CN111077188A - Condensation detection device - Google Patents

Abstract

The invention relates to the technical field of water vapor detection, in particular to a condensation detection device. The condensation detection device comprises a condensation detection sensor, the condensation detection sensor comprises a substrate, a fence-shaped wiring drawn on the surface of the substrate is arranged on the substrate, the fence-shaped wiring comprises a first copper-exposed wiring and a second copper-exposed wiring, and the first copper-exposed wiring and the second copper-exposed wiring are arranged in a mutually staggered mode. By arranging the fence-shaped wires, when water vapor acts on the condensation detection circuit, the water vapor meets condensation junctions and is attached to the fence-shaped wires and the substrate, so that the equivalent impedance of the detection circuit is reduced. Whether condensation exists or not and the severity of the condensation can be known through the equivalent impedance. When the invention is used for detecting the condensation, other electronic components are not needed, the cost is extremely low, the implementation is convenient, and the sensitivity is high.

Description

Condensation detection device

Technical Field

The invention relates to the technical field of water vapor detection, in particular to a condensation detection device.

Background

The photoelectric smoke detector is a device for detecting fire by utilizing absorption and scattering effects of fire smoke on light. There are two different processes when smoke particles interact with light: the particles may re-radiate the received energy at the same wavelength, re-radiation may occur in all directions, but the radiation intensity differs in different directions, known as scattering; alternatively, the radiant energy may be converted to other forms of energy, such as thermal energy, chemical energy, or secondary radiation of different wavelengths, referred to as absorption. To detect the presence of smoke, a beam of light from the emitter may be directed onto the smoke: a method for determining smoke by measuring the attenuation of light by smoke if on its optical path, known as a subtractive detection method; if outside the optical path, the smoke is determined by measuring the light energy produced by the scattering of light by the smoke, a method known as scattering-type detection.

Photoelectric smoke detector range of application is very extensive, but if have steam to get into among the photoelectric smoke detector, on a bundle of light that the transmitter sent hits steam, steam scattered light, the receiver receives the light of scattering, causes photoelectric smoke detector's misstatement easily, perhaps reduces detectivity and increases response time. In the existing photoelectric smoke detector, condensation detection is a big difficulty.

Disclosure of Invention

The invention provides a condensation detection device aiming at the problems in the prior art.

The invention provides a condensation detection device which comprises a condensation detection sensor, wherein the condensation detection sensor comprises an annular substrate, two fence-shaped wires drawn on the surface of the substrate are arranged on the substrate, the fence-shaped wires comprise a first copper-exposed wire and a second copper-exposed wire, and the first copper-exposed wire and the second copper-exposed wire are arranged in a staggered mode. The substrate is annular, and two or more fence-shaped routing lines are arranged.

Optionally, one end of the first copper-exposed wire is connected with a power supply, and the other end of the first copper-exposed wire is connected with the MCU; the second copper-exposed trace is grounded.

Optionally, the condensation detection device is arranged on a first PCB of the photoelectric smoke detector, the photoelectric smoke detector includes a bottom shell and a face shell, the bottom shell is internally provided with the first PCB and a second PCB, and the second PCB is provided with a smoke detection device for detecting smoke; a plurality of air holes are formed in the side wall of the bottom shell.

Optionally, the photoelectric smoke detector further comprises a hanging frame, a buckle is arranged on the hanging frame, and the hanging frame is clamped with the bottom shell through the buckle; the hanging frame is also provided with a bolt for fixing the bottom shell and the buckle; still be provided with bee calling organ, loudspeaker and battery on the second PCB board, bee calling organ, loudspeaker and battery all are connected with second PCB board electricity.

Optionally, still be provided with the center between first PCB board and the second PCB board, second PCB board detachable links to each other with the bottom of drain pan, the center passes through the screw post and can dismantle with the drain pan and link to each other, first PCB board detachable links to each other with the center.

Optionally, still be provided with first row of needle and second row of needle on the first PCB board, still be provided with first row of needle file and second row of needle file on the second PCB board, first row of needle plug-in connection is on first row of needle file, and second row of needle plug-in connection is in second row of needle file.

Optionally, a middle hole through which the smoke detection device can pass is formed in the middle of the middle frame; still be provided with the through-hole that can supply first row needle and second row needle to pass on the center, first row needle passes behind the through-hole and pegs graft with first row needle file, the second row needle passes behind the through-hole, pegs graft with second row needle file.

Optionally, a light sensor is further disposed on the first PCB, and the light sensor is electrically connected to the first PCB; a light guide column is arranged above the light sensor and penetrates through the face shell.

