CN108226384B

CN108226384B - Detection apparatus and organic compound detector

Info

Publication number: CN108226384B
Application number: CN201710132208.2A
Authority: CN
Inventors: 王锦堂
Original assignee: Mirle Automation Corp
Current assignee: Mirle Automation Corp
Priority date: 2016-12-14
Filing date: 2017-03-07
Publication date: 2022-01-25
Anticipated expiration: 2037-03-07
Also published as: CN108226384A

Abstract

The invention discloses a detection device and an organic compound detector. The detection cassette can be arranged in one of a plurality of temporary storage frames in the warehouse or a charging frame. The detection device is arranged in the detection cartridge and comprises a power supply module and an organic compound detector. The power supply module can provide power for the detection equipment during operation. The organic compound detector comprises a case, a displacement unit arranged in the case, a detection unit arranged on the displacement unit, and an air blowing unit arranged on the case. The detection unit can detect the concentration of the volatile organic compound at the position of the detection cassette and can move to the outside or the inside of the case through the displacement unit. The blowing unit can blow air toward the detecting unit to remove the organic compound attached to the detecting unit.

Description

Detection apparatus and organic compound detector

Technical Field

The present invention relates to a detection apparatus, and more particularly, to a detection apparatus and an organic compound detector for detecting volatile organic compounds.

Background

The existing detection equipment can automatically carry out environment detection operation in a warehouse (such as a warehouse for transferring and temporarily storing materials between two workstations of a panel factory) so as to ensure that the temporarily stored materials in the warehouse can be in an environment which is not easy to pollute. However, the conventional detection apparatus is not equipped with any Organic compound detector, so that Volatile Organic Compounds (VOCs) cannot be detected. In the conventional organic compound detector, after the detection operation, the organic compound adhered thereon cannot be removed by itself, so that the subsequent detection data is prone to be inaccurate.

The present inventors have considered that the above-mentioned drawbacks can be improved, and have made intensive studies and use of scientific principles, and finally have proposed the present invention which is designed reasonably and effectively to improve the above-mentioned drawbacks.

Disclosure of Invention

Embodiments of the present invention provide a detection apparatus and an organic compound detector, which can improve the defects of the existing detection apparatus and the existing organic compound detector.

The embodiment of the invention discloses a detection device which is movably arranged in a warehouse, and the detection device comprises: the detection cassette can be arranged in one of a plurality of temporary storage frames in the warehouse or a charging frame in the warehouse; and a detecting device installed in the detecting cassette, and the detecting device includes: a detection module including an organic compound (VOC) detector; wherein the organic compound detector comprises: a chassis; a displacement unit arranged in the case; the detection unit is arranged on the displacement unit, can detect the concentration of the volatile organic compound at the position of the detection cassette, and can move to the outside of the case or move to the inside of the case through the displacement unit; and a blowing unit, which is installed on the case and can blow air towards the detecting unit to remove the volatile organic compounds attached to the detecting unit; and the power supply module can provide the power for the operation of the detection equipment.

Preferably, the blowing unit includes a fan and a filter, the fan is disposed on the housing, the filter is mounted on the fan and exposed outside, and the fan can draw air from outside of the detecting unit and blow the air to the detecting unit after the volatile organic compound of the air is filtered by the filter.

Preferably, the blowing unit can remove more than 90% of the volatile organic compounds attached to the detecting unit.

Preferably, the chassis has a box body and a door panel installed on the box body, the displacement unit includes an extension member and a driving member connected to the extension member, the detection unit is installed on the extension member, and the extension member can be driven by the driving member to push open the door panel, so that the detection unit is located outside the box body.

Preferably, the detection unit has a detection surface for adsorbing the volatile organic compound, and the detection surface faces the air blowing unit.

Preferably, the detecting unit can move to the outside of the case through the displacement unit to perform a detecting operation, or move to the inside of the case to perform an air blowing operation of the air blowing unit; the detection unit can perform at least one blowing operation between any two detection operations.

