CN205038204U - Air quality monitoring equipment - Google Patents

Abstract

The utility model provides an air quality monitoring equipment, place in and including external shell (1) the at least an air quality of external shell (1) cavity detects the sensor, wherein, recess (2) of matcing with the outside profile phase of wall flush mounting plate of switch are seted up to the backplate of external shell (1) the mid -mounting of recess (2) has the power supply to participate in (13). The advantage does: (1 ) air quality monitoring equipment's shell is inseparable with the wall laminating, has reduced occuping of space volume, (2 ) air quality monitoring equipment directly adopts the power supply of wall supply socket, has the power supply and reliably spends high advantage.

Description

Air quality monitoring equipment

Technical field

The utility model belongs to air quality monitoring technical field, is specifically related to a kind of air quality monitoring equipment.

Background technology

Along with China's expanding economy, the raising of living standards of the people, people are to environmental problem and health problem pay attention to day by day, and indoor air quality situation receives increasing concern, and therefore, the application of indoor air quality monitoring equipment is more and more universal.

Current indoor air quality monitoring equipment is mainly bench device, that is: indoor air quality monitoring equipment is put on the table by user usually.The subject matter that this kind of mode exists is: indoor air quality monitoring equipment can occupy more useful space, for user brings inconvenience.In addition, existing indoor air quality monitoring equipment mainly adopts the power supply mode of battery or USB charging, because indoor air quality monitoring equipment needs long-time continuous to use usually, therefore, above-mentioned power supply mode has deficiencies such as needing user's frequent charge, and then reduces the experience of user.

Utility model content

For the defect that prior art exists, the utility model provides a kind of air quality monitoring equipment, can effectively solve the problem.

The technical solution adopted in the utility model is as follows:

The utility model provides a kind of air quality monitoring equipment, comprises external shell (1) and is built at least one Detection of Air Quality sensor of described external shell (1) cavity;

Wherein, the backplate of described external shell (1) offers the groove (2) matched with wall switch panel exterior contour, is provided with for electrical prongs (13) at the middle part of described groove (2).

Preferably, the degree of depth of described groove (2) is identical with the height that described wall switch panel exposes metope.

Preferably, the degree of depth of described groove (2) is 5 millimeters, and the length of described groove (2) is 110 millimeters.

Preferably, the described electrical prongs (13) that supplies comprises the 1st cover triangle contact pin and the 2nd cover triangle contact pin; Described 2nd cover triangle contact pin is identical with the structure of described 1st cover triangle contact pin, includes three contact pins be triangularly arranged; Described 2nd cover triangle contact pin is arranged at immediately below described 1st cover triangle contact pin, and, to be arranged in described 1st cover triangle contact pin between two contact pins of bottom at the contact pin of drift angle in described 2nd cover triangle contact pin, to make thus describedly can be inserted into five hole wall switch panels and three hole wall switch panels for electrical prongs.

Preferably, the front plate of described external shell (1) adopts positive terrace with edge to design, and comprises main panel (3) and lays respectively at that described main panel (3) is upper and lower, the upper side wall in four orientation, left and right (4), lower wall (5), left side wall (6) and right side wall (7);

Wherein, at described upper side wall (4), display screen (14) is installed;

Offer at least one sensor air admission hole (8) at described main panel (3), at least one working station indicator (9) is set in the below of described sensor air admission hole (8);

Described right side wall (7) is provided with the switching push button (10) for switching device duty.

Preferably, offer the 1st net type louvre (11) in the bottom of described external shell (1), the 1st net type louvre (11) is simultaneously as the tunnel inlet of device interior sensor;

Offer the 2nd net type louvre (12) on the top of described external shell (1), the 2nd net type louvre (12) is simultaneously as the ducting outlet of device interior sensor.

Preferably, described Detection of Air Quality sensor comprises: electrochemical test sensors, laser beam detecting sensor, infrared detection sensor and/or temperature-sensitive detecting sensor.

Preferably, described electrochemical test sensors is arranged in the middle part of the cavity of described external shell (1);

Described laser beam detecting sensor, infrared detection sensor and/or temperature-sensitive detecting sensor are arranged at the cavity bottom of described external shell (1).

Preferably, described electrochemical test sensors comprises: formaldehyde sensor, ammonia gas sensor and VOC sensor;

Described laser beam detecting sensor comprises particle detecting sensor;

Described infrared detection sensor comprises CO ₂concentration detection sensor;

Described temperature-sensitive detecting sensor comprises Temperature Humidity Sensor.

The air quality monitoring equipment that the utility model provides has the following advantages:

(1) shell of air quality monitoring equipment and metope are fitted closely, decrease taking of spatial volume;

(2) air quality monitoring equipment directly adopts metope supply socket to power, and has the advantage that power supply fiduciary level is high.

