CN216218124U - Device for monitoring traffic data - Google Patents

Abstract

The utility model provides a device for monitoring data of a current business, which belongs to the technical field of data monitoring and comprises a shell, a main heat dissipation channel and a branch heat dissipation channel; wherein the shell is provided with an air inlet window and an air outlet window; the inner cavity of the shell comprises a first equipment cavity and a second equipment cavity, and a data input module and a storage battery are arranged in the second equipment cavity; the main heat dissipation channel is arranged between the data input module and the storage battery and communicated with the air inlet window and the air outlet window; the branch heat dissipation channel comprises a first branch heat dissipation channel and two second branch heat dissipation channels, the first branch heat dissipation channel is communicated with the main heat dissipation channel, the first branch heat dissipation channel is arranged between the first equipment cavity and the second equipment cavity, and the two branch heat dissipation channels are respectively arranged between the main heat dissipation channel and the data input module and between the main heat dissipation channel and the storage battery. The device for monitoring the data of the current business is simple in structure, solves the problem of poor heat dissipation of the existing device, and ensures the operation efficiency of the device.

Description

Device for monitoring traffic data

Technical Field

The utility model belongs to the technical field of data monitoring, and particularly relates to a device for monitoring data of a to-and-fro business.

Background

The existing device for monitoring the business data to and from is internally provided with a data processing module and a data entry module, along with the development of information technology, the information data processed by the data processing module is more and more, and the running speed of the data processing module is changed along with the updating of the technology. Along with the updating of the data processing module, the heat generated by the data processing module is increased, and the heat dissipation requirement of the shell of the conventional current business data monitoring device cannot be met any more, so that the temperature in the shell of the current business data monitoring device is overhigh, and the operation efficiency and the service life of the module are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a device for monitoring data of a current business, aiming at solving the problem of poor heat dissipation performance.

In order to achieve the purpose, the utility model adopts the technical scheme that: a traffic data monitoring device is provided, which comprises:

the air conditioner comprises a shell, wherein an air inlet window is formed in the side wall of the shell, and an air outlet window is formed in the top plate of the shell; the inner cavity of the shell comprises a first equipment cavity and a second equipment cavity, a data processing module group is installed in the first equipment cavity, and a data input module and a storage battery are installed in the second equipment cavity;

the main heat dissipation channel is arranged between the data input module and the storage battery; the main heat dissipation channel is communicated with the air inlet window and the air outlet window, and a fan is arranged in the main heat dissipation channel;

the branch heat dissipation channel comprises a first branch heat dissipation channel and two second branch heat dissipation channels, and the first branch heat dissipation channel is arranged between the first equipment cavity and the second equipment cavity and communicated with the main heat dissipation channel; the two second branch heat dissipation channels are respectively arranged between the main heat dissipation channel and the data input module and between the main heat dissipation channel and the storage battery and are communicated with the main heat dissipation channel.

As another embodiment of the present application, temperature sensors are disposed in the first branch heat dissipation channel and the second branch heat dissipation channel, and the temperature sensors are electrically connected to the fan.

As another embodiment of this application, be equipped with first vertical grid plate in the casing, the casing inner chamber with the help of first vertical grid plate divides into first equipment chamber with the second equipment chamber, a plurality of airflow channel have in the first vertical grid plate, a plurality of in the first vertical grid plate airflow channel forms first branch heat dissipation channel.

As another embodiment of the present application, the first branch heat dissipation channel is communicated with the air outlet window.

As another embodiment of the present application, two second longitudinal grid plates are arranged in the second device cavity at intervals, and the second device cavity is divided into a data input module cavity, a main heat dissipation channel and a storage battery installation cavity by means of the two second longitudinal grid plates; the second longitudinal grid plate is internally provided with a plurality of airflow channels, and the airflow channels in the second longitudinal grid plate form a second branch heat dissipation channel.

As another embodiment of the present application, the fan is disposed on the second longitudinal grid plate.

