CN113156057A

CN113156057A - Smoke detector calibration device

Info

Publication number: CN113156057A
Application number: CN202110243589.8A
Authority: CN
Inventors: 林叶元; 刘益来; 谢富和; 石红宝
Original assignee: Beijing Yuanhengliye Co ltd
Current assignee: Beijing Yuanhengliye Co ltd
Priority date: 2021-03-05
Filing date: 2021-03-05
Publication date: 2021-07-23

Abstract

The invention relates to a smoke detector calibration device, which comprises a smoke box, a bearing plate and a calibration table, wherein the bearing plate and the calibration table are arranged on a support frame; a calibration bin with a downward butt joint port is arranged above the lifting plate, and a smoke filling and discharging system for filling or discharging smoke into or out of the calibration bin is arranged between the calibration bin and the smoke box; a movable tooling plate is arranged above the bearing plate, and the bearing plate is provided with a push-pull mechanism which pushes the tooling plate to the lifting plate or pulls the tooling plate back to the bearing plate; the tooling plate is provided with a plurality of clamping seats with contacts, one end of the lifting plate is provided with a probe seat, the tooling plate is provided with a probe concentrator matched with the probe seat, and the probe concentrator is electrically connected with the contacts; the probe seat, the lifting mechanism, the smoke charging and discharging system and the push-pull mechanism are electrically connected with a controller, and the controller is electrically connected with a computer. The invention can calibrate a plurality of smoke detectors simultaneously, and has the advantages of simple operation, high calibration efficiency and accurate calibration.

Description

Smoke detector calibration device

Technical Field

The invention relates to the technical field of smoke detector, in particular to a smoke detector calibration device.

Background

The fire disaster is usually embodied in three forms of smoke, heat and light, the initial stage of the fire disaster is low in temperature, most substances are in a smoldering stage, so that a large amount of smoke is generated, the smoke is one of important characteristics of the early stage fire disaster, and the smoke detector is developed and researched by utilizing the characteristics.

The smoke detector is a device for converting the change of smoke concentration of a detection part into an electric signal to realize the purpose of alarming, so that the smoke detector is particularly important to be calibrated. The existing smoke detector calibration has the problems of low calibration efficiency, complex steps, uneven smoke concentration, low detection precision and the like.

Disclosure of Invention

The invention aims to provide a smoke detector calibration device which can simultaneously calibrate a plurality of smoke detectors and has the advantages of simple operation, high calibration efficiency and accurate calibration.

The purpose of the invention is realized by the following technical scheme:

a calibration device for a smoke detector comprises a smoke box, wherein a base is arranged at the lower end of the smoke box, a support frame is arranged on the base, a bearing plate and a calibration table are sequentially arranged on the support frame along the length direction, the calibration table comprises a mounting plate which is adjacent to the bearing plate and fixed on the support frame, the upper surfaces of the mounting plate and the bearing plate are located on the same plane, at least two vertical guide pillars are arranged at the edge of the mounting plate, a lifting plate which is connected to the guide pillars in a sliding mode is arranged above the mounting plate, and a lifting mechanism capable of driving the lifting plate to move up and down is arranged at the lower end of the mounting plate; the upper end of the guide post is fixedly connected with a hollow calibration bin, the lower end of the calibration bin is provided with a butt joint communicated with a cavity of the calibration bin, the lifting plate is matched with the butt joint, and a smoke charging and discharging system for charging or discharging smoke into or out of the calibration bin is arranged between the calibration bin and the smoke box; a tooling plate capable of moving horizontally is arranged above the bearing plate, and a push-pull mechanism for horizontally pushing the tooling plate above the lifting plate or pulling the tooling plate back above the bearing plate is arranged on the bearing plate; the probe card comprises a tool plate, a lifting plate, a probe concentrator, a controller and a computer, wherein the upper surface of the tool plate is provided with a plurality of card seats for placing a detector for detecting smoke to be marked, the card seats are provided with contacts electrically connected with the detector for detecting smoke to be marked, one end of the lifting plate, which is far away from a bearing plate, is provided with the probe seat, one side of the tool plate is provided with the probe concentrator matched with the probe seat, the probe concentrator is electrically connected with the plurality of corresponding contacts, the probe seat, the lifting mechanism, a smoke charging and discharging system and the push-pull mechanism are respectively and electrically connected with the controller, and the controller is electrically connected with the computer.

