阅读说明：本技术 一种用于冰雪运动项目的雪球机 (Snowball machine for ice and snow sports items ) 是由 赵华 赵佳 刘春刚 范庆林 王翔 王雨林 高睿 李佳莹 于 2020-07-27 设计创作，主要内容包括：本发明公开一种用于冰雪运动项目的雪球机,包括柜体,柜体内的顶部设有压缩机,压缩机的底部设有水箱,压缩机通过气管连通水箱,水箱的底面上周向固定有若干个可开闭的雾化喷嘴,雾化喷嘴的底部设有鼓风机,鼓风机的底部设有漏斗；漏斗的底部设有圆柱模,圆柱模上开设有圆柱型腔,圆柱型腔的两侧分别固定有第一气缸,第一气缸的活塞端固定有推板,圆柱型腔的顶部设有压板,压板滑动连接有第一电动滑轨,第一电动滑轨固定有滑块,滑块滑动连接有第二电动滑轨,第二电动滑轨竖向固定在柜体的内侧壁上,圆柱模的两端分别轴接有翻转电机的输出轴,本发明制备形成的雪花更接近自然雪花状,且具备搓球功能,抱团形成的雪球质量更好。(The invention discloses a snowball machine for ice and snow sports projects, which comprises a cabinet body, wherein a compressor is arranged at the top in the cabinet body, a water tank is arranged at the bottom of the compressor, the compressor is communicated with the water tank through an air pipe, a plurality of openable and closable atomizing nozzles are circumferentially fixed on the bottom surface of the water tank, an air blower is arranged at the bottom of each atomizing nozzle, and a funnel is arranged at the bottom of each air blower; the snow ball forming machine is characterized in that a cylindrical die is arranged at the bottom of the funnel, a cylindrical cavity is formed in the cylindrical die, first air cylinders are fixed to two sides of the cylindrical cavity respectively, a push plate is fixed to a piston end of each first air cylinder, a press plate is arranged at the top of the cylindrical cavity, the press plate is connected with a first electric slide rail in a sliding mode, a slide block is fixed to the first electric slide rail, the slide block is connected with a second electric slide rail in a sliding mode, the second electric slide rail is vertically fixed to the inner side wall of the cabinet body, and output shafts of turning motors are connected to two ends of the cylindrical die respectively in a shaft mode.)

1. The utility model provides a snowball machine for ice and snow sports item which characterized in that: the improved water tank type air conditioner comprises a cabinet body (1), wherein a compressor (2) is arranged at the top in the cabinet body (1), a water tank (3) is arranged at the bottom of the compressor (2), the compressor (2) is communicated with the water tank (3) through an air pipe (4), a plurality of openable and closable atomizing nozzles (5) are circumferentially fixed on the bottom surface of the water tank (3), an air blower (6) is arranged at the bottom of each atomizing nozzle (5), and a funnel (7) is arranged at the bottom of each air blower (6);

the bottom of the funnel (7) is provided with a cylindrical die (8), the cylindrical die (8) is provided with a cylindrical die cavity (9), the cylindrical die cavity (9) is arranged corresponding to the bottom opening of the funnel (7), two sides of the cylindrical die cavity (9) are respectively fixed with a first cylinder (10) which is arranged oppositely, the piston end of the first cylinder (10) is fixed with a push plate (11), the top of the cylindrical die cavity (9) is provided with a press plate (12), the press plate (12) is connected with a first electric slide rail (13) in a sliding manner, the top surface of one end of the first electric slide rail (13) far away from the funnel (7) is fixed with a slide block (14), the slide block (14) is connected with a second electric slide rail (15) in a sliding manner, the first electric slide rail (13) is perpendicular to the second electric slide rail (15), and the second electric slide rail (15) is vertically fixed on the inner side wall of the cabinet body, the second electric slide rail (15) drives the slide block (14) to move up and down, two ends of the cylindrical die (8) are respectively connected with output shafts of turnover motors (16) in a shaft mode, and the two turnover motors (16) are respectively fixed on the inner side wall of the cabinet body (1);