As another embodiment of the present application, the rear side of the battery is provided with first heat dissipation fins, and the first heat dissipation fins penetrate through the rear side wall plate of the housing and extend to the outside of the housing.

As another embodiment of the present application, the battery is fixed in the housing interior by means of an upper bracket and a lower bracket.

As another embodiment of the present application, a display screen and a manual input key set connected to the data input module are disposed on a front side wall plate of the housing, and the display screen is located on one side of the manual input key set; a communication port, a power switch and a power interface are arranged on the side wall plate of the shell close to the display screen; the air inlet window is arranged on the side wall plate of the shell close to the manual input key group.

As another embodiment of the present application, a second heat dissipation fin is disposed at a rear side of the data processing module group, and the second heat dissipation fin penetrates through a rear side wall plate of the housing and extends to an outer side of the housing.

The device for monitoring the data of the current business has the advantages that: compared with the prior art, the device for monitoring the data of the current business is provided with an air inlet window and an air outlet window on a shell, wherein the air inlet window is arranged on the side wall of the shell, the air outlet window is arranged on a top plate of the shell, air enters a main heat dissipation channel of the shell from the air inlet window and then flows to a first branch heat dissipation channel and a second branch heat dissipation channel from the main heat dissipation channel, flows and exchanges heat in the first branch heat dissipation channel and the second branch heat dissipation channel and then flows back to the main heat dissipation channel or directly flows out from the air outlet window; the device is simple in structure, and solves the problem of poor heat dissipation of the existing device, so that the heat dissipation of the data processing module group and the storage battery in the device can not influence the operation efficiency of the device.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions 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 without creative efforts.

Fig. 1 is a front view of a traffic data monitoring device according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 1;

FIG. 4 is a cross-sectional view taken at C-C of FIG. 1;

fig. 5 is a left side view of a device for monitoring traffic data according to an embodiment of the present invention;

fig. 6 is a right side view of a device for monitoring traffic data according to an embodiment of the present invention;

fig. 7 is a top view of a traffic data monitoring device according to an embodiment of the present invention.

In the figure:

100. a housing;

101. a display screen;

102. an indication key;

103. an input key;

104. an air inlet window;

105. an air outlet window;

200. a first longitudinal grid plate;

201. a fan;

202. a first heat radiation fin;

203. a second longitudinal grid plate;

204. a second heat radiation fin;

300. a data input module;

301. a storage battery;

302. a data processing module group;

400. a communication port;

401. a power interface;

402. and a power switch.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 7, a traffic data monitoring device according to the present invention will now be described. The device for monitoring the traffic data comprises a shell 100, a main heat dissipation channel and branch heat dissipation channels; wherein, the side wall of the shell 100 is provided with an air inlet window 104, and the top plate of the shell 100 is provided with an air outlet window 105; the inner cavity of the shell 100 comprises a first equipment cavity and a second equipment cavity, a data processing module group 302 is installed in the first equipment cavity, and a data input module 300 and a storage battery 301 are installed in the second equipment cavity; the main heat dissipation channel is arranged between the data input module 300 and the storage battery 301; the main heat dissipation channel is communicated with the air inlet window 104 and the air outlet window 105, and a fan 201 is arranged in the main heat dissipation channel; the branch heat dissipation channel comprises a first branch heat dissipation channel and two second branch heat dissipation channels, and the first branch heat dissipation channel is arranged between the first equipment cavity and the second equipment cavity and communicated with the main heat dissipation channel; the two second branch heat dissipation channels are respectively arranged between the main heat dissipation channel and the data input module 300 and between the main heat dissipation channel and the storage battery 301, and are communicated with the main heat dissipation channel.

Compared with the prior art, the device for monitoring the data of the business trip provided by the utility model has the advantages that the air inlet window 104 and the air outlet window 105 are arranged on the shell 100, wherein the air inlet window 104 is arranged on the side wall of the shell 100, the air outlet window 105 is arranged on the top plate of the shell 100, air enters the main heat dissipation channel of the shell 100 from the air inlet window 104 and then flows to the first branch heat dissipation channel and the second branch heat dissipation channel from the main heat dissipation channel, flows and exchanges heat in the first branch heat dissipation channel and the second branch heat dissipation channel, and then flows back to the main heat dissipation channel or directly flows out from the air outlet window 105.

