CN114152011A

CN114152011A - Indoor snow system that wafts with even condensation structure

Info

Publication number: CN114152011A
Application number: CN202111533068.2A
Authority: CN
Inventors: 李谊
Original assignee: Hangzhou Zhongchuang Kexing Technology Co ltd
Current assignee: Hangzhou Zhongchuang Kexing Technology Co ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2022-03-08

Abstract

The invention discloses a snow floating system with a uniform condensation structure for indoor snow floating, and relates to the technical field of snow floating. This indoor snowing with even condensation structure is with system that wafts, design synchronous cooperation adapter and linking piece through first hydraulic pressure gas pole can adjust the angle of placing of staving, thereby can waft the snow to different angles and highly handle, increase and use nimble degree, and can refer to with the angle scale when carrying out angle adjustment to the staving, convenient to use person directly learns the angle after the staving adjustment, can carry out quick accurate adjustment between when reusing current angle, save the time to the staving suitable angle of adjustment.

Description

Indoor snow system that wafts with even condensation structure

Technical Field

The invention relates to the technical field of snowing, in particular to an indoor snowing system with a uniform condensation structure.

Background

The artificial snow making guide is characterized in that water and air are mixed under a proper condition by utilizing the principle of snowflake landing to produce snowflakes for various places which do not snowfall and need snow or require snowmaking and snowing treatment in an atmosphere environment, and the principle of a snow making machine is as follows: the water is injected into a special nozzle or lance where it is exposed to high pressure air which divides the water stream into fine particles and sprays into the cold outside air where these droplets solidify into ice crystals, i.e. snow, which one sees before falling to the ground. And (5) artificial snow making. The temperature must reach zero or below zero to make snow.

The existing snow floating device can not change the direction of the snow for the second time in the using process and has the problem of insufficient power and small snow floating range when the snow floats.

Disclosure of Invention

In view of the deficiencies of the prior art, the present invention provides a snow blowing system for indoor snow blowing with a uniform condensation structure, which solves the problems set forth in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: a snow floating system with a uniform condensation structure for indoor snow floating comprises a barrel body and a main body frame, wherein a connecting disc is arranged outside the barrel body, a snow spraying port is arranged in the middle of the inside of the connecting disc, a sleeve plate is arranged outside the snow spraying port, a connecting shaft is rotatably arranged inside the sleeve plate, an outer fan frame is fixedly connected to one end of the outside of the connecting shaft, a powerful fan is arranged inside the outer fan frame, a bottom block is arranged outside the rear end of the outer fan frame, a connecting shaft is rotatably arranged inside the bottom block, a second hydraulic air rod is arranged outside the bottom of the connecting shaft, a connecting seat is arranged at the bottom of one end, close to the connecting disc, of the outside of the bottom of the barrel body, a connecting block is rotatably arranged inside the connecting seat, a first hydraulic air rod is arranged outside the bottom of the connecting block, and a connecting seat is arranged outside the bottom of the first hydraulic air rod, the main body frame is located the outside of linking seat bottom, the top left side integration of linking seat is connected with the bracing piece.

Optionally, an angle scale is arranged outside the rear end of the joining seat, and the angle scale is connected with the joining seat in a clamping manner.

Optionally, the inside of main part frame is provided with the connecting rod, and the connecting rod rear end outside is provided with and is used for carrying out ventilation cooling's auxiliary assembly, auxiliary assembly is including linking up frame, built-in board, coupling spring, fixed axle, loop bar and carousel, and links up the inside of frame and be provided with built-in board, coupling spring is all installed at the outside upper and lower both ends of built-in board, the loop bar is installed at the top of connecting rod, and the inside one end in loop bar top rotates and is provided with the fixed axle, the carousel is installed to the outside one end of fixed axle.

Optionally, the middle part of the inner part of the rear end of the connecting frame is tightly attached to the connecting rod, a collecting rod is fixedly connected to one end of the outer part of the connecting rod, and the collecting rod is perpendicular to the connecting rod.

