CN112376814B - Infrared lamp plate intelligence rain insensitive equipment - Google Patents

Abstract

For solving above-mentioned technical problem, an infrared lamp plate intelligence rain insensitive device, collect controlling means, antiskid, rain insensitive device including the rainwater, collect controlling means through the rainwater and collect the rainwater and store then discharge when reacing certain volume then carry out interlocking control to other devices, antiskid can guarantee that rain insensitive device during operation is more accurate, and rain insensitive device protects functions such as its characterized in that to infrared lamp plate: the rainwater collection control device is movably arranged on the rainproof device, and the antiskid device is fixedly arranged on the rainproof device.

Description

Infrared lamp plate intelligence rain insensitive equipment

Technical Field

The invention relates to intelligent rainproof equipment, in particular to intelligent rainproof equipment with an infrared lamp panel.

Background

With the development of the development era of science and technology, intelligent machinery is introduced in more and more industries, and an infrared lamp panel is required to work in some outdoor places, but due to outdoor weather, the intelligent rainproof equipment with the infrared lamp panel is invented.

Disclosure of Invention

The invention relates to intelligent rainproof equipment for an infrared lamp panel, in particular to intelligent rainproof equipment for the infrared lamp panel.

For solving above-mentioned technical problem, an infrared lamp plate intelligence rain insensitive device, collect controlling means, antiskid, rain insensitive device including the rainwater, collect controlling means through the rainwater and collect the rainwater and store then discharge when reacing certain volume then carry out interlocking control to other devices, antiskid can guarantee that rain insensitive device during operation is more accurate, and rain insensitive device protects functions such as its characterized in that to infrared lamp plate: the rainwater collection control device is movably arranged on the rainproof device, and the antiskid device is fixedly arranged on the rainproof device.

As a further optimization of the technical scheme, the rainwater collection control device of the intelligent rainproof device with the infrared lamp panel comprises a fixed square cylinder, a movable cylinder, a collection funnel, a connecting plate, a pushing column, a sliding plate, a spring, a rotating shaft, a pushing plate of the rainwater collection control device, a water baffle, an arc-shaped spring, a second spring, a limiting ball, a first rotating shaft, a gear, a driving belt wheel, a driving belt, a second driving shaft, a receiving belt wheel, a driving gear, a sliding baffle and a rack, wherein the movable cylinder is slidably mounted on the fixed square cylinder, the movable cylinder is fixedly mounted on the connecting plate, the collection funnel is fixedly mounted on the movable cylinder, the connecting plate is fixedly mounted on the pushing column, the pushing column is fixedly mounted on the sliding plate, the sliding plate is slidably mounted inside the fixed square cylinder, the spring is rotatably mounted on the movable cylinder, the pushing plate of the rainwater collection control device is fixedly mounted on the rotating shaft, a pushing plate of a rainwater collection control device is slidably mounted inside a movable cylinder, a water baffle is mounted and fixed on a rotating shaft, an arc spring is mounted and fixed on the pushing plate of the rainwater collection control device, the arc spring is mounted and fixed inside the movable cylinder, a second spring is mounted inside the water baffle, a limiting ball is slidably mounted inside the water baffle, a first rotating shaft is rotatably mounted inside a fixed square cylinder, a gear is mounted and fixed on the first rotating shaft, the gear is meshed with the movable cylinder, a driving belt wheel is mounted and fixed on the first rotating shaft, a driving belt is mounted on the driving belt wheel and a receiving belt wheel, a second driving shaft is rotatably mounted inside the fixed square cylinder, the receiving belt wheel is mounted and fixed on the second driving shaft, a transmission gear is mounted and fixed on the second driving shaft, a sliding baffle is slidably mounted inside the fixed square cylinder, a rack is mounted and fixed on the sliding baffle, and the rack is meshed with the transmission gear.

As a further optimization of the technical scheme, the anti-slip device of the intelligent rainproof equipment with the infrared lamp panel comprises a mounting frame, a third rotating shaft, a pushing plate of the anti-slip device, a toothed barrel, a rack plate, a fixed sliding barrel, a spring baffle, a third spring, an operating pushing plate, a sliding seat, a connecting sliding plate, a fixed bolt, a fourth spring, a mounting shaft, a limiting block, a sliding cavity, a second pushing plate and a second arc-shaped spring, wherein the third rotating shaft is rotatably mounted on the mounting frame, the pushing plate of the anti-slip device is fixedly mounted on the toothed barrel, the toothed barrel is fixedly mounted on the third rotating shaft, the rack plate is slidably mounted on the fixed sliding barrel, the rack plate is meshed with the toothed barrel, the spring baffle is fixedly mounted on the rack plate, the third spring is sleeved on the rack plate, the operating pushing plate is fixedly mounted on the rack plate, the sliding seat is fixedly mounted on the connecting sliding plate, and the connecting sliding plate is slidably mounted on the fixed bolt, the spring four suit is on the gim peg, and installation axle rotates and installs on connecting the sliding plate, and the stopper installation is fixed on installing the axle, and the sliding chamber sets up on connecting the sliding plate, and the installation of slurcam two is fixed on installing the axle, and slurcam two slidable mounting is in the sliding chamber portion, and the installation of arc spring two is fixed on slurcam two, and the installation of arc spring two is fixed in the sliding chamber.