The smoke detector calibration device is characterized in that the lifting mechanism comprises a lifting cylinder fixedly connected below the mounting plate, a through hole is formed in the mounting plate, and a cylinder rod of the lifting cylinder vertically penetrates through the through hole and is fixedly connected with the lifting plate.

In the calibration device for the smoke detector, the smoke filling and discharging system comprises the smoke inlet pipe and the smoke discharging pipe which are communicated between the smoke box and the calibration bin, the smoke inlet pipe and the smoke discharging pipe on one side of the calibration bin are respectively connected with the smoke inlet stop valve and the smoke discharging stop valve, and the smoke discharging pipe is connected with the air suction pump.

The smoke detector calibration device is characterized in that a pressure release valve and a pressure gauge which are communicated with the cavity of the calibration bin are arranged on the outer side of the calibration bin, and a flow meter is arranged on a smoke exhaust pipe between the air suction pump and the smoke exhaust stop valve.

The smoke detector calibration device comprises a push-pull mechanism and a bearing plate, wherein the push-pull mechanism comprises a linear cylinder fixed at the center below the bearing plate, a guide rod of the linear cylinder is arranged along the length direction of the bearing plate, a sliding groove is formed in the center of the bearing plate along the length direction of the bearing plate, a floating block is fixed on a piston of the linear cylinder and embedded in the sliding groove, a first electromagnetic chuck is arranged at one end, opposite to the mounting plate, of the floating block, a first iron bar is arranged at one end, opposite to the first electromagnetic chuck, of the tool plate, and the first electromagnetic chuck is matched with the first iron bar.

Foretell smoke detector calibration device, wherein, the one end that frock board and first ironbar carried on the back mutually is equipped with the second ironbar, the one end that the loading board was kept away from to the lifter plate is equipped with the second electromagnet with the adaptation of second ironbar.

The smoke detector calibration device is characterized in that a plurality of flying saucer universal wheels are respectively arranged on the upper surfaces of the loading plate and the lifting plate, a pair of parallel limiting wheel sets are respectively arranged on the two sides of the loading plate and the lifting plate along the length direction of the supporting frame, each limiting wheel set comprises a plurality of vertically arranged guide wheels, and the distance between the two limiting wheel sets is matched with the width of the tooling plate.

In the calibration device for the smoke detector, an annular groove is formed in the outer edge of the surface of the lifting plate, and a sealing ring is embedded in the annular groove.

The smoke detector calibration device is characterized in that the smoke box is provided with a flat square ring body with a hollow inner cavity, the smoke box is connected with a smoke generator for generating smoke, and the support frame penetrates through the middle of the smoke box and is fixed on the base.

In conclusion, the beneficial technical effects of the invention are as follows:

the tooling plate can be used for simultaneously placing a plurality of smoke detectors to be calibrated, the tooling plate is pushed to the upper part of the lifting plate through the linear air cylinder, the lifting plate and the tooling plate are synchronously lifted or lowered through the lifting mechanism, when the lifting plate is lifted, the tooling plate is pushed to the calibration bin, the lifting plate is hermetically connected with the butt joint of the calibration bin, smoke is filled into the calibration bin through the smoke filling and discharging system, and when the smoke in the cavity of the calibration bin reaches the required concentration, the computer control controller writes related data into the smoke detectors to be calibrated. The system can simultaneously write in calibration data to a plurality of smoke detectors, and has the characteristics of simple and convenient operation, high calibration efficiency and accurate calibration.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the present invention with the tooling plate removed;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a schematic view of the present invention with the smoke box removed;

FIG. 5 is a schematic structural diagram of the calibration bin of the present invention;

fig. 6 is a schematic structural view of the tooling bar of the present invention.

