent accommodating space 35 Upstream distribution section 36 Downstream distribution section 43 Closed section 49 Input port

Claims (6)

It is equipped with a detector body and a filter unit that can be attached to and detached from the detector body.
The detector main body is a suction type gas detector provided with a suction unit that sucks gas through the attached filter unit and a detection unit that detects a detection target gas from the gas sucked by the suction unit. There,
The filter unit is provided with a gas flow passage that circulates the gas sucked by the suction unit and guides the gas to the detector main body.
In the gas flow passage, a filter acting on the flowing gas and an adsorbent accommodating space capable of accommodating the adsorbent acting on the flowing gas are arranged in order from the upstream side in the gas flow direction.
The filter unit can be used by switching between an adsorbent accommodating form in which the adsorbent is accommodated in the adsorbent accommodating space and a non-adsorbent accommodating form in which the adsorbent is not accommodated in the adsorbent accommodating space. Adsorption type gas detector. The filter unit includes an upstream distribution unit for forming an upstream portion in the gas flow passage in the gas flow direction with respect to the filter, and a downstream portion in the gas flow passage in the gas flow direction with respect to the filter. It is configured to be separable from the downstream distribution section for configuring
The suction type gas detector according to claim 1, wherein the downstream distribution unit is formed of an inseparable tubular body in which the adsorbent accommodating space is formed. The adsorbent storage space is provided with an input port for charging the adsorbent.
The suction type gas detector according to claim 1 or 2, wherein the inlet is arranged at an upstream end portion in the gas flow direction in the adsorbent accommodating space. The suction type gas detector according to claim 3, further comprising a closed portion that closes the inlet in a state that allows the passage of gas with respect to the adsorbent accommodating space in which the adsorbent is accommodated. The closing portion is installed at the bottom of the filter.
The suction type gas detector according to claim 4, wherein the filter unit can be used with the closed portion installed even when the filter unit is used in the adsorbent-free form. The detector main body is provided with a wireless communication unit capable of short-range wireless communication with the outside or wireless communication having directivity.
The wireless communication in the entire length direction when the filter unit is attached to the detector main body depending on whether the filter unit is used as the adsorbent accommodating form or the adsorbent non-accommodating form. The suction type gas detector according to any one of claims 1 to 5, wherein the positions of the portions are the same or substantially the same.

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