CN212753044U - Environment-friendly data acquisition unit with heat dissipation and dampproofing function - Google Patents

Abstract

The utility model provides an environmental protection data collector with heat dissipation and moisture-proof functions, which comprises a collector body, wherein a box body is fixed at the top of the collector body, a first blower is arranged in the box body, and an air outlet of the first blower is communicated with an air exhaust device; a connecting box is fixed on one side of the box body, a second blower and an electric heating rod are installed in the connecting box, the electric heating rod is located below an air outlet of the second blower, and an air exhaust mechanism is communicated with the connecting box; and the other side of the box body is also provided with a blowing mechanism for blowing wind to the collector body. The utility model discloses have: the heat dissipation efficiency of the environment-friendly data acquisition unit during operation can be improved; when the environment-friendly data collector operates in high-temperature weather, the circulation of air can be accelerated, and the over-high temperature of internal electronic elements when the environment-friendly data collector operates is avoided; in the case where the weather is wet for a long time, a rapid drying process can be performed for water droplets or moisture.

Description

Environment-friendly data acquisition unit with heat dissipation and dampproofing function

Technical Field

The utility model relates to a data collection station technical field especially relates to an environmental protection data collection station with heat dissipation and dampproofing function.

Background

Along with the enhancement of the environment protection of the country, the method adopts stricter management and control on the sewage discharge, waste gas discharge and environment protection facility operation generated by various factories, mines, enterprises and other units; the environment-friendly data acquisition unit is a special data acquisition unit for environment monitoring and pollution source monitoring; the environment-friendly data acquisition unit can automatically realize the monitoring of various water pollution sources and gas pollution sources according to the setting of a user, and automatically acquire and control various front-end instruments.

However, the current environment-friendly data collector is mounted by being attached to a wall, so that the environment-friendly data collector is inconvenient to dissipate heat during operation; meanwhile, a large number of electronic elements are contained in the environment-friendly data collector, and when a large number of electronic elements operate, high heat can be generated, so that the electronic elements in the environment-friendly data collector are easily damaged due to overhigh temperature under the condition of high-temperature weather; when the weather is wet for a long time, water drops or moisture can easily enter the environment-friendly data collector, so that electronic elements in the environment-friendly data collector are wetted, and the electronic elements are short-circuited or burnt during operation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an environment-friendly data collector with heat dissipation and moisture-proof functions, which solves the problem that the environment-friendly data collector has poor heat dissipation effect when in operation; under high-temperature weather, a large number of electronic elements inside the environment-friendly data acquisition unit are easy to damage due to overhigh temperature when running; and when the weather is in a humid state for a long time, water drops or moisture enters the environment-friendly data acquisition unit, so that the problem that the electronic elements are short-circuited or burnt during operation is solved.

In order to solve the technical problem, the utility model discloses specifically adopt following technical scheme:

an environment-friendly data acquisition unit with heat dissipation and moisture prevention functions comprises an acquisition unit body, wherein a box body is fixed at the top of the acquisition unit body, a first air blower is installed in the box body, and an air outlet of the first air blower is communicated with an air exhaust device;

a connecting box is fixed on one side of the box body, a second blower and an electric heating rod are installed in the connecting box, the electric heating rod is located below an air outlet of the second blower, and an air exhaust mechanism is communicated with the connecting box; and the other side of the box body is also provided with a blowing mechanism for blowing wind to the collector body.

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

the utility model discloses have:

1. the heat dissipation efficiency of the environment-friendly data acquisition unit during operation can be improved;

2. when the environment-friendly data collector operates in high-temperature weather, the circulation of air can be accelerated, and the over-high temperature of internal electronic elements when the environment-friendly data collector operates is avoided;

3. under the condition that the weather is wet for a long time, water drops or moisture can be quickly dried, and the water drops or the moisture is prevented from entering the environment-friendly data collector.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic sectional view of the case of the present invention;

fig. 2 is a schematic structural view of the side view of the fixing frame of the present invention;

FIG. 3 is a side view of the ventilation housing of the present invention;

fig. 4 is a schematic structural view of the blowing assembly of the present invention viewed from the bottom;

fig. 5 is a front view of the present invention.