Optionally, a fixed disk is mounted at one end of the outer portion of the rotary disk in a meshed mode, and a motor is arranged at one end of the outer portion of the fixed disk.

Optionally, the right end fixed mounting of main part frame outside has the piece of putting of side, and the inside rotation of the piece of putting of side installs the pivot, the outside one end of pivot is provided with the auxiliary frame, and the inside of auxiliary frame is hollow column structure.

Optionally, the inside of auxiliary frame is provided with the clearance subassembly that is used for carrying out supplementary clearance to spouting snow mouthful inside, and the clearance subassembly includes supplementary inside casing, built-in fan, heating otter board and absorption magnetic sheet, the inside of supplementary inside casing is provided with built-in fan, and the outside one end of built-in fan installs the heating otter board, supplementary inside casing external surface is provided with the absorption magnetic sheet.

Optionally, the inside of the auxiliary inner frame is of a hollow structure, and the auxiliary inner frame is tightly attached to the heating screen plate.

Optionally, the strong fan is annularly distributed about the center of the snow spraying opening, and the strong fan is in joggle connection with the outer frame of the fan.

Optionally, the connecting disc is perpendicular to the second hydraulic air rods, five second hydraulic air rods are arranged, and the five second hydraulic air rods are distributed equidistantly.

The invention provides a snow floating system with a uniform condensation structure for indoor snow floating, which has the following beneficial effects:

can carry out appropriate adjustment to the snowing height and the angle of snowing machine according to the use needs in the use, can carry out the secondary and give the wind and handle the design of the powerful fan of accessible when utilizing snow spout mouth to waft snow simultaneously, can carry out the secondary adjustment to the scope and the angle of wafting snow, convenient to use person carries out big area and remote snow and uses, and can carry out ventilation cooling treatment to the main part frame in the use of snowing machine length time, effectively avoid outside water to get into simultaneously, and can carry out the formula clearance of accomodating to spout the snow mouth.

1. According to the snow floating system with the uniform condensation structure for indoor snow floating, the arrangement angle of the barrel body can be adjusted by synchronously matching the adapter and the connecting block through the design of the first hydraulic air rod, so that snow floating treatment can be performed at different angles and heights, the use flexibility is increased, the barrel body can be referred to an angle scale when the angle of the barrel body is adjusted, a user can directly learn the angle of the barrel body after adjustment, rapid and accurate adjustment can be performed when the current angle is reused, and the time for adjusting the proper angle of the barrel body is saved;

2. the indoor snow floating system with the uniform condensation structure can utilize the design of the strong air blower to supplement secondary wind force to the snow floating position when snow is floated by using the snow spraying port, can further increase the snow floating position and range of the snow floating, is convenient for a user to use the snow floating device for long-distance snow floating, and can utilize the design of the second hydraulic air rod to synchronously match the rotation of the bottom block and the connecting shaft to adjust the angle of the outer frame of the fan in the snow floating process, so that the wind blown out by the strong air blower in the outer frame of the fan can change the direction in the working process, and the secondary adjustment can be carried out on the snow floating position;

3. according to the indoor snow floating system with the uniform condensation structure, the powerful fan is in joggle connection with the outer fan frame, the joggle connection is distributed in an annular shape, so that the limiting of the powerful fan is more stable, the powerful fan is convenient to disassemble and install by a user in the later period, the maintenance is convenient for the user, the outer fan frame is wrapped on the outer portion of the powerful fan in a half wrapping mode, the powerful fan can be well protected, meanwhile, the user is prevented from mistakenly touching, the potential safety hazard is reduced, and meanwhile, the good heat dissipation effect can be kept in the working process of the powerful fan through the suspended design of the powerful fan;

