CN212779377U - Novel comprehensive sensor and system - Google Patents

Abstract

The application relates to a novel integrated sensor and a system, wherein the novel integrated sensor comprises an upper cover, a lower shell, a heat dissipation mechanism, a main control acquisition board, a key display board, a temperature sensor element, a refrigerating sheet and a plurality of sensor elements; the heat dissipation mechanism, the temperature sensor element and the refrigerating piece are respectively electrically connected with the main control acquisition board, and the main control acquisition board can start the heat dissipation mechanism and/or the refrigerating piece to dissipate heat of the main control acquisition board under the condition that the main control acquisition board detects that the temperature of the main control acquisition board reaches a temperature threshold value; and the key display board is electrically connected with the main control acquisition board, and the key display board can be used for setting the detection signal and the range of each detection port, so that the main control acquisition board can acquire external environmental parameters through different detection ports, the problems that the comprehensive sensor cannot quickly dissipate heat under the condition of overhigh temperature and has higher requirements on working personnel under the condition of changing the detection signal or the range of the comprehensive sensor are solved, and the intelligent heat dissipation of the comprehensive sensor is realized.

Description

Novel comprehensive sensor and system

Technical Field

The application relates to the technical field of sensors, in particular to a novel comprehensive sensor and a system.

Background

An integrated sensor is a device for sensing water pressure, water level, and temperature. Fixed information is detected through a fixed port on the integrated sensor. If a comprehensive sensor is provided with 3 ports, if the 3 ports are respectively a first port, a second port and a third port, the first port is used for detecting a water pressure signal, and the detection range is 0-1.6MPa, the second port is used for detecting a water level signal, and the detection range is 0-5M. The third port is used for detecting temperature signals, and the detection range is 0-100 ℃.

In the related art, the signal detected by each port of the integrated sensor is a fixed signal, and the range of each port is a fixed range, so that the integrated sensor generally has higher requirements on the capability of workers under the condition that the port of the existing integrated sensor needs to change the detection signal or range, and is easily damaged under the condition that the detection signal or range is adjusted through hardware; the existing integrated sensor is not provided with a heat dissipation mechanism generally, and the integrated sensor can only dissipate heat naturally under the condition of higher internal temperature of the integrated sensor, so that the heat dissipation efficiency is lower.

Aiming at the problems that in the related art, under the condition of adjusting the signal or the measuring range detected by the comprehensive sensor, higher requirements are required for the capability of workers, equipment failure is easy to cause, and the conventional comprehensive sensor cannot rapidly dissipate heat under the condition of overhigh temperature, an effective solution is not provided.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a novel comprehensive sensor and system to at least solve in the correlation technique under the condition of the signal or the range that the sensor detected is synthesized in the adjustment, have higher requirement and easily lead to equipment failure and current comprehensive sensor can not carry out quick radiating problem under the condition of high temperature to the ability that the staff possessed.

In a first aspect, the utility model provides a novel integrated sensor, include:

the upper cover is provided with a display screen hole and a plurality of key holes;

the lower shell is matched and connected with the upper cover, and the side wall of the lower shell is provided with a plurality of through holes and a plurality of ventilation holes, wherein the through holes are formed in the front side wall and the rear side wall of the lower shell, and the ventilation holes are formed in the right side wall of the lower shell;

the heat dissipation mechanism is arranged on the side part of the lower shell and is detachably connected with the lower shell, and an air outlet of the heat dissipation mechanism is matched with the ventilation hole;

the main control acquisition board is arranged at the bottom of the inner part of the lower shell and is electrically connected with the heat dissipation mechanism, the main control acquisition board comprises a plurality of detection ports, and the detection ports are arranged corresponding to the through holes;

the key display panel is arranged inside the upper cover and is electrically connected with the main control acquisition board, the key display panel comprises a plurality of keys and a display screen, the display screen is arranged in the display screen hole, and the keys are correspondingly arranged in the key holes;

the temperature sensor element is arranged on the main control acquisition board and is electrically connected with the main control acquisition board;

the refrigeration piece is arranged at the bottom of the inner part of the lower shell and is electrically connected with the main control acquisition board;

and the sensor elements are all arranged on the main control acquisition board and correspond to and are electrically connected with the detection ports.