In the figure: 1. a collector body; 2. a box body; 3. a first blower; 4. an air exhaust device; 41. a wind collecting cover; 42. a hollow shaft; 43. a connecting pipe; 44. a fixing frame; 45. grooving; 5. a fixing plate; 6. a connecting box; 7. a second blower; 8. an electric heating rod; 9. an air exhaust mechanism; 91. a vent pipe; 92. a ventilated casing; 93. perforating; 10. a hollow shell; 11. a baffle plate; 12. a blowing mechanism; 121. a fixed box; 122. a third blower; 123. a wind collecting shell; 13. a blowing assembly; 131. a transverse tube; 132. an air outlet pipe; 133. a hollow ring; 14. and (6) a filter cover.

Detailed Description

The following detailed description of the present invention will be made with reference to the accompanying drawings and examples.

As shown in fig. 1 and 5, the utility model provides a technical solution: an environment-friendly data acquisition unit with heat dissipation and moisture prevention functions comprises an acquisition unit body 1, wherein a box body 2 is fixed at the top of the acquisition unit body 1, a first air blower 3 is installed in the box body 2, and an air outlet of the first air blower 3 is communicated with an air exhaust device 4;

a connecting box 6 is fixed on one side of the box body 2, a second blower 7 and an electric heating rod 8 are installed in the connecting box 6, the electric heating rod 8 is located below an air outlet of the second blower 7, and an air exhaust mechanism 9 is communicated with the connecting box 6; the other side of the box body 2 is also provided with a blowing mechanism 12 which blows wind to the collector body 1.

As shown in fig. 1 and 2, the exhaust device 4 includes an air collecting cover 41 communicated with the air outlet of the first blower 3, the air collecting cover 41 is communicated with a connecting pipe 43, the other end of the connecting pipe 43 is communicated with a hollow rod 42 penetrating through the box body 2, a fixing frame 44 uniformly distributed on the hollow rod 42 is vertically arranged on the fixing frame 44 and the hollow rod 42, an air outlet is arranged in the fixing frame 44, the connecting part of the bottom of the fixing frame 44 and the hollow rod 42 is provided with an air outlet, the fixing frame 44 is connected with the back of the collector body 1, and slots 45 are formed around the fixing frame 44. After wind blown out from the air outlet of the first air blower 3 enters the air collecting cover 41, wind power enters the hollow rod 42 through the connecting pipe 43, then enters the air outlet channel in the fixed frame 44 through the wind outlet, and is finally discharged through the air outlet channel in the fixed frame 44, so that the wind power is blown to the back of the collector body 1, and the collector body 1 is cooled; the hollow bars 42 are arranged in a rectangular shape, so that workers can conveniently install the fixing frame 44 on the hollow bars 42, and meanwhile, the hollow bars 42 are uniformly distributed, so that the coverage of wind blown by the first blower 3 can be increased; the slot on the fixing frame 44 can disperse wind on the back of the collector body 1, thereby enlarging the area blown by the wind and improving the heat dissipation effect on the collector body 1.

As shown in fig. 1 and 3, the exhaust mechanism 9 includes a ventilation pipe 91, one end of the ventilation pipe 91 is communicated with the connection box 6, the other end of the ventilation pipe 91 is communicated with a ventilation shell 92, the ventilation shell 92 is hollow, the ventilation shell 92 is located on the side surface of the collector body 1, and a through hole 93 for blowing wind to the back surface of the collector body 1 is formed in one side of the ventilation shell 92 close to the collector body 1. When the weather is wet, and a lot of water drops or moisture exist on the collector body 1, the electric heating rod 8 is started, the air blown out by the second blower 7 enters the ventilation pipe 91 through the electric heating rod 8 and then enters the ventilation shell 92 to be discharged through the through hole 93, and the water drops and the moisture on the back of the collector body 1 can be dried by the air with a certain temperature, so that the water drops and the moisture are prevented from entering the collector body 1.

