CN216748401U - Real-time monitoring equipment for chemical synthesis process - Google Patents
Real-time monitoring equipment for chemical synthesis process Download PDFInfo
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- CN216748401U CN216748401U CN202123065734.2U CN202123065734U CN216748401U CN 216748401 U CN216748401 U CN 216748401U CN 202123065734 U CN202123065734 U CN 202123065734U CN 216748401 U CN216748401 U CN 216748401U
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Abstract
The utility model relates to a camera field especially relates to a real time monitoring equipment of chemical synthesis technology. The real-time monitoring equipment of chemical synthesis technology includes camera main part, and camera main part one end gomphosis has the lens, still includes: the electric heating wire is arranged at the end part of the camera main body and is positioned right below the lens, and water drops attached to the lens are roasted by heat emitted by the electric heating wire; the flow guide assembly is arranged inside the camera body and drives the air flow to blow on the heating wire. The utility model provides an among the real-time monitoring equipment of chemical synthesis technology, the heating wire of setting can produce the heat, when radiating on the drop of water on the lens for the evaporation of drop of water, and the water conservancy diversion subassembly of setting can accelerate the flow of air, and direct action is on the heating wire simultaneously for the thermal radiating speed around the heating wire, and the evaporation of drop of water also can be accelerated in the flow of air current simultaneously, plays clear effect to the lens.
Description
Technical Field
The utility model relates to a camera field especially relates to a real time monitoring equipment of chemical synthesis technology.
Background
A CAMERA (CAMERA or WEBCAM), also known as a computer CAMERA, a computer eye, an electronic eye, etc., is a video input device, and is widely used in video conferences, telemedicine, real-time monitoring, etc.
When carrying out some comparatively dangerous chemistry experiments, can use the camera to replace the manual work to carry out real-time control usually, and some experiments can produce the higher steam of temperature, and during on the lens in steam adhesion and the camera, can form the drop of water, lead to the camera to shelter from, shoot definition greatly reduced.
Therefore, there is a need to provide a new real-time monitoring device for chemical synthesis process to solve the above technical problems.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides a real-time monitoring equipment of chemical synthesis technology.
The utility model provides a real-time monitoring equipment of chemical synthesis technology, including the camera main part, camera main part one end gomphosis has the lens, still includes: the electric heating wire is arranged at the end part of the camera main body and is positioned right below the lens, and water drops attached to the lens are roasted by heat emitted by the electric heating wire; the flow guide assembly is installed inside the camera main body and drives the air flow to blow on the heating wire.
Preferably, a fixing seat is fixedly embedded at one end of the camera main body, an arc-shaped accommodating groove is formed in the upper end of the fixing seat, and the electric heating wire is installed inside the accommodating groove.
Preferably, an embedding groove is formed in the camera body, and the flow guide assembly is clamped inside the embedding groove.
Preferably, the water conservancy diversion subassembly includes the joint in the inside mount pad of caulking groove, the inside fixed mounting of mount pad has a plurality of driving motor, arbitrary driving motor.
Preferably, the end part of the camera main body is further provided with an air inlet communicated with the caulking groove, a flow guide channel communicated with the caulking groove is arranged in the camera main body, and an exhaust pipe communicated with the flow guide channel is embedded in the end part of the camera main body and positioned above the fixed seat.
Preferably, the exhaust pipe is divided into two groups, the two groups are close to two ends of the fixing seat, an included angle is formed between the exhaust pipe and the vertical surface, and the output port of the exhaust pipe faces the middle position of the fixing seat.
Preferably, the upper end of the camera main body is further provided with an exhaust hole, and the camera main body is fixedly embedded with a flow guide seat.
Compared with the prior art, the utility model provides a real-time monitoring equipment of chemical synthesis technology has following beneficial effect:
the utility model provides an among the real time monitoring equipment of chemical synthesis technology, the heating wire of setting can produce the heat, when radiating on the drop of water on the lens for the evaporation of drop of water, and the water conservancy diversion subassembly of setting can accelerate the flow of air, and direct action is on the heating wire simultaneously for the thermal radiating speed around the heating wire, and the evaporation of drop of water can be accelerated equally to the flow of air current simultaneously, plays clear effect to the camera lens.
Drawings
Fig. 1 is a schematic structural diagram of a preferred embodiment of the real-time monitoring apparatus for a chemical synthesis process according to the present invention.
Fig. 2 is a schematic structural view of the camera body shown in fig. 1.
Fig. 3 is a schematic structural view of the flow guide assembly shown in fig. 1.
Fig. 4 is a sectional structural schematic view of the camera body shown in fig. 1.
Reference numbers in the figures: 1. a camera body; 2. a lens; 3. caulking grooves; 4. a flow guide assembly; 41. a mounting seat; 42. a drive motor; 43. a fan blade; 5. an air inlet; 6. a flow guide channel; 7. an exhaust pipe; 8. a fixed seat; 9. an electric heating wire; 10. an exhaust hole; 11. a flow guide seat.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, 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 invention and are not intended to limit the invention.
The following detailed description is provided for the specific embodiments of the present invention.
Referring to fig. 1 to 4, an embodiment of the present invention provides a real-time monitoring device for a chemical synthesis process, which includes a camera body 1, a lens 2 for protection is embedded in an end portion of the camera body 1, a heating wire 9 is further disposed at the end of the camera body 1, an embedding groove 3 is further disposed on the camera body 1, and a flow guiding assembly 4 is connected to an inner portion of the embedding groove 3.