a first conveying belt (17) is arranged at the bottom of the cylindrical die (8), a cutter mechanism is arranged at the tail end of the first conveying belt (17), an inclined plate (18) is fixed on the inner side wall, close to one side of the cutter mechanism, of the cabinet body (1), a second conveying belt (19) is arranged at the bottom of the inclined plate (18), a plurality of snowball lower dies (20) which are arranged at intervals in sequence are fixed on the second conveying belt (19), a snowball upper die (21) is arranged at the top of the second conveying belt (19), the snowball upper die (21) and the snowball lower die (20) which are positioned at the tail end of the second conveying belt (19) are arranged in a vertically corresponding mode, the snowball upper die (21) is connected with a screw rod mechanism, and the snowball upper die (21) is driven to;

the snowball lower die (20) and the snowball upper die (21) are both provided with a spherical cavity (22), the bottom surface of the spherical cavity (22) of the snowball lower die (20) is provided with a sliding chute (23), the sliding chute (23) is connected with a gravity block (24) in a sliding manner, the gravity block (24) is connected with an arc-shaped plate (25), and the arc-shaped plate (25) is matched with the sliding chute (23);

the bottom of second conveyer belt (19) is equipped with third conveyer belt (26), discharge gate (27) have been seted up to the one end that the cabinet body (1) is close to third conveyer belt (26).

2. The snowball machine for ice and snow sports events according to claim 1, wherein: the utility model discloses a cabinet, including the cabinet body, the cabinet body is characterized in that the horizontal backup pad (28) that is fixed with in (1), compressor (2) are fixed on the top surface of backup pad (28), water tank (3) are fixed on the bottom surface of backup pad (28), compressor (2) stretch out backup pad (28) intercommunication through trachea (4) have current collection dish (29), current collection dish (29) are located water tank (3), the intercommunication has a plurality of venthole (30) on the bottom surface of current collection dish (29), venthole (30) correspond the setting from top to bottom with atomizing nozzle (5), install solenoid valve (31) on atomizing nozzle (5).

3. The snowball machine for ice and snow sports events according to claim 2, wherein: be fixed with third electronic slide rail (32) on the inside wall of the cabinet body (1), third electronic slide rail (32) are located between backup pad (28) and air-blower (6), third electronic slide rail (32) are the annular slide rail, sliding connection has audio signal micro control device (33) on third electronic slide rail (32).

4. The snowball machine for ice and snow sports events according to claim 1, wherein: be fixed with first support frame (34) on the inside wall of the cabinet body (1), air-blower (6) are installed on first support frame (34), vibrating motor (35) are installed respectively to the both ends of first support frame (34).

5. The snowball machine for ice and snow sports events according to claim 1, wherein: the utility model discloses a cabinet body, be fixed with second support frame (36) on the inside wall of cabinet body (1), funnel (7) erect on second support frame (36).

6. The snowball machine for ice and snow sports events according to claim 1, wherein: a sliding plate (37) is fixed on the top surface of the pressing plate (12), and the pressing plate (12) is connected to the first electric sliding rail (13) in a sliding mode through the sliding plate (37).

7. The snowball machine for ice and snow sports events according to claim 1, wherein: two ends of the first conveying belt (17) are respectively fixed with two first baffle plates (38), the cutter mechanism comprises a cutter frame (39), the cutter frame (39) is erected between the two first baffle plates (38), a second cylinder (40) is fixed on the cutter frame (39), a cutter (41) is fixed at the piston end of the second cylinder (40), and the cutter (41) is located between the two first baffle plates (38).

8. The snowball machine for ice and snow sports events according to claim 1, wherein: an elastic fixing piece (42) is fixed on the bottom surface of the snowball lower die (20), and the snowball lower die (20) is fixed on the second conveying belt (19) through the elastic fixing piece (42).

9. The snowball machine for ice and snow sports events according to claim 1, wherein: two second baffles (43) are respectively fixed at two ends of the third conveying belt (26), and a snowball lower die (20) positioned at the bottom of the second conveying belt (19) and the third conveying belt (26) are arranged up and down correspondingly.

10. The snowball machine for ice and snow sports events according to claim 1, wherein: the lead screw mechanism comprises a lead screw (44), the lead screw (44) is in driving connection with a driving motor (45), the lead screw (44) is vertically fixed on the inner side wall of one end, far away from the inclined plate (18), of the cabinet body (1), a lead screw nut (46) is connected onto the lead screw (44) in a sliding mode, a support rod (47) is transversely fixed on the lead screw nut (46), and the snowball upper die (21) is fixed on the bottom surface of one end, far away from the lead screw (44), of the support rod (47).

