CN110374278B

CN110374278B - Roof auto-induction snow removing device for northern area tile house

Info

Publication number: CN110374278B
Application number: CN201910679045.9A
Authority: CN
Inventors: 崔洁洁
Original assignee: Nanjing Lishui Hi Tech Venture Capital Management Co Ltd
Current assignee: Nanjing Lishui Hi Tech Venture Capital Management Co Ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2020-09-01
Anticipated expiration: 2039-07-25
Also published as: CN110374278A

Abstract

The invention discloses an automatic roof sensing snow removal device for a tile house in northern areas, which comprises a control column and a support column, wherein the right side surface of the control column and the left side surface of the support column are fixedly arranged on the left side and the right side of a roof respectively, a through cavity is arranged in the support column, a storage box is fixedly arranged on the right side surface of the support column, a storage cavity with a left opening is arranged in the storage box, the storage cavity is communicated with the through cavity, a screw rod is rotatably arranged between the right side surface of the control column and the right wall of the storage cavity, a power cavity is arranged in the control column, and a power mechanism capable of sensing the snow accumulation amount of the roof and controlling the rotation of the screw rod is arranged in the power cavity.

Description

Roof auto-induction snow removing device for northern area tile house

Technical Field

The invention relates to the technical field of snow removal, in particular to an automatic roof induction snow removing device for a tile house in northern areas.

Background

At present, the urbanization process accelerates rapidly, the high building of reinforced concrete structure is more and more, the area that leads to some pure nature ecological ization disappears gradually, for example, some perennial snowfall areas in the north, snow is deep, the scenery is graceful, this original ecology area needs to be kept, but this kind of district is mostly backward tile house structure, snowstorm or long-time snowfall can lead to the house to collapse, can lead to life safety like this, the usual way of removing snow is that the instrument with the help of stock and so on clears away the snow on the roof manually, this way is difficult to clear away totally, and damage the house easily, in addition, when falling asleep at night, it has reached the limit hardly to know whether the snow on the house roof has reached.

Disclosure of Invention

The invention aims to provide an automatic roof sensing snow removing device for a tile house in northern areas, which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the roof automatic induction snow removing device for the tile house in the northern area comprises a control column and a support column, wherein the right side surface of the control column and the left side surface of the support column are respectively and fixedly arranged on the left side and the right side of a roof, a through cavity is arranged in the support column, a storage box is fixedly arranged on the right side surface of the support column, a storage cavity with a left opening is arranged in the storage box, the storage cavity is communicated with the through cavity, a screw rod is rotatably arranged between the right side surface of the control column and the right wall of the storage cavity, a power cavity is arranged in the control column, a power mechanism capable of inducing the snow accumulation amount on the roof and controlling the rotation of the screw rod is arranged in the power cavity, a square cavity is arranged in the support column, a first snow pushing plate is arranged on the upper side of the control column, two groups of first springs which are bilaterally symmetrical are arranged between the bottom surface of the, the upper side of the supporting column is provided with a second snow-pushing plate, the bottom surface of the second snow-pushing plate is fixedly provided with two groups of bilaterally symmetrical second springs, the second spring positioned on the left side is fixedly connected with the top surface of the supporting column, the second spring positioned on the right side is fixedly connected with the top surface of the storage box, the power cavity and the square cavity are respectively provided with a pushing mechanism capable of removing snow on the top surface of the first snow-pushing plate, the storage cavity is internally provided with a movable box, the screw rod penetrates through the movable box, the movable box is internally provided with a control cavity, the front side surface and the rear side surface of the movable box are respectively and fixedly provided with a transmission box, the two groups of transmission boxes are respectively provided with an auxiliary block on the side surface away from each other, the control cavity is internally provided with a control mechanism capable of controlling the movable box to move left and right and, the vibration cavity is provided with a snow removing mechanism capable of vibrating to remove snow.