As a further optimization of the technical scheme, the rainproof device of the intelligent rainproof equipment with the infrared lamp panel comprises a water passing tank, a water inlet hole, a pushing impeller, a fourth rotating shaft, a third driving belt wheel, a third driving belt, a rainproof box, a third driving shaft, a third output bevel gear, a third water inlet belt wheel, a transmission gear with a connecting shaft, a receiving bevel gear, a fixed shaft sleeve, a rotating internal thread cylinder, a third receiving gear, a lifting thread column, a third mounting plate and a force storage power assisting device, wherein the fixed square cylinder is fixedly arranged on the water passing tank, the mounting frame is fixedly arranged on the water passing tank, the water inlet hole is formed in the water passing tank, the pushing impeller is fixedly arranged on the fourth rotating shaft, the fourth rotating shaft is rotatably arranged on the water passing tank, the third driving belt wheel is fixedly arranged on the fourth rotating shaft, the third driving belt wheel and the third water inlet belt wheel, the rainproof box is fixedly arranged on the water passing tank, the three-rotation type power storage device is characterized in that a transmission shaft is installed on a rain-proof box in a three-rotation mode, a third output bevel gear is installed and fixed on the third transmission shaft, a third water inlet belt wheel is installed and fixed on the third transmission shaft, a sliding seat is installed on the rain-proof box in a sliding mode, a transmission gear with a connecting shaft is installed and fixed on the rain-proof box in a rotating mode, a receiving bevel gear is installed and fixed on the transmission gear with the connecting shaft, the transmission gear with the connecting shaft is meshed with the receiving bevel gear in a three-meshing mode, the receiving bevel gear is meshed with the output bevel gear in a three-meshing mode, a fixed shaft sleeve is installed and fixed on the rain-proof box, a third rotating internal thread cylinder is installed and fixed on a fixed shaft sleeve in a rotating mode, a lifting thread cylinder is installed on the rotating internal thread cylinder, a lifting thread cylinder is in threaded fit with the rotating internal thread cylinder, a third installation plate is installed and fixed on a lifting thread cylinder, a power storage assisting device is installed and fixed on a fourth rotating shaft.

According to the intelligent rainproof device with the infrared lamp panel, the number of the fixed shaft sleeves, the number of the rotary internal thread cylinders, the number of the receiving gears III and the number of the lifting thread columns are four, the accumulated amount is accumulated when the rotary shaft IV rotates, and then the rotary shaft IV is driven to reversely rotate when the rotary shaft IV does not rotate.

The intelligent rainproof device for the infrared lamp panel has the beneficial effects that:

the invention relates to intelligent rainproof equipment for an infrared lamp panel, in particular to intelligent rainproof equipment for the infrared lamp panel, which realizes the functions of collecting and storing rainwater through a rainwater collection control device, then discharging the rainwater when a certain amount of rainwater is reached, and then carrying out interlocking control on other devices, wherein an anti-skid device can ensure that the rainproof device is more accurate in working, and the rainproof device can protect the infrared lamp panel.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the rainwater collection control device of the present invention.

Fig. 4 is a schematic structural view of a rainwater collection control device of the present invention.

Fig. 5 is a third schematic structural view of the rainwater collection and control device of the present invention.

Fig. 6 is a fourth schematic structural view of the rainwater collection and control device of the present invention.

Fig. 7 is a fifth structural schematic diagram of the rainwater collection control device of the present invention.

Fig. 8 is a sixth schematic structural view of the rainwater collection and control device of the present invention.

Fig. 9 is a first structural schematic diagram of the anti-skid device of the present invention.

Fig. 10 is a schematic structural view of an anti-slip device according to the present invention.

Fig. 11 is a third schematic structural view of the anti-skid device of the present invention.

Fig. 12 is a first schematic structural view of the rain protection device of the present invention.

Fig. 13 is a schematic structural view of the rain protection device of the present invention.

Fig. 14 is a third schematic structural view of the rain protection device of the present invention.