Further, in the novel integrated sensor, the main control acquisition board comprises:

the controller is electrically connected with the detection ports and the sensor elements respectively;

and the wireless communication module is electrically connected with the controller.

Further, in the novel integrated sensor, the heat dissipation mechanism includes:

the box body is provided with a plurality of fan holes, and the fan holes are arranged corresponding to the ventilation holes;

the fans are correspondingly arranged in the fan holes and are electrically connected with the main control acquisition board.

Further, in the novel integrated sensor, the heat dissipation mechanism further includes:

the filter screen is arranged inside the fan hole and positioned on one side of the fan far away from the ventilation hole.

Further, in the novel integrated sensor, the cartridge includes:

and the first connecting element is arranged on the side wall of the box body, and the box body is connected with the lower shell through the first connecting element.

Further, in the novel integrated sensor, the lower case includes:

and the second connecting element is arranged on the side wall of the lower shell and is in fit connection with the first connecting element.

Further, in the novel integrated sensor, the lower case further includes:

a ventilation grill disposed at a left sidewall of the lower case.

Further, in the novel integrated sensor, the sensor further comprises:

the buffer column is fixedly arranged at the bottom of the inner part of the lower shell and used for supporting the main control acquisition board.

Further, in the novel integrated sensor, the key display panel further includes:

the first wiring terminal is arranged on the key display panel and is electrically connected with the key display panel;

the main control acquisition board further comprises:

the second wiring terminal is arranged on the main control acquisition board and electrically connected with the main control acquisition board, and the first wiring terminal is matched and connected with the second wiring terminal.

In a second aspect, the present invention also provides a novel integrated sensor system, including:

the novel integrated sensor of any of the first aspects;

the cloud platform is in communication connection with the novel integrated sensor;

the background terminal is in communication connection with the cloud platform.

Compared with the prior art, the novel comprehensive sensor and the system provided by the embodiment of the application are respectively and electrically connected with the controller on the main control acquisition board through the heat dissipation mechanism, the temperature sensor element and the refrigerating piece, and the temperature sensor element is arranged on the main control acquisition board, so that the controller can control the heat dissipation mechanism and/or the refrigerating piece to be turned on to dissipate heat of the main control acquisition board under the condition that the controller detects that the temperature on the main control acquisition board reaches the temperature threshold value through the temperature sensor element; and through button display panel and main control acquisition board electric connection to can set up the detected signal and the range of each detection port through the button display panel, thereby make the controller can gather the parameter of external environment through sensor element, thereby solved among the prior art under the condition of the signal or the range that the adjustment integrated sensor detected, have higher requirement and easily lead to equipment trouble and current integrated sensor can not carry out quick radiating under the condition of high temperature to the ability that the staff possesses.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic diagram of a novel integrated sensor according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of an upper cover of a novel integrated sensor according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a lower shell of a novel integrated sensor according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a main control acquisition board in a novel integrated sensor according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a key display panel of a novel integrated sensor according to an embodiment of the present application;

FIG. 6 is a block diagram of a novel integrated sensor in accordance with embodiments of the present application;

FIG. 7 is a schematic structural diagram of a heat dissipation mechanism in a novel integrated sensor according to an embodiment of the present application;

FIG. 8 is a block diagram of a novel integrated sensor system according to an embodiment of the present application;

wherein the reference symbols are:

100-novel integrated sensor, 101-upper cover, 102-display screen hole, 103-key hole, 104-lower shell, 105-through hole, 106-ventilation hole, 107-heat dissipation mechanism, 108-main control acquisition board, 109-port, 110-key display board, 111-key, 112-display screen, 113-temperature sensor element, 114-refrigeration sheet, 115-sensor element, 116-controller, 117-wireless communication module, 118-box, 119-fan hole, 120-fan, 121-filter screen, 122-first connecting element, 123-second connecting element, 124-ventilation grille, 125-buffer column, 126-first connecting terminal, 127-second connecting terminal;

200-a cloud platform;

300-background terminal.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described and illustrated below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments provided in the present application without any inventive step are within the scope of protection of the present application.