Figure 1, smoke box; 11. a base; 2. a support frame; 21. a carrier plate; 22. a calibration table; 221. mounting a plate; 2211. a guide post; 222. a lifting plate; 2221. a probe base; 2222. a second electromagnetic chuck; 2223. an annular groove; 223. a lifting cylinder; 224. calibrating a bin; 2241. a butt joint port; 2242. a pressure relief valve; 2243. a pressure gauge; 2244. a flow meter; 3. a smoke charging and discharging system; 31. a smoke inlet pipe; 32. a smoke exhaust pipe; 33. a smoke inlet stop valve; 34. a smoke evacuation stop valve; 35. an air suction pump; 4. assembling a plate; 41. a card holder; 42. a probe hub; 43. a first iron bar; 44. a second iron bar; 5. a push-pull mechanism; 51. a linear cylinder; 52. a chute; 53. a slider; 531. a first electromagnetic chuck; 6. flying saucer universal wheels; 7. a limiting wheel set; 71. a guide wheel; 8. a smoke detector to be marked.

Detailed Description

The invention is described in further detail below with reference to figures 1-6.

As shown in fig. 1-6, a smoke detector calibration device comprises a smoke box 1, wherein the smoke box 1 is a flat square ring body with a hollow inner cavity, the smoke box 1 is connected with a smoke generator (not shown in the figure) for generating smoke, a base 11 is arranged at the lower end of the smoke box 1, a support frame 2 is fixedly connected to the base 11, the support frame 2 penetrates through the middle of the smoke box 1, and the length direction of the support frame 2 is parallel to the axis of a through hole in the center of the smoke box 1.

Support frame 2 is equipped with loading board 21 and mark platform 22 along length direction in proper order, mark platform 22 and be close to smoke box 1 one side, mark platform 22 and include that adjacent with loading board 21 just fixes mounting panel 221 on support frame 2, the upper surface of mounting panel 221 and loading board 21 is located the coplanar, the mounting panel 221 edge is equipped with four vertical guide pillars 2211, mounting panel 221 top is equipped with the lifter plate 222 of sliding connection on guide pillar 2211, the mounting panel 221 lower extreme is equipped with the elevating system that can drive lifter plate 222 and reciprocate. The upper end of the guide post 2211 is fixedly connected with a hollow calibration bin 224, the lower end of the calibration bin 224 is provided with a butt joint port 2241 communicated with a cavity of the calibration bin, the lifting plate 222 is matched with the butt joint port 2241, and a smoke charging and discharging system 3 for charging or discharging smoke into or out of the calibration bin 224 is arranged between the calibration bin 224 and the smoke box 1. The loading plate 21 is provided with a tooling plate 4 capable of moving horizontally, and the loading plate 21 is provided with a push-pull mechanism 5 for pushing the tooling plate 4 horizontally to the upper part of the lifting plate 222 or pulling back to the upper part of the loading plate 21. The upper surface of tool plate 4 evenly is equipped with a plurality of cassette 41 that are used for placing and treat mark smoke and feel detector 8, be equipped with on cassette 41 with treat mark smoke and feel the contact (not shown in the figure) that detector 8 electricity is connected, the one end that loading board 21 was kept away from to lifter plate 222 is equipped with probe seat 2221, tool plate 4 one side is equipped with the probe concentrator 42 with probe seat 2221 adaptation, probe concentrator 42 is connected with a plurality of corresponding contacts electricity, the probe concentrator 42 of this embodiment sets up threely. The probe holder 2221, the lifting mechanism, the smoke charging and discharging system 3 and the push-pull mechanism 5 are respectively electrically connected with a controller (not shown in the figure), and the controller is electrically connected with a computer. The controller is used for coordinating the work of the lifting mechanism, the smoke charging and discharging system 3 and the push-pull mechanism 5, and relevant data are written into the smoke detector 8 to be marked through the computer control controller.