Optionally, a key is arranged on the outer side of the face shell, the key is connected with the face shell in a clamping manner, and a return spring is arranged between the key and the face shell; the middle part of the key is provided with a key column which passes through the surface shell to be connected with the key contact piece; a key contact is arranged in the middle of the first PCB, and the key contact piece is in contact with the key contact; still be provided with human infrared sensor on the face-piece, human infrared sensor includes the button, the button is fresnel lens.

Optionally, a three-color LED lamp ring is arranged on the first PCB, a light guide plate is arranged above the three-color LED lamp ring, and a translucent light guide strip is arranged on the face shell at a position corresponding to the three-color LED lamp ring; the edge of the first PCB board is also provided with an annular omnidirectional antenna.

The invention has the following beneficial effects:

by arranging the fence-shaped wires, when water vapor acts on the condensation detection circuit, the water vapor meets condensation junctions and is attached to the fence-shaped wires and the substrate, so that the equivalent impedance of the detection circuit is reduced. Whether condensation exists or not and the severity of the condensation can be known through the equivalent impedance. When the invention is used for detecting the condensation, other electronic components are not needed, the cost is extremely low, the implementation is convenient, and the sensitivity is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a condensation detection sensor according to an embodiment of the present invention;

FIG. 2 is a schematic circuit diagram of a condensation detection apparatus according to an embodiment of the present invention;

FIG. 3 is a possible circuit diagram of an embodiment of the invention of an optoelectronic smoke detector;

FIG. 4 is an enlarged schematic view of the condensation detection circuit of FIG. 3;

FIG. 5 is an enlarged schematic view of the MCU of FIG. 3;

FIG. 6 is a schematic diagram of an exemplary embodiment of an optoelectronic smoke detector;

FIG. 7 is a schematic top view of an exemplary embodiment of an optoelectronic smoke detector;

FIG. 8 is a schematic sectional view A-A of FIG. 7;

fig. 9 is an exploded view of the photoelectric smoke detector according to the embodiment of the present invention.

The labels in the figure are: 1. pressing a key; 2. a light guide pillar; 3. a return spring; 4. a face shell; 5. a key contact member; 6. a light sensor; 7. an omnidirectional antenna; 8. a light guide plate; 9. a first PCB board; 10. a light emitting diode; 11. a photo-receiving diode; 12. a middle frame; 13. a buzzer; 14. a second PCB board; 15. a battery; 16. a horn; 17. a bottom case; 18. a lamp shade; 19. a smoke detection device; 20. a bolt; 21. a hanger; 22. air holes are formed; 23. a condensation detection sensor; 24. a first row of needles; 25. a second row of needles; 26. a key contact; 27. a first row of needle seats; 28. a second row of needle seats; 29. a mesopore; 30. buckling; 31. a light guide band; 32. a first copper-exposed wire; 33. a second copper exposed wire; 34. a substrate.

Detailed Description

Exemplary embodiments will be described in detail herein. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

As shown in fig. 1, the present embodiment provides a condensation detecting apparatus, which includes a condensation detecting sensor 23, wherein the condensation detecting sensor 23 includes a substrate 34, a fence-shaped trace drawn on the surface of the substrate 34 is disposed on the substrate 34, the fence-shaped trace includes a first copper-exposed trace 32 and a second copper-exposed trace 33, and the first copper-exposed trace 32 and the second copper-exposed trace 33 are staggered with each other. The substrate 34 is annular, and two or more fence-shaped routing lines are provided. In this embodiment, the fence-like trace includes two copper-exposed traces, namely a first copper-exposed trace 32 and a second copper-exposed trace 33, and meanwhile, in another application scenario, the fence-like trace may include a third copper-exposed trace, a fourth copper-exposed trace or more copper-exposed traces besides the first copper-exposed trace 32 and the second copper-exposed trace 33. Of course, the substrate 34 may have other possible shapes. The condensation detection device in the embodiment can be used in photoelectric smoke sensors, and also can be used in the fields of other sensors, electrical equipment and the like.

One end of the first copper-exposed wire 32 is connected with a power supply, and the other end is connected with the MCU; the second open copper trace 33 is grounded.