Further technical scheme, power unit is including setting firmly first motor on the power chamber diapire, the screw rod extends into left extension the power intracavity, and with first motor power is connected, the left surface of first motor has set firmly the tablet, it is equipped with the slide bar to slide on the left wall in power chamber, the bottom surface of slide bar has set firmly the contact plate, it is equipped with the axis of rotation to rotate on the back wall in power chamber, first rim plate has set firmly on the periphery of axis of rotation, it has the connecting rod to articulate on the leading flank of first rim plate, the upside intercommunication in power chamber is equipped with the ascending connecting rod hole of opening, the connecting rod upwards extends the part and runs through the connecting rod hole, and with the bottom surface of first snow-pushing plate is articulated.

Further technical scheme, the thrustor constructs including rotating and establishing first driven shaft on the wall behind the power chamber, set firmly first from the driving wheel in the periphery of first driven shaft, first ejector pin has set firmly on the leading flank from the driving wheel, the roof in power chamber with the division board has set firmly between the right wall in power chamber, the upside intercommunication in power chamber is equipped with the ascending first bell mouth of opening, the upwards extension of first ejector pin runs through first bell mouth, the right side intercommunication in power chamber is equipped with the through-hole, the left surface of movable box has set firmly the kicking block, the side of going up of kicking block has the tooth, the kicking block can with first from the meshing of driving wheel.

Further technical scheme, it is equipped with the slider to slide on the diapire in square chamber, have tooth on the top surface of slider, the left surface of slider has set firmly the spliced pole, the spliced pole extends part left and runs through the support column to stretch out the external world, and it is located external periphery and has set firmly the rubber skin, the left surface of slider with install the third spring between the left wall in square chamber, it is equipped with the second driven shaft to rotate on the back wall in square chamber, it follows the driving wheel to have set firmly the second in the periphery of second driven shaft, the second articulates on the leading flank from the driving wheel has the second ejector pin, the upside intercommunication in square chamber is equipped with the ascending second toper hole of opening, the second ejector pin runs through second toper hole.

A further technical scheme, control mechanism is including setting firmly the swivel nut between the wall of control chamber left and right sides, the screw rod runs through the swivel nut, just the screw rod with screw-thread fit connects between the swivel nut, the right flank of control post with deposit and set firmly the square column between the right wall in chamber, the square column runs through the removal case, be equipped with the ascending rectangle chamber of opening in the square column, the rack has set firmly on the diapire in rectangle chamber, the side around the square column with sliding fit between the inner wall of removal case, it is equipped with the transmission shaft to rotate between the wall of both sides around the control chamber, the drive wheel has set firmly in the periphery of transmission shaft.

According to a further technical scheme, connecting cavities with downward openings are arranged in the transmission boxes, the right sides of the connecting cavities are communicated with transmission cavities, gear shafts and transverse shafts are arranged on the right walls of the transmission cavities in a rotating mode, the gear shafts are located on the upper sides of the transverse shafts, first bevel gears and first gears are arranged on the peripheries of the gear shafts in a rotating mode, the first bevel gears are located on the upper sides of the first gears, second gears are fixedly arranged on the peripheries of the transverse shafts and are meshed with the first gears, extending portions of the transmission shafts towards the front side and the rear side extend into the transmission cavities, two side faces of the transmission shafts are fixedly provided with second bevel gears, the second bevel gears are meshed with the first bevel gears, extending portions of the transverse shafts towards the left side extend into the connecting cavities, the left side faces of the transverse shafts are rotatably connected with the left walls of the connecting cavities, connecting blocks are fixedly arranged on the peripheries of the transverse shafts located in the connecting cavities, the connecting blocks are mutually far away from the side faces and are respectively and fixedly connected with the side faces of the auxiliary blocks, which are mutually close to each other, and the connecting cavity and the control cavity are communicated with each other to form an auxiliary cavity.

According to the technical scheme, the snow removing mechanism comprises two groups of sliding plates which are arranged on the inner wall of the vibration cavity in a sliding mode, a fourth spring is arranged between the top surface of each sliding plate and the top wall of the vibration cavity, the vibration cavities are mutually close to the side wall, a second motor is fixedly embedded in each vibration cavity, eccentric wheels are arranged in each vibration cavity in a rotating mode and are in power connection with the second motors, and the bottom surfaces of the sliding plates are provided with teeth.