In the figure: a rainwater collection control device 1; 1-1 of a fixed square cylinder; 1-2 of a movable cylinder; 1-3 of a collection funnel; connecting plates 1-4; 1-5 of a pushing column; a slide plate 1-6; 1-7 of a spring; 1-8 of a rotating shaft; a push plate 1-9 of the rainwater collection control device; 1-10 parts of a water baffle; 1-11 parts of arc-shaped spring; 1-12 parts of a second spring; 1-13 parts of a limiting ball; 1-14 of a first rotating shaft; gears 1-15; drive pulleys 1-16; 1-17 of a transmission belt; a second transmission shaft 1-18; receiving pulleys 1-19; transmission gears 1-20; 1-21 of a sliding baffle; racks 1-22; an anti-skid device 2; a mounting frame 2-1; rotating a third 2-2 shaft; a pushing plate 2-3 of the antiskid device; 2-4 parts of a gear barrel; rack plates 2-5; 2-6 parts of a fixed sliding cylinder; 2-7 parts of a spring baffle plate; 2-8 parts of a spring; controlling the pushing plate 2-9; 2-10 of a sliding seat; connecting the sliding plates 2-11; 2-12 parts of a fixing bolt; 2-13 parts of spring; mounting shafts 2-14; 2-15 parts of a limiting block; 2-16 of a sliding cavity; 2-17 of a second pushing plate; 2-18 parts of arc-shaped spring; a rain-proof device 3; 3-1 of a water tank; a water inlet hole 3-2; pushing the impeller 3-3; rotating the shaft four by 3-4; a third transmission belt wheel 3-5; 3-6 parts of a transmission belt; 3-7 parts of a rain-proof box, and 3-8 parts of a transmission shaft III; output bevel gears three 3-9; 3-10 parts of a water inlet belt wheel; transfer gears 3-11 with connecting shafts; receiving bevel gears 3-12; 3-13 parts of a fixed shaft sleeve; rotating the internal thread cylinder 3-14; receiving a third gear 3-15; lifting the threaded columns 3-16; mounting plates III 3-17; and power storage and assisting devices 3-18.

Detailed Description

The first embodiment is as follows:

following combine fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 for solving above-mentioned technical problem, an infrared lamp plate intelligence rain insensitive device, collect controlling means 1 including the rainwater, antiskid 2, rain insensitive device 3, collect controlling means through the rainwater and collect the rainwater and store then discharge when reacing certain volume then carry out interlocking control to other devices, antiskid can guarantee rain insensitive device during operation more accurate, rain insensitive device protects functions such as infrared lamp plate, its characterized in that: the rainwater collection control device 1 is movably arranged on the rainproof device 3, and the antiskid device 2 is fixedly arranged on the rainproof device 3. The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment further describes the embodiment, wherein the rainwater collection control device 1 comprises a fixed square tube 1-1, a movable tube 1-2, a collection funnel 1-3, a connecting plate 1-4, a pushing column 1-5, a sliding plate 1-6, a spring 1-7, a rotating shaft 1-8, a pushing plate 1-9 of the rainwater collection control device, a water baffle 1-10, an arc spring 1-11, a spring II 1-12, a limiting ball 1-13, a rotating shaft I1-14, a gear 1-15, a transmission belt wheel 1-16, a transmission belt 1-17, a transmission shaft II 1-18, a receiving belt wheel 1-19, a transmission belt wheel 1-16, a transmission belt wheel 1-17, a receiving belt wheel 1-19, Firstly, in rainy days, the device judges according to the size of rainwater that the rainwater reaches the specification, the rainwater can be collected in the collecting funnel 1-3, the collecting funnel 1-3 pushes the movable cylinder 1-2 to move downwards in the fixed square cylinder 1-1 along with the increase of water amount, then the movable cylinder 1-2 compresses the spring 1-7 through the connecting plate 1-4, the pushing column 1-5 and the sliding plate 1-6, meanwhile, in the process that the movable cylinder 1-2 moves downwards, the movable cylinder 1-2 reaches the rotation of the gear 1-15, the gear 1-15 drives the transmission belt wheel 1-16 to rotate through the first rotating shaft 1-14, the transmission belt wheel 1-16 drives the receiving belt wheel 1-19 to rotate through the transmission belt 1-17, the receiving belt wheels 1-19 drive the transmission gears 1-20 to rotate through the transmission shafts two 1-18, the rotating transmission gears 1-20 drive the racks 1-22 to move outwards, the racks 1-22 drive the sliding baffles 1-21 to move and then open the lower ends of the fixed square cylinders 1-1 to discharge water, the components given by the springs two 1-12 and the limiting balls 1-13 cannot support the water baffles 1-10 at the current positions of the water baffles 1-10 with the increase of water amount, the water baffles 1-10 rotate around the rotating shafts 1-8 and compress the arc springs 1-11 through the push plates 1-9 of the rainwater collection control device, and then the water in the collection funnels 1-3 enters the water passing tanks 3-1 of the rainproof device 3 through the fixed square cylinders 1-1 and the movable cylinders 1-2, the movable cylinder 1-2 is slidably mounted on the fixed square cylinder 1-1, the movable cylinder 1-2 is fixedly mounted on the connecting plate 1-4, the collecting funnel 1-3 is fixedly mounted on the movable cylinder 1-2, the connecting plate 1-4 is fixedly mounted on the pushing column 1-5, the pushing column 1-5 is fixedly mounted on the sliding plate 1-6, the sliding plate 1-6 is slidably mounted inside the fixed square cylinder 1-1, the spring 1-7 is mounted inside the fixed square cylinder 1-1, the rotating shaft 1-8 is rotatably mounted on the movable cylinder 1-2, the pushing plate 1-9 of the rainwater collection control device is fixedly mounted on the rotating shaft 1-8, the pushing plate 1-9 of the rainwater collection control device is slidably mounted inside the movable cylinder 1-2, and the water baffle 1-10 is fixedly mounted on the rotating shaft 1-8, an arc spring 1-11 is fixedly arranged on a pushing plate 1-9 of a rainwater collection control device, the arc spring 1-11 is fixedly arranged inside a movable cylinder 1-2, a spring II 1-12 is arranged inside a water baffle 1-10, a limiting ball 1-13 is slidably arranged inside the water baffle 1-10, a rotating shaft I1-14 is rotatably arranged inside a fixed square cylinder 1-1, a gear 1-15 is fixedly arranged on the rotating shaft I1-14, the gear 1-15 is meshed with the movable cylinder 1-2, a transmission belt wheel 1-16 is fixedly arranged on the rotating shaft I1-14, a transmission belt 1-17 is arranged on a transmission belt wheel 1-16 and a receiving belt wheel 1-19, a transmission shaft II 1-18 is rotatably arranged inside the fixed square cylinder 1-1, the receiving belt wheel 1-19 is fixedly arranged on a transmission shaft II 1-18, the transmission gear 1-20 is fixedly arranged on the transmission shaft II 1-18, the sliding baffle 1-21 is slidably arranged in the fixed square barrel 1-1, the rack 1-22 is fixedly arranged on the sliding baffle 1-21, and the rack 1-22 is meshed with the transmission gear 1-20.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and the embodiment further describes the embodiment, where the antiskid device 2 includes a mounting frame 2-1, a rotating shaft three 2-2, a pushing plate 2-3 of the antiskid device, a toothed barrel 2-4, a rack plate 2-5, a fixed sliding barrel 2-6, a spring baffle 2-7, a spring three 2-8, an operation pushing plate 2-9, a sliding seat 2-10, a connecting sliding plate 2-11, a fixed bolt 2-12, a spring four 2-13, a mounting shaft 2-14, a limiting block 2-15, a sliding cavity 2-16, a pushing plate two 2-17, and an arc spring two 2-18, the pushing plate 2-3 of the antiskid device drives the toothed barrel 2-4 to rotate, the rack barrel 2-4 can pull up the rack plate 2-5, the rack plate 2-5 drives the control push plate 2-9 to move, the control push plate 2-9 pushes the sliding seat 2-10 to move towards the inner part of the rainproof box 3-7, then the limiting block 2-15 