Preferably, the detecting module comprises at least one of a cleanliness detector, an air speed and air volume detector and a vibration detector; the cleanliness detector can be used for detecting the cleanliness of the position of the detection cassette, the wind speed and wind quantity detector can be used for detecting the wind speed and wind quantity of the position of the detection cassette, and the vibration detector can be used for detecting the vibration amplitude of the position of the detection cassette.

The embodiment of the invention also discloses an organic compound detector, which comprises: a chassis; a displacement unit arranged in the case; the detection unit is arranged on the displacement unit and can move to the outside of the case or the inside of the case through the displacement unit; and the blowing unit is arranged on the case and can blow towards the detection unit so as to blow off the volatile organic compounds attached to the detection unit.

In summary, the detecting apparatus and the organic compound detector disclosed in the embodiments of the present invention can detect the concentration of the volatile organic compound in the warehouse, and after the detecting operation of the organic compound detector, the volatile organic compound adhered to the detecting apparatus can be removed by the blowing unit, so that the next detecting operation of the detecting unit can be as accurate as possible.

For a better understanding of the nature and technical content of the present invention, reference should be made to the following detailed description of the invention and the accompanying drawings, which are provided for illustration purposes only and are not intended to limit the scope of the invention in any way.

Drawings

FIG. 1 is a schematic diagram of an environment detection system according to the present invention.

Fig. 2 is a schematic diagram of the detection apparatus in fig. 1 in a detection mode.

Fig. 3 is a schematic diagram of the detection apparatus in fig. 1 in a charging mode.

Fig. 4 is a schematic perspective view of a part of a warehouse of the environment detection system of the present invention.

Fig. 5 is a perspective view of the charging module in fig. 4.

Fig. 6 is a perspective view of the charging module in fig. 4 from another perspective.

Fig. 7 is a schematic perspective view of a detection device of the environment detection system of the present invention.

Fig. 8 is a schematic plan view of the detecting apparatus in the detecting mode according to the present invention.

Fig. 9 is a schematic plan view of a detecting device in a relay position according to the present invention.

Fig. 10 is an enlarged schematic view of the X-site in fig. 9.

Fig. 11 is a schematic plan view of the detecting device in the charging position according to the present invention.

Fig. 12 is an enlarged view of the xii region in fig. 11.

FIG. 13 is a schematic perspective view of an organic compound detector according to the present invention.

FIG. 14 is a schematic diagram of the detection operation of the organic compound detector of FIG. 13.

FIG. 15 is a schematic view of the organic compound detector of FIG. 13 being blown.

Detailed Description

Referring to fig. 1 to fig. 15, it should be noted that, in the embodiment of the present invention, relevant numbers and shapes mentioned in the corresponding drawings are only used for describing the embodiments of the present invention in detail, so as to facilitate understanding of the content of the present invention, and are not used for limiting the protection scope of the present invention.

Referring to fig. 1 to 3, the present embodiment discloses an environment detection system 1000, and particularly, but not limited to, the environment detection system 1000 applied in a panel factory. The environment detecting system 1000 includes a warehouse 200, a transporting apparatus 300, a detecting apparatus 100, and a controlling apparatus 400. It should be noted that the detection apparatus 100 can also be independently applied to other systems or other storage facilities, and is not limited to the environment detection system 1000 of the embodiment.

The warehouse 200 is used between two workstations of a panel factory for transferring and storing materials (e.g., glass) in the present embodiment, but the invention is not limited thereto. The warehouse 200 includes a plurality of temporary storage frames 201, a charging frame 202 having the same structure as any one of the temporary storage frames 201, and a charging module 203 installed in the charging frame 202. The temporary storage frame 201 is used to accommodate a transport cassette (not shown) carrying materials, and the charging frame 202 is used to accommodate the detection device 100 to be charged, rather than the transport cassette.

Furthermore, the warehouse 200 has at least one entrance 204, the charging frame 202 is adjacent to the entrance 204, and a clearance area 205 without any temporary storage frame 201 is formed between the charging frame 202 and the entrance 204, and the charging module 203 is installed at the position of the charging frame 202 adjacent to the entrance 204.