The invention has the beneficial effects that: the device can effectively solve the problem that the tile house collapses due to the fact that snow is too heavy after snowing in the north all the year round, the original ecological tile house can be reserved and is not replaced by an urban high-rise reinforced house, the device is purely in mechanical sensing linkage, the cost is low, the power mechanism can sense the excessive snow, the screw is controlled to rotate to drive the moving box to move to remove the snow, the pushing mechanism can remove the snow on the top of the device per se, the weight sensing of the snow at the next time is more accurate, the control mechanism can control the device to remove the snow in a linkage mode, and the snow removing mechanism can reduce house damage by using a vibration mode to remove the snow.

Drawings

FIG. 1 is a schematic view of the internal overall structure of the present invention;

FIG. 2 is a left side view of the overall structure of the movable box of the present invention;

FIG. 3 is an enlarged view of the invention in the direction D-D of FIG. 2;

FIG. 4 is an enlarged schematic view taken in the direction E-E of FIG. 2 in accordance with the present invention;

FIG. 5 is a left side view of the rubber skin of the present invention;

FIG. 6 is an enlarged schematic view at A of FIG. 1 of the present invention;

FIG. 7 is an enlarged schematic view of the invention at B of FIG. 1;

fig. 8 is an enlarged schematic view at C of fig. 1 of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 8, the roof automatic induction snow removing device for a tile house in northern areas according to the embodiment of the present invention includes a control column 11 and a support column 71, a right side surface of the control column 11 and a left side surface of the support column 71 are respectively and fixedly disposed at left and right sides of a roof 24, a through cavity 30 is disposed in the support column 71, a storage box 31 is fixedly disposed at a right side surface of the support column 71, a storage cavity 32 with a leftward opening is disposed in the storage box 31, the storage cavity 32 is communicated with the through cavity 30, a screw 16 is rotatably disposed between the right side surface of the control column 11 and a right wall of the storage cavity 32, a power cavity 18 is disposed in the control column 11, a power mechanism 101 capable of inducing the magnitude of roof snow accumulation and controlling the rotation of the screw 16 is disposed in the power cavity 18, a square cavity 67 is disposed in the support column 71, a first snow-pushing plate 23 is disposed at an upper side of the control, two sets of bilateral symmetry first springs 22 are installed between the bottom surface of the first snow-pushing plate 23 and the top surface of the control column 11, a second snow-pushing plate 29 is arranged on the upper side of the support column 71, two sets of bilateral symmetry second springs 28 are fixedly arranged on the bottom surface of the second snow-pushing plate 29, the left second spring 28 is fixedly connected with the top surface of the support column 71, the right second spring 28 is fixedly connected with the top surface of the storage box 31, pushing mechanisms 102 capable of removing snow on the top surface of the first snow-pushing plate 23 are arranged in the power cavity 18 and the square cavity 67, a moving box 33 is arranged in the storage cavity 32, the screw 16 penetrates through the moving box 33, a control cavity 34 is arranged in the moving box 33, transmission boxes 55 are fixedly arranged on the front side surface and the rear side surface of the moving box 33, and auxiliary blocks 39 are arranged on the two sets of transmission boxes 55 far away from each other side surfaces, the control cavity 34 is internally provided with a control mechanism 103 which can control the movable box 33 to move left and right and control the auxiliary block 39 to rotate, unfold or fold, the auxiliary block 39 is internally provided with a vibration cavity 40, and the vibration cavity 40 is provided with a snow removing mechanism 104 which can vibrate to remove snow.