It should be noted that: in the device, heat emitted by the heating wire 9 can be directly radiated to the position of the lens 2, so that water drops on the lens 2 are promoted to evaporate, and the condition that the shooting is influenced by the water drops on the lens 2 can be effectively avoided;
it should also be noted that: the flow guide assembly 4 is used for accelerating the flow of air, and the flowing air current acts on the electric heating wire 9, so that the heat diffusion can be promoted, and when the formed hot air current flows through the surface of the lens 2, the effect of water droplet evaporation is better;
it should also be noted that: inside water conservancy diversion subassembly 4 is fixed in camera main part 1 with the mode of joint, consequently all more convenient and fast when installation and dismantlement.
In an embodiment of the present invention, please refer to fig. 1 and fig. 3, the flow guiding assembly 4 includes a mounting seat 41 clamped inside the caulking groove 3, a plurality of driving motors 42 are fixedly mounted inside the mounting seat 41, and a fan blade 43 is embedded in an output end of any driving motor 42;
meanwhile, the end part of the camera main body 1 is also provided with an air inlet 5 communicated with the caulking groove 3, a flow guide channel 6 communicated with the caulking groove 3 is arranged inside the camera main body 1, and an exhaust pipe 7 communicated with the flow guide channel 6 is embedded at the end part of the camera main body 1 and above the fixed seat 8;
and blast pipe 7 has two sets altogether, and is close to the both ends of fixing base 8, and blast pipe 7 and vertical face form the contained angle, and the output port of blast pipe 7 is towards fixing base 8 middle part position.
It should be noted that: the driving motor 42 in the diversion assembly 4 drives the fan blades 43 to rotate at a high speed, so that gas enters the diversion channel 6 along the air inlet 5 outside the camera body 1 and is discharged from the exhaust pipe 7, and the gas can be directly blown on the electric heating wire 9;
it should also be noted that: the upper end of the fixed seat 8 for installing the electric heating wire 9 is an arc-shaped groove, so that the air flow impacting on the inner wall flows upwards along the inner wall, and flows through the surface of the lens 2, namely, the purpose of evaporating water drops is achieved.
In an embodiment of the present invention, referring to fig. 1 and fig. 4, an exhaust hole 10 is further formed at the upper end of the camera body 1, and a flow guiding seat 11 is fixedly embedded in the camera body 1.
It should be noted that: after the air current along lens 2 upflow impacted in camera main part 1 interior top, partly discharge from exhaust hole 10, the other part can be followed the inner wall and spread all around mutually, flowed into inside water conservancy diversion seat 11 to along 11 inner walls of water conservancy diversion seats impact on lens 2 once more, further promote the speed of drop of water evaporation.
The utility model discloses circuit and control that relate to are prior art, do not carry out too much repetition here.
The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.
Claims (7)
1. The utility model provides a real-time monitoring equipment of chemical synthesis technology, includes camera main part (1), and camera main part (1) one end gomphosis has lens (2), its characterized in that still includes:
the electric heating wire (9), the electric heating wire (9) is installed at the end part of the camera main body (1) and is positioned under the lens (2);
the camera comprises a flow guide assembly (4), wherein the flow guide assembly (4) is installed inside the camera body (1), and the flow guide assembly (4) drives air flow to blow on the heating wire (9).
2. The real-time monitoring equipment for the chemical synthesis process according to claim 1, wherein a fixed seat (8) is fixedly embedded at one end of the camera body (1), an arc-shaped containing groove is formed at the upper end of the fixed seat (8), and the electric heating wire (9) is installed inside the containing groove.
3. The real-time monitoring equipment for the chemical synthesis process according to claim 2, wherein the camera body (1) is provided with an embedded groove (3), and the flow guide assembly (4) is clamped in the embedded groove (3).
4. The real-time monitoring equipment for the chemical synthesis process according to claim 3, wherein the flow guide assembly (4) comprises a mounting seat (41) clamped inside the caulking groove (3), a plurality of driving motors (42) are fixedly mounted inside the mounting seat (41), and fan blades (43) are embedded at the output ends of any driving motor (42).
5. The real-time monitoring equipment for the chemical synthesis process according to claim 4, wherein an air inlet (5) communicated with the caulking groove (3) is further formed at the end of the camera main body (1), a flow guide channel (6) communicated with the caulking groove (3) is formed in the camera main body (1), and an exhaust pipe (7) communicated with the flow guide channel (6) is embedded at the end of the camera main body (1) and above the fixed seat (8).
6. The real-time monitoring equipment for the chemical synthesis process according to claim 5, wherein the exhaust pipes (7) are divided into two groups, the two groups are close to two ends of the fixed seat (8), the exhaust pipes (7) form an included angle with a vertical surface, and an output port of each exhaust pipe (7) faces to the middle position of the fixed seat (8).
7. The real-time monitoring equipment for the chemical synthesis process according to claim 6, wherein the upper end of the camera main body (1) is further provided with an exhaust hole (10), and the camera main body (1) is fixedly embedded with a flow guide seat (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123065734.2U CN216748401U (en) | 2021-12-08 | 2021-12-08 | Real-time monitoring equipment for chemical synthesis process |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123065734.2U CN216748401U (en) | 2021-12-08 | 2021-12-08 | Real-time monitoring equipment for chemical synthesis process |
Publications (1)
Publication Number | Publication Date |
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CN216748401U true CN216748401U (en) | 2022-06-14 |
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CN202123065734.2U Active CN216748401U (en) | 2021-12-08 | 2021-12-08 | Real-time monitoring equipment for chemical synthesis process |
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CN (1) | CN216748401U (en) |
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2021
- 2021-12-08 CN CN202123065734.2U patent/CN216748401U/en active Active
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