The data processing module group 302 and the storage battery 301 generate the largest heat quantity in the device, a first branch heat dissipation channel is arranged between the data processing module group 302 and the storage battery 301 and is communicated with the main heat dissipation channel, and heat generated by the data processing module group 302 and the storage battery 301 enters the main heat dissipation channel through the first branch heat dissipation channel and is dissipated by the main heat dissipation channel through the air outlet window 105.

The other side of the storage battery 301 is provided with a data input module 300, two side walls of the storage battery 301 and the data input module 300 are respectively provided with a second branch heat dissipation channel, and the storage battery 301 exchanges heat with air in the second branch heat dissipation channels and is communicated with the main heat dissipation channel by virtue of the second branch heat dissipation channels; similarly, the heat generated by the data input module 300 exchanges heat with the main heat dissipation channel via the second branch heat dissipation channel. A fan 201 is provided in the main heat dissipation channel for promoting air flow and increasing heat exchange efficiency.

According to the device for monitoring the data of the business to and from, which is provided by the utility model, through arranging the main heat dissipation channel, the first branch heat dissipation channel and the two second branch heat dissipation channels, the heat in the device is brought out by the gas in the main heat dissipation channel by means of the main heat dissipation channel and the three branch heat dissipation channels; the device is simple in structure, and solves the problem of poor heat dissipation of the existing device, so that the heat dissipation of the data processing module group 302 and the storage battery 301 in the device can not influence the operation efficiency of the device.

Optionally, the data processing module group 302 includes a data receiving module, a data storage module, a data accounting module, a data display module, and the like. The data input module 300 is electrically connected with the data receiving module, and the data content input by the data input module 300 enters the data receiving module, is classified and integrated in the data receiving module, and is then stored in the data storage module. When the data accounting module runs, the data accounting module extracts data from the data storage module and integrates, classifies and calculates the extracted data; the accounting result is still stored in the data storage module.

The data receiving module can obtain data from the outside by means of communication methods such as transmission lines, bluetooth and the like or manually input data by a worker by means of the data input module 300. The data input module 300 is connected with a plurality of keys, and can realize real-time data input.

The housing 100 is provided with connection ports including an input port and an output port. The input port and the output port can be electrically connected with the computer and other equipment to realize data transmission. The connection port also comprises a display connection port which can be connected with a display or screen projection equipment to display data in real time.

In some possible embodiments, a temperature sensor is disposed in each of the first branch heat dissipation channel and the second branch heat dissipation channel, and the temperature sensor is electrically connected to the fan 201.

Specifically, be equipped with temperature-sensing ware in first branch radiating channel and the second branch radiating channel, temperature-sensing ware is used for responding to data processing module group 302 outside ambient temperature and the ambient temperature in the battery 301 outside, when the temperature value that temperature-sensing ware was measured surpassed the limit value, fan 201 with the temperature-sensing ware intercommunication is driven and is opened, fan 201 rotates, the circulation of air in the main radiating channel in the casing 100 accelerates, and then the air flow between main radiating channel and first branch radiating channel and the second branch radiating channel accelerates, and the heat exchange efficiency is improved.

The data processing module group 302 comprises a controller, the controller is electrically connected with the temperature sensor and the fan 201, the temperature sensor transmits the temperature data to the controller, and the controller controls the fan 201 to start and stop.

In some possible embodiments, referring to fig. 4, a first longitudinal grid plate 200 is disposed in the casing 100, the inner cavity of the casing 100 is divided into a first equipment cavity and a second equipment cavity by the first longitudinal grid plate 200, a plurality of airflow channels are disposed in the first longitudinal grid plate 200, and the plurality of airflow channels in the first longitudinal grid plate 200 form a first branch heat dissipation channel.

