阅读说明：本技术 实时监控的热成像监视仪 (Real-time monitoring thermal imaging monitor ) 是由 顾娟 于 2020-11-12 设计创作，主要内容包括：本发明公开了实时监控的热成像监视仪,属于热成像监视仪技术领域,包括仪器壳、驱动电机、传动蜗轮、卡扣件、第二蜗杆和安装刷块,所述仪器壳的正面外壁上转动安装有外壳；本发明通过在内安装有驱动电机,驱动电机可带动驱动齿轮与传动蜗轮转动,由于在热像仪外部的检测探头安装有可旋转的外壳,同时在外壳内安装有可控的清洁棉,在平常热像仪不工作时,可开启驱动电机,驱动电机带动驱动齿轮转动,由于驱动齿轮与外壳的外部安装的啮合齿之间具有齿轮连接关系,可带动外壳持续转动,对于检测探头进行有效清洁处理,同时驱动转动的传动蜗轮可同时带动侧边的传动蜗杆转动,从而带动散热风扇转动,可快速将装置内工作的热量快速散失。(The invention discloses a thermal imaging monitor for real-time monitoring, which belongs to the technical field of thermal imaging monitors and comprises an instrument shell, a driving motor, a transmission worm gear, a fastener, a second worm and an installation brush block, wherein a shell is rotatably installed on the outer wall of the front side of the instrument shell; the driving motor is arranged in the thermal imager, the driving motor can drive the driving gear and the transmission worm gear to rotate, the rotatable shell is arranged on the detection probe outside the thermal imager, and the controllable cleaning cotton is arranged in the shell, so that the driving motor can be started when the thermal imager does not work normally, the driving motor drives the driving gear to rotate, the shell can be driven to continuously rotate due to the fact that the driving gear and the meshing teeth arranged outside the shell are in gear connection, the detection probe can be effectively cleaned, meanwhile, the transmission worm gear which drives the rotation can simultaneously drive the transmission worm on the side to rotate, the cooling fan is driven to rotate, and heat which works in the thermal imager can be rapidly dissipated.)

1. Real time monitoring's thermal imaging monitor, including instrument shell (1), driving motor (6), transmission worm wheel (7), buckle spare (17), second worm (23) and installation brush piece (26), its characterized in that: the device comprises an instrument shell (1), a shell (2) is rotatably mounted on the outer wall of the front face of the instrument shell (1), a driving motor (6) is fixedly mounted inside the instrument shell (1), a driving gear (5) and a transmission worm wheel (7) are fixedly mounted on a rotating shaft mounted at one end of an output shaft of the driving motor (6), a first worm (8) and a second worm (23) are rotatably mounted on the inner wall of one side of the instrument shell (1) through bearings, and a driving bevel gear (24) is fixedly mounted in a side shell cavity of the instrument shell (1) in a penetrating and extending mode at one end of the first worm (8);

inside groove (16) have been seted up to the inside of shell (2), fixed mounting has inner guide rail (15) on the inner wall of inside groove (16), and the inside fixed mounting of inside groove (16) has outer top spring (14), slidable mounting has connecting axle (19) on inner guide rail (15), fixed mounting has lug (18) on one side outer wall of connecting axle (19), the top fixed connection of the bottom of outer top spring (14) and connecting axle (19), buckle spare (17) are installed to lug (18) both sides on being located one side outer wall of shell (2).

2. A real-time monitored thermal imaging monitor according to claim 1, wherein a mounting base (12) is fixedly mounted at the bottom of the instrument housing (1), and a lifting bracket (13) is fixedly mounted at the bottom of the mounting base (12).

3. A real-time monitoring thermal imaging monitor according to claim 1, wherein the outer wall of the housing (2) is fixedly provided with engaging teeth (4), and the driving gear (5) is engaged with the engaging teeth (4).

4. A real-time monitored thermal imaging monitor according to claim 1, wherein the first worm (8) and the second worm (23) have the same length specification, and the first worm (8) and the second worm (23) are respectively connected with the transmission worm wheel (7) in an intermeshing manner.