Technical Field

The invention relates to the field of ice and snow sports items, in particular to a snowball machine for the ice and snow sports items.

Background

The traditional artificial snow maker adopts ice formed on an ice making plate at the temperature of minus 25 ℃ and is scraped by an ice skate blade, and the ice is 5mm in size and 1-1.5 mm in thickness and is in a dry and loose state. Is very different from natural snow. Although the snow produced by the snowmaker can be maintained for a long time due to dryness, the snow has the disadvantage of difficulty in mutual fusion, and professional skiers are prone to falling down when rotating.

The snow making machine developed in recent years mostly adopts the principle of fusion spraying of low-temperature high-pressure water and high-pressure air, can make the ice-like crystal which is relatively close to natural snow, can raise the requirement of snow making environment to about 0 deg.C, and can reduce the ice crystal grain to about 0.3mm, but the "snow" of this ice-like crystal sample lacks time and environmental characteristics of crystal growth, and its microstructure and naturally-formed snowflake are very different. Therefore, the conglomeration, the integration and the natural snowflakes still have great difference, and the requirements of high-grade ski-field racing tracks and the requirements of snow quality of snow sports such as snow breaking and stick breaking are difficult to meet. And the traditional snow-making machine generally does not have the function of rubbing the snow ball.

Disclosure of Invention

The invention aims to provide a snowball machine for an ice and snow sport project, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following scheme: the invention provides a snowball machine for ice and snow sports projects, which comprises a cabinet body, wherein a compressor is arranged at the top in the cabinet body, a water tank is arranged at the bottom of the compressor, the compressor is communicated with the water tank through an air pipe, a plurality of openable atomizing nozzles are circumferentially fixed on the bottom surface of the water tank, an air blower is arranged at the bottom of each atomizing nozzle, and a funnel is arranged at the bottom of each air blower;

the bottom of the funnel is provided with a cylindrical die, the cylindrical die is provided with a cylindrical cavity, the cylindrical cavity is arranged corresponding to the bottom opening of the funnel, two sides of the cylindrical cavity are respectively fixed with a first cylinder which is oppositely arranged, the piston end of the first cylinder is fixed with a push plate, the top of the cylindrical cavity is provided with a pressing plate which is connected with a first electric slide rail in a sliding way, the top surface of one end of the first electric slide rail, which is far away from the funnel, is fixed with a slide block, the slide block is connected with a second electric slide rail in a sliding way, the first electric slide rail is vertical to the second electric slide rail, the second electric slide rail is vertically fixed on the inner side wall of the cabinet body and drives the slide block to move up and down, two ends of the cylindrical die are respectively coupled with output shafts of turnover motors, and the two turnover motors are respectively fixed on the inner side wall of the cabinet body;

the bottom of the cylindrical mold is provided with a first conveying belt, the tail end of the first conveying belt is provided with a cutter mechanism, an inclined plate is fixed on the inner side wall of the cabinet body close to one side of the cutter mechanism, the bottom of the inclined plate is provided with a second conveying belt, a plurality of snow ball lower molds which are arranged at intervals in sequence are fixed on the second conveying belt, a snow ball upper mold is arranged at the top of the second conveying belt, the snow ball upper mold and the snow ball lower molds which are positioned at the tail end of the second conveying belt are arranged in a vertically corresponding mode, the snow ball upper mold is connected with a screw mechanism, and the snow ball upper mold is driven to move up;

the snow ball lower die and the snow ball upper die are both provided with spherical cavities, the bottom surface of the spherical cavity of the snow ball lower die is provided with a sliding groove, a gravity block is connected in the sliding groove in a sliding manner, the gravity block is connected with an arc plate, and the arc plate is matched with the sliding groove;

the bottom of second conveyer belt is equipped with the third conveyer belt, the discharge gate has been seted up to the cabinet body one end that is close to the third conveyer belt.

Preferably, the internal backup pad that transversely is fixed with of cabinet, the compressor is fixed on the top surface of backup pad, the water tank is fixed on the bottom surface of backup pad, the compressor stretches out the backup pad intercommunication through the trachea and has the current collection dish, the current collection dish is located the water tank, the intercommunication has a plurality of venthole on the bottom surface of current collection dish, the venthole corresponds the setting from top to bottom with the atomizing nozzle, the last solenoid valve of installing of atomizing nozzle.