4. the indoor snow floating system with the uniform condensation structure can protect an internal power assembly by using the design of a main body frame in the use process of a snow floating machine, can rotate a rotary table by using the design of a motor and a shaft, and a fixed shaft is positioned at the diameter position of one third of the rotary table, so that a loop bar outside the fixed shaft can be synchronously driven to move at the mountain position, a connecting rod and a built-in plate connected with the connecting rod can be driven to move by moving the loop bar position, the built-in plate can stretch and extrude a connecting spring connected with the built-in plate when the position is adjusted, so that the built-in plate and a connecting frame have an opening, the heat dissipation and dredging treatment can be carried out on a compressor and a dryer related to the main body frame, the compressor can be kept stable in the working process to ensure that the condenser is uniform in condensation, and the snow floating quality is improved, when the ventilation treatment is not needed, the built-in plate and the connecting frame are mutually attached, external water or other articles are difficult to enter, and the power assembly in the main body frame can be further protected;

5. this indoor snow system that wafts with even condensation structure can be when not needing to use and spout the snow mouth, and when the design of usable first hydraulic pressure pneumatic rod was synchronous to cooperate the adapter and was linked up the piece and rotate the staving to the inside of auxiliary frame, the air between spout snow mouth and the auxiliary frame was heated to the design of usable heating otter board, and the design that utilizes built-in fan can further accelerate the hourglass of air simultaneously moves, can clear up the nozzle inside of spouting snow mouth position, can protect it when need not using the spout snow mouth simultaneously.

Drawings

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

FIG. 2 is a schematic view of a rear view connection portion of the connecting rod of the present invention;

FIG. 3 is a schematic view of the inner structure of the auxiliary frame according to the present invention;

FIG. 4 is a schematic view of the internal structure of the splice tray of the present invention;

fig. 5 is a schematic view of a connection structure of the blower outer frame according to the present invention.

In the figure: 1. a barrel body; 2. a splice tray; 3. spraying snow mouths; 4. a transfer seat; 5. a joining block; 6. an angle scale; 7. a support bar; 8. a first hydraulic gas lever; 9. a linking seat; 10. a main body frame; 11. a connecting rod; 12. an auxiliary frame; 13. a side placing block; 14. a rotating shaft; 15. an auxiliary component; 1501. a connecting frame; 1502. a built-in plate; 1503. a connecting spring; 1504. a fixed shaft; 1505. a loop bar; 1506. a turntable; 16. fixing the disc; 17. a motor; 18. a collective rod; 19. cleaning the assembly; 1901. an auxiliary inner frame; 1902. a built-in fan; 1903. heating the screen plate; 1904. adsorbing the magnetic plate; 20. a fan outer frame; 21. a powerful fan; 22. sheathing; 23. a connecting shaft; 24. a bottom block; 25. a connecting shaft; 26. a second hydraulic gas lever.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a technical solution: a snow floating system with a uniform condensation structure for indoor snow floating comprises a barrel body 1, a connecting disc 2, a snow spraying port 3, an adapter seat 4, a connecting block 5, an angle scale 6, a support rod 7, a first hydraulic air rod 8, a connecting seat 9, a main body frame 10, a connecting rod 11, an auxiliary frame 12, a side block 13, a rotating shaft 14, an auxiliary assembly 15, a connecting frame 1501, a built-in plate 1502, a connecting spring 1503, a fixing shaft 1504, a loop bar 1505, a rotating disc 1506, a fixing disc 16, a motor 17, a collecting rod 18, a cleaning assembly 19, an auxiliary inner frame 1901, a built-in fan 1902, a heating screen plate 1903, an adsorption magnetic plate 1904, a fan outer frame 20, a powerful fan 21, a loop plate 22, a connecting shaft 23, a bottom block 24, a connecting shaft 25 and a second hydraulic air rod 26, wherein the connecting disc 2 is arranged outside the barrel body 1, the snow spraying port 3 is arranged in the middle of the connecting disc 2, the outer part of the snow spraying port 3 is provided with the loop plate 22, and the loop plate 22 is rotatably provided with the connecting shaft 23, one end outside the connecting shaft 23 is fixedly connected with a fan frame 20, a powerful fan 21 is arranged inside the fan frame 20, the powerful fans 21 are distributed in an annular shape around the center of the snow-spraying port 3, the powerful fans 21 and the fan frame 20 are in joggled connection, the connecting disc 2 is perpendicular to the second hydraulic air rods 26, five second hydraulic air rods 26 are arranged, the five second hydraulic air rods 26 are distributed equidistantly, a bottom block 24 is arranged outside the rear end of the fan frame 20, a connecting shaft 25 is rotatably arranged inside the bottom block 24, the second hydraulic air rods 26 are arranged outside the bottom of the connecting shaft 25, a connecting seat 4 is arranged at the bottom of one end, close to the connecting disc 2, outside the bottom of the barrel body 1, a connecting block 5 is rotatably arranged inside the connecting seat 4, a first hydraulic air rod 8 is arranged outside the bottom of the connecting block 5, and a connecting seat 9 is arranged outside the bottom of the first hydraulic air rod 8, an angle scale 6 is arranged outside the rear end of the connecting seat 9, the angle scale 6 is connected with the connecting seat 9 in a clamping manner, the main body frame 10 is positioned outside the bottom of the connecting seat 9, and a supporting rod 7 is integrally connected to the left side of the top of the connecting seat 9;