5. The real-time monitoring thermal imaging monitor according to claim 1, wherein two sides of the instrument shell (1) are provided with side heat dissipation ports (21), the inside of each side heat dissipation port (21) is rotatably provided with a reciprocating lead screw (9) through a shaft sleeve, the outside of each reciprocating lead screw (9) is fixedly provided with a driven bevel gear (25), and the driving bevel gear (24) and the driven bevel gear (25) are in meshed connection.

6. The real-time monitoring thermal imaging monitor according to claim 5, wherein the dustproof heat dissipation net (20) is detachably mounted in the side heat dissipation port (21), a bottom inclined groove (22) is arranged in the side heat dissipation port (21), the external thread of the reciprocating screw rod (9) is provided with a mounting brush block (26), and the mounting brush block (26) is in contact with and presses against the side wall of the dustproof heat dissipation net (20).

7. A real-time monitored thermal imaging monitor according to claim 1, wherein said snap (17) is comprised of a mounting shaft (171), a snap bar (172), a torsion spring (173) and a bushing (174), said mounting shaft (171) being rotatably mounted in the bushing (174), said torsion spring (173) being fixedly mounted outside the mounting shaft (171).

8. The thermal imaging monitor for real-time monitoring according to claim 7, wherein one end of the torsion spring (173) is fixedly connected with the top surface of the shaft sleeve (174), the fastening strip (172) is fixedly installed on the outer wall of one side of the installation shaft (171), and one end of the fastening strip (172) is fastened and embedded in a fastening groove formed on the projection (18).

9. The real-time monitoring thermal imaging monitor according to claim 4, wherein the second worm (23) is externally and fixedly provided with a cooling fan (10), and the outer wall of the front surface of the instrument shell (1) is fixedly provided with a detection probe (11).

10. The thermal imaging monitor for real-time monitoring according to claim 1, wherein the cleaning cotton (3) is fixedly installed on the outer wall of one side of the connecting shaft (19), the outer surface of the shell (2) is provided with a stroke groove, and the bump (18) is positioned in the stroke groove.

Technical Field

The invention belongs to the technical field of thermal imaging monitors, and particularly relates to a thermal imaging monitor for real-time monitoring.

Background

The infrared thermal imager uses an infrared detector, an optical imaging objective lens and an optical scanning system (the optical scanning system is omitted in the current advanced focal plane technology) to receive the infrared radiation energy distribution pattern of a detected target and reflect the infrared radiation energy distribution pattern on a photosensitive element of the infrared detector, an optical scanning mechanism (the focal plane thermal imager does not have the optical scanning mechanism) is arranged between the optical system and the infrared detector to scan the infrared thermal image of the detected target and focus on a unit or a light splitting detector, the infrared radiation energy is converted into an electric signal by the detector, the infrared thermal image is displayed by a television screen or a monitor after amplification processing and conversion or a standard video signal, and some public occasions need the monitor to work in real time and continuously.

The Chinese patent discloses (CN201922392426.7) an explosion-proof thermal imager, which comprises an explosion-proof thermal imager outer cover main body, wherein one end of the explosion-proof thermal imager outer cover main body is provided with a lens cover mechanism, the lens cover mechanism is in threaded connection with the explosion-proof thermal imager outer cover main body, the lower end surface of the explosion-proof thermal imager outer cover main body is provided with a rotating instrument mechanism, the lower end surface of the rotating instrument mechanism is provided with a handle block, the outer wall of the handle block is provided with an anti-skidding paster, the rotating instrument mechanism is fixedly connected with the handle block, the rotating instrument mechanism is rotatably connected with the explosion-proof thermal imager outer cover main body, the thermal imager can be placed inside the explosion-proof thermal imager outer cover main body through the arrangement of the explosion-proof thermal imager outer cover main body and the lens cover mechanism, so that the thermal imager can be effectively protected, and the lens cover mechanism can protect a camera lens of the thermal imager, and the, through the setting of rotating appearance mechanism, when the staff is using the thermal imaging system to rotate the direction, can avoid rocking because of human rotation brings, and the setting of antiskid paster, can strengthen staff's hand and the device's frictional force, reduce the probability that drops, but this thermal imaging system does not install the structure of being convenient for heat dissipation and deashing including, the radiating effect that leads to this thermal imaging system is not good, and can't effectively clear up the dust on detecting the head, single structure, the functionality is lower, need carry out certain improvement.