Preferably, a third electric slide rail is fixed on the inner side wall of the cabinet body and located between the support plate and the air blower, the third electric slide rail is an annular slide rail, and an audio signal micro-control device is connected to the third electric slide rail in a sliding manner.

Preferably, a first support frame is fixed on the inner side wall of the cabinet body, the air blower is installed on the first support frame, and vibration motors are installed at two ends of the first support frame respectively.

Preferably, a second support frame is fixed on the inner side wall of the cabinet body, and the funnel is erected on the second support frame.

Preferably, a sliding plate is fixed on the top surface of the pressing plate, and the pressing plate is connected to the first sliding rail in a sliding mode through the sliding plate.

Preferably, two first baffles are fixed at two ends of the first conveying belt respectively, the cutter mechanism comprises a cutter frame, the cutter frame is erected between the two first baffles, a second cylinder is fixed on the cutter frame, a cutter is fixed at the piston end of the second cylinder, and the cutter is located between the two first baffles.

Preferably, an elastic fixing part is fixed on the bottom surface of the snowball lower die, and the snowball lower die is fixed on the second conveying belt through the elastic fixing part.

Preferably, two ends of the third conveying belt are respectively fixed with two second baffles, and the snowball lower die positioned at the bottom of the second conveying belt and the third conveying belt are arranged in an up-and-down corresponding mode.

Preferably, the screw mechanism comprises a screw, the screw is connected with a driving motor in a driving mode, the screw is vertically fixed on the inner side wall of the cabinet body far away from one end of the inclined plate, a screw nut is connected onto the screw in a sliding mode, a supporting rod is transversely fixed on the screw nut, and the snowball upper die is fixed on the bottom surface of the supporting rod far away from one end of the screw.

The invention discloses the following technical effects: the compressor sprays low-temperature compressed gas into the water tank through the air pipe, cooling water in the mixed water tank sprays water-mist steam-water mixture outwards through the atomizing nozzle, snowflake condensation nuclei are formed instantly after being sprayed and float downwards, the blower provides vortex-shaped wind to enable the snowflake condensation nuclei to gather towards the center, the action of the vortex-shaped wind on the snowflake condensation nuclei in the cabinet body is facilitated, the wind provided by the blower can provide buoyancy for the snowflake condensation nuclei to suspend, the snowflake condensation nuclei gradually grow to be close to natural snowflakes, the weight is increased along with the increase of the volume of the snowflakes, when the wind provided by the blower cannot support the snowflake condensation nuclei to float in the cabinet body, the snowflakes can gradually float and fall into a cylindrical cavity of the cylindrical mold through a funnel, the two first cylinders push snow towards the center, the first electric slide rail drives the pressure plate to slide so that the pressure plate is positioned right above the cylindrical cavity, the second electric slide rail drives the press plate to move downwards to enter the cylindrical cavity to push snow, so that the snow in the cylindrical cavity is extruded to be firmer to form a cylinder-like shape, the overturning motor drives the cylindrical mold to overturn, so that the cylindrical cavity is demoulded and falls onto the top surface of the first conveyer belt, the first conveyer belt conveys the quasi-cylindrical snow column, the snow balls are segmented by the cutter mechanism, slide into the snow ball lower molds on the second conveying belt one by one through the inclined plate, and when conveyed to pass through the snow ball upper molds, the screw mechanism drives the upper snowball die to downwards buckle the lower snowball die one by one to form snowballs, when each lower snowball die moves to the bottom of the second conveying belt, the gravity block moves downwards along the sliding groove, so that the arc-shaped plate pushes the snowballs to be demoulded and fall onto a third conveying belt, the snowflakes formed by the invention are closer to natural snowflake shapes, and have the function of ball kneading, and the snowballs formed by the balls have better quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a front view of a snowball machine for ice and snow sports according to the present invention;

FIG. 2 is a bottom view of the water tank of the present invention;

FIG. 3 is a side view of the cutter mechanism of the present invention;

FIG. 4 is a front view of the lower snowball mold of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1;

FIG. 6 is a partial enlarged view of B in FIG. 1;