The lifting mechanism of this embodiment includes a lifting cylinder 223 fixedly connected below the mounting plate 221, a through hole (not shown in the figure) is formed on the mounting plate 221, and a cylinder rod of the lifting cylinder 223 vertically penetrates through the through hole and is fixedly connected with the lifting plate 222.

The smoke filling and discharging system 3 comprises a smoke inlet pipe 31 and a smoke discharging pipe 32 which are communicated between the smoke box 1 and the calibration bin 224, the smoke inlet pipe 31 and the smoke discharging pipe 32 on one side of the calibration bin 224 are respectively connected with a smoke inlet stop valve 33 and a smoke discharging stop valve 34, and the smoke discharging pipe 32 is connected with an air suction pump 35. A pressure release valve 2242 and a pressure gauge 2243 which are communicated with the cavity of the calibration bin 224 are arranged on the outer side of the calibration bin 224, a flow meter 2244 is arranged on the smoke exhaust pipe 32 between the air suction pump 35 and the smoke exhaust stop valve 34, and the flow of used smoke is controlled through the flow meter; pressure gauge 2243 may display the pressure within calibration bin 224. In this embodiment, three sets of the smoke inlet pipe 31, the smoke outlet pipe 32, the smoke inlet shutoff valve 33, the smoke outlet shutoff valve 34, the suction pump 35, and the flow meter 2244 are provided.

The push-pull mechanism 5 comprises a linear cylinder 51 fixed at the center of the lower part of the bearing plate 21, a guide rod of the linear cylinder 51 is arranged along the length direction of the support frame 2, a sliding groove 52 is arranged at the center of the bearing plate 21 along the length direction of the support frame 2, a floating block 53 is fixed on a piston of the linear cylinder 51, the floating block 53 is embedded in the sliding groove 52, and the floating block 53 can move along the sliding groove 52. The first electromagnetic chuck 531 is arranged at one end, opposite to the mounting plate 221, of the floating block 53, the first iron bar 43 is arranged at one end, opposite to the first electromagnetic chuck 531, of the tooling plate 4, the first iron bar 43 is matched with the first electromagnetic chuck 531, and when the first electromagnetic chuck 531 is electrified, the first electromagnetic chuck 531 can be attracted with the first iron bar 43 on the tooling plate 4, so that the tooling plate 4 and the floating block 53 of the linear cylinder 51 can move synchronously. And position sensors are also mounted at two ends of one side of the linear cylinder 51 in the length direction and used for detecting whether the stroke of the linear cylinder 51 is in place or not.

In order to avoid the shaking of the tooling plate 4 on the lifting plate 222 when the tooling plate 4 moves above the lifting plate 222, the second iron bar 44 is arranged at the end of the tooling plate 4 opposite to the first iron bar 43, and the second electromagnetic chuck 2222 adapted to the second iron bar 44 is arranged at the end of the lifting plate 222 away from the bearing plate 21. When the linear cylinder 51 horizontally pushes the tooling plate 4 to the upper side of the lifting plate 222, the second electromagnetic chuck 2222 is powered on, and the second electromagnetic chuck 2222 is attracted with the second iron bar 44, so that the tooling plate 4 and the lifting plate 222 are firmly attracted together; at this time, the probe holder 2221 on the lifting board 222 is inserted into the probe hub 42 on the tooling board 4, so that the smoke detector 8 to be marked is electrically connected to the computer through the contact, the probe hub 42, the probe holder 2221 and the controller, and the transmission of related signals is realized.

In order to reduce the gliding resistance of frock board 4 on loading board 21 and lifter plate 222, guarantee the uniformity of frock board 4 slip direction, be equipped with a plurality of evenly distributed's flying saucer universal wheel 6 respectively at the upper surface of loading board 21 and lifter plate 222, the both sides of loading board 21 and lifter plate 222 are equipped with the spacing wheelset 7 of a pair of parallel respectively along 2 length direction of support frame, every spacing wheelset 7 includes the guide pulley 71 of a plurality of vertical settings, distance between two spacing wheelsets 7 and the width adaptation of frock board 4, guarantee that frock board 4 can only be in two spacing wheelset 7 horizontal slip.