As shown in fig. 3, the front surface of the ventilation shell 92 is communicated with a hollow shell 10, and a hole is formed in one side of the hollow shell 10 close to the collector body 1. Part of the wind entering the ventilation shell 92 is blown into the hollow shell 10 and then discharged through the holes in the hollow shell 10, and the wind with certain temperature dries the water drops and moisture on the front surface of the collector body 1.

As shown in fig. 3 and 5, a baffle plate 11 is fixed between the ventilation shell 92 and the collector body 1, and the baffle plate 11 is positioned between the perforation 93 and the hollow shell 10. The baffle 11 can block the gap between the vent housing 92 and the collector body 1 so that all of the air exiting through the perforations 93 can be directed to the back of the collector body 1.

As shown in fig. 1 and 5, the blowing mechanism 12 includes a fixed box 121 fixed to the other side of the box body 2, a third blower 122 is installed in the fixed box 121, an air outlet of the third blower 122 is communicated with an air collecting shell 123, and the air collecting shell 123 is communicated with the blowing assembly 13. When the weather temperature is too high, when the electronic component operating duration in collector body 1 is too long, can start third hair-dryer 122, make wind-force get into behind the wind-collecting shell 123, wind rethread blows subassembly 13 and blows to collector body 1's the back, cooperates first blower 3 to carry out more effectual heat dissipation to collector body 1.

As shown in fig. 1 and 4, the blowing assembly 13 includes a horizontal pipe 131, an air outlet pipe 132 and a hollow ring 133, the horizontal pipe 131 is communicated with the air outlet pipe 132, the air outlet pipe 132 is perpendicular to the horizontal pipe 131, and the other end of the air outlet pipe 132 penetrates through the box body 2; the hollow ring 133 is positioned between two adjacent transverse pipes 131 and is communicated with the two transverse pipes 131, and the connecting pipe 43 penetrates through the inner side of the hollow ring 133; the horizontal tube 131 penetrates the box body 2 and the fixed box 121 to be communicated with the wind collecting shell 123. The third blower 122 blows air into the air collecting shell 123, and after entering the horizontal pipe 131, the air is blown out through the air outlet pipe 132, so that the collector body 1 is further cooled; meanwhile, due to the arrangement of the multiple groups of transverse pipes 131, air outlet pipes 132 and hollow rings 133, the whole back of the collector body 1 can be completely blown by the air blown by the third air blower 122, so that the collector body 1 can be effectively cooled, the circulation of air is accelerated, and heat generated when electronic elements inside the collector body 1 run is taken away; and the wind direction of first blower 3 and third hair-dryer 122 wind-force output is vertically setting, improvement that can the maximize is to collector body 1's cooling effect and circulation of air efficiency.

As shown in fig. 1 and 5, a fixing plate 5 is fixed to the bottom of the box body 2, and the fixing plate 5 is connected to the back of the hollow rod 42; a filter cover 14 is fixed on the fixing plate 5, and the filter cover 14 is connected with the collector body 1. The fixing plate 5 can increase the firmness of the hollow rod 42, so that the hollow rod 42 is prevented from loosening, meanwhile, workers can fix the fixing plate 5 on a wall, and the back of the collector body 1 is prevented from being directly contacted with the wall; the filter cover 14 is arranged in an L shape, so that a gap between the collector body 1 and the fixing plate 5 can be blocked, and dust is prevented from entering the back of the collector body 1; the fixing plate 5 is also coupled to the side of the ventilation case 92, so that the firmness of the ventilation case 92 can be increased.