As shown in fig. 2, the fence-like trace is composed of two PCB copper-exposed traces, the second copper-exposed trace 33 is grounded, one end of the first copper-exposed trace 32 is connected to the power source by a resistor R, and the other end is connected to the MCU. There is a certain interval between the first copper-exposed wire 32 and the second copper-exposed wire 33, and because the interval is small, the first copper-exposed wire 32 has a certain equivalent impedance to the second copper-exposed wire, and forms a voltage dividing circuit together with the pull-up resistor. When the water vapor acts on the condensation detection circuit, the water vapor meets the condensation and is attached to the detection circuit, so that the equivalent impedance of the detection circuit is reduced. The voltage division values of the first copper-exposed wire 32 and the second copper-exposed wire 33 in the detection circuit are collected through an ADC of the MCU, so that the equivalent resistance of the first copper-exposed wire 32 and the second copper-exposed wire 33 in the detection circuit can be calculated. According to the voltage division formula, Rn ═ R1 × Vn/(Vcc-Vn) can be obtained. Whether condensation exists or not and the severity of the condensation can be known by observing the change of Rn.

As shown in fig. 3 to 5, the condensation detection circuit includes a resistor R5, a resistor R6, a capacitor C7, a capacitor C8, a MOS transistor Q1, and a condensation detection SENSOR. The capacitor C7 and the capacitor C8 are power supply decoupling capacitors and are used for reducing the influence of power supply ripples on ADC sampling, and the resistor R5 and the resistor R6 are voltage dividing resistors.

Between the first copper-exposed wire 32 and the second copper-exposed wire 33, there is a certain equivalent impedance RSE, when the RS-SW signal is low, Q1 is turned off, the resistor R6 and the condensation monitoring SENSOR form a voltage dividing circuit, the voltage VRS at the RS-ADC point is RSE/(RSE + R6) VCC, and RSE is vre R6/(VCC-VRS) after conversion. VRS can be obtained by ADC sampling of MCU, so according to the above formula, equivalent impedance RSE can be calculated. When water vapor is condensed to form small water drops to be attached to the condensation monitoring SENSOR SENSOR, the RSE can be greatly reduced, whether condensation is generated inside the equipment or not can be known through detecting the change of the RSE, and the serious condition of the condensation can be judged through the RSE value. When the condensation condition is serious, RSE becomes small, the resistance of R6(6.2M) is large, VRS (RSE/(RSE + R6) × VCC can be obtained, VRS becomes small, VRS can read 0 due to the MCUADC sampling precision limitation, and the change of RSE cannot be further judged. Q1 is turned on, and the resistor R5 and the resistor R6 are connected in parallel, and the parallel resistance is Rn ═ R5 ═ R6/(R5+ R6), so that the formula can be obtained: rn < R5 (100K). Therefore, the size of RSE can be further calculated by the RSE ═ vre/(RSE + Rn) × VCC, the VRS will return to the MCUADC sampling range, and the RSE ═ VRS × Rn/(VCC-VRS).

Optionally, the condensation detection device is disposed on a first PCB 9 of the photoelectric smoke detector, the photoelectric smoke detector includes a bottom shell 17 and a face shell 4, the first PCB 9 and a second PCB 14 are disposed in the bottom shell 17, and a smoke detection device 19 for detecting smoke is disposed on the second PCB 14; a plurality of air holes 22 are formed on the side wall of the bottom case 17.

Through set up condensation detection device that is arranged in surveying the environment steam concentration simultaneously in photoelectric type smoke detector and be arranged in surveying the environment smoke detector 19 that feels of smog, when condensation detection device detects steam concentration in the environment when higher, will feel to obtain the steam concentration that detection result and condensation detection device detected among the smoke detector 19 and correspond each other, get rid of steam concentration to the influence of feeling smoke detector 19 to obtain correct smoke concentration. The smoke detector has the advantages of simple structure and convenient installation, can eliminate the interference of water vapor on the smoke detector, prevents the occurrence of false alarm of the smoke detector caused by higher concentration of the water vapor, improves the sensitivity of the smoke detector and reduces the reaction time.

The bottom of the smoke detection device 19 is provided with a light emitting diode 10 and a photoelectric receiving diode 11, the light emitting diode 10 emits light, and the photoelectric receiving diode 11 receives light emitted by the light emitting diode 10 and scattered by smoke particles, so that the purpose of detecting the smoke concentration in the environment can be realized.

Optionally, the photoelectric smoke detector further includes a hanger 21, a buckle 30 is arranged on the hanger 21, and the hanger 21 is clamped with the bottom shell 17 through the buckle 30; the hanging rack 21 is also provided with a bolt 20 for fixing the bottom shell 17 and the buckle 30.