It is obvious that the drawings in the following description are only examples or embodiments of the present application, and that it is also possible for a person skilled in the art to apply the present application to other similar contexts on the basis of these drawings without inventive effort. Moreover, it should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions must be made to achieve the developers' specific goals, such as compliance with system-related and business-related constraints, which may vary from one implementation to another.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the specification. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of ordinary skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments without conflict.

Unless defined otherwise, technical or scientific terms referred to herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which this application belongs. Reference to "a," "an," "the," and similar words throughout this application are not to be construed as limiting in number, and may refer to the singular or the plural. The present application is directed to the use of the terms "including," "comprising," "having," and any variations thereof, which are intended to cover non-exclusive inclusions; for example, a process, method, system, article, or apparatus that comprises a list of steps or modules (elements) is not limited to the listed steps or elements, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. Reference to "connected," "coupled," and the like in this application is not intended to be limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. The term "plurality" as referred to herein means two or more. "and/or" describes an association relationship of associated objects, meaning that three relationships may exist, for example, "A and/or B" may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. Reference herein to the terms "first," "second," "third," and the like, are merely to distinguish similar objects and do not denote a particular ordering for the objects.

As shown in fig. 1 to 6, a novel integrated sensor 100 includes an upper cover 101, a lower cover 104, a heat dissipation mechanism 107, a main control acquisition board 108, a key display board 110, a temperature sensor element 113, a refrigeration sheet 114, and a plurality of sensor elements 115.

The upper cover 101 is provided with a display screen hole 102 and a plurality of key holes 103, wherein the key holes 102 and the display screen hole 103 all penetrate through the upper cover 101, and the key holes 102 are arranged on the upper surface of the upper cover 101 at intervals.

The side wall of the lower shell 104 is provided with a plurality of through holes 105 and a plurality of vent holes 106, and the lower shell 104 is connected with the upper cover 101 in a matching way, such that the lower shell 104 can be connected with the upper cover 101 through screws. Wherein the through-holes 105 and the ventilation holes 106 are provided on the adjacent side walls of the lower case 104. For example, the through-holes 105 may be formed in the front and rear sidewalls of the lower case 104, and the ventilation holes 106 may be formed in the left or right sidewall of the lower case 104.

The heat dissipation mechanism 107 is detachably disposed on the side wall of the lower case 104 having the ventilation hole 106, the air outlet of the heat dissipation mechanism 107 is disposed in cooperation with the ventilation hole 106, the heat dissipation mechanism 107 can dissipate heat inside the novel integrated sensor 100 through the air outlet and the ventilation hole 106, and the phenomenon that the temperature inside the novel integrated sensor 100 is too high and the operation of internal electronic devices is affected is avoided.

Wherein, heat dissipation mechanism 107 can blow to inside the novel integrated sensor 100 to blow out the higher gas of the inside temperature of novel integrated sensor 100, thereby realize reducing the inside temperature of novel integrated sensor 100.

Since the heat dissipation mechanism 107 is detachably attached to the lower case 104, the worker can detach the heat dissipation mechanism 107 without using the heat dissipation mechanism 107. Wherein, the inside of ventilation hole 106 can be provided with filter equipment, like the wire netting, avoids under the heat dissipation mechanism 107 carries out radiating the condition to the inside of novel integrated sensor 100, and outside granule enters into the inside of novel integrated sensor 100.

The main control acquisition board 108 is arranged at the bottom of the inside of the lower shell 104, the main control acquisition board 108 is electrically connected with the heat dissipation mechanism 107, a plurality of ports 109 are arranged on the main control acquisition board 108, the plurality of ports 109 are arranged in one-to-one correspondence with the through holes 105 in the side wall of the lower shell 104, wherein the plurality of ports 109 include but are not limited to a plurality of detection ports and communication ports, the detection ports are used for acquiring external environment data, and the communication ports are used for connecting the novel integrated sensor 100 with a computer and carrying out data interaction with the computer.