Disclosure of Invention

The invention aims to: the thermal imaging monitor for real-time monitoring is provided for solving the problems that the thermal imager is not internally provided with a structure which is convenient for heat dissipation and dust removal, so that the thermal imager has poor heat dissipation effect, can not effectively clean dust on a detection head, and has a single structure and lower functionality.

In order to achieve the purpose, the invention adopts the following technical scheme: the thermal imaging monitor comprises an instrument shell, a driving motor, a transmission worm gear, a clamping part, a second worm and an installation brush block, wherein a shell is rotatably installed on the outer wall of the front face of the instrument shell, the driving motor is fixedly installed inside the instrument shell, a driving gear and the transmission worm gear are fixedly installed on a rotating shaft installed at one end of an output shaft of the driving motor, a first worm and a second worm are rotatably installed on the inner wall of one side of the instrument shell through a bearing, and one end of the first worm penetrates through and extends into a side shell cavity of the instrument shell to be fixedly provided with a driving bevel gear;

the inside of shell has been seted up the inside groove, and fixed mounting has the inner guide rail on the inner wall of inside groove, and the inside fixed mounting of inside groove has outer top spring, slidable mounting has the connecting axle on the inner guide rail, fixed mounting has the lug on one side outer wall of connecting axle, the bottom of outer top spring and the top fixed connection of connecting axle, the lug both sides are located and install buckle spare on one side outer wall of shell.

As a further description of the above technical solution:

the bottom fixed mounting of instrument shell has the mount pad, the bottom fixed mounting of mount pad has lifting support.

As a further description of the above technical solution:

the outer wall of the shell is fixedly provided with meshing teeth, and the driving gear is meshed with the meshing teeth.

As a further description of the above technical solution:

the length specifications of the first worm and the second worm are consistent, and the first worm and the second worm are respectively meshed with the transmission worm wheel.

As a further description of the above technical solution:

the two sides of the instrument shell are provided with side heat dissipation ports, reciprocating screws are rotatably mounted in the side heat dissipation ports through shaft sleeves, driven bevel gears are fixedly mounted on the outer portions of the reciprocating screws, and the driving bevel gears are meshed with the driven bevel gears.

As a further description of the above technical solution:

the dustproof heat dissipation net is detachably mounted in the side heat dissipation port, a bottom chute is arranged in the side heat dissipation port, the mounting brush block is mounted on the outer portion of the reciprocating lead screw in a threaded mode, and the mounting brush block is in contact with and extrudes the side wall of the dustproof heat dissipation net.

As a further description of the above technical solution:

the buckle spare comprises installation axle, buckle strip, distortion spring and axle sleeve, the installation axle rotates and installs in the axle sleeve, distortion spring fixed mounting is in the outside of installation axle.

As a further description of the above technical solution:

one end of the torsion spring is fixedly connected with the top surface of the shaft sleeve, the buckle strip is fixedly arranged on the outer wall of one side of the mounting shaft, and one end of the buckle strip is clamped in a buckle groove formed in the convex block.

As a further description of the above technical solution:

and a cooling fan is fixedly arranged outside the second worm, and a detection probe is fixedly arranged on the outer wall of the front surface of the instrument shell.

As a further description of the above technical solution:

the cleaning cotton is fixedly installed on the outer wall of one side of the connecting shaft, a stroke groove is formed in the outer surface of the shell, and the convex block is located in the stroke groove.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the driving motor is arranged in the thermal imager, the driving motor can drive the driving gear and the transmission worm gear to rotate, the rotatable shell is arranged on the detection probe outside the thermal imager, and the controllable cleaning cotton is arranged in the shell, so that the driving motor can be started when the thermal imager does not work, the driving motor drives the driving gear to rotate, the shell can be driven to continuously rotate due to the gear connection relationship between the driving gear and the meshing teeth arranged outside the shell, the detection probe can be effectively cleaned, and meanwhile, the transmission worm gear which drives the rotation can simultaneously drive the transmission worm on the side edge to rotate, so that the cooling fan is driven to rotate, and the heat of work in the device can be rapidly dissipated.

