CN218936596U - Disconnect-type new trend monitoring controller - Google Patents

Abstract

The utility model belongs to the technical field of fresh air monitoring controllers, and particularly relates to a separated fresh air monitoring controller, which comprises the following components: a housing of cylindrical configuration; the mounting groove penetrates through the shell from left to right; the mounting hole is formed in the top of the shell and communicated with the mounting groove, and a sensor assembly is mounted in the mounting hole; the air supply mechanism is used for bringing air outside the shell to the detection end of the sensor assembly, external air can be brought to the detection end of the sensor assembly through the air supply mechanism, the servo motor drives the fan blades to rotate, so that the external air is driven to pass through the mounting groove, in the process, the sensor assembly is used for detecting data in the air at the moment, so that equipment can detect components and temperature and humidity in the air in real time, and the problem that the existing equipment does not send the external air to the sensor assembly, and air data detected by the sensor assembly do not have real-time performance is solved.

Description

Disconnect-type new trend monitoring controller

Technical Field

The utility model belongs to the technical field of fresh air monitoring controllers, and particularly relates to a separated fresh air monitoring controller.

Background

The fresh air blower is an effective air purifying device, which can circulate indoor air, on one hand, the indoor polluted air is discharged out of the room, and on the other hand, the outdoor fresh air is input into the room after the measures of sterilization, disinfection, filtration and the like, so that the room is fresh and clean at all times.

In the chinese patent of patent number CN201721646813.3, the name is a separate fresh air monitoring controller, through shell body, display screen, monitoring item pilot lamp, put out screen/bright screen switch, the WIFI switch, the wind speed button, fresh air fan switch, control circuit board, rechargeable battery, ventilation hole and sensor group are constituteed, let equipment can place each position in the room, however, current equipment does not send outside air to sensor group department, lead to the air data that sensor group detected to have real-time, lead to the data that sensor group detected inaccurate, in addition, current sensor group can not be detached from the equipment, after sensor group damages, need carry out the repair with equipment wholly, simultaneously can not use new fan at the in-process of repairing, greatly reduced the practicality of equipment.

Disclosure of Invention

The utility model aims to provide a separated fresh air monitoring controller, which solves the problems that the existing equipment does not send external air to a sensor group, so that air data detected by the sensor group does not have real-time performance, and the existing sensor group cannot be detached from the equipment.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a split fresh air monitoring controller, comprising: a housing of cylindrical configuration;

the mounting groove penetrates through the shell from left to right;

the mounting hole is formed in the top of the shell and communicated with the mounting groove, and a sensor assembly is mounted in the mounting hole;

the air supply mechanism is used for bringing air outside the shell to the detection end of the sensor assembly and comprises a fan blade rotatably installed in the installation groove and a servo motor installed in the shell and connected with the fan blade;

the display mechanism is arranged on the front side of the shell and is used for displaying the running state of the equipment;

an information transmission mechanism mounted in the housing, the information transmission mechanism being for transmitting data in the device;

a rechargeable power storage mechanism mounted in the housing for powering the device.

Preferably, the sensor assembly further comprises a mounting mechanism for quick mounting the sensor assembly, the mounting mechanism comprising:

the knob is arranged at the top of the shell, a thread groove is formed in the outer side of the bottom end of the knob, the knob is screwed at the top end of the mounting hole through the thread groove, and the knob is abutted to the top of the sensor assembly;

the telescopic slots are symmetrically arranged on the inner walls of the two sides of the mounting hole, the contacts are arranged in the telescopic slots, one ends of the contacts extend into the mounting hole, and springs are connected between the other ends of the contacts and the telescopic slots;

the grooves are symmetrically formed in the two sides of the sensor assembly and at the same height as the contacts, and when one end of each contact can be inserted into the corresponding groove, the contact is electrically connected with the sensor assembly conveniently.

Preferably, the display mechanism comprises a display screen arranged on the front side of the shell and three buttons which are arranged below the display screen and horizontally distributed at equal intervals, wherein the three buttons are a switch key, a reset key and an air speed adjusting key respectively.

Preferably, the information transmission mechanism is provided with an installation bin in the shell and an integrated circuit board installed in the installation bin, and the integrated circuit board is provided with a WIFI module, a power module, an alarm module, a data processing module, a data transmission module and a display module.

Preferably, the power storage mechanism includes a rechargeable battery mounted inside the housing and a charging port electrically connected to the rechargeable battery, and the charging port is mounted on the front side of the housing in a mosaic manner.

Preferably, the sensor assembly includes a PM. sensor, a carbon dioxide sensor, a temperature sensor, and a humidity sensor.