The main control acquisition board 108 further comprises a controller 116 and a wireless communication module 117. The controller 116 is respectively electrically connected with the detection ports, the communication port and the wireless communication module 117, the controller 116 can acquire external environment parameters through the detection ports, the environment parameters are sent to the cloud end through the wireless communication module 117, and the cloud end sends the environment parameters to the staff according to preset logic.

Wherein, controller 116 also can carry out wired network connection through communication interface and computer to make novel integrated sensor 100 carry out data interaction with the computer, then the staff can acquire the data that novel integrated sensor 100 gathered through the computer, avoids under the less weak condition of wireless communication module 117 signals, and novel integrated sensor 100 can not send the staff with the data of gathering.

For example, under the condition that the main control is gathered and is provided with the water pressure sensor component on board 108, water pressure sensor component and a detection port, controller 116 electric connection, the water pressure sensor component can gather the water pressure parameter of external environment through detection port, then sends this water pressure parameter to controller 116, and controller 116 sends this water pressure parameter to the high in the clouds through wireless communication module 117, and the high in the clouds is according to presetting the logic and is sent the staff with the water pressure value.

The cloud end can be a cloud platform or a cloud server.

The controller 116 is connected to the heat dissipation mechanism 107, and can control the heat dissipation mechanism 107 to be turned on or turned off, for example, when the temperature of the main control acquisition board 108 is higher, the controller 116 starts the heat dissipation mechanism 107 to dissipate heat from the main control acquisition board 108.

The key display panel 110 is disposed inside the upper cover 101 and electrically connected to the main control collecting board 108. The key display panel 110 includes a plurality of keys 111 and a display 112, wherein the display 112 is installed inside the display hole 102, and the plurality of keys 111 are correspondingly installed inside the plurality of key holes 103.

The key display panel 110 may send an operation instruction to the main control panel 108 through the key 111, and then the main control panel 108 executes a corresponding execution action according to the operation instruction, and displays an execution result of the execution action through the display 112. For example, an operator may send an operation instruction for configuring a detection signal type or a detection range of a detection port to the controller 116 through the key 111, then the controller 116 configures the corresponding detection signal type or detection range for the detection port according to the operation instruction, and then the controller 116 displays the configuration result through the display screen 112, so that the operator can know the configuration result and the configuration progress in real time.

The operator can sequentially configure the detection signal type and/or range for the detection port through the key 111, and can also clear the detection signal type and/or range of each detection port. For example, in the case that a detection port is not configured with a detection signal type, a worker may configure the detection signal type and the range for the detection port through the key 111, and in the case that the detection signal type and/or the range configured for the detection port needs to be cleared, the worker may clear the detection signal type and/or the range of the detection port through the key 111. Therefore, the problem that in the prior art, under the condition that a worker configures the type or the range of a detection signal for the detection port of the integrated sensor, the integrated sensor has certain requirements on the capability of the worker or is easy to damage is solved.

Wherein the operator can display the parameters of the external environment acquired by the controller 116 through the display screen 112. As in the case where the controller 116 acquires the external environment parameter through the detection port, the controller 116 may transmit the external environment parameter to the display screen 112 at this time, and the display screen 112 displays the external environment parameter in real time.

In the case that the staff configures the parameters for the detection port through the key 111, the display screen 112 is used for displaying the configuration parameter process and the configuration result. In the case that the controller 116 reads the error data of a certain detection port, the controller 116 may further send an alarm message through the display screen 112 to prompt a worker to maintain the detection port with the error data.

The controller 116 may also display status information of the main control acquisition board 108 through the display screen 112, such as wireless network signal strength of the main control acquisition board 108.