When in use: the first blower 3, the second blower 7, the electric heating rod 8 and the third blower 122 are connected with a control element inside the collector body 1 through a buried transmission line, so that a worker can remotely control the collector body through a computer; when the weather temperature is high and the electronic elements in the collector body 1 are in a running state, starting the first air blower 3, after wind blown out from the air outlet of the first air blower 3 enters the air collecting cover 41, wind power enters the hollow rod 42 through the connecting pipe 43, and then the wind power is discharged through the fixing frame 44, so that the wind power blows to the back of the collector body 1, and the collector body 1 is cooled; meanwhile, the third blower 122 can be started, so that after wind power enters the wind collecting shell 123, the wind enters the transverse pipe 131 and is blown out through the wind outlet pipe 132, the collector body 1 is further cooled, and the collector body 1 can be subjected to more effective heat dissipation treatment by matching with the first blower 3; when the weather is wet, and a lot of water drops or moisture exist on the collector body 1, the electric heating rod 8 is started, the air blown out by the second blower 7 enters the ventilation pipe 91 through the electric heating rod 8 and then enters the ventilation shell 92 to be discharged through the through hole 93, and the water drops and the moisture on the back of the collector body 1 can be dried by the air with a certain temperature, so that the water drops and the moisture are prevented from entering the collector body 1.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. The utility model provides an environmental protection data collection station with heat dissipation and dampproofing function, includes the collector body, its characterized in that: a box body is fixed at the top of the collector body, a first blower is installed in the box body, and an air outlet of the first blower is communicated with an air exhaust device;

a connecting box is fixed on one side of the box body, a second blower and an electric heating rod are installed in the connecting box, the electric heating rod is located below an air outlet of the second blower, and an air exhaust mechanism is communicated with the connecting box; and the other side of the box body is also provided with a blowing mechanism for blowing wind to the collector body.

2. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 1, characterized in that: the exhaust device comprises a wind collecting cover communicated with the air outlet of the first blower, a connecting pipe is communicated with the wind collecting cover, the other end of the connecting pipe is communicated with a hollow rod penetrating through the box body, a uniformly distributed fixing frame is arranged on the hollow rod, the fixing frame is perpendicular to the hollow rod, an air outlet channel is arranged in the fixing frame, the air outlet is formed in the bottom of the fixing frame and the joint of the hollow rod, the fixing frame is connected with the back of the collector body, and the periphery of the fixing frame is provided with grooves.

3. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 1, characterized in that: the exhaust mechanism comprises a ventilation pipe, one end of the ventilation pipe is communicated with the connecting box, the other end of the ventilation pipe is communicated with a ventilation shell, the ventilation shell is arranged in a hollow mode and is located on the side face of the collector body, and a through hole for blowing wind power to the back face of the collector body is formed in one side, close to the collector body, of the ventilation shell.

4. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 3, wherein the environment-friendly data acquisition unit comprises: the front of the ventilation shell is communicated with a hollow shell, and one side of the hollow shell, which is close to the collector body, is provided with a hole.

5. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 4, wherein the environment-friendly data acquisition unit comprises: a baffle is fixed between the ventilation shell and the collector body and is positioned between the perforation and the hollow shell.

6. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 2, characterized in that: the blowing mechanism comprises a fixed box fixed on the other side of the box body, a third blower is installed in the fixed box, an air outlet of the third blower is communicated with an air collecting shell, and a blowing assembly is communicated with the air collecting shell.

7. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 6, wherein: the air blowing assembly comprises a transverse pipe, an air outlet pipe and a hollow ring, the transverse pipe is communicated with the air outlet pipe, the air outlet pipe is perpendicular to the transverse pipe, and the other end of the air outlet pipe penetrates through the box body; the hollow ring is positioned between two adjacent transverse pipes and communicated with the two transverse pipes, and the connecting pipe penetrates through the inner side of the hollow ring; the transverse pipe penetrates through the box body and the fixed box and is communicated with the air collecting shell.

8. The environment-friendly data acquisition unit with the heat dissipation and moisture prevention functions as claimed in claim 2, characterized in that: a fixed plate is fixed at the bottom of the box body and is connected with the back of the hollow rod; and a filter cover is fixed on the fixing plate and connected with the collector body.

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