The hanging rack 21 is provided with screw through holes, and when the hanging rack 21 is installed, the hanging rack 21 needs to be fixed on a wall surface or a ceiling by screws. The hanger 21 has a rotation direction indication and a rotation start position indication, and when the hanger is installed, the bottom case 17 is held by hand, the buckle 30 is screwed in, and the bolt 20 is inserted. The hanger 21 is also provided with a fool-proof post to prevent the customer from forcibly installing in an incorrect direction. The screw hole of the hanging rack 21 is provided with a waterproof strip sticking groove, after the hanging rack 21 is fixed, a special PET sticking strip is stuck, and water seepage or condensation water on a wall or a ceiling can be prevented from flowing into and damaging equipment through the screw hole. The hanging frame 21 is provided with a diversion trench which can guide the accumulated water to discharge. The latch 20 is used to reinforce the connection between the hanger 21 and the main body, so that the main body cannot easily fall off the hanger 21 under a vibration condition. The hanger 21 facilitates the installation and removal of the photoelectric smoke detector, and has certain strength and waterproof capability.

Optionally, a buzzer 13, a loudspeaker 16 and a battery 15 are further disposed on the second PCB 14, and the buzzer 13, the loudspeaker 16 and the battery 15 are all electrically connected to the second PCB 14.

The bottom shell 17 is internally provided with a screw column which is used for fixing the loudspeaker 16 and the buzzer 13 and is connected with the face shell 4, the side surface of the bottom shell 17 is of a porous structure and is provided with a plurality of air holes 22, so that certain sound pressure can be ensured to be transmitted, and smoke can easily pass through the side surface of the bottom shell 17 and enter the bottom shell 17. The horn 16 and the buzzer 13 are close to the side surface of the bottom shell 17, so that certain sound pressure can be ensured to be transmitted; the bottom case 17 has a battery 15 compartment structure for accommodating the battery 15 to supply power to the first PCB 9 and the second PCB 14. Be provided with a fool-proof structure that comprises the fool-proof post of spring and battery 15 in the battery 15 storehouse, fool-proof structure when not packing into battery 15, the spring makes battery 15 prevent that the fool-proof post upsprings, forms the interference with stores pylon 21, makes the unable installation of drain pan 17, guarantees that drain pan 17 must pack into battery 15, just can install on stores pylon 21.

The buzzer 13 is used for giving an alarm sound when the photoelectric smoke detector detects a fire alarm. The horn 16 is used for giving out a warning sound when the equipment is subjected to self-inspection, giving out a warning sound and guiding evacuation sounds when a fire is in an alarm, and can also be connected with a command center through a wireless or wired communication function, and the command center informs personnel at the fire to carry out corresponding evacuation or evasion actions. The cooperation of loudspeaker 16 and buzzer 13 can make the photoelectric smoke detector function of this embodiment abundanter, increases mutual experience.

Optionally, a middle frame 12 is further arranged between the first PCB 9 and the second PCB 14, the second PCB 14 is detachably connected to the bottom of the bottom shell 17, the middle frame 12 is detachably connected to the bottom shell 17 through a screw column, and the first PCB 9 is detachably connected to the middle frame 12.

Optionally, the first PCB 9 is further provided with a first pin header 24 and a second pin header 25, the second PCB 14 is further provided with a first pin header 27 and a second pin header 28, the first pin header 24 is inserted into the first pin header 27, and the second pin header 25 is inserted into the second pin header 28.

Optionally, a middle hole 29 for the smoke detection device 19 to pass through is arranged in the middle of the middle frame 12; still be provided with the through-hole that can supply first row of needle 24 and second row of needle 25 to pass on the center 12, first row of needle 24 passes and pegs graft with first row of needle file 27 behind the through-hole, second row of needle 25 passes behind the through-hole, pegs graft with second row of needle file 28.

Optionally, a light sensor 6 is further disposed on the first PCB 9, and the light sensor 6 is electrically connected to the first PCB 9; a light guide column 2 is arranged above the light sensor 6, and the light guide column 2 penetrates through the face shell 4.

Optionally, a key 1 is arranged on the outer side of the face shell 4, the key 1 is connected with the face shell 4 in a clamping manner, and a return spring 3 is arranged between the key 1 and the face shell 4; the middle part of the key 1 is provided with a key column which passes through the surface shell 4 to be connected with a key contact part 5; a key contact 26 is arranged in the middle of the first PCB 9, and the key contact piece 5 is in contact with the key contact 26; still be provided with human infrared sensor on the face-piece 4, human infrared sensor includes button 1, button 1 is fresnel lens.

Optionally, a three-color LED lamp ring is arranged on the first PCB 9, a light guide plate 8 is arranged above the three-color LED lamp ring, and a translucent light guide belt 31 is arranged at a position on the face shell 4 corresponding to the three-color LED lamp ring.