2. According to the invention, the side heat dissipation port is formed in the side surface of the device, the reciprocating screw rod is arranged in the side heat dissipation port, the mounting brush block is arranged on the reciprocating screw rod, the driven bevel gear is arranged at the other end of the reciprocating screw rod, the driving bevel gear at one end of the driving worm at one side is meshed with the driven bevel gear, when the driving motor is started during operation, the first worm can drive the reciprocating screw rod to rotate while heat dissipation is carried out in the device, the back-and-forth lifting process of mounting the brush block is realized, a good and effective dust cleaning effect is realized on the dustproof heat dissipation net, dust is prevented from being attached to the heat dissipation net during heat dissipation, and the heat dissipation effect.

3. According to the invention, the bottom chute is designed at the inner bottom of the side heat dissipation port, dust falls into the bottom chute after dust removal is carried out on the dustproof heat dissipation net every time, and falls to the outside of the device through the bottom chute, so that accumulation of the dust is avoided, and the cleaning effect is ensured.

Drawings

FIG. 1 is a partial cross-sectional view of a front view of a real-time monitoring thermal imaging monitor.

Fig. 2 is an enlarged schematic view of a thermal imaging monitor at a site for real-time monitoring.

Fig. 3 is an enlarged schematic perspective view of a fastening member in a thermal imaging monitor for real-time monitoring.

FIG. 4 is an enlarged side view of the instrument housing of the thermal imaging monitor for real-time monitoring;

FIG. 5 is an enlarged schematic view of the thermal imaging monitor at B for real-time monitoring;

FIG. 6 is an enlarged schematic view of the thermal imaging monitor at C for real-time monitoring;

fig. 7 is an enlarged schematic view of the thermal imaging monitor at D for real-time monitoring.

Illustration of the drawings:

1. an instrument housing; 2. a housing; 3. cleaning cotton; 4. meshing teeth; 5. a drive gear; 6. a drive motor; 7. a drive worm gear; 8. a first worm; 9. a reciprocating screw; 10. a heat radiation fan; 11. detecting a probe; 12. a mounting seat; 13. a lifting support; 14. an outer top spring; 15. an inner guide rail; 16. an inner tank; 17. a fastener; 171. installing a shaft; 172. a snap strip; 173. a torsion spring; 174. a shaft sleeve; 18. a bump; 19. a connecting shaft; 20. a dustproof heat dissipation net; 21. a side heat dissipation port; 22. a bottom chute; 23. a second worm; 24. a drive bevel gear; 25. a driven bevel gear; 26. and installing the brush block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the thermal imaging monitor for real-time monitoring comprises an instrument shell 1, a driving motor 6, a transmission worm wheel 7, a buckling part 17, a second worm 23 and a mounting brush block 26, wherein a shell 2 is rotatably mounted on the outer wall of the front surface of the instrument shell 1, a mounting seat 12 is fixedly mounted at the bottom of the instrument shell 1, a lifting support 13 is fixedly mounted at the bottom of the mounting seat 12, the lifting support 13 is fixedly mounted at the bottom of the mounting seat 12 through the mounting seat 12, and when thermal imaging detection is usually carried out, the device can be directly erected at a detection area for real-time monitoring;

a driving motor 6 is fixedly arranged inside the instrument shell 1, a driving gear 5 and a transmission worm wheel 7 are fixedly arranged on a rotating shaft arranged at one end of an output shaft of the driving motor 6, meshing teeth 4 are fixedly arranged on the outer wall of the shell 2, the driving gear 5 and the meshing teeth 4 are in meshed connection through the installation of the meshing teeth 4, the driving motor 6 is started, the driving motor 6 can drive the driving gear 5 and the transmission worm wheel 7 to rotate, the shell 2 can be driven to continuously rotate due to the gear connection relationship between the driving gear 5 and the meshing teeth 4 arranged outside the shell 2, a first worm 8 and a second worm 23 are rotatably arranged on the inner wall of one side of the instrument shell 1 through a bearing, one end of the first worm 8 penetrates through and extends into a side shell cavity of the instrument shell 1, and a driving bevel gear 24 is fixedly arranged in, the length specifications of the first worm 8 and the second worm 23 are consistent, the first worm 8 and the second worm 23 are respectively meshed with the transmission worm wheel 7 by enabling the length specifications of the first worm 8 and the second worm 23 to be consistent, and the transmission worm wheel 7 can rotate to drive the first worm 8 and the second worm 23 to rotate simultaneously;