the operation is as follows, the placing angle of the barrel body 1 can be adjusted by synchronously matching the adapter 4 and the connecting block 5 through the design of the first hydraulic air rod 8, so that the snowing treatment can be carried out on different angles and heights, the use flexibility is increased, the angle of the barrel body 1 can be referred to the angle disc 6 when the angle is adjusted, a user can directly learn the angle after the adjustment of the barrel body 1, the rapid and accurate adjustment can be carried out when the current angle is used again, the time for adjusting the proper angle of the barrel body 1 is saved, the angle disc 6 can be upwards pulled to be separated from the connecting seat 9 when the angle disc 6 is not needed, and the snowing position can be secondarily supplemented by the wind power design of the powerful fan 21 when the snowing port 3 is used for snowing, the snowing position and range of snowing can be further increased, the snow floating device is convenient for a user to float snow remotely when the user uses the snow floating device, and the angle of the fan outer frame 20 can be adjusted by utilizing the design of the second hydraulic air rod 26 to be synchronously matched with the rotation of the bottom block 24 and the connecting shaft 25 during the snow floating process, so that the wind blown out by the powerful fan 21 in the fan outer frame 20 can change the direction in the working process, thereby being capable of carrying out secondary adjustment on the snow floating position, and the strong blower 21 is joggled with the blower outer frame 20, and the joggled connection is distributed in a ring shape, thereby the limit of the strong fan 21 is more stable, the disassembly and the assembly are convenient for the user in the later period, the overhaul and the maintenance are convenient for the user, the outer fan frame 20 is wrapped on the outer part of the strong fan 21 in half, thereby well protecting the powerful fan 21, avoiding the user from mistakenly touching the fan to reduce the potential safety hazard, therefore, the suspended design of the powerful fan 21 can keep a good heat dissipation effect in the working process of the powerful fan 21.

As shown in fig. 1 and 2, a connecting rod 11 is disposed inside a main body frame 10, and an auxiliary assembly 15 for ventilation and heat dissipation is disposed outside a rear end of the connecting rod 11, the auxiliary assembly 15 includes a joining frame 1501, an inner plate 1502, a connecting spring 1503, a fixing shaft 1504, a loop bar 1505 and a turntable 1506, and the inside of the engaging frame 1501 is provided with an inner plate 1502, the upper and lower ends of the outside of the inner plate 1502 are both provided with a connecting spring 1503, the top of the connecting rod 11 is provided with a loop bar 1505, and one end of the inside of the top of the loop bar 1505 is rotatably provided with a fixed shaft 1504, one end of the outside of the fixed shaft 1504 is provided with a turntable 1506, the middle part of the inside of the rear end of the joining frame 1501 is tightly attached to the connecting rod 11, a collecting rod 18 is fixedly connected to one end outside the connecting rod 11, the collecting rod 18 is perpendicular to the connecting rod 11, a fixed disc 16 is mounted at one end outside the rotary disc 1506 in a meshed mode, and a motor 17 is arranged at one end outside the fixed disc 16;