Accompanying drawing explanation

The air quality monitoring equipment that Fig. 1 provides for the utility model is obliquely from the front to the stereographic map that projection obtains;

The stereographic map that the air quality monitoring equipment that Fig. 2 provides for the utility model obtains from oblique rear direction projection;

The front view of the air quality monitoring equipment that Fig. 3 provides for the utility model;

The left view of the air quality monitoring equipment that Fig. 4 provides for the utility model;

The right view of the air quality monitoring equipment that Fig. 5 provides for the utility model;

The vertical view of the air quality monitoring equipment that Fig. 6 provides for the utility model;

The upward view of the air quality monitoring equipment that Fig. 7 provides for the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail:

Composition graphs 1-Fig. 7, the utility model provides a kind of air quality monitoring equipment, comprises external shell 1 and is built at least one Detection of Air Quality sensor of external shell 1 cavity;

With reference to figure 2, be the stereographic map that air quality monitoring equipment obtains from oblique rear direction projection, as can be seen from Figure 2, the backplate of external shell 1 offers the groove 2 matched with wall switch panel exterior contour, is provided with for electrical prongs at the middle part of groove 2.

The Basic Design thinking of said structure is: due under normal circumstances, each metope in user room has a switch panel at least, and, switch panel near zone (circumference 10cm) is idle substantially, be applicable to very much installing needs long-time running, the air quality monitoring equipment of low-power consumption.Therefore, air quality monitoring equipment provided by the utility model, utilizes user's idle space just, realizes installing easily and efficiently.Concrete, the backplate of external shell offers the groove matched with wall switch panel exterior contour, and be provided with for electrical prongs at the middle part of groove 2, therefore, when confession electrical prongs is inserted into the jack of switch panel, effective combination of air quality monitoring equipment external shell and metope can be ensured, reduce the space shared by air quality monitoring equipment.

Therefore, based on above-mentioned thinking, the width due to usual wall switch panel is 110 millimeters, the degree of depth is 5 millimeters, so, can be the degree of depth by groove design be 5 millimeters, length is the structure of 110 millimeters, thus ensure coordinating of groove and wall switch panel.

As can be seen here, the air quality monitoring equipment provided by the utility model, realizes following technique effect:

(1) take full advantage of user's idle space, achieve the installation easily and efficiently of air quality monitoring equipment, there is the little advantage that takes up room;

(2) air quality monitoring equipment is directly powered by metope supply socket, improves power supply reliability.

On the basis of said structure, the utility model also can carry out some improvement following:

Improve 1:

With reference to figure 2, comprise the 1st cover triangle contact pin and the 2nd cover triangle contact pin for electrical prongs; 2nd cover triangle contact pin is identical with the structure of the 1st cover triangle contact pin, includes three contact pins be triangularly arranged; 2nd cover triangle contact pin is arranged at immediately below the 1st cover triangle contact pin, and, to be arranged in the 1st cover triangle contact pin between two contact pins of bottom at the contact pin of drift angle in 2nd cover triangle contact pin, to make thus can be inserted into five hole wall switch panels and three hole wall switch panels for electrical prongs.

Because market common switch panel comprises 5 holes and two kinds, 3 holes.So, in the utility model, by constructional simple design, make air quality monitoring equipment support three-hole power socket panel and five hole power socket panels simultaneously, there is advantage applied widely.

In addition, the fix tightly soundness of air quality monitoring equipment depends on the quality of wall switch panel.If need to strengthen constant intensity, before the mounting, can consider double faced adhesive tape on wall switch panel.

Improve 2:

With reference to figure 3, for the front view of air quality monitoring equipment, as seen from Figure 3, the front plate of external shell 1 adopts positive terrace with edge to design, and comprises main panel 3 and lays respectively at that main panel 3 is upper and lower, the upper side wall 4 in four orientation, left and right, lower wall 5, left side wall 6 and right side wall 7;

Wherein, at upper side wall 4, display screen is installed; As seen from Figure 3, outer casing frontispiece plate is parallel with backboard, and upper side wall and metope angle are 23 degree of angles, to ensure when air quality monitoring equipment distance 30 ~ 100cm position, ground, and personnel's convenient reading of height about 175.

At least one sensor air admission hole 8 is offered at main panel 3, in figure 3,3 sensor air admission holes are offered altogether, by sensor air admission hole, ensure that the Detection of Air Quality sensor of enclosure interior effectively contacts with extraneous air, and then measure the air parameter value of extraneous air.

At least one working station indicator 9 is set in the below of sensor air admission hole 8; In figure 3,3 working station indicators are set altogether, for the various duties of display device;

The switching push button 10 for switching device duty is provided with, for the duty of switching device at right side wall 7.

At right side wall, a stealthy lid also can be set, stealth lid inside is provided with USB interface and key hole, for realizing interiors of products debugging, download and the function such as functional reduction.

Improve 3:

With reference to figure 6 and Fig. 7, be respectively the top and bottom perspective views of air quality monitoring equipment, as can be seen from Fig. 6 and Fig. 7, offer the 1st net type louvre 11 in the bottom of external shell 1, its diameter can be 2 millimeters, and the 1st net type louvre 11 is simultaneously as the tunnel inlet of device interior sensor; Offer the 2nd net type louvre 12 on the top of external shell 1, its diameter can be 2 millimeters, and the 2nd net type louvre 12 is simultaneously as the ducting outlet of device interior sensor.

Because power module is installed on the back side of case top, and the heat of power module meeting generating portion, by above-mentioned two groups of louvres, the heat that power module produces can be distributed in time, meet cooling requirements.