enters the inner part of the rainproof box 3-7, when the mounting plate three 3-17 moves upwards, the limiting block 2-15 can be pushed to rotate around the mounting shaft 2-14 through the limiting block 2-15, the mounting shaft 2-14 drives the push plate two 2-17 to rotate in the sliding cavity 2-16 to compress the arc spring two 2-18, then when the mounting plate three 3-17 passes through, the arc spring two 2-18 resets the limiting block 2-15, after an accident occurs, as long as the water inlet hole 3-2 continues to discharge water, the push plate 2-3 of the antiskid device can swing downwards the sliding seat 2-10 to push the limiting block 2-9 The block 2-15 is arranged inside the rainproof box 3-7 to prevent the mounting plate three 3-17 from sliding off, the rotating shaft three 2-2 is rotatably arranged on the mounting frame 2-1, the pushing plate 2-3 of the antiskid device is fixedly arranged on the toothed barrel 2-4, the toothed barrel 2-4 is fixedly arranged on the rotating shaft three 2-2, the rack plate 2-5 is slidably arranged on the fixed sliding barrel 2-6, the rack plate 2-5 is meshed with the toothed barrel 2-4, the spring baffle plate 2-7 is fixedly arranged on the rack plate 2-5, the spring three 2-8 is sleeved on the rack plate 2-5, the control pushing plate 2-9 is fixedly arranged on the rack plate 2-5, the sliding seat 2-10 is fixedly arranged on the connecting sliding plate 2-11, the connecting sliding plate 2-11 is slidably arranged on the fixed bolt 2-12, the spring IV 2-13 is sleeved on the fixed bolt 2-12, the mounting shaft 2-14 is rotatably mounted on the connecting sliding plate 2-11, the limiting block 2-15 is fixedly mounted on the mounting shaft 2-14, the sliding cavity 2-16 is arranged on the connecting sliding plate 2-11, the pushing plate II 2-17 is fixedly mounted on the mounting shaft 2-14, the pushing plate II 2-17 is slidably mounted inside the sliding cavity 2-16, the arc spring II 2-18 is fixedly mounted on the pushing plate II 2-17, and the arc spring II 2-18 is fixedly mounted on the sliding cavity 2-16.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14. the second embodiment is further described, wherein the rain-proof device 3 comprises a water passing tank 3-1, a water inlet hole 3-2, a pushing impeller 3-3, a rotating shaft four 3-4, a driving belt wheel three 3-5, a driving belt wheel three 3-6, a rain-proof tank 3-7, a driving shaft three 3-8, an output bevel gear three 3-9, a water inlet belt wheel three 3-10, a transmission gear 3-11 with a connecting shaft, a receiving bevel gear 3-12, a fixed shaft sleeve 3-13, a rotating internal thread cylinder 3-14, a receiving gear three 3-15, a lifting thread column 3-16, a mounting plate three 3-17 and a power storage assisting device 3-18, the water flow flowing out of the water inlet hole 3-2 impinges on the pushing impeller 3-3 to drive the pushing impeller 3-3 to rotate, the pushing impeller 3-3 drives the driving belt wheel three 3-5 to rotate through the rotating shaft four 3-4, the driving belt wheel three 3-5 drives the water inlet belt wheel three 3-10 to rotate through the driving belt three 3-6, the water inlet belt wheel three 3-10 drives the output bevel gear three 3-9 to rotate through the driving shaft three 3-8, the output bevel gear three 3-9 drives the receiving bevel gear 3-12 to rotate, the receiving bevel gear 3-12 drives the transmission gear 3-11 with a connecting shaft to rotate, the transmission gear 3-11 with the connecting shaft drives the receiving gear three 3-15 to rotate, the receiving gear three 3-15 drives the rotating internal thread cylinder 3-14 to rotate, the rotating rotary internal thread cylinder 3-14 enables the lifting thread column 3-16 to move upwards and then pulls up the mounting plate three 3-17, then the power storage assisting device 3-18 stores part of energy output by the rotary shaft four 3-4, then drives the rotary shaft four 3-4 to rotate when the rain is stopped, then the mounting plate three 3-17 is put back, water flowing out through the water inlet 3-2 can collide on the pushing plate 2-3 of the anti-skid device, the fixed square cylinder 1-1 is fixedly arranged on the water passing tank 3-1, the mounting frame 2-1 is fixedly arranged on the water passing tank 3-1, the water inlet 3-2 is arranged on the water passing tank 3-1, the pushing impeller 3-3 is fixedly arranged on the rotary shaft four 3-4, the rotary shaft four 3-4 is rotatably arranged on the water passing tank 3-1, a third driving belt wheel 3-5 is fixedly arranged on a fourth rotating shaft 3-4, a third driving belt 3-6 is arranged on a third driving belt wheel 3-5 and a third water inlet belt wheel 3-10, a rain-proof box 3-7 is fixedly arranged on a third water passing box 3-1, a third driving shaft 3-8 is rotatably arranged on a rain-proof box 3-7, a third output bevel gear 3-9 is fixedly arranged on a third driving shaft 3-8, a third water inlet belt wheel 3-10 is fixedly arranged on a third driving shaft 3-8, a sliding seat 2-10 is slidably arranged on the rain-proof box 3-7, a transmitting gear 3-11 with a connecting shaft is rotatably arranged on the rain-proof box 3-7, a receiving bevel gear 3-12 is fixedly arranged on a transmitting gear 3-11 with a connecting shaft, the transmitting gear 3-11 with a connecting shaft is meshed with the third receiving gear 3-15, the receiving bevel gears 3-12 are meshed with the output bevel gears three 3-9, the fixed shaft sleeves 3-13 are fixedly installed on the rain-proof boxes 3-7, the rotating internal thread cylinders 3-14 are rotatably installed on the fixed shaft sleeves 3-13, the receiving bevel gears three 3-15 are fixedly installed on the rotating internal thread cylinders 3-14, the lifting thread columns 3-16 are in thread fit with the rotating internal thread cylinders 3-14, the mounting plates three 3-17 are fixedly installed on the lifting thread columns 3-16, the power storage assisting devices 3-18 are fixedly installed on the rain-proof boxes 3-7, and the power storage assisting devices 3-18 are installed on the rotating shafts four 3-4. The fifth concrete implementation mode:

the fourth embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14. the fourth embodiment is further described, where four fixed bushings 3-13, four rotatable internally threaded cylinders 3-14, four receiving gears 3-15, and four lifting threaded cylinders 3-16 are provided, and the accumulated amount is accumulated when the rotating shaft four 3-4 rotates, and then the rotating shaft four 3-4 is driven to rotate in the reverse direction when the rotating shaft four 3-4 does not rotate.

The working principle of the invention is as follows:

the working principle of the intelligent rainproof device with the infrared lamp panel is that whether the connection condition between the devices meets the requirements is checked before the intelligent rainproof device is used, firstly, in rainy days, the device can judge according to the size of rainwater, when the rainwater reaches the specification, the rainwater can be collected in the collecting funnel 1-3, the collecting funnel 1-3 can push the movable cylinder 1-2 to move downwards in the fixed square cylinder 1-1 along with the increase of water amount, then the movable cylinder 1-2 compresses the spring 1-7 through the connecting plate 1-4, the pushing column 1-5 and the sliding plate 1-6, meanwhile, in the process that the movable cylinder 1-2 moves downwards, the movable cylinder 1-2 achieves the rotation of the gear 1-15, the gear 1-15 drives the transmission belt wheel 1-16 to rotate through the first rotating shaft 1-14, the transmission belt wheels 1-16 drive the receiving belt wheels 1-19 to rotate through the transmission belts 1-17, the receiving belt wheels 1-19 drive the transmission gears 1-20 to rotate through the transmission shafts two 1-18, the rotating transmission gears 1-20 drive the racks 1-22 to move outwards, the racks 1-22 drive the sliding baffles 1-21 to move, then the lower ends of the fixed square cylinders 1-1 are opened with a plurality of discharge openings, the weight of the springs two 1-12 and the limiting balls 1-13 cannot be supported at the current positions of the water baffles 1-10 along with the increase of water quantity, the water baffles 1-10 can rotate around the rotating shafts 1-8, the arc-shaped springs 1-11 are compressed through the push plates 1-9 of the rainwater collection control device, and then the water in the collection funnels 1-3 can enter the rainproof device through the fixed square cylinders 1-1 and the movable cylinders 1-2 The water flowing out of the water passing tank 3-1 in the device 3 through the water inlet hole 3-2 impacts on the pushing impeller 3-3 to drive the pushing impeller 3-3 to rotate, the pushing impeller 3-3 drives the driving belt wheel three 3-5 to rotate through the rotating shaft four 3-4, the driving belt wheel three 3-5 drives the water inlet belt wheel three 3-10 to rotate through the driving belt three 3-6, the water inlet belt wheel three 3-10 drives the output bevel gear three 3-9 to rotate through the driving shaft three 3-8, the output bevel gear three 3-9 drives the receiving bevel gear 3-12 to rotate, the receiving bevel gear 3-12 drives the transmission gear 3-11 with a connecting shaft to rotate, the transmission gear 3-11 with the connecting shaft drives the receiving gear three 3-15 to rotate, the receiving gear three 3-15 drives the internal thread cylinder 3-14 to rotate, the rotating internal thread cylinder 3-14 rotates to enable the lifting thread column 3-16 to move upwards and then pull up the mounting plate three 3-17, then the power storage assisting device 3-18 stores part of the output energy of the rotating shaft four 3-4, then the rotating shaft four 3-4 is driven to rotate in the direction when the rain is stopped, then the mounting plate three 3-17 is put back, water flowing out through the water inlet 3-2 can collide on the pushing plate 2-3 of the anti-skid device, the pushing plate 2-3 of the anti-skid device drives the gear barrel 2-4 to rotate, the gear barrel 2-4 can pull up the rack plate 2-5 upwards, the rack plate 2-5 drives the control pushing plate 2-9 to move, the control pushing plate 2-9 pushes the sliding seat 2-10 to move towards the inside of the rain-proof box 3-7, and then the limiting block 2-15 enters the inside of the rain-proof box 3-7, when the mounting plate III 3-17 moves upwards, the limiting blocks 2-15 are pushed to rotate around the mounting shafts 2-14 through the limiting blocks 2-15, the mounting shafts 2-14 drive the pushing plates 2-17 to rotate to compress the arc-shaped springs 2-18 in the sliding cavities 2-16, and then when the mounting plate III 3-17 passes through, the arc-shaped springs 2-18 reset the limiting blocks 2-15, so that after an accident occurs, as long as the water inlet holes 3-2 continuously discharge water, the pushing plates 2-3 of the anti-skid device swing downwards to the sliding seats 2-10, the limiting blocks 2-15 are pushed to prevent the mounting plate III 3-17 from sliding down in the rainproof box 3-7.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides an infrared lamp plate intelligence rain insensitive equipment, includes rainwater collection controlling means (1), antiskid (2), rain insensitive device (3), its characterized in that: the rainwater collection control device (1) is movably arranged on the rainproof device (3), and the antiskid device (2) is fixedly arranged on the rainproof device (3);