The conveying device 300 is, for example, an automated Guided Vehicle (Auto Guided Vehicle) and a corresponding track, and at least a portion of the conveying device 300 is disposed in the storage 200, the conveying device 300 can transfer a conveying cassette carrying a material to any one of the buffer frames 201, and the conveying device 300 can transfer the detecting device 100 to any one of the buffer frames 201 or the charging frame 202. That is, in the embodiment, the conveying apparatus 300 is used to move the detecting apparatus 100.

The detection apparatus 100 is located in the warehouse 200 and comprises a detection cassette 1 and a detection device 2 installed in the detection cassette 1. The structure of the detection cassette 1 is substantially the same as that of the conveying cassette, but the detection cassette 1 is not used for carrying materials. Therefore, the detection cassette 1 can be transported by the transport apparatus 300 into any of the buffer frames 201 (fig. 2) or the charging frame 202 (fig. 3).

Furthermore, the detection device 2 can enter each buffer frame 201 by detecting the cassette 1, so as to detect the environment of any buffer frame 201. The detecting device 2 includes a power supply module 21, a detecting module 22, and a wireless communication module 23. The power supply module 21 can provide power for the operation of the detection device 100, the detection module 22 can detect the environment of the cassette 1, and the wireless communication module 23 can send an electric quantity signal according to the electric quantity of the power supply module 21 and an environment signal according to the environment detection result of the detection module 22.

The control device 400 is wirelessly and electrically connected to the detection device 100 and the conveying device 300, and the control device 400 can receive the power signal and the environment signal sent by the wireless communication module 23. The management and control apparatus 400 can send a control signal to the wireless communication module 23 according to the power signal, so that the detection apparatus 100 is in one of a detection mode and a charging mode. When the detecting device 100 is in the charging mode, the detecting cartridge 1 enters the charging frame 202 through the conveying device 300, so that the charging module 203 charges the power supply module 21. When the detection apparatus 100 is in the detection mode, the detection cassette 1 randomly enters one of the plurality of buffer frames 201 through the transportation apparatus 300 for the detection module 22 to perform environmental detection.

More specifically, when the power supply module 21 is in a low power state during the operation of the detecting device 100, the wireless communication module 23 transmits a power signal to be charged to the control device 400, and the control device 400 issues a charging signal to the detecting device 100 to instruct the detecting device 100 to enter the charging frame 202 for charging, so as to be in the charging mode. Furthermore, after the power supply module 21 in the detection device 100 has completed charging, the wireless communication module 23 transmits a charging power signal to the control device 400, and then the control device 400 issues a detection signal to the detection device 100 to instruct the detection device 100 to randomly enter the temporary storage frame 201 and perform environment detection through the detection module 22, so as to be in the detection mode.

Therefore, when the power of the detection device 100 is insufficient, the management and control device 400 can command the detection device 100 to charge in real time, so that people do not need to wait for charging the detection device 100, and unnecessary pollution to the environment in the warehouse 200 caused by the people entering and exiting can be avoided. Furthermore, the charging frame 202 of the present embodiment is located near the entrance 204 of the warehouse 200, so as to facilitate the maintenance of the charging module 203 or the detection device 100.

In addition, the charging frame 202 has the same structure as any temporary storage frame 201, so that the temporary storage frame in the conventional warehouse can be selected as the charging frame 202, thereby facilitating the application of the environment detecting system 1000 of the embodiment to the conventional warehouse without changing the layout of the conventional warehouse. Furthermore, the structure of the detection cassette 1 is substantially the same as that of the transport cassette, so the detection device 2 can be used with the transport apparatus 300, and thus the environment detection system 1000 of the embodiment can be integrated into and utilize the related equipment in the existing warehouse.