the design of the main body frame 10 can be used for protecting the internal power assembly in the use process of the snow blower, the design of the motor 17 and the shaft can be used for rotating the rotary disc 1506, the fixed shaft 1504 is positioned at the position of one third of the diameter of the rotary disc 1506, so that the loop bar 1505 outside the fixed shaft 1504 can be synchronously driven to move in the mountain position, the connecting rod 11 and the built-in plate 1502 connected with the connecting rod 11 can be driven to move by the movement of the loop bar 1505 position, the built-in plate 1502 can stretch and extrude the connecting spring 1503 connected with the built-in plate 1502 when the position is adjusted, so that the built-in plate 1502 and the connecting frame 1501 have openings, the heat dissipation and dredging treatment can be carried out on the compressor and the dryer related to the main body frame 10, the compressor can be kept stable in the working process to ensure that the condenser is uniform in the condensation process, the snow blowing quality is increased, and the built-in plate 1502 and the connecting frame 1501 can be attached together when the ventilation treatment is not needed, external water or other objects are difficult to enter, and the power components inside the main body frame 10 can be further protected.

As shown in fig. 1, a side block 13 is fixedly installed at the right end of the outer part of a main body frame 10, a rotating shaft 14 is rotatably installed inside the side block 13, an auxiliary frame 12 is arranged at one end of the outer part of the rotating shaft 14, and the inner part of the auxiliary frame 12 is of a hollow structure;

can be according to the use needs through the design of rotating between side-put piece 13 and the pivot 14 and being connected, can carry out the adjustment of angle to auxiliary frame 12 to can make auxiliary frame 12 and main body frame 10 laminate each other, perhaps auxiliary frame 12 and main body frame 10 right side outside laminate mutually, reduce occupation space when need not using auxiliary frame 12.

As shown in fig. 1 and 3, a cleaning assembly 19 for assisting in cleaning the interior of the snow nozzle 3 is disposed in the auxiliary frame 12, the cleaning assembly 19 includes an auxiliary inner frame 1901, an internal fan 1902, a heating screen 1903 and an adsorption magnetic plate 1904, the internal fan 1902 is disposed in the auxiliary inner frame 1901, the heating screen 1903 is mounted at one end of the external portion of the internal fan 1902, the adsorption magnetic plate 1904 is disposed on the external surface of the auxiliary inner frame 1901, the internal portion of the auxiliary inner frame 1901 is of a hollow structure, and the auxiliary inner frame 1901 is tightly attached to the heating screen 1903;

can be when not needing to use snow spout mouth 3, the synchronous cooperation adapter 4 of design of usable first hydraulic pressure pneumatic rod 8 and linking piece 5 are rotatory when the inside to auxiliary frame 12 to staving 1, usable heating otter board 1903's design heats the air between snow spout mouth 3 and auxiliary frame 12, the leakage of air can further be accelerated in the design that utilizes built-in fan 1902 simultaneously, can clear up the nozzle inside of snow spout mouth 3 position, can protect it when not needing to use snow spout mouth 3 simultaneously.