The temperature sensor element 113 is disposed on the upper portion of the main control acquisition board 108 and electrically connected to the controller 116 of the main control acquisition board 108. The temperature sensor element 113 can detect a temperature value of the main control acquisition board 108 and send the temperature value of the main control acquisition board 108 to the controller 116, and when the controller 116 detects that the temperature value reaches a first temperature threshold, the controller 116 controls to start the heat dissipation mechanism 107 to dissipate heat of the main control acquisition board 108; and under the condition that the heat dissipation mechanism 107 dissipates heat to the main control acquisition board 108, if the controller 116 detects that the temperature value acquired by the temperature sensor element 113 reaches the second temperature threshold, the controller 116 controls to close the heat dissipation mechanism 107, so that the heat dissipation mechanism 107 is prevented from being in an operating state all the time. The first temperature threshold is used to indicate that the temperature of the main control acquisition board 108 is high, and the main control acquisition board 108 needs to be cooled, and the second temperature threshold is used to indicate that the temperature of the main control acquisition board 108 is low, and the heat dissipation mechanism 107 needs to be closed.

The cooling plate 114 is disposed at the bottom of the inside of the lower case 104 and is electrically connected to the controller 116. The hot end of the refrigeration sheet 114 is in contact with the bottom of the lower shell 104, and the cold end of the refrigeration sheet 114 faces the opening direction of the lower shell 104 and is in contact with the bottom of the main control acquisition board 108. The cooling fins 114 are used to cool the inside of the lower case 104, so as to avoid the temperature of the lower case 104 and the main control acquisition board 108 from being too high.

For example, under the condition that the temperature sensor element 113 detects that the temperature of the main control acquisition board 108 reaches the first temperature threshold, if the controller 116 controls to start the heat dissipation mechanism 107 within a preset time, the controller 116 still detects that the temperature of the main control acquisition board 108 reaches the first temperature threshold, at this time, the controller 116 can control to start the cooling fins 114 to dissipate heat in the main control acquisition board 108 and the lower shell 104, so as to avoid the problem that the main control acquisition board 108 is always in a high-temperature state under the condition that the heat dissipation mechanism 107 cannot dissipate heat of the main control acquisition board 108 quickly, and also achieve quick cooling of the main control acquisition board 108 and the lower shell 104.

The sensor elements 115 are disposed on the main control collecting board 108, and are respectively corresponding to and electrically connected to the detecting ports, and are electrically connected to the controller 116. The sensor element 115 may detect an external environmental parameter through the detection port and send the environmental parameter to the controller 116, and the controller 116 may send the environmental parameter to the cloud through the wireless communication module 117. For example, the sensor element 115 may detect water pressure, water level and temperature information in the external environment through the detection port, and then send the information to the controller 116, and the controller 116 sends the information to the cloud through the wireless communication module 117.

For example, when the signal detection type configured for a detection port by the operator through the key 111 is water level, the water level sensor element is electrically connected to the detection port to collect water level parameters of the external environment; and under the condition that the detection port is required to detect the water pressure signal, at this time, the worker can clear the existing detection signal of the detection port through the key 111 and configure the detection water pressure signal and the corresponding measuring range for the detection port.

As shown in fig. 7, the heat dissipation mechanism 107 includes a box 118 and a plurality of fans 120. The casing 118 has a plurality of fan holes 119, and a fan 120 is disposed in each of the fan holes 119. Each fan 120 is electrically connected to the controller 116, and when the controller 116 detects that the temperature of the main control acquisition board 108 is high, the controller 116 can control to turn on the fan 120 to cool the main control acquisition board 108, so as to prevent the main control acquisition board 108 from being high in temperature and damaging electronic components on the main control acquisition board 108.

Preferably, two fan holes 119 may be formed in the case 118, and each fan hole 119 is provided with a fan 120. And one end of the fan hole 119 close to the vent hole 106 is an air outlet hole of the heat dissipation mechanism 107, and the other end far away from the vent hole 106 is an air inlet hole of the heat dissipation mechanism 107.