In addition, in one embodiment, the power mechanism 101 includes a first motor 15 fixedly arranged on the bottom wall of the power cavity 18, the leftward extending portion of the screw 16 extends into the power cavity 18 and is in power connection with the first motor 15, a sensing plate 14 is fixedly arranged on the left side surface of the first motor 15, a sliding rod 13 is slidably arranged on the left wall of the power cavity 18, a contact plate 12 is fixedly arranged on the bottom surface of the sliding rod 13, a rotating shaft 20 is rotatably arranged on the rear wall of the power cavity 18, a first wheel disc 19 is fixedly arranged on the outer periphery of the rotating shaft 20, a connecting rod 21 is hinged on the front side surface of the first wheel disc 19, a connecting rod hole 72 with an upward opening is communicated with the upper side of the power cavity 18, the upward extending portion of the connecting rod 21 penetrates through the connecting rod hole 72 and is hinged with the bottom surface of the first snow-pushing plate 23, and when the accumulated snow reaches a set weight, the first snow pushing plate 23 is pressed downward, the connecting rod 21 is moved downwards, so that the first wheel disc 19 is rotated, the slide rod 13 is moved upwards, the contact plate 12 is contacted with the sensing plate 14, and the first motor 15 is rotated forwards for a period of time and then rotated backwards for a period of time according to a set program, and then automatically turned off after being rotated backwards.

In addition, in one embodiment, the pushing mechanism 102 includes a first driven shaft 59 rotatably disposed on the rear wall of the power chamber 18, a first driven wheel 58 is fixedly disposed on the periphery of the first driven shaft 59, a first push rod 60 is fixedly disposed on the front side surface of the first driven wheel 58, a partition plate 57 is fixedly disposed between the top wall of the power chamber 18 and the right wall of the power chamber 18, a first tapered hole 61 with an upward opening is communicated with the upper side of the power chamber 18, an upward extending portion of the first push rod 60 penetrates through the first tapered hole 61, a through hole 56 is communicated with the right side of the power chamber 18, a top block 27 is fixedly disposed on the left side surface of the movable box 33, teeth are disposed on the upper side surface of the top block 27, the top block 27 can be engaged with the first driven wheel 58, when the movable box 33 moves to the maximum displacement leftward, the top block 27 penetrates through the through hole 56 and is inserted into the power chamber 18, so that the first driven wheel 58 can rotate, and the first push rod 60 can move upwards to push the bottom surface of the first snow-covered board 23 to the right, and the accumulated snow on the first snow-covered board 23 can slide to the left.

In addition, in an embodiment, a sliding block 66 is slidably disposed on the bottom wall of the square cavity 67, teeth are disposed on the top surface of the sliding block 66, a connection column 25 is fixedly disposed on the left side surface of the sliding block 66, a leftward extending portion of the connection column 25 penetrates through the support column 71 and extends out of the outside, a rubber sheet 26 is fixedly disposed on the outer periphery of the connection column, a third spring 68 is disposed between the left side surface of the sliding block 66 and the left wall of the square cavity 67, a second driven shaft 65 is rotatably disposed on the rear wall of the square cavity 67, a second driven wheel 64 is fixedly disposed on the outer periphery of the second driven shaft 65, a second push rod 63 is hinged to the front side surface of the second driven wheel 64, a second tapered hole 62 with an upward opening is communicated with the upper side of the square cavity 67, the second push rod 63 penetrates through the second tapered hole 62, when the moving box 33 moves leftward, the push block 27 can push the rubber sheet 26 to move leftward, and then the connecting column 25 can drive the sliding block 66 to move leftwards, so that the second driven wheel 64 can rotate, the second ejector rod 63 can move upwards and push the bottom surface of the second snow-pushing plate 29 to be close to the left part, the accumulated snow on the second snow-pushing plate 29 can slide rightwards, and the rubber sheet 26 can play a role in sealing the through cavity 30.