Specifically, be equipped with first vertical grid plate 200 between first equipment chamber and the second equipment chamber, first vertical grid plate 200 includes a plurality of netted pieces that superpose in proper order and place, and a plurality of netted pieces are all set up at interval, form the airflow channel between two adjacent netted pieces, and a plurality of airflow channels communicate each other with the help of the mesh on the netted piece, form first branch heat dissipation channel.

The plurality of mesh sheets are fixedly overlapped by the edge frame to form a first longitudinal mesh plate 200, one side of the first longitudinal mesh plate 200 is attached to the side wall of the data processing module group 302, and the other side of the first longitudinal mesh plate 200 is attached to the storage battery 301. The lower end of the first longitudinal grid plate 200 is fixed on the bottom plate of the casing 100, the upper end of the first longitudinal grid plate 200 abuts against the top plate of the casing 100, and the first longitudinal grid plate 200 is communicated with the air outlet window 105 arranged on the top plate of the casing 100. The airflow in the first longitudinal grid plate 200 can flow out through the air outlet window 105.

Alternatively, the lower end of the edge frame is bolted to the bottom plate of the case 100, and the upper end of the edge frame is bolted to the top plate of the case 100.

Optionally, the mesh sheet may be made of iron wire, or made of insulating materials such as plastics.

In some possible embodiments, please refer to fig. 2 and fig. 4, two second longitudinal grid plates 203 are arranged at intervals in the second equipment cavity, and the second equipment cavity is divided into a data input module 300 cavity, a main heat dissipation channel and a storage battery 301 installation cavity by the two second longitudinal grid plates 203; the second longitudinal grid plate 203 has a plurality of airflow channels therein, and the plurality of airflow channels in the second longitudinal grid plate 203 form second branch heat dissipation channels.

Specifically, two second longitudinal grid plates 203 are arranged in the second equipment cavity from front to back at intervals, the two second longitudinal grid plates 203 are perpendicular to the first longitudinal grid plate 200, the second longitudinal grid plates 203 are similar to the first longitudinal grid plate 200 in structure, the second longitudinal grid plates also comprise a plurality of sequentially superposed reticular sheets, the reticular sheets are arranged at intervals, airflow channels are formed between every two adjacent reticular sheets, and the airflow channels in the second longitudinal grid plates 203 are communicated with each other through meshes in the reticular sheets to form second branch heat dissipation channels.

A plurality of mesh sheets are fixed by an edge frame to form a second longitudinal mesh plate 203; two second longitudinal grid plates 203 are arranged, wherein one of the two second longitudinal grid plates is arranged on one side of the data input module 300, and the data input module 300 is limited between the front side wall plate of the shell 100 and the second longitudinal grid plate 203; the other is arranged at one side of the storage battery 301, and the storage battery 301 is limited between the rear side wall plate of the shell 100 and the second longitudinal grid plate 203; the main heat dissipation channel is arranged between the two longitudinal grid plates.

Optionally, a fan 201 disposed in the main heat dissipation channel is fixed on the second longitudinal grid plate 203 for disturbing the airflow in the main heat dissipation channel.

Optionally, the inner sides of the air inlet window 104 and the air outlet window 105 are both provided with filter screens.

Optionally, a fan 201 is disposed at a side close to the air inlet window 104 for sucking outside air into the main heat dissipation channel.

In some possible embodiments, referring to fig. 2, the rear side of the battery 301 is provided with a first heat dissipating fin 202, and the first heat dissipating fin 202 extends to the outside of the casing 100 through the rear sidewall plate of the casing 100.

Specifically, the front side of the battery 301 is attached to the second longitudinal grid plate 203, the rear side of the battery 301 is attached to the rear sidewall plate of the housing 100, the rear side of the battery 301 is provided with a plurality of first heat dissipation fins 202, the first heat dissipation fins 202 are arranged on the rear sidewall of the battery 301 at intervals in the horizontal direction, and the length of each first heat dissipation fin 202 is greater than one-half of the length of the battery 301.