the two sides of the instrument shell 1 are respectively provided with a side heat dissipation port 21, the inside of the side heat dissipation port 21 is rotatably provided with a reciprocating screw 9 through a shaft sleeve, the outside of the reciprocating screw 9 is fixedly provided with a driven bevel gear 25, the driving bevel gear 24 is mutually meshed and connected with the driven bevel gear 25, a dustproof heat dissipation net 20 is detachably arranged in the side heat dissipation port 21, the inside of the side heat dissipation port 21 is provided with a bottom chute 22, the outside of the reciprocating screw 9 is provided with an installation brush block 26 through threads, the installation brush block 26 is mutually contacted and extruded with the side wall of the dustproof heat dissipation net 20, the inside of the side heat dissipation port 21 is rotatably provided with the reciprocating screw 9 through the shaft sleeve, the outside of the reciprocating screw 9 is fixedly provided with the driven bevel gear 25, the driving bevel gear 24 is mutually meshed and connected with the driven bevel gear 25, and the dustproof heat dissipation net 20 is detachably arranged, the inside of the side heat dissipation port 21 is provided with a bottom chute 22, the external thread of the reciprocating screw 9 is provided with an installation brush block 26, the installation brush block 26 is contacted with and extruded with the side wall of the dustproof heat dissipation net 20, simultaneously, the driving motor 6 is started to drive the transmission worm wheel 7 to rotate, the transmission worm wheel 7 and the first worm 8 are meshed to drive the first worm 8 to rotate and drive the driving bevel gear 24 to rotate, the reciprocating screw 9 can be driven to rotate due to the meshed connection relationship between the driving bevel gear 24 and the driven bevel gear 25, the back-and-forth lifting process of the installation brush block 26 is realized, the dust removal effect on the dustproof heat dissipation net 20 is good and effective, when heat dissipation is avoided, dust is attached to the dustproof heat dissipation net 20, the heat dissipation effect of the dustproof heat dissipation net 20 is continuously maintained, when dust is removed, the dust falls into the bottom chute 22 and slides to the outside of the device through the bottom chute 22, the cleaning effect is ensured;

the inner groove 16 is formed in the outer shell 2, the inner guide rail 15 is fixedly mounted on the inner wall of the inner groove 16, the outer top spring 14 is fixedly mounted in the inner groove 16, the connecting shaft 19 is slidably mounted on the inner guide rail 15, the convex block 18 is fixedly mounted on the outer wall of one side of the connecting shaft 19, the bottom end of the outer top spring 14 is fixedly connected with the top end of the connecting shaft 19, the buckling pieces 17 are mounted on the outer wall of one side of the outer shell 2 on two sides of the convex block 18, each buckling piece 17 is composed of a mounting shaft 171, a buckling strip 172, a twisting spring 173 and a shaft sleeve 174, the mounting shaft 171 is rotatably mounted in the shaft sleeve 174, the twisting spring 173 is fixedly mounted outside the mounting shaft 171, one end of the buckling strip 172 is fixedly mounted on the outer wall of one side of the mounting shaft 171, one end of the buckling strip 172 is clamped in a buckling groove formed in the convex, by installing the buckling piece 17, the buckling piece 17 is composed of an installation shaft 171, a buckling strip 172, a torsion spring 173 and a shaft sleeve 174, the installation shaft 171 is rotatably installed in the shaft sleeve 174, the torsion spring 173 is fixedly installed outside the installation shaft 171, one end of the torsion spring 173 is fixedly connected with the top surface of the shaft sleeve 174, the buckling strip 172 is fixedly installed on the outer wall of one side of the installation shaft 171, one end of the buckling strip 172 is clamped and embedded in a buckling groove formed in the bump 18, and the buckling piece 17 can well position the adjusted bump 18, is convenient to use and has a good positioning effect;