In addition, in one embodiment, the control mechanism 103 includes a threaded sleeve 35 fixedly disposed between the left and right side walls of the control chamber 34, the screw 16 penetrates through the threaded sleeve 35, the screw 16 is in threaded fit connection with the threaded sleeve 35, a square column 17 is fixedly disposed between the right side surface of the control column 11 and the right wall of the storage chamber 32, the square column 17 penetrates through the movable box 33, a rectangular chamber 69 with an upward opening is disposed in the square column 17, a rack 70 is fixedly disposed on the bottom wall of the rectangular chamber 69, the front and rear side surfaces of the square column 17 are in sliding fit with the inner wall of the movable box 33, a transmission shaft 37 is rotatably disposed between the front and rear side walls of the control chamber 34, a transmission wheel 36 is fixedly disposed on the periphery of the transmission shaft 37, the movable box 33 can be moved left and right by the rotation of the screw 16, when the movable box 33 moves to the upper side of the rectangular chamber 69, the transmission wheel 36 engages with the rack 70, so that the transmission shaft 37 can be rotated.

In addition, in one embodiment, a connection cavity 51 with a downward opening is formed in each transmission case 55, a transmission cavity 54 is formed in each connection cavity 51 in a communication manner on the right side, a gear shaft 48 and a transverse shaft 50 are rotatably formed on the right wall of each transmission cavity 54, each gear shaft 48 is located on the upper side of the transverse shaft 50, a first bevel gear 47 and a first gear 46 are rotatably formed on the outer periphery of each gear shaft 48, each first bevel gear 47 is located on the upper side of the first gear 46, a second gear 49 is fixedly arranged on the outer periphery of the transverse shaft 50, each second gear 49 is meshed with the first gear 46, the front and rear extending portions of the transmission shaft 37 extend into the transmission cavity 54, two lateral surfaces of the transmission shaft are fixedly provided with second bevel gears 53, each second bevel gear 53 is meshed with the first bevel gear 47, and the left extending portion of the transverse shaft 50 extends into the connection cavity 51, the left side surface of the connecting cavity 51 is rotatably connected with the left wall of the connecting cavity 51, connecting blocks 45 are fixedly arranged on the periphery of the transverse shaft 50 in the connecting cavity 51, two groups of connecting blocks 45 are far away from the side surface and are fixedly connected with two groups of auxiliary blocks 39 close to the side surface, the connecting cavity 51 and the control cavity 34 are respectively communicated with an auxiliary cavity 52, two groups of gear shafts 48 can be rotated through the rotation of the transmission shaft 37, so that the two groups of transverse shafts 50 can be rotated, and the two groups of auxiliary blocks 39 can be unfolded or folded.

In addition, in one embodiment, the snow removing mechanism 104 includes two sets of slide plates 42 each slidably disposed on the inner wall of the vibration chamber 40, a fourth spring 41 is installed between the top surface of the sliding plate 42 and the top wall of the vibration chamber 40, a second motor 44 is fixedly embedded in the two groups of vibration chambers 40 close to each other, eccentric wheels 43 are rotatably arranged in the vibration cavities 40, the eccentric wheels 43 are in power connection with the second motor 44, the sliding plates 42 are provided with teeth on the bottom surfaces, when the auxiliary block 39 is unfolded, the second motor 44 is operated, the eccentric wheel 43 is rotated by the operation of the second motor 44, thereby causing the sliding plate 42 to slide, and by the elastic action of the fourth spring 41, the sliding plate 42 can be driven to vibrate the vibrating plate 38, so that the accumulated snow on the top surface of the roof 24 can slide down after being vibrated.