Compared with the prior art, the utility model has the following beneficial effects:

(1) According to the utility model, the air supply mechanism can bring external air to the detection end of the sensor assembly, the servo motor drives the fan blades to rotate, so that the external air is driven to pass through the mounting groove, in the process, the sensor assembly detects data in the air at the moment, so that equipment can detect components and temperature and humidity in the air in real time, and the problem that the existing equipment does not send the external air to the sensor assembly, so that the air data detected by the sensor assembly does not have real-time property is solved.

(2) According to the utility model, the sensor component can be quickly assembled and disassembled on the shell through the mounting mechanism, the knob is unscrewed, and the sensor component is pressed into the mounting hole from the mounting groove, so that the sensor component is separated from the shell, and when the sensor component is mounted in the mounting hole, the contact is inserted into the groove under the action of the spring, so that the sensor component is electrically connected with equipment through the contact, the spring, the groove and the telescopic groove, and the problem that the existing sensor component cannot be disassembled from the equipment is solved.

Drawings

FIG. 1 is a side view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a cross-sectional view at A-A in FIG. 2;

FIG. 4 is an enlarged view of FIG. 3 at A;

in the figure: 1-display screen, 2-casing, 3-button, 4-mouth that charges, 5-knob, 6-mounting groove, 7-flabellum, 8-servo motor, 9-sensor subassembly, 10-mounting hole, 11-rechargeable battery, 12-mounting bin, 13-integrated circuit board, 14-expansion tank, 15-spring, 16-contact, 17-recess.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: a split fresh air monitoring controller, comprising: a housing 2 of cylindrical structure;

a mounting groove 6 penetrating the housing 2 from left to right;

the mounting hole 10 is formed in the top of the shell 2 and communicated with the mounting groove 6, and the sensor assembly 9 is mounted in the mounting hole 10;

an air supply mechanism for bringing air outside the housing 2 to the detection end of the sensor assembly 9, the air supply mechanism including a fan blade 7 rotatably installed in the installation groove 6 and a servo motor 8 installed in the housing 2 and connected to the fan blade 7;

a display mechanism mounted on the front side of the housing 2 for displaying the operation state of the apparatus;

an information transmission mechanism installed in the housing 2 for transmitting data in the apparatus;

a chargeable power storage mechanism is mounted in the housing 2, the power storage mechanism being used to supply power to the apparatus.

Through the technical scheme:

the device can supply power to components and parts in the casing 2 through chargeable electric power storage mechanism, can carry out analysis and arrangement with the data that sensor subassembly 9 was collected through information transmission mechanism, and according to data to new fan conveying instruction, can show the data that sensor subassembly 9 was collected through display mechanism, simultaneously through the new fan of display mechanism controllable, equipment is placed in indoor each position through casing 2, when using, servo motor 8 continuously low-speed drive flabellum 7 rotates in mounting groove 6, thereby let outside air continuously pass through sensor subassembly 9 in the mounting groove 6, let sensor subassembly 9 real-time supervision in the air composition.

Further, for the display mechanism set up above, the display mechanism includes the display screen 1 of installing at casing 2 front side and installs three button 3 that are distributed at the horizontal equidistance of display screen 1 below, and three button 3 are on-off key, reset key and wind speed adjusting key respectively, and various data that the sensor subassembly 9 was collected are shown through display screen 1 to and the real-time state of new fan, operate equipment and new fan through on-off key, reset key and wind speed adjusting key.

Further, the information transmission mechanism is arranged in the shell 2, the installation bin 12 and the integrated circuit board 13 are arranged in the installation bin 12, the WIFI module, the power module, the alarm module, the data processing module, the data transmission module and the display module are arranged on the integrated circuit board 13, the instruction is transmitted to the fresh air machine through the WIFI module, the power module is used for supplying power to each module, when the sensor assembly 9 detects that the air component is abnormal, the alarm mechanism is used for alarming outwards, and the data detected by the sensor assembly 9 are displayed on the display screen 1 through the display module and the data transmission module.

Further, for the above-mentioned electric power storage mechanism that sets up, electric power storage mechanism is including installing at the inside rechargeable battery 11 of casing 2 and with rechargeable battery 11 electric connection's charge mouth 4, and charge mouth 4 inlays the front side of installing at casing 2, charges rechargeable battery 11 through charge mouth 4, supplies power to equipment through rechargeable battery 11.

Further, with respect to the sensor assembly 9 provided as described above, the sensor assembly 9 includes a PM2.5 sensor, a carbon dioxide sensor, a temperature sensor, and a humidity sensor, and the components in the air are detected by the PM2.5 sensor, the carbon dioxide sensor, the temperature sensor, and the humidity sensor.