Furthermore, the charging manner of the detection device 100 in the charging frame 202 (e.g., the cooperation manner of the power supply module 21 and the charging module 203) may be contact charging or non-contact charging. In this embodiment, the detection apparatus 100 is described as charging the charging frame 202 in a non-contact manner, that is, when the detection cartridge 1 enters the charging frame 202, the charging module 203 is disposed at an interval with respect to the power supply module 21, and the charging module 203 can charge the power supply module 21 in a non-contact manner. The following illustrates a possible configuration of the above-described non-contact charging, but the present invention is not limited thereto.

Referring to fig. 4 to 6, the charging module 203 includes a plurality of fixing bases 2031 fixed to the charging frame 202, a plurality of distance adjusters 2032 respectively disposed on the plurality of fixing bases 2031, and a plurality of power transmitters 2033 mounted on the plurality of distance adjusters 2032. It should be noted that the number of the fixing base 2031, the distance adjusting member 2032 and the power transmitter 2033 can be adjusted according to the requirement of the designer, for example: the number of the fixing bases 2031, the number of the distance adjusters 2032, and the number of the power transmitters 2033 may be individually set. The fixing base 2031 is fixed to an inner edge of the charging frame 202, and the distance adjusting member 2032 can be used to change the position of the power transmitter 2033.

As shown in fig. 6, in the embodiment, the fixing seat 2031 is formed with two elongated notches 2031a, and the space inside the fixing seat 2031 can be communicated with the outside through the two notches 2031 a. The distance adjusting element 2032 is substantially L-shaped, and the distance adjusting element 2032 includes a pivot portion 2032a pivotally connected to the fixing base 2031, a driving portion 2032b extending from the pivot portion 2032a to one side (to the right of the pivot portion 2032a in fig. 6), and an installation portion 2032c extending from the pivot portion 2032a to the other side (to the upper side of the pivot portion 2032a in fig. 6) and provided with the power transmitter 2033. The pivoting portion 2032a is located in the fixing seat 2031, and the driving portion 2032b and the mounting portion 2032c pass through the two notches 2031a respectively and are located outside the fixing seat 2031. The distance adjusting member 2032 can rotate around the pivoting portion 2032a, but the rotation angle of the distance adjusting member 2032 is limited by the length of the two notches 2031a (e.g., the rotation angle is about 5 degrees).

As shown in fig. 7 and 8, the power supply module 21 includes a power supply 211, a converter 212 electrically connected to the power supply 211, and a rechargeable battery 213 electrically connected to the converter 212. The energy received by the electricity collector 211 is stored in the rechargeable battery 213 through the converter 212. The rechargeable battery 213 can provide power for the detection device 100 to operate (e.g., power consumed by the detection module 22 and the wireless communication module 23).

In more detail, during the process that the detecting device 100 is going to enter the charging frame 202 for charging, the detecting cartridge 1 can move between a relay position (as shown in fig. 9 and 10) and a charging position (as shown in fig. 11 and 12) in the charging frame 202. That is, the detection cartridge 1 is first horizontally entered into the charging frame 202 to be located at the relay position, and then the detection cartridge 1 is downwardly placed on the charging frame 202 to be located at the charging position.

As shown in fig. 9 and 10, when the detection cartridge 1 is located at the relay position, the detection cartridge 1 does not contact the distance adjuster 2032 (i.e., the detection cartridge 1 is located above the driving portion 2032b of the distance adjuster 2032), and the power transmitter 2033 does not charge the power taker 211 and is spaced apart by a first distance D1. As shown in fig. 11 and 12, when the detecting cartridge 1 is located at the charging position, the detecting cartridge 1 is pressed against the distance adjusting member 2032 (i.e. the detecting cartridge 1 is pressed against the driving portion 2032b of the distance adjusting member 2032 to rotate the distance adjusting member 2032 and move the mounting portion 2032c toward the electricity taker 211), so that the power transmitter 2033 is moved toward the electricity taker 211 at a second distance D2 smaller than the first distance D1, and the power transmitter 2033 can charge the electricity taker 211. The second gap D2 is approximately 10 cm in the embodiment, but not limited thereto.