the rainwater collection control device (1) comprises a fixed square barrel (1-1), a movable barrel (1-2), a collection funnel (1-3), a connecting plate (1-4), a pushing column (1-5), a sliding plate (1-6), a spring (1-7), a rotating shaft (1-8), a pushing plate (1-9) of the rainwater collection control device, a water baffle plate (1-10), an arc-shaped spring (1-11), a spring II (1-12), a limiting ball (1-13), a rotating shaft I (1-14), a gear (1-15), a transmission belt wheel (1-16), a transmission belt (1-17), a transmission shaft II (1-18), a receiving belt wheel (1-19), a transmission gear (1-20), a sliding baffle (1-21), The rainwater collecting and controlling device comprises racks (1-22), a movable cylinder (1-2) is slidably mounted on a fixed square cylinder (1-1), the movable cylinder (1-2) is fixedly mounted on a connecting plate (1-4), a collecting funnel (1-3) is fixedly mounted on the movable cylinder (1-2), the connecting plate (1-4) is fixedly mounted on a pushing column (1-5), the pushing column (1-5) is fixedly mounted on a sliding plate (1-6), the sliding plate (1-6) is slidably mounted inside the fixed square cylinder (1-1), a spring (1-7) is mounted inside the fixed square cylinder (1-1), a rotating shaft (1-8) is rotatably mounted on the movable cylinder (1-2), a pushing plate (1-9) of the rainwater collecting and controlling device is fixedly mounted on the rotating shaft (1-8), a push plate (1-9) of a rainwater collection control device is slidably mounted inside a movable cylinder (1-2), a water baffle (1-10) is mounted and fixed on a rotating shaft (1-8), an arc spring (1-11) is mounted and fixed on the push plate (1-9) of the rainwater collection control device, the arc spring (1-11) is mounted and fixed inside the movable cylinder (1-2), a spring II (1-12) is mounted inside the water baffle (1-10), a limiting ball (1-13) is slidably mounted inside the water baffle (1-10), the rotating shaft I (1-14) is rotatably mounted inside a fixed square cylinder (1-1), a gear (1-15) is mounted and fixed on the rotating shaft I (1-14), the gear (1-15) is meshed with the movable cylinder (1-2), the transmission belt wheels (1-16) are fixedly arranged on the first rotating shafts (1-14), the transmission belts (1-17) are arranged on the transmission belt wheels (1-16) and the receiving belt wheels (1-19), the transmission shafts (1-18) are rotatably arranged in the fixed square cylinders (1-1), the receiving belt wheels (1-19) are fixedly arranged on the transmission shafts (1-18), the transmission gears (1-20) are fixedly arranged on the transmission shafts (1-18), the sliding baffles (1-21) are slidably arranged in the fixed square cylinders (1-1), the racks (1-22) are fixedly arranged on the sliding baffles (1-21), and the racks (1-22) are meshed with the transmission gears (1-20);