In order to improve the sealing performance between the calibration bin 224 and the lifting plate 222, an annular groove 2223 is formed in the outer edge of the upper surface of the lifting plate 222, and a sealing ring is embedded in the annular groove 2223. When the lifting plate 222 is lifted upwards, the sealing ring is sealed against the interface 2241 at the lower end of the calibration bin 224.

The working process of the invention is as follows: firstly, a plurality of smoke detectors 8 to be marked are placed on a clamping seat 41 of a tooling plate 4, a first electromagnetic suction cup 531 is electrified to be attracted with a first iron bar 43 on the tooling plate 4, the tooling plate 4 is horizontally pushed to the upper part of a lifting plate 222 through a linear air cylinder 51, a second electromagnetic suction cup 2222 is electrified to be attracted with a second iron bar 44 on the tooling plate 4, and meanwhile, a probe seat 2221 on the lifting plate 222 is spliced with a probe hub 42 on the tooling plate 4; the lifting cylinder 223 is started to synchronously push the lifting plate 222 and the tooling plate 4 upwards, the tooling plate 4 is pushed into the calibration bin 224, and the lifting plate 222 is in sealing connection with the butt joint port 2241 of the calibration bin 224; starting a smoke generator to generate smoke, enabling the smoke to fill the smoke box 1, closing the smoke inlet stop valve 33, opening the smoke exhaust stop valve 34, starting the air suction pump 35, opening the smoke inlet stop valve 33 when the specified negative pressure is reached in the calibration bin 224, closing the smoke exhaust stop valve 34, enabling the smoke in the smoke box 1 to enter the calibration bin 224 under the action of the negative pressure, writing a voltage value of the smoke sensing detector 8 to be calibrated into the computer control controller when the smoke concentration in the calibration bin 224 reaches the calibration requirement, wherein the voltage value is an alarm value when the smoke of harmful gas reaches a certain concentration when the smoke sensing detector is used. The device draws the interior of the calibration bin 224 to a specified negative pressure, so that the concentration of smoke entering the calibration bin 224 can be kept consistent, and the replacement with air is reduced.

After the calibration work is finished, closing the smoke inlet stop valve 33, opening the smoke exhaust stop valve 34, starting the air pump 35, pumping air into the calibration bin 224 to a specified negative pressure, closing the smoke exhaust stop valve 34, closing the air pump 35, opening the pressure release valve 2242 to enable the pressure in the calibration bin 224 to be normal pressure, then controlling the lifting cylinder 223 to move downwards, and synchronously descending the lifting plate 222 and the tooling plate 4 to the position above the mounting plate 221 through the lifting cylinder 223; the second electromagnetic chuck 2222 is powered off, so that the second electromagnetic chuck 2222 is separated from the second iron bar 44, meanwhile, the probe holder 2221 on the lifting plate 222 is separated from the probe concentrator 42 on the tooling plate 4, the linear air cylinder 51 is started, the floating block of the linear air cylinder 51 moves to the tooling plate 4, the first electromagnetic chuck 531 is powered on and is attracted with the first iron bar 43, the floating block 53 of the linear air cylinder 51 moves towards the direction far away from the lifting plate 222, the floating block 53 horizontally pulls the tooling plate 4 back to the upper part of the bearing plate 21, the calibrated smoke detector is taken down, and the calibration of the smoke detector is completed. The above process is repeated.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. A calibration device for a smoke detector is characterized by comprising a smoke box, wherein the lower end of the smoke box is provided with a base, the base is provided with a support frame, the support frame is sequentially provided with a bearing plate and a calibration platform along the length direction, the calibration platform comprises a mounting plate which is adjacent to the bearing plate and fixed on the support frame, the upper surfaces of the mounting plate and the bearing plate are positioned on the same plane, the edge of the mounting plate is provided with at least two vertical guide pillars, a lifting plate which is connected to the guide pillars in a sliding manner is arranged above the mounting plate, and the lower end of the mounting plate is provided with a lifting mechanism which can drive the lifting plate to move up and down; the upper end of the guide post is fixedly connected with a hollow calibration bin, the lower end of the calibration bin is provided with a butt joint communicated with a cavity of the calibration bin, the lifting plate is matched with the butt joint, and a smoke charging and discharging system for charging or discharging smoke into or out of the calibration bin is arranged between the calibration bin and the smoke box; a tooling plate capable of moving horizontally is arranged above the bearing plate, and a push-pull mechanism for horizontally pushing the tooling plate above the lifting plate or pulling the tooling plate back above the bearing plate is arranged on the bearing plate; the probe card comprises a tool plate, a lifting plate, a probe concentrator, a controller and a computer, wherein the upper surface of the tool plate is provided with a plurality of card seats for placing a detector for detecting smoke to be marked, the card seats are provided with contacts electrically connected with the detector for detecting smoke to be marked, one end of the lifting plate, which is far away from a bearing plate, is provided with the probe seat, one side of the tool plate is provided with the probe concentrator matched with the probe seat, the probe concentrator is electrically connected with the plurality of corresponding contacts, the probe seat, the lifting mechanism, a smoke charging and discharging system and the push-pull mechanism are respectively and electrically connected with the controller, and the controller is electrically connected with the computer.