A filter screen 121 is disposed at an air inlet of each fan hole 119, and the filter screen 121 is used for preventing external particulate matters or other matters from entering the fan holes 119 and affecting the normal operation of the fan 120.

The side of the box body 118 is provided with a first coupling member 122, and the side wall of the lower case 104 is provided with a second coupling member 123, the second coupling member 123 being cooperatively arranged with the first coupling member 122. The cassette body 118 can be detachably disposed at the side of the lower case 104 through the first coupling member 122 and the second coupling member 123.

Specifically, in the case of installing the heat dissipation mechanism 107, it is necessary to separate the upper cover 101 from the lower case 104, and then connect the upper cover 101 and the lower case 104 in the case of connecting the first connection element 122 and the second connection element 123, so that the first connection element 122 is disposed inside the second connection element 123 of the sidewall of the lower case 104, thereby preventing the heat dissipation mechanism 107 from being detached by an irrelevant person, and also enabling the heat dissipation mechanism 107 to be firmly disposed on the lower case 104, thereby preventing the heat dissipation mechanism 107 from falling off.

In some embodiments, a plurality of wire holes are formed in the side wall of the lower case 104 where the vent holes 106 are formed, and the heat dissipation mechanism 107 can be electrically connected to the main control acquisition board 108 through the wire holes, so that the main control acquisition board 108 can control the opening or closing of the heat dissipation mechanism 107.

The left side wall of the lower case 104 is provided with a ventilation grill 124, the ventilation grill 124 is used for radiating the inside of the lower case 104, and when the heat radiation mechanism 107 is opened to radiate the heat of the lower case 104, the gas with higher temperature inside the lower case 104 can be conveyed to the outside of the lower case 104 through the ventilation grill 124.

The bottom of the inside of inferior valve 104 is provided with buffering post 125, buffering post 125 sets up the lower part at main control collection board 108, and the top of buffering post 125 contacts with the bottom of main control collection board 108, be used for supporting main control collection board 108, thereby make main control collection board 108 and the inside bottom of inferior valve 104 form the wind channel, be convenient for dispel the heat to main control collection board 108, and buffering post 125 is made by buffer material, thereby under the condition that the shock takes place at inferior valve 104, can avoid main control collection board 108 to receive the injury.

Wherein, the buffer column 125 may be made of rubber.

In some embodiments, as shown in fig. 4 to 5, the key display panel 110 further includes a first connection terminal 126, and the first connection terminal 126 is disposed on the key display panel 110 and electrically connected to the key display panel 110; the main control collecting board 108 further includes a second connection terminal 127, and the second connection terminal 127 is disposed on the main control collecting board 108 and electrically connected to the main control collecting board 108, wherein the first connection terminal 126 is electrically connected to the second connection terminal 127.

Under the condition that the first connection terminal 126 is connected to the second connection terminal 127, the main control panel 108 can perform data transmission with the key display panel 110 through the first connection terminal 126 and the second connection terminal 127.

Corresponding to the above-mentioned novel integrated sensor 100, the utility model also provides a novel integrated sensor system for realize above-mentioned embodiment and preferred embodiment, the explanation has been carried out and is not being repeated.

As shown in fig. 8, the novel integrated sensor system includes the novel integrated sensor 100, the cloud platform 200, and the backend terminal 300. The cloud platform 200 is in communication connection with the novel integrated sensor 100 and the background terminal 300 respectively.

In the case that the background terminal 300 sends an operation instruction to the cloud platform 200, the cloud platform 200 sends the operation instruction to the novel integrated sensor 100, and then the novel integrated sensor 100 executes an execution action corresponding to the operation instruction. Thereby enabling remote control of the novel integrated sensor 100.

Wherein, the novel integrated sensor 100 can also send the work operation information or the fault information that self produced to the cloud platform 200, and the cloud platform 200 sends this work operation information or fault information to the backstage terminal 300, and then the backstage terminal 300 can generate corresponding operating instruction according to work operation information or fault information to the staff can maintain the novel integrated sensor 100 according to work operation information and the fault information that novel integrated sensor 100 sent.