FIG. 7 is an enlarged view of a portion C of FIG. 1;

wherein, 1 is a cabinet body, 2 is a compressor, 3 is a water tank, 4 is an air pipe, 5 is an atomizing nozzle, 6 is an air blower, 7 is a funnel, 8 is a cylindrical die, 9 is a cylindrical cavity, 10 is a first cylinder, 11 is a push plate, 12 is a press plate, 13 is a first electric slide rail, 14 is a slide block, 15 is a second electric slide rail, 16 is a turnover motor, 17 is a first conveyer belt, 18 is an inclined plate, 19 is a second conveyer belt, 20 is a snowball lower die, 21 is a snowball upper die, 22 is a spherical cavity, 23 is a chute, 24 is a gravity block, 25 is an arc plate, 26 is a third conveyer belt, 27 is a discharge port, 28 is a support plate, 29 is a current collecting plate, 30 is an air outlet, 31 is an electromagnetic valve, 32 is a third electric slide rail, 33 is an audio signal micro-control device, 34 is a first support frame, 35 is a vibration motor, 36 is a second support frame, 37 is a slide plate, 38 is a first baffle plate, and 39 is, 40 is the second cylinder, 41 is the cutter, 42 is the elastic fixing piece, 43 is the second baffle, 44 is the lead screw, 45 is driving motor, 46 is the lead screw nut, 47 is the bracing piece.

Detailed Description

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

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Referring to fig. 1-7, the invention provides a snowball machine for ice and snow sports projects, which comprises a cabinet body 1, wherein the overall design of the product adopts a cabinet body 1 structure, a compressor 2, preferably a high-power compressor 2, is arranged at the top inside the cabinet body 1, a water tank 3 is arranged at the bottom of the compressor 2, the compressor 2 is communicated with the water tank 3 through an air pipe 4, an evaporator (not shown in the figure) is arranged at the head end of the air pipe 4, so that the compressor 2 sprays low-temperature compressed gas, a plurality of openable atomizing nozzles 5 are circumferentially fixed on the bottom surface of the water tank 3, a blower 6 is arranged at the bottom of each atomizing nozzle 5, a funnel 7 is arranged at the bottom of each blower 6, a water-mist high-pressure steam-water mixture is sprayed through each atomizing nozzle 5, the high-pressure steam-water mixture is blown by each blower 6, and the vortex-, the blowing and floating are carried out for 15-20 minutes totally, the weight is increased continuously along with the increase of the volume of the snowflakes, and when the snowflakes cannot be supported by the wind provided by the blower 6 to float in the cabinet body 1, the snowflakes gradually float down and fall into the cylindrical cavity 9 of the cylindrical mold 8 through the funnel 7;

the bottom of the funnel 7 is provided with a cylindrical die 8, the cylindrical die 8 is provided with a cylindrical die cavity 9, the cylindrical die cavity 9 is arranged corresponding to the bottom opening of the funnel 7, two sides of the cylindrical die cavity 9 are respectively fixed with a first cylinder 10 which is oppositely arranged, the piston end of the first cylinder 10 is fixed with a push plate 11, the top of the cylindrical die cavity 9 is provided with a press plate 12, the press plate 12 is connected with a first electric slide rail 13 in a sliding way, when snowflakes fall downwards, the press plate 12 is not positioned under the funnel 7, so that interference can not be caused, the top surface of one end of the first electric slide rail 13 far away from the funnel 7 is fixed with a slide block 14, the slide block 14 is connected with a second electric slide rail 15 in a sliding way, the first electric slide rail 13 is vertical to the second electric slide rail 15, the second electric slide rail 15 is vertically fixed on the inner side wall of the cabinet body 1, the second electric, two ends of the cylindrical mold 8 are respectively connected with output shafts of turnover motors 16 in a shaft mode, the two turnover motors 16 are respectively fixed on the inner side wall of the cabinet body 1, after snow falls into the cylindrical cavity 9, the two first air cylinders 10 push snow towards the center, the first electric slide rail 13 drives the pressing plate 12 to slide, so that the pressing plate 12 is located right above the cylindrical cavity 9, the second electric slide rail 15 drives the sliding block 14 to move downwards, so that the pressing plate 12 moves downwards to enter the cylindrical cavity 9 to push snow, the snow in the cylindrical cavity 9 is extruded to be firm, a cylinder-like shape is formed, the turnover motors 16 synchronously rotate to drive the cylindrical mold 8 to turn over, the cylindrical cavity 9 is demoulded, and the cylinder-like snow falls onto the top surface of the first conveying belt 17;