When in use, when the accumulated snow reaches the set weight, the first snow-pushing plate 23 is pressed downwards, the connecting rod 21 can be moved downwards, so that the first wheel disc 19 can be rotated, the slide rod 13 can be moved upwards, the contact plate 12 can be contacted with the induction plate 14, the first motor 15 can rotate forwards for a period of time and then rotate backwards for a period of time according to the set program, the first motor can be automatically closed after rotating backwards, when the moving box 33 moves leftwards to the maximum displacement position, the top block 27 penetrates through the through hole 56 and is inserted into the power cavity 18, so that the first driven wheel 58 can be rotated, the first ejector rod 60 can be moved upwards to push the bottom surface of the first snow-pushing plate 23 to be close to the right part, the accumulated snow on the first snow-pushing plate 23 can slide leftwards, when the moving box 33 moves leftwards, the top block 27 can move leftwards to push the rubber sheet 26, so that the connecting column 25 can drive the slide block 66 to move leftwards, the second driven wheel 64 can be rotated, the second push rod 63 can be moved upwards to push the bottom surface of the second snow-pushing plate 29 to move to the left, the accumulated snow on the second snow-pushing plate 29 can slide to the right, the rubber sheet 26 can play a role of sealing the through cavity 30, the moving box 33 can be moved to the left and right through the rotation of the screw 16, when the moving box 33 moves to the upper side of the rectangular cavity 69, the driving wheel 36 is meshed with the rack 70, the driving shaft 37 can be rotated, the two sets of gear shafts 48 can be rotated through the rotation of the driving shaft 37, the two sets of transverse shafts 50 can be rotated, the two sets of auxiliary blocks 39 can be unfolded or folded, when the moving box 33 moves to the left, the auxiliary blocks 39 are unfolded, when the moving box 33 moves to the right, the auxiliary blocks 39 are folded, when the auxiliary blocks 39 are unfolded, the second motor 44 is operated, the eccentric wheel 43 can be rotated through the operation of the second motor 44, and the sliding plate 42 can, and the elastic action of the fourth spring 41 can make the sliding plate 42 drive the vibrating plate 38 to vibrate, so that the accumulated snow on the top surface of the roof 24 can slide down after being vibrated.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a northern area roof auto-induction snow removal device for tile house, includes control post and support column, its characterized in that: the right side surface of the control column and the left side surface of the support column are respectively and fixedly arranged at the left side and the right side of a roof, a through cavity is arranged in the support column, a storage box is fixedly arranged at the right side surface of the support column, a storage cavity with a left opening is arranged in the storage box, the storage cavity is communicated with the through cavity, a screw rod is rotatably arranged between the right side surface of the control column and the right wall of the storage cavity, a power cavity is arranged in the control column, a power mechanism capable of sensing the snow accumulation amount of the roof and controlling the rotation of the screw rod is arranged in the power cavity, a square cavity is arranged in the support column, a first snow pushing plate is arranged at the upper side of the control column, two sets of first springs which are bilaterally symmetrical are arranged between the bottom surface of the first snow pushing plate and the top surface of the control column, a second snow pushing plate is arranged at the upper side of the support column, and two sets of second, the second spring positioned on the left side is fixedly connected with the top surface of the supporting column, the second spring positioned on the right side is fixedly connected with the top surface of the storage box, and pushing mechanisms capable of removing snow on the top area of the first snow-pushing plate are arranged in the power cavity and the square cavity; deposit the intracavity and be equipped with the removal case, the screw rod runs through the removal case, the control chamber has been seted up in the removal case, all set firmly the transmission case on the face of both sides around the removal case, it is two sets of the side of keeping away from each other of transmission case all is equipped with supplementary piece, it is controllable to be equipped with in the control chamber remove the case and remove, and control supplementary piece rotates the control mechanism who expandes or draw in, all seted up the vibration chamber in the supplementary piece, the vibration chamber is equipped with the snow removing mechanism that can vibrate the snow removing.

2. The roof automatic induction snow removing device for the northern area tile house according to claim 1, characterized in that: power unit is including setting firmly first motor on the power chamber diapire, the screw rod extends into to the extension left the power intracavity, and with first motor power is connected, the left surface of first motor has set firmly the tablet, it is equipped with the slide bar to slide on the left wall in power chamber, the bottom surface of slide bar has set firmly the contact plate, it is equipped with the axis of rotation to rotate on the back wall in power chamber, first rim plate has set firmly in the periphery of axis of rotation, it has the connecting rod to articulate on the leading flank of first rim plate, the upside intercommunication in power chamber is equipped with the ascending link hole of opening, the connecting rod upwards extends the part and runs through the link hole, and with the bottom surface of first top snow board is articulated.