Therefore, when the detection apparatus 100 performs the charging operation, the power extractor 211 of the power supply module 21 does not contact the power transmitter 2033 of the charging module 203, so as to avoid the generation of particles due to high-temperature metal contact, thereby maintaining the cleanliness of the storage 200. Furthermore, the charging module 203 employs the distance adjusting member 2032, so that a large gap is left between the detection cartridge 1 and the power transmitter 2033 when entering the charging frame 202, thereby avoiding collision.

The detection module 22 of the detection apparatus 100 can be used to detect various environmental data (such as cleanliness, wind speed and wind volume, vibration, or concentration of organic chemical) in the storage 200, and the following examples are provided to illustrate possible functions and configurations of the detection module 22 of the present embodiment, but not limited thereto.

As shown in fig. 7 and 8, the detection module 22 includes a cleanliness detector 221, an anemometry detector 222, a vibration detector 223, a temperature detector 224, and an organic compound detector 225. Wherein the cleanliness detector 221 is capable of performing cleanliness detection at the position of the detection cartridge 1, the wind speed and wind quantity detector 222 is capable of performing wind speed and wind quantity detection at the position of the detection cartridge 1, the vibration detector 223 is capable of performing vibration amplitude detection at the position of the detection cartridge 1, the temperature detector 224 is capable of performing temperature detection of the electricity collector 211 during charging, and the Organic compound detector 225 is capable of performing Volatile Organic Compounds (VOC) concentration detection at the position of the detection cartridge 1. In addition, the detecting module 22 may be used to detect the concentration of the volatile organic compound only in other embodiments not shown, or may include an organic compound detector 225 and at least one of the cleanliness detector 221, the wind speed and wind volume detector 222, the vibration detector 223 and the temperature detector 224.

Referring to fig. 13 to 15, the organic compound detector 225 of the present embodiment includes a case 2251, a displacement unit 2252 disposed in the case 2251, a detection unit 2253 installed on the displacement unit 2252, and an air blowing unit 2254 installed on the case 2251.

The detecting unit 2253 can be moved to the outside of the case 2251 by the moving unit 2252 for a detecting operation (as shown in fig. 14), or moved to the inside of the case 2251 for a blowing operation (as shown in fig. 15). The blowing operation is performed by blowing the gas blowing unit 2254 toward the detecting unit 2253 to remove the voc adhered to the detecting unit 2253, and the blowing unit 2254 can remove more than 90% of the voc adhered to the detecting unit 2253, but is not limited thereto. Furthermore, the detecting unit 2253 is preferably capable of performing at least one blowing operation between any two detecting operations, so that each detecting operation of the detecting unit 2253 can be as accurate as possible.

In more detail, the case has a case 2251a and a door 2251b installed at a side of the case 2251a, and the door 2251b is preferably provided with a reset component (e.g., a spring) to automatically reset the door 2251b when the force is removed after the door 2251b is opened by the force. The displacement unit 2252 comprises an extension 2252a and a driving member 2252b (e.g., a controller) connected to the extension 2252a, wherein the detection unit 2253 is mounted on the extension 2252a, and the extension 2252a can be actuated by the driving member 2252b to push open the door 2251b, so that the detection unit 2253 is located outside the housing 2251 a. The extension 2252a of the present embodiment moves the detecting unit 2253 out of the case 2251a in a linear manner, but not limited thereto. For example: in an embodiment not shown, the extension 2252a may also move the detection unit 2253 out of the case 2251a by rotating. The detecting unit 2253 has a detecting surface 2253a for adsorbing the voc, and the detecting surface 2253a preferably faces the blowing unit 2254.

The blowing Unit 2254 is, for example, a Fan Filter Unit (FFU), that is, the blowing Unit 2254 includes a Fan 2254a and a Filter 2254b, the Fan 2254a is disposed on the chassis 2251, and the Filter 2254b is mounted on the Fan 2254a and exposed outside. The blower 2254a can draw air from outside the organic compound detector 225 and blow the air to the detecting surface 2253a of the detecting unit 2253 after the volatile organic compounds are filtered by the filter 2254b, so that the volatile organic compounds attached to the detecting surface 2253a can be blown off by at least 90%.