the bottom of the cylindrical mold 8 is provided with a first conveying belt 17, the end of the first conveying belt 17 is provided with a cutter mechanism, an inclined plate 18 is fixed on the inner side wall of the cabinet body 1 close to one side of the cutter mechanism, the bottom of the inclined plate 18 is provided with a second conveying belt 19, a plurality of snowball lower molds 20 which are arranged at intervals in sequence are fixed on the second conveying belt 19, the top of the second conveying belt 19 is provided with a snowball upper mold 21, the snowball upper mold 21 and the snowball lower molds 20 which are positioned at the end of the second conveying belt 19 are arranged up and down correspondingly, the snowball upper mold 21 is connected with a screw rod mechanism, the snowball upper mold 21 is driven by the screw rod mechanism to move up and down, a columniform-like snow column falls onto the top surface of the first conveying belt 17, the first conveying belt 17 conveys the snowcolumn to the end, the snowcolumn is cut in a reciprocating manner by the cutter mechanism to be divided into, the snowball upper die 21 is driven by the lead screw mechanism to downwards buckle the snowball lower die 20 to be matched with the snowball, and a snowball is formed;

the snowball lower die 20 and the snowball upper die 21 are both provided with a spherical cavity 22, the bottom surface of the spherical cavity 22 of the snowball lower die 20 is provided with a sliding chute 23, a gravity block 24 is connected in the sliding chute 23 in a sliding manner, the gravity block 24 is connected with an arc-shaped plate 25, the arc-shaped plate 25 is matched with the sliding chute 23, after die assembly, the snowball lower die 20 is conveyed to the bottom along with the second conveying belt 19, after the snowball lower die 20 is turned over, the gravity block 24 slides downwards along the sliding chute 23 to drive the arc-shaped plate 25 to push a snowball, so that the snowball is demoulded and falls onto the third conveying belt 26;

the bottom of second conveyer belt 19 is equipped with third conveyer belt 26, the discharge gate 27 has been seted up to the one end that the cabinet body 1 is close to third conveyer belt 26, and third conveyer belt 26 exports the snowball through discharge gate 27.

The utility model discloses a cooling cabinet, including cabinet body 1, compressor 2, water collecting disc 29, atomizing nozzle 5, compressor 2, air outlet 30 and atomizing nozzle 5, the horizontal backup pad 28 that is fixed with in the cabinet body 1, compressor 2 fixes on the top surface of backup pad 28, water tank 3 fixes on the bottom surface of backup pad 28, compressor 2 stretches out backup pad 28 intercommunication through trachea 4 and has the current collecting disc 29, current collecting disc 29 is located water tank 3, the intercommunication has a plurality of venthole 30 on current collecting disc 29's the bottom surface, venthole 30 corresponds the setting from top to bottom with atomizing nozzle 5, install solenoid valve 31 on atomizing nozzle 5, and venthole 30 on every current collecting disc 29 is just to atomizing nozzle 5, and compressor 2 spouts compressed gas in current collecting disc 29 through trachea 4, discharges through venthole 30, and compressed air will just spout atomizing nozzle.

Be fixed with the electronic slide rail 32 of third on the inside wall of the cabinet body 1, the electronic slide rail 32 of third is located between backup pad 28 and the air-blower 6, the electronic slide rail 32 of third is annular slide rail, sliding connection has audio signal micro-control device 33 on the electronic slide rail 32 of third. The audio signal micro-control device 33 outputs audio signals to provide a micro-interference effect on the formation of snowflakes, the audio signal micro-control device 33 directly outputs the audio signals to the atomizing nozzle 5, the audio signal micro-control device 33 can play adjustable audio signals, such as audio signals with single frequency or corresponding music or music combination, different sounds play a micro-interference control effect on the growth of the snowflakes, the micro-interference of the crystal growth environment can cause the crystal growth characteristics to change, thereby producing snowflakes with different textures, the third electric slide rail 32 drives the audio signal micro-control device 33 to annularly slide, the position and the direction of a loudspeaker on the audio signal micro-control device 33 can be conveniently adjusted, and the uniformity of the audio signal output is improved.