The battery 301 further comprises a storage module disposed on a side wall plate adjacent to the housing 100; the front end of the power storage module is abutted against the second longitudinal grid plate 203, and the power storage module is close to the air inlet window 104, so that heat can be discharged in time.

In actual operation, when the current business data monitoring device is connected with a power socket, the power supply is electrically connected with the storage battery 301 while supplying power to the data processing module group 302 for operation, and is used for fully storing the storage battery 301; when the storage battery 301 finishes storing electricity, the connection state with the power socket is automatically cut off. When the current business data monitoring device is not connected with a power socket or is suddenly powered off, the data processing module group 302 is automatically switched to the storage battery 301 for power supply. Due to the arrangement of the storage battery 301, the monitoring device for the data of the current business can still be used in a power-off state, and accidents such as data transmission interruption caused by power-off are reduced.

In some possible embodiments, referring to fig. 2, the accumulator 301 is fixed in the inner cavity of the casing 100 by means of an upper bracket and a lower bracket.

Specifically, the upper and lower ends of the battery 301 are connected to an upper bracket and a lower bracket, respectively, the upper bracket being connected to the top plate of the case 100, and the lower bracket being connected to the bottom plate of the case 100. While the upper and lower brackets function to fix the battery 301, the upper and lower brackets form wiring cavities above and below the battery 301 to facilitate the arrangement and finishing of the electric wires.

An upper wire arranging cavity is formed between the upper support and the top plate of the shell 100, a lower wire arranging cavity is formed between the lower support and the bottom plate of the shell 100, and the upper wire arranging cavity and the lower wire arranging cavity are used for wire arrangement and can realize auxiliary heat dissipation.

The heat of the storage battery 301 is dissipated to the upper wire arranging cavity and the lower wire arranging cavity, and the upper wire arranging cavity exchanges heat with the outside through the air outlet window 105; the lower cable chamber is thermally conductive to the outside through the housing 100.

In some possible embodiments, please refer to fig. 1 to 7, a display screen 101 and a manual input key set connected to the data input module 300 are disposed on a front side wall plate of the casing 100, and the display screen 101 is located at one side of the manual input key set; a communication port 400, a power switch 402 and a power interface 401 are arranged on the side wall plate of the shell 100 close to the display screen 101; the air inlet window 104 is opened on the side wall plate of the casing 100 close to the manual input key group.

Specifically, the display screen 101 is embedded on the front side wall plate of the casing 100, and the data processing module group 302 is arranged on the rear side of the display screen 101 and electrically connected with the display screen 101; a manual input key set is further arranged on the front side wall plate of the casing 100, the manual input key set comprises a plurality of keys, a data input module 300 is arranged on the rear side of the manual input key set, and a main heat dissipation channel and a storage battery 301 are sequentially arranged on the rear side of the data input module 300.

The air intake window 104 is opened in the side wall plate on the right side of the housing 100. A communication port 400, a power switch 402, a power interface 401 and the like are arranged on the side wall plate on the left side of the shell 100 corresponding to the communication port, the communication port 400 comprises an input port and an output port, and the input port is mainly used for connecting equipment such as a computer and a USB flash disk; the output port is mainly used for connecting projection equipment and the like. The power switch 402 is used to control the operation of the data processing module group 302. The power interface 401 is connected to a power line and connected to a power socket via the power line.

Optionally, the communication port 400 includes a serial port, a parallel port, a USB interface, and the like.

Optionally, the manual input key group includes an up-down left-right indication key 102 disposed at the upper portion and a plurality of input keys 103 disposed at the lower portion, and the input keys 103 include 26 letter keys, 10 number keys, an plus key, a minus key, two bracket keys, an enter key, and a delete key. The keys are complete, the character information and the digital information can be recorded, and simple addition and subtraction operations are performed, so that a worker can directly input data information into the business data monitoring device in real time without a computer, and timely updating of the data information is guaranteed.