In addition, according to the type of sensor, it is distributed in middle part and region, two, bottom, concrete, and housing central section region arranges the as far as possible short sensor in air channel, such as, and electrochemical test sensors.And the sensor slightly grown in air channel is set in housing bottom region, and such as, laser beam detecting sensor, infrared detection sensor and/or temperature-sensitive detecting sensor.

In practical application, electrochemical test sensors includes but not limited to: formaldehyde sensor, ammonia gas sensor and VOC sensor; Laser beam detecting sensor includes but not limited to particle detecting sensor; Infrared detection sensor includes but not limited to CO ₂concentration detection sensor; Temperature-sensitive detecting sensor includes but not limited to Temperature Humidity Sensor.

Under normal circumstances, the temperature of device interior exceeds 1 ~ 2 degree Celsius than external environment condition, and this temperature deviation can have an impact to Temperature Humidity Sensor and to the measured value of the sensor of humiture sensitivity, thus affect the measuring accuracy of related sensor, reduce the serviceable life of related sensor.And in the utility model, by the design to equipment upper and lower side louvre, effectively solve heat dissipation problem.

In sum, the air quality monitoring equipment that the utility model provides, has the following advantages:

(1) shell of air quality monitoring equipment and metope are fitted closely, decrease taking of spatial volume;

(2) air quality monitoring equipment directly adopts metope supply socket to power, and has the advantage that power supply fiduciary level is high;

(3) the net type louvre design on equipment bottom and top, comparison is beneficial to device interior and outdoor environment forms the monitoring precision that stable cross-ventilation both can improve device interior sensor, be conducive to again the heat radiation of device interior power pack, extension device whole service life;

(4) the confession electrical prongs designed by the equipment back side, can be inserted into five hole wall switch panels and three hole wall switch panels simultaneously, have advantage applied widely and easy to use.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should look protection domain of the present utility model.

Claims (9)

1. an air quality monitoring equipment, is characterized in that, comprises external shell (1) and is built at least one Detection of Air Quality sensor of described external shell (1) cavity;

Wherein, the backplate of described external shell (1) offers the groove (2) matched with wall switch panel exterior contour, is provided with for electrical prongs (13) at the middle part of described groove (2).

2. air quality monitoring equipment according to claim 1, is characterized in that, the degree of depth of described groove (2) is identical with the height that described wall switch panel exposes metope.

3. air quality monitoring equipment according to claim 2, is characterized in that, the degree of depth of described groove (2) is 5 millimeters, and the length of described groove (2) is 110 millimeters.

4. air quality monitoring equipment according to claim 1, is characterized in that, the described electrical prongs (13) that supplies comprises the 1st cover triangle contact pin and the 2nd cover triangle contact pin; Described 2nd cover triangle contact pin is identical with the structure of described 1st cover triangle contact pin, includes three contact pins be triangularly arranged; Described 2nd cover triangle contact pin is arranged at immediately below described 1st cover triangle contact pin, and, to be arranged in described 1st cover triangle contact pin between two contact pins of bottom at the contact pin of drift angle in described 2nd cover triangle contact pin, to make thus describedly can be inserted into five hole wall switch panels and three hole wall switch panels for electrical prongs.

5. air quality monitoring equipment according to claim 1, it is characterized in that, the front plate of described external shell (1) adopts positive terrace with edge to design, and comprises main panel (3) and lays respectively at that described main panel (3) is upper and lower, the upper side wall in four orientation, left and right (4), lower wall (5), left side wall (6) and right side wall (7);

Wherein, at described upper side wall (4), display screen (14) is installed;

Offer at least one sensor air admission hole (8) at described main panel (3), at least one working station indicator (9) is set in the below of described sensor air admission hole (8);

Described right side wall (7) is provided with the switching push button (10) for switching device duty.

6. air quality monitoring equipment according to claim 1, it is characterized in that, offer the 1st net type louvre (11) in the bottom of described external shell (1), the 1st net type louvre (11) is simultaneously as the tunnel inlet of device interior sensor;

Offer the 2nd net type louvre (12) on the top of described external shell (1), the 2nd net type louvre (12) is simultaneously as the ducting outlet of device interior sensor.

7. air quality monitoring equipment according to claim 1, is characterized in that, described Detection of Air Quality sensor comprises: electrochemical test sensors, laser beam detecting sensor, infrared detection sensor and/or temperature-sensitive detecting sensor.

8. air quality monitoring equipment according to claim 7, is characterized in that, described electrochemical test sensors is arranged in the middle part of the cavity of described external shell (1);

Described laser beam detecting sensor, infrared detection sensor and/or temperature-sensitive detecting sensor are arranged at the cavity bottom of described external shell (1).

9. air quality monitoring equipment according to claim 8, is characterized in that, described electrochemical test sensors comprises: formaldehyde sensor, ammonia gas sensor and VOC sensor;

Described laser beam detecting sensor comprises particle detecting sensor;

Described infrared detection sensor comprises CO ₂concentration detection sensor;

Described temperature-sensitive detecting sensor comprises Temperature Humidity Sensor.