2. The smoke detector calibration device as defined in claim 1, wherein the lifting mechanism comprises a lifting cylinder fixedly connected below the mounting plate, the mounting plate is provided with a through hole, and a rod of the lifting cylinder vertically penetrates through the through hole and is fixedly connected with the lifting plate.

3. The smoke detector calibration device as defined in claim 1, wherein the smoke charging and discharging system comprises a smoke inlet pipe and a smoke discharging pipe which are communicated between the smoke box and the calibration bin, the smoke inlet pipe and the smoke discharging pipe on one side of the calibration bin are respectively connected with a smoke inlet stop valve and a smoke discharging stop valve, and the smoke discharging pipe is connected with a suction pump.

4. The smoke detector calibration device according to claim 3, wherein a pressure release valve and a pressure gauge are arranged outside the calibration bin and communicated with the cavity of the calibration bin, and a flow meter is arranged on a smoke exhaust pipe between the suction pump and the smoke exhaust stop valve.

5. The smoke detector calibration device according to claim 1, wherein the push-pull mechanism comprises a linear cylinder fixed at the center below the bearing plate, a guide rod of the linear cylinder is arranged along the length direction of the bearing plate, a sliding groove is arranged at the center of the bearing plate along the length direction of the bearing plate, a floating block is fixed on a piston of the linear cylinder, the floating block is embedded in the sliding groove, a first electromagnetic chuck is arranged at one end of the floating block opposite to the mounting plate, a first iron bar is arranged at one end of the tooling plate opposite to the first electromagnetic chuck, and the first electromagnetic chuck is matched with the first iron bar.

6. The smoke detector calibration device as defined in claim 5, wherein a second iron bar is disposed at an end of the tooling plate opposite to the first iron bar, and a second electromagnetic chuck adapted to the second iron bar is disposed at an end of the lifting plate away from the bearing plate.

7. The smoke detector calibration device as defined in claim 1, wherein a plurality of flying saucer universal wheels are respectively disposed on the upper surfaces of the loading plate and the lifting plate, a pair of parallel limiting wheel sets are respectively disposed on both sides of the loading plate and the lifting plate along the length direction of the supporting frame, each limiting wheel set comprises a plurality of guide wheels vertically disposed, and the distance between the two limiting wheel sets is adapted to the width of the tooling plate.

8. The smoke detector calibration device as defined in claim 1, wherein an annular groove is formed on the outer edge of the upper surface of the lifting plate, and a sealing ring is embedded in the annular groove.

9. The smoke detector calibration device as defined in claim 1, wherein the smoke box has a flat square ring body with a hollow inner cavity, the smoke box is connected with a smoke generator for generating smoke, and the support frame is inserted through the middle of the smoke box and fixed on the base.