Referring to fig. 3-4, the sensor assembly 9 further includes a mounting mechanism for quick mounting the sensor assembly, the mounting mechanism including:

the knob 5 is arranged at the top of the shell 2, a thread groove is formed in the outer side of the bottom end of the knob 5, the knob 5 is screwed at the top end of the mounting hole 10 through the thread groove, and the knob 5 is abutted to the top of the sensor assembly 9;

the telescopic slots 14 are symmetrically arranged on the inner walls of the two sides of the mounting hole 10, the contacts 16 are arranged in the telescopic slots 14, one ends of the contacts 16 extend into the mounting hole 10, and springs 15 are connected between the other ends of the contacts 16 and the telescopic slots 14;

the grooves 17 are symmetrically formed on two sides of the sensor assembly 9 and at the same height as the contacts 16, and when one end of each contact 16 can be inserted into each groove 17, the contacts 16 are conveniently electrically connected with the sensor assembly 9.

Through the technical scheme:

unscrewing the knob 5, taking out the knob 5 from the mounting groove 6, pressing the sensor assembly 9 from the mounting groove 6 into the mounting hole 10, at this time, pushing the contact 16 into the telescopic groove 14, facilitating the taking out of the sensor assembly 9 from the mounting hole 10, thereby allowing the sensor assembly 9 to be separated from the housing 2, and when the sensor assembly 9 is mounted in the mounting hole 10, inserting the contact 16 into the groove 17 under the action of the spring 15, thereby allowing the sensor assembly 9 to be electrically connected with the device through the contact 16, the spring 15, the groove 17 and the telescopic groove 14.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A split fresh air monitoring controller, comprising: a cylindrical housing (2);

a mounting groove (6) penetrating the housing (2) from left to right;

the mounting hole (10) is formed in the top of the shell (2) and communicated with the mounting groove (6), and the sensor assembly (9) is mounted in the mounting hole (10);

the air supply mechanism is used for bringing air outside the shell (2) to the detection end of the sensor assembly (9), and comprises a fan blade (7) rotatably installed in the installation groove (6) and a servo motor (8) installed in the shell (2) and connected with the fan blade (7);

a display mechanism mounted on the front side of the housing (2) for displaying the operating state of the apparatus;

an information transmission mechanism mounted in the housing (2) for transmitting data in the device;

a rechargeable power storage mechanism mounted in the housing (2) for powering the device.

2. The split fresh air monitoring controller of claim 1, wherein: still include the installation mechanism that carries out quick installation to sensor subassembly (9), installation mechanism includes:

the knob (5) is arranged at the top of the shell (2), a thread groove is formed in the outer side of the bottom end of the knob (5), the knob (5) is screwed at the top end of the mounting hole (10) through the thread groove, and the knob (5) is abutted to the top of the sensor assembly (9);

the telescopic slots (14) are symmetrically formed in the inner walls of the two sides of the mounting hole (10), the telescopic slots are arranged in the contacts (16) of the telescopic slots (14), one ends of the contacts (16) extend into the mounting hole (10), and springs (15) are connected between the other ends of the contacts (16) and the telescopic slots (14);

the grooves (17) are symmetrically formed in the two sides of the sensor assembly (9) and at the same height as the contacts (16), and when one end of each contact (16) can be inserted into each groove (17), the contacts (16) are electrically connected with the sensor assembly (9) conveniently.

3. The split fresh air monitoring controller of claim 1, wherein: the display mechanism comprises a display screen (1) arranged on the front side of the shell (2) and three buttons (3) horizontally and equidistantly distributed below the display screen (1), wherein the three buttons (3) are respectively a switch key, a reset key and an air speed adjusting key.

4. The split fresh air monitoring controller of claim 1, wherein: the information transmission mechanism is provided with an installation bin (12) in the shell (2) and an integrated circuit board (13) installed in the installation bin (12), and the integrated circuit board (13) is provided with a WIFI module, a power module, an alarm module, a data processing module, a data transmission module and a display module.

5. The split fresh air monitoring controller of claim 1, wherein: the power storage mechanism comprises a rechargeable battery (11) arranged in the shell (2) and a charging port (4) electrically connected with the rechargeable battery (11), and the charging port (4) is embedded and arranged on the front side of the shell (2).

6. The split fresh air monitoring controller of claim 1, wherein: the sensor assembly (9) comprises a PM2.5 sensor, a carbon dioxide sensor, a temperature sensor and a humidity sensor.

Images