In conclusion, the indoor snowing system with the uniform condensation structure for snowing can adjust the placing angle of the barrel body 1 by synchronously matching the adapter 4 and the connecting block 5 through the design of the first hydraulic air rod 8 during use, so that the snowing treatment can be performed on different angles and heights, the flexible use degree is increased, the angle of the barrel body 1 can be adjusted by referring to the angle scale 6, a user can directly learn the adjusted angle of the barrel body 1 conveniently, quick and accurate adjustment can be performed between the current angle reuse, when the snowing is performed through the snow spraying port 3, the design of the powerful fan 21 can be used for performing secondary wind power supplement on the snowing position, the snowing position and range of the snowing can be further increased, the user can perform remote snow use when using the snowing device, and the design of the second hydraulic air rod 26 can be used for synchronously matching the bottom block 24 and the connecting shaft 25 during the snowing process The rotation can adjust the angle of the blower housing 20, so that the wind blown out by the strong blower 21 inside the blower housing 20 can change the direction in the working process, thereby performing secondary adjustment on the snowing position, and the strong blower 21 is in joggled connection with the blower housing 20, and the joggled connection is distributed annularly, thereby the limit of the strong blower 21 is more stable, the user can conveniently detach and install the blower in the later period, the user can conveniently perform maintenance, the blower housing 20 is partly wrapped outside the strong blower 21, thereby the strong blower 21 can be well protected, meanwhile, the user is prevented from mistakenly touching and reducing the potential safety hazard, meanwhile, the suspended design of the strong blower 21 can keep good heat dissipation effect in the working process of the strong blower 21, meanwhile, the design of the motor 17 and the shaft can be utilized to rotate the turntable 1506, and the fixed shaft is positioned at the diameter position of one third of the turntable 1506, therefore, the sleeve rod 1505 outside the fixed shaft 1504 can be synchronously driven to move in the mountain position, the connecting rod 11 and the built-in plate 1502 connected with the connecting rod 11 can be driven to move by the movement of the sleeve rod 1505, the built-in plate 1502 can stretch and extrude the connecting spring 1503 connected with the connecting rod when the position is adjusted, so that the built-in plate 1502 and the connecting frame 1501 have openings, the heat dissipation and dredging treatment can be carried out on the compressor and the dryer related to the main body frame 10, the compressor can be kept stable in the working process to ensure that the condenser is uniform in condensation, the snow floating quality is increased, the built-in plate 1502 and the connecting frame 1501 are mutually attached together when the ventilation treatment is not needed, external water or other objects are difficult to enter, the power assembly inside the main body frame 10 can be further protected, and finally, when the snow spraying port 3 is not needed, the barrel body 1 can be rotated to the auxiliary frame 12 by synchronously matching the adapter 4 and the connecting block 5 through the design of the first hydraulic air rod 8 When inside, usable side of auxiliary frame 12 puts the piece 13 and the interact of pivot 14 rotates, usable heating otter board 1903's design heats the air between snow spout 3 and auxiliary frame 12, the design of utilizing built-in fan 1902 can further accelerate the hourglass of air simultaneously moves, can clear up the nozzle inside of snow spout 3 position, can protect it when not needing to use snow spout 3 simultaneously, can play the effect of a protection of accomodating to snow spout 3.

Claims

1. The snow floating system with the uniform condensation structure for indoor snow floating is characterized by comprising a barrel body (1) and a main body frame (10), wherein a connecting disc (2) is arranged outside the barrel body (1), a snow spraying port (3) is arranged in the middle of the inside of the connecting disc (2), a sleeve plate (22) is arranged outside the snow spraying port (3), a connecting shaft (23) is rotatably arranged inside the sleeve plate (22), one end of the outside of the connecting shaft (23) is fixedly connected with an outer fan frame (20), a powerful fan (21) is arranged inside the outer fan frame (20), a bottom block (24) is arranged outside the rear end of the outer fan frame (20), a connecting shaft (25) is rotatably arranged inside the bottom block (24), a second hydraulic air rod (26) is arranged outside the bottom of the connecting shaft (25), a switching seat (4) is arranged at the bottom of one end, close to the connecting disc (2), outside the bottom of the barrel body (1), and the inside of adapter (4) is rotated and is provided with and links up piece (5), the externally mounted of linking up piece (5) bottom has first hydraulic pressure gas pole (8), and the outside of first hydraulic pressure gas pole (8) bottom is provided with and links up seat (9), main part frame (10) are located the outside of linking up seat (9) bottom, the top left side integration of linking up seat (9) is connected with bracing piece (7).