In addition, although the detection unit 2253 is located inside the case 2251 for blowing operation in this embodiment, the invention is not limited thereto. For example: in other embodiments, not shown, the detecting unit 2253 may also be located outside the case 2251 for blowing.

Therefore, the detecting apparatus 100 of the present embodiment is equipped with the organic compound detector 225, so as to detect the concentration of the voc in the storage 200. Furthermore, after the detection operation, the organic compound detector 225 can remove the volatile organic compounds attached thereon by the air blowing unit 2254, so that the next detection operation of the detecting unit 2253 can be performed as accurately as possible.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, which is defined by the appended claims.

Claims

1. The utility model provides a detect equipment for movably setting up in a warehouse, and the warehouse contains a module of charging, its characterized in that, detect equipment includes:

the detecting cassette can be arranged on one of a plurality of temporary storage frames in the warehouse or a charging frame in the warehouse, and the charging module is arranged on the charging frame; and

a detection device mounted in the detection cartridge, and the detection device comprising:

a detection module including an organic compound detector; wherein the organic compound detector comprises:

a chassis;

a displacement unit arranged in the case;

the detection unit is arranged on the displacement unit, can detect the concentration of the volatile organic compound at the position of the detection cassette, and can move to the outside of the case or move to the inside of the case through the displacement unit; and

the blowing unit is arranged on the case and can blow air towards the detection unit so as to remove the volatile organic compounds attached to the detection unit; and

the power supply module can provide electric power for the operation of the detection equipment;

the chassis is provided with a box body and a door plate arranged on the box body, the displacement unit comprises an extension piece and a driving piece connected with the extension piece, the detection unit is arranged on the extension piece, and the extension piece can be driven by the driving piece to push open the door plate so as to enable the detection unit to be positioned outside the box body;

the detection unit is provided with a detection surface for adsorbing volatile organic compounds, and the detection surface faces the air blowing unit;

when the detecting cassette enters the charging frame, the charging module is arranged at an interval relative to the power supply module and can charge the power supply module in a non-contact manner; the charging module comprises a fixed seat fixed on the charging frame, a distance adjusting piece arranged on the fixed seat and a power supply transmitter arranged on the distance adjusting piece; the power supply module comprises a power taking device, a converter electrically connected with the power taking device and a rechargeable battery electrically connected with the converter; wherein the detection cassette is movable between a relay position and a charging position within the charging frame; when the detection cassette is located at the relay position, the detection cassette does not contact the distance adjusting piece, and the power transmitter does not charge the power taker and has a first interval; when the detection cassette is located at the charging position, the detection cassette is pressed against the distance adjusting piece, so that the power transmitter moves towards the electricity taking device and is spaced by a second distance smaller than the first distance, and the power transmitter can charge the electricity taking device.

2. The detecting apparatus as claimed in claim 1, wherein the blowing unit includes a blower and a filter, the blower is disposed on the housing, the filter is mounted on the blower and exposed to the outside, and the blower is capable of drawing air from the outside of the detecting unit and blowing the air to the detecting unit after the air filters the volatile organic compounds through the filter.

3. The detection apparatus as claimed in claim 2, wherein the blowing unit can remove more than 90% of the VOCs adhered to the detection unit.

4. The detecting device as claimed in any one of claims 1 to 3, wherein the detecting unit can be moved to the outside of the case by the displacement unit for a detecting operation or to the inside of the case for an air blowing operation of the air blowing unit; the detection unit can perform at least one blowing operation between any two detection operations.

5. The detection apparatus according to any one of claims 1 to 3, wherein the detection module comprises at least one of a cleanliness detector, an anemometry detector and a vibration detector; the cleanliness detector can be used for detecting the cleanliness of the position of the detection cassette, the wind speed and wind quantity detector can be used for detecting the wind speed and wind quantity of the position of the detection cassette, and the vibration detector can be used for detecting the vibration amplitude of the position of the detection cassette.