the antiskid device (2) comprises a mounting frame (2-1), a third rotating shaft (2-2), a pushing plate (2-3) of the antiskid device, a toothed barrel (2-4), a rack plate (2-5), a fixed sliding barrel (2-6), a spring baffle (2-7), a third spring (2-8), a control pushing plate (2-9), a sliding seat (2-10), a connecting sliding plate (2-11), a fixing bolt (2-12), a fourth spring (2-13), a mounting shaft (2-14), a limiting block (2-15), a sliding cavity (2-16), a second pushing plate (2-17) and a second arc-shaped spring (2-18), wherein the mounting frame (2-1) and the third rotating shaft (2-2) are rotatably mounted on the mounting frame (2-1), a pushing plate (2-3) of the anti-skid device is fixedly arranged on a toothed barrel (2-4), the toothed barrel (2-4) is fixedly arranged on a rotating shaft III (2-2), a rack plate (2-5) is slidably arranged on a fixed sliding barrel (2-6), the rack plate (2-5) is meshed with the toothed barrel (2-4), a spring baffle plate (2-7) is fixedly arranged on the rack plate (2-5), a spring III (2-8) is sleeved on the rack plate (2-5), an operation pushing plate (2-9) is fixedly arranged on the rack plate (2-5), a sliding seat (2-10) is fixedly arranged on a connecting sliding plate (2-11), the connecting sliding plate (2-11) is slidably arranged on a fixed bolt (2-12), a spring IV (2-13) is sleeved on the fixed bolt (2-12), the mounting shaft (2-14) is rotatably mounted on the connecting sliding plate (2-11), the limiting blocks (2-15) are mounted and fixed on the mounting shaft (2-14), the sliding cavity (2-16) is arranged on the connecting sliding plate (2-11), the second pushing plate (2-17) is mounted and fixed on the mounting shaft (2-14), the second pushing plate (2-17) is slidably mounted inside the sliding cavity (2-16), the second arc spring (2-18) is mounted and fixed on the second pushing plate (2-17), and the second arc spring (2-18) is mounted and fixed on the sliding cavity (2-16);

the rainproof device (3) comprises a water passing tank (3-1), a water inlet hole (3-2), a pushing impeller (3-3), a rotating shaft four (3-4), a driving belt wheel three (3-5), a driving belt three (3-6), a rainproof box (3-7), a driving shaft three (3-8), an output bevel gear three (3-9), a water inlet belt wheel three (3-10), a transmission gear (3-11) with a connecting shaft, a receiving bevel gear (3-12), a fixed shaft sleeve (3-13), a rotating internal thread cylinder (3-14), a receiving gear three (3-15), a lifting threaded column (3-16), a mounting plate three (3-17) and a force storage assisting device (3-18), wherein the fixed square cylinder (1-1) is fixedly arranged on the water passing tank (3-1), the mounting frame (2-1) is fixedly arranged on the water passing tank (3-1), the water inlet hole (3-2) is arranged on the water passing tank (3-1), the pushing impeller (3-3) is fixedly arranged on the rotating shaft four (3-4), the rotating shaft four (3-4) is rotatably arranged on the water passing tank (3-1), the driving belt wheel three (3-5) is fixedly arranged on the rotating shaft four (3-4), the driving belt wheel three (3-6) is arranged on the driving belt wheel three (3-5) and the water inlet belt wheel three (3-10), the rain-proof tank (3-7) is fixedly arranged on the water passing tank (3-1), the driving shaft three (3-8) is rotatably arranged on the rain-proof tank (3-7), the output bevel gear three (3-9) is fixedly arranged on the driving shaft three (3-8), a third water inlet belt wheel (3-10) is fixedly arranged on a third transmission shaft (3-8), a sliding seat (2-10) is slidably arranged on a rain-proof box (3-7), a transmission gear (3-11) with a connecting shaft is rotatably arranged on the rain-proof box (3-7), a receiving bevel gear (3-12) is fixedly arranged on the transmission gear (3-11) with the connecting shaft, the transmission gear (3-11) with the connecting shaft is meshed with a third receiving gear (3-15), the receiving bevel gear (3-12) is meshed with a third output bevel gear (3-9), a fixed shaft sleeve (3-13) is fixedly arranged on the rain-proof box (3-7), a rotary internal thread cylinder (3-14) is rotatably arranged on the fixed shaft sleeve (3-13), and the third receiving gear (3-15) is fixedly arranged on a rotary internal thread cylinder (3-14), the lifting threaded columns (3-16) are arranged on the rotating internal threaded cylinders (3-14), the lifting threaded columns (3-16) are in threaded fit with the rotating internal threaded cylinders (3-14), the mounting plates III (3-17) are fixedly arranged on the lifting threaded columns (3-16), the power storage assisting devices (3-18) are fixedly arranged on the rain-proof boxes (3-7), and the power storage assisting devices (3-18) are arranged on the rotating shafts IV (3-4).

2. The intelligent rainproof device with the infrared lamp panel of claim 1, wherein: the number of the fixed shaft sleeves (3-13), the number of the rotary internal thread cylinders (3-14), the number of the receiving gears (3-15) and the number of the lifting thread columns (3-16) are four, accumulated amount is accumulated when the rotary shaft four (3-4) rotates, and then the rotary shaft four (3-4) is driven to reversely rotate when the rotary shaft four (3-4) does not rotate.

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