The snow making effect may establish the following general correspondence with reference to the audio signal intervening in the snow flake generation process:

the snowflake microstructure with a blunt structure can be generated by adopting a low-frequency single-frequency audio signal to intervene in the snowflake growing process, the snowflake accumulation or the texture of the rolling ball of the microstructure is strong in granular sensation, the rolling ball is easy to crack, and the snowflake pavement is not fluffy.

The snowflake micro structure with more acute-angle structures can be generated by adopting a high-frequency single-frequency audio signal to intervene in the snowflake growing process, the texture of snowflake accumulation or a rolling ball of the micro structure is strong in flocculent feeling, the rolling ball is easy to adhere and not easy to crack, and the skiing way is fluffy.

The snow flake growth process is interfered by the composite musical tone signals, the snow flake with a more complex microstructure can be generated, the light, fast and soft musical tone signals can generate a plurality of more symmetrical and complex snow flake structures, the snow texture of the interference condition is softer, the ball is easy to rub, and the texture is full; the snow flakes produced by the shock or rock musical tone intervention are mostly larger in microstructure and increase the graininess of the snowball with increased adhesion.

The novel multifunctional wardrobe is characterized in that a first support frame 34 is fixed on the inner side wall of the wardrobe body 1, the air blower 6 is installed on the first support frame 34, vibration motors 35 are installed at two ends of the first support frame 34 respectively, part of snowflakes can fall on the air blower 6 when falling downwards, and the snowflakes can not be attached to the air blower 6 under the vibration excitation of the vibration motors 35 and the rotation effect of the air blower 6.

The inside wall of the cabinet body 1 is fixed with a second support frame 36, the funnel 7 is erected on the second support frame 36, and the second support frame 36 is used for fixing the funnel 7.

A sliding plate 37 is fixed on the top surface of the pressing plate 12, the pressing plate 12 is connected to the first electric sliding rail 13 through the sliding plate 37 in a sliding manner, and the sliding plate 37 can assist the pressing plate 12 to slide on the first electric sliding rail 13 and can increase a certain height, so that interference between the pressing plate and the cylindrical die 8 cannot be formed.

Two first baffle plates 38 are fixed at two ends of the first conveying belt 17 respectively, the cutter mechanism comprises a cutter frame 39, the cutter frame 39 is erected between the two first baffle plates 38, a second cylinder 40 is fixed on the cutter frame 39, a cutter 41 is fixed at the piston end of the second cylinder 40, the cutter 41 is located between the two first baffle plates 38, and the cutter 41 is driven to reciprocate through the reciprocating movement of the second cylinder 40 to cut the similar cylindrical snow columns.

Elastic fixing members 42 are fixed on the bottom surface of the snowball lower die 20, the snowball lower die 20 is fixed on the second conveying belt 19 through the elastic fixing members 42, the elastic fixing members 42 are made of rubber materials and have large elastic deformation, and the second conveying belt 19 is guaranteed to be capable of driving the fixed snowball lower die 20 to overturn downwards.

Two second baffles 43 are respectively fixed at two ends of the third conveying belt 26, the snowball lower die 20 positioned at the bottom of the second conveying belt 19 and the third conveying belt 26 are arranged up and down correspondingly, and the demolded snowball is positioned between the second baffles 43 to prevent the snowball from falling.

The lead screw mechanism comprises a lead screw 44, the lead screw 44 is in driving connection with a driving motor 45, the lead screw 44 is vertically fixed on the inner side wall of one end, away from the inclined plate 18, of the cabinet body 1, a lead screw nut 46 is in sliding connection with the lead screw 44, a support rod 47 is transversely fixed on the lead screw nut 46, the snowball upper die 21 is fixed on the bottom surface of one end, away from the lead screw 44, of the support rod 47, the lead screw nut 46 drives the support rod 47 to move up and down through the driving motor 45, the snowball upper die 21 is enabled to move up and down, and the snowball lower die 20.

Wherein, compressor 2, air-blower 6, first cylinder 10, first electronic slide rail 13, electronic slide rail 15 of second, upset motor 16, first conveyer belt 17, second conveyer belt 19, third conveyer belt 26, solenoid valve 31, electronic slide rail 32 of third, audio signal micro control device 33, vibrating motor 35, second cylinder 40, driving motor 45 all signal connection have PLC, through the work of each electrical component of PLC synchronous control, specific connected mode is prior art, no longer redundantly repeated.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.