3. The roof automatic induction snow removing device for the northern area tile house according to claim 1, characterized in that: the thrustor constructs including rotating and establishing first driven shaft on the wall behind the power chamber, set firmly first from the driving wheel in the periphery of first driven shaft, first ejector pin has set firmly on the leading flank from the driving wheel, the roof in power chamber with the division board has set firmly between the right wall in power chamber, the upside intercommunication in power chamber is equipped with the ascending first bell mouth of opening, the upwards extending part of first ejector pin runs through first bell mouth, the right side intercommunication in power chamber is equipped with the through-hole, the left surface of movable box has set firmly the kicking block, the last side of kicking block has tooth, the kicking block can with first from the driving wheel meshing.

4. The roof automatic induction snow removing device for the northern area tile house according to claim 3, characterized in that: the utility model discloses a square chamber, including square chamber, spliced pole, support column, rubber skin, second ejector pin, the diapire in square chamber slides on and is equipped with the slider, have tooth on the top surface of slider, the left surface of slider has set firmly the spliced pole, the spliced pole extends part left and runs through the support column to stretch out the external world, and it is located external periphery and has set firmly the rubber skin, the left surface of slider with install the third spring between the left wall in square chamber, it is equipped with the second driven shaft to rotate on the back wall in square chamber, the second has set firmly the second in the periphery of second driven shaft from the driving wheel, the second articulates on the leading flank from the driving wheel has the second ejector pin, the upside intercommunication in square chamber is equipped with.

5. The roof automatic induction snow removing device for the northern area tile house according to claim 1, characterized in that: control mechanism is including setting firmly swivel nut between the wall of control chamber left and right sides, the screw rod runs through the swivel nut, just the screw rod with screw-thread fit connects between the swivel nut, the right flank of control post with deposit and set firmly the square column between the right wall in chamber, the square column runs through the removal case, be equipped with the ascending rectangle chamber of opening in the square column, the rack has set firmly on the diapire in rectangle chamber, the side around the square column with sliding fit between the inner wall of removal case, it is equipped with the transmission shaft to rotate between the wall of both sides around the control chamber, the drive wheel has set firmly in the periphery of transmission shaft.

6. The roof automatic induction snow removing device for the northern area tile house according to claim 5, characterized in that: the transmission boxes are respectively provided with a connecting cavity with a downward opening, the right sides of the connecting cavities are respectively communicated with a transmission cavity, the right wall of the transmission cavity is respectively rotatably provided with a gear shaft and a cross shaft, the gear shafts are respectively positioned on the upper sides of the cross shafts, the periphery of the gear shafts is respectively rotatably provided with a first bevel gear and a first gear, the first bevel gears are respectively positioned on the upper sides of the first gears, the periphery of the cross shafts is respectively and fixedly provided with a second gear, the second gears are respectively meshed with the first gears, the left extending parts of the cross shafts respectively extend into the connecting cavities, the left side surfaces of the cross shafts are respectively and rotatably connected with the left wall of the connecting cavity, the periphery of the cross shafts positioned in the connecting cavities is respectively and fixedly provided with a connecting block, the connecting blocks are mutually far away from the side faces and are respectively and fixedly connected with the side faces of the auxiliary blocks, which are mutually close to each other, and the connecting cavity and the control cavity are communicated with each other to form an auxiliary cavity.

7. The roof automatic induction snow removing device for the northern area tile house according to claim 1, characterized in that: the snow removing mechanism comprises two groups of sliding plates which are arranged on the inner wall of the vibration cavity in a sliding mode, fourth springs are arranged between the top surface of each sliding plate and the top wall of each vibration cavity, the vibration cavities are mutually close to the side wall, second motors are fixedly embedded in the side walls, eccentric wheels are arranged in the vibration cavities in a rotating mode, the eccentric wheels are connected with the second motors in a power mode, teeth are arranged on the bottom surfaces of the sliding plates, when the auxiliary blocks are unfolded, the second motors run, the eccentric wheels can be rotated through the running of the second motors, so that the sliding plates are driven to slide, and the sliding plates can be driven to vibrate through the elastic action of the fourth springs, and accordingly snow on the top surface of the roof can be made to slide downwards after being vibrated.