For example, under the higher condition of temperature that novel integrated sensor 100 detected main control collection board 108 through temperature sensor element 113, novel integrated sensor 100 sends this temperature information to backstage terminal 300 through cloud platform 200 this moment, backstage terminal 300 sends this temperature information to the staff, the staff does not open refrigeration piece 114 this moment if the work running information that sends through backstage terminal 300 detects, the staff then sends refrigeration piece opening instruction to cloud platform 200 through backstage terminal 300, cloud platform 200 sends this refrigeration piece opening instruction to novel integrated sensor 100, novel integrated sensor 100 then controller 116 opens refrigeration piece 114 and carries out rapid cooling to main control collection board 108.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A novel integrated sensor, comprising:

the upper cover is provided with a display screen hole and a plurality of key holes;

the lower shell is matched and connected with the upper cover, and the side wall of the lower shell is provided with a plurality of through holes and a plurality of ventilation holes, wherein the through holes are formed in the front side wall and the rear side wall of the lower shell, and the ventilation holes are formed in the right side wall of the lower shell;

the heat dissipation mechanism is arranged on the side part of the lower shell and is detachably connected with the lower shell, and an air outlet of the heat dissipation mechanism is matched with the ventilation hole;

the main control acquisition board is arranged at the bottom of the inner part of the lower shell and is electrically connected with the heat dissipation mechanism, the main control acquisition board comprises a plurality of detection ports, and the detection ports are arranged corresponding to the through holes;

the key display panel is arranged inside the upper cover and is electrically connected with the main control acquisition board, the key display panel comprises a plurality of keys and a display screen, the display screen is arranged in the display screen hole, and the keys are correspondingly arranged in the key hole;

the temperature sensor element is arranged on the main control acquisition board and is electrically connected with the main control acquisition board;

the refrigeration piece is arranged at the bottom of the inner part of the lower shell and is electrically connected with the main control acquisition board;

and the sensor elements are all arranged on the main control acquisition board and correspond to and are electrically connected with the detection ports.

2. The novel integrated sensor of claim 1, wherein the master acquisition board comprises:

the controller is electrically connected with the detection ports and the sensor elements respectively;

and the wireless communication module is electrically connected with the controller.

3. The novel integrated sensor of claim 1, wherein the heat dissipation mechanism comprises:

the box body is provided with a plurality of fan holes, and the fan holes are arranged corresponding to the ventilation holes;

the fans are correspondingly arranged in the fan holes and are electrically connected with the main control acquisition board.

4. The novel integrated sensor of claim 3, wherein the heat dissipation mechanism further comprises:

the filter screen, the filter screen sets up the inside in fan hole, and be located the fan is kept away from the one side in ventilation hole.

5. The novel integrated sensor of claim 3, wherein the cartridge comprises:

and the first connecting element is arranged on the side wall of the box body, and the box body is connected with the lower shell through the first connecting element.

6. The novel integrated sensor of claim 5, wherein the lower housing comprises:

and the second connecting element is arranged on the side wall of the lower shell and is in fit connection with the first connecting element.

7. The novel integrated sensor of claim 1, wherein the lower shell further comprises:

a ventilation grill disposed at a left sidewall of the lower case.

8. The novel integrated sensor of claim 1, further comprising:

the buffer column is fixedly arranged at the bottom of the inner part of the lower shell and used for supporting the main control acquisition board.

9. The novel integrated sensor of claim 1, wherein the key display panel further comprises:

the first wiring terminal is arranged on the key display panel and is electrically connected with the key display panel;

the main control acquisition board further comprises:

the second wiring terminal is arranged on the main control acquisition board and electrically connected with the main control acquisition board, and the first wiring terminal is matched and connected with the second wiring terminal.

10. A novel integrated sensor system, comprising:

a novel integrated sensor as claimed in any one of claims 1 to 9;

the cloud platform is in communication connection with the novel integrated sensor;

the background terminal is in communication connection with the cloud platform.

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