2. A snow blowing system for indoor snow blowing with a uniform condensation structure according to claim 1, wherein an angle scale (6) is provided outside the rear end of the joint base (9), and the angle scale (6) is snap-coupled with the joint base (9).

3. A snow floating system with a uniform condensation structure for indoor snow floating, according to claim 1, characterized in that a connecting rod (11) is arranged inside the main body frame (10), and an auxiliary assembly (15) for ventilating and radiating is arranged outside the rear end of the connecting rod (11), the auxiliary assembly (15) comprises a connecting frame (1501), a built-in plate (1502), a connecting spring (1503), a fixed shaft (1504), a loop bar (1505) and a turntable (1506), the built-in plate (1502) is arranged inside the connecting frame (1501), the connecting spring (1503) is arranged at the upper end and the lower end of the outside of the built-in plate (1502), the loop bar (1505) is arranged on the top of the connecting rod (11), the fixed shaft (1504) is rotatably arranged at one end inside the top of the loop bar (1505), and the turntable (1506) is arranged at one end outside of the fixed shaft (1504).

4. A snow blowing system for indoor snow blowing with a uniform condensation structure, according to claim 3, wherein the inner middle part of the rear end of the connecting frame (1501) is closely attached to the connecting rod (11), and a collecting rod (18) is fixedly connected to one end of the outer part of the connecting rod (11), the collecting rod (18) and the connecting rod (11) are perpendicular to each other.

5. A snow grooming system for indoor snow grooming with uniform condensation structure as claimed in claim 3, characterized in that the end of the outside of the rotary disc (1506) is engaged with a fixed disc (16) and the end of the outside of the fixed disc (16) is provided with a motor (17).

6. A snow floating system with a uniform condensation structure for indoor snow floating, according to claim 1, characterized in that a side block (13) is fixedly installed at the right end of the outer part of the main body frame (10), a rotating shaft (14) is rotatably installed inside the side block (13), an auxiliary frame (12) is arranged at one end of the outer part of the rotating shaft (14), and the inner part of the auxiliary frame (12) is a hollow structure.

7. The indoor snow blowing system with the uniform condensation structure is characterized in that a cleaning assembly (19) for assisting cleaning of the interior of the snow spraying port (3) is arranged inside the auxiliary frame (12), the cleaning assembly (19) comprises an auxiliary inner frame (1901), a built-in fan (1902), a heating screen plate (1903) and an adsorption magnetic plate (1904), the built-in fan (1902) is arranged inside the auxiliary inner frame (1901), the heating screen plate (1903) is installed at one end of the exterior of the built-in fan (1902), and the adsorption magnetic plate (1904) is arranged on the exterior surface of the auxiliary inner frame (1901).

8. A snow grooming system for indoor snow grooming with uniform condensation structure as claimed in claim 7, wherein the inside of the auxiliary inner frame (1901) is hollow structure, and the auxiliary inner frame (1901) is closely attached to the heating screen (1903).

9. A snow blowing system for indoor snow blowing with a uniform condensation structure, according to claim 1, characterized in that said powerful fan (21) is distributed in a ring shape with respect to the center of the snow jet (3), and the powerful fan (21) is in a joggle connection with the outer frame (20).

10. A snow grooming system for indoor snow grooming with a uniform condensation structure as claimed in claim 1, characterized in that the adapter disc (2) and the second hydraulic air bars (26) are perpendicular to each other, and the second hydraulic air bars (26) are provided with five, and the five second hydraulic air bars (26) are all distributed equidistantly.