the outer wall of one side of the connecting shaft 19 is fixedly provided with the cleaning cotton 3, the outer surface of the shell 2 is provided with a stroke groove, the lug 18 is positioned in the stroke groove and fixedly provided with the cleaning cotton 3, the outer surface of the shell 2 is provided with the stroke groove, so that the lug 18 is positioned in the stroke groove, when the device is used in normal times, the device is arranged at the region position to be detected, a detection probe 11 of the device is aligned with an object to be detected, an opening device is used for monitoring through the detection probe 11, a driving motor 6 is started, the driving motor 6 can drive a driving gear 5 and a transmission worm wheel 7 to rotate, because the detection probe outside the thermal imager is provided with the rotatable shell 2, and meanwhile, the controllable cleaning cotton 3 is arranged in the shell 2, when the thermal imager does not work in normal times, the driving motor 6 can be opened, and the driving gear 5, because the driving gear 5 and the meshing teeth 4 arranged outside the shell 2 have a gear connection relationship, the shell 2 can be driven to continuously rotate, the detection probe 11 can be effectively cleaned, and meanwhile, the lug 18 can effectively slide in the stroke groove;

outside fixed mounting of second worm 23 has radiator fan 10, fixed mounting has test probe 11 on the positive outer wall of instrument shell 1, and through installing radiator fan 10, driving motor 6 opens and to drive transmission worm wheel 7 and rotate, and drive pivoted transmission worm wheel 7 can drive the second worm 23 rotation of side simultaneously to drive radiator fan 10 and rotate, can scatter and disappear fast the heat of work in the device, through installing test probe 11, this test probe 11 can effectively carry out the thermal imaging to the region and detect.

The working principle is as follows: when the device is used in normal times, the device is installed at the position of an area needing to be detected, the effective position of the cleaning cotton 3 is adjusted, after the position of the cleaning cotton 3 is effectively and quickly adjusted, the buckling piece 17 can be directly clamped in the buckling groove of the convex block 18 to complete the positioning of the convex block 18, so that the cleaning cotton 3 has a good positioning effect, the detection probe 11 of the device is aligned with an object to be detected, the opening device is monitored through the detection probe 11, the driving motor 6 is started, the driving motor 6 can drive the driving gear 5 and the transmission worm wheel 7 to rotate, because the detection probe outside the thermal imager is provided with the rotatable shell 2, and meanwhile, the controllable cleaning cotton 3 is installed in the shell 2, when the thermal imager does not work, the driving motor 6 can be started, the driving motor 6 drives the driving gear 5 to rotate, and because the gear connection relationship exists between the driving gear 5 and the meshing teeth 4 installed outside the shell 2, can drive the shell 2 to continuously rotate, carry out effective cleaning treatment on the detection probe 11, simultaneously drive the rotating transmission worm wheel 7 to simultaneously drive the second worm 23 on the side edge to rotate, thereby driving the cooling fan 10 to rotate, rapidly dissipate the heat of the work in the device, simultaneously start the driving motor 6 to also drive the transmission worm wheel 7 to rotate, due to the meshing relationship between the transmission worm wheel 7 and the first worm 8, drive the first worm 8 to rotate, drive the driving bevel gear 24 to rotate, due to the meshing relationship between the driving bevel gear 24 and the driven bevel gear 25, drive the reciprocating lead screw 9 to rotate, realize the back and forth lifting process of the installation brush block 26, have good and effective dust cleaning effect on the dustproof cooling net 20, when avoiding heat dissipation, dust is attached to the dustproof cooling net 20, continuously maintain the heat dissipation effect of the dustproof cooling net 20, when cleaning dust, the dust can fall into the bottom chute 22, through the bottom chute 22 sliding to the outside of the device, the accumulation of dust is avoided, and the cleaning effect is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.