The device for monitoring the business data of the past and the current can realize the manual input of data information while the power is off in the actual operation, and improves the convenience and the practicability of the device.

In some possible embodiments, referring to fig. 3, the rear side of the data processing module set 302 is provided with a second heat dissipating fin 204, and the second heat dissipating fin 204 penetrates through the rear sidewall plate of the housing 100 and extends to the outside of the housing 100.

Specifically, a plurality of second heat dissipation fins 204 are disposed on the rear side of the data processing module group 302, and the second heat dissipation fins 204 are arranged on the rear side wall of the data processing module group 302 at intervals along the horizontal direction.

Optionally, the second heat dissipation fins 204 are metal fins, the metal fins penetrate through the rear side wall plate of the casing 100, and the length of the metal fins extending out of the casing 100 is greater than the length of the metal fins located in the inner cavity of the casing 100.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A device for monitoring traffic data is characterized by comprising:

the air conditioner comprises a shell, wherein an air inlet window is formed in the side wall of the shell, and an air outlet window is formed in the top plate of the shell; the inner cavity of the shell comprises a first equipment cavity and a second equipment cavity, a data processing module group is installed in the first equipment cavity, and a data input module and a storage battery are installed in the second equipment cavity;

the main heat dissipation channel is arranged between the data input module and the storage battery; the main heat dissipation channel is communicated with the air inlet window and the air outlet window, and a fan is arranged in the main heat dissipation channel;

the branch heat dissipation channel comprises a first branch heat dissipation channel and two second branch heat dissipation channels, and the first branch heat dissipation channel is arranged between the first equipment cavity and the second equipment cavity and communicated with the main heat dissipation channel; the two second branch heat dissipation channels are respectively arranged between the main heat dissipation channel and the data input module and between the main heat dissipation channel and the storage battery and are communicated with the main heat dissipation channel.

2. The traffic data monitoring device according to claim 1, wherein a temperature sensor is disposed in each of the first branch heat dissipation channel and the second branch heat dissipation channel, and the temperature sensor is electrically connected to the fan.

3. The traffic data monitoring device according to claim 2, wherein a first longitudinal grid plate is disposed in the housing, the inner cavity of the housing is divided into the first equipment cavity and the second equipment cavity by the first longitudinal grid plate, the first longitudinal grid plate has a plurality of airflow channels therein, and the plurality of airflow channels in the first longitudinal grid plate form a first branch heat dissipation channel.

4. The traffic data monitoring device of claim 3, wherein the first branch heat dissipation channel is communicated with the air outlet window.

5. The traffic data monitoring device according to claim 2, wherein two second longitudinal grid plates are arranged in the second equipment cavity at intervals, and the second equipment cavity is divided into a data input module cavity, a main heat dissipation channel and a storage battery installation cavity by means of the two second longitudinal grid plates; the second longitudinal grid plate is internally provided with a plurality of airflow channels, and the airflow channels in the second longitudinal grid plate form a second branch heat dissipation channel.

6. The traffic data monitoring device of claim 5, wherein said fan is disposed on said second longitudinal grid plate.

7. The traffic data monitoring device according to claim 1, wherein a first heat dissipating fin is provided on a rear side of the battery, and the first heat dissipating fin extends through a rear side wall plate of the housing to an outside of the housing.

8. The traffic data monitoring device of claim 7, wherein the battery is secured to the housing interior by an upper bracket and a lower bracket.

9. The traffic data monitoring device according to claim 1, wherein a display screen and a manual input key set connected to the data input module are disposed on a front side wall plate of the casing, and the display screen is located on one side of the manual input key set; a communication port, a power switch and a power interface are arranged on the side wall plate of the shell close to the display screen; the air inlet window is arranged on the side wall plate of the shell close to the manual input key group.

10. The traffic data monitoring device according to claim 9, wherein a second heat dissipating fin is disposed on a rear side of the data processing module group, and the second heat dissipating fin extends to an outside of the housing through a rear sidewall plate of the housing.

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