The three-color LED lamp ring can change different colors to indicate users according to the equipment state. If a fire alarm occurs, the three-color LED lamp ring can emit continuously flashing red light. When equipment self-checking, the tricolor LED lamp ring can send the tricolor light of scintillation or continuous beating, or the light of other forms, suggestion self-checking. The 9 borders of first PCB board can also set up a double-colored low luminance l ed lamp for equipment status indication at night reduces the disturbance user. The light guide plate 8 can enable the three-color LED lamp to be uniform in color mixing, and a good effect is achieved. The light guide belt 31 is used for transmitting the lamp effect of the three-color LED lamp.

Optionally, the edge of the first PCB board 9 is further provided with a ring-shaped omnidirectional antenna 7. The annular omnidirectional antenna 7 ensures the good wireless communication signal of the device.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A condensation detection device, its characterized in that: the condensation detection device comprises a condensation detection sensor (23), the condensation detection sensor (23) comprises a substrate (34), a fence-shaped line drawn on the surface of the substrate (34) is arranged on the substrate (34), the fence-shaped line comprises a first copper-exposed line (32) and a second copper-exposed line (33), and the first copper-exposed line (32) and the second copper-exposed line (33) are arranged in a mutually staggered mode.

2. The condensation detection apparatus according to claim 1, characterized in that: one end of the first copper-exposed wiring (32) is connected with a power supply, and the other end of the first copper-exposed wiring is connected with the MCU; the second open copper trace (33) is grounded.

3. The condensation detection apparatus according to claim 1, characterized in that: the condensation detection device is arranged on a first PCB (9) of the photoelectric smoke detector, the photoelectric smoke detector comprises a bottom shell (17) and a face shell (4), the first PCB (9) and a second PCB (14) are arranged in the bottom shell (17), and a smoke detection device (19) for detecting smoke is arranged on the second PCB (14); the side wall of the bottom shell (17) is provided with a plurality of air holes (22).

4. The condensation detection apparatus according to claim 3, wherein: the photoelectric smoke detector also comprises a hanging rack (21), wherein a buckle (30) is arranged on the hanging rack (21), and the hanging rack (21) is clamped with the bottom shell (17) through the buckle (30); the hanging rack (21) is also provided with a bolt (20) for fixing the bottom shell (17) and the buckle (30); still be provided with bee calling organ (13), loudspeaker (16) and battery (15) on second PCB board (14), bee calling organ (13), loudspeaker (16) and battery (15) all are connected with second PCB board (14) electricity.

5. The condensation detection apparatus according to claim 3, wherein: still be provided with center (12) between first PCB board (9) and second PCB board (14), second PCB board (14) detachable links to each other with the bottom of drain pan (17), center (12) can be dismantled with drain pan (17) through the screw post and link to each other, first PCB board (9) detachable links to each other with center (12).

6. The condensation detection apparatus according to claim 5, wherein: still be provided with first row needle (24) and second row needle (25) on first PCB board (9), still be provided with first row needle file (27) and second row needle file (28) on second PCB board (14), first row needle (24) are pegged graft on first row needle file (27), and second row needle (25) are pegged graft in second row needle file (28).

7. The condensation detection apparatus according to claim 6, wherein: a middle hole (29) through which the smoke detection device (19) can pass is formed in the middle of the middle frame (12); still be provided with the through-hole that can supply first row needle (24) and second row needle (25) to pass on center (12), peg graft with first row needle file (27) after first row needle (24) pass the through-hole, peg graft with second row needle file (28) after second row needle (25) pass the through-hole.

8. The condensation detection apparatus according to claim 3, wherein: the first PCB (9) is also provided with a light sensor (6), and the light sensor (6) is electrically connected with the first PCB (9); light guide columns (2) are arranged above the light sensors (6), and the light guide columns (2) penetrate through the face shell (4).

9. The condensation detection apparatus according to claim 3, wherein: a key (1) is arranged on the outer side of the face shell (4), the key (1) is connected with the face shell (4) in a clamping manner, and a return spring (3) is arranged between the key (1) and the face shell (4); the middle part of the key (1) is provided with a key column, and the key column passes through the face shell (4) to be connected with the key contact piece (5); a key contact (26) is arranged in the middle of the first PCB (9), and the key contact piece (5) is in contact with the key contact (26); still be provided with human infrared sensor on face-piece (4), human infrared sensor includes button (1), button (1) are fresnel lens.

10. The condensation detection apparatus according to claim 3, wherein: be provided with three-colour LED lamp ring on first PCB board (9), the top of three-colour LED lamp ring is provided with light guide plate (8), the position that corresponds with three-colour LED lamp ring on face-piece (4) is provided with translucent leaded light area (31).

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