CN211567001U - Snowball making machine - Google Patents

Abstract

The utility model discloses a snowball maker, the top of chassis is fixed with horizontal base plate, horizontal base plate's top is equipped with along horizontal base plate both ends direction horizontal reciprocating motion's lower mould balladeur train, be equipped with upper and lower reciprocating motion's last mould balladeur train directly over the horizontal base plate, it drives through the driving motor who is fixed in the chassis bottom to go up the mould balladeur train, the bottom surface of going up the mould balladeur train is equipped with the mould, the top surface of lower mould balladeur train is equipped with two lower moulds, the lower mould distributes along the horizontal slip direction of lower mould balladeur train, the bottom of going up the. According to the above structure, the utility model discloses a snowball maker is equipped with two lower moulds on the lower mould balladeur train to can cooperate and go up the mould balladeur train, when making the snowball to one of them lower mould balladeur train, another lower mould balladeur train can also carry out the drawing of patterns and pile snow of snowball, thereby raises the efficiency.

Description

Snowball making machine

Technical Field

The utility model relates to a technical field of snowball manufacture equipment, concretely relates to snowball makes machine.

Background

In the ice and snow entertainment activities, snowball-type projects are popular with the public and are expected to become a sports project to be popularized and developed. At present, the snowball is mostly manufactured by a snowball clamp or a snowball mould which are sold on the market, and the snowball has the defects of low production speed, low efficiency, time and labor waste. In addition, the size and the strength of the snowball cannot be ensured, and the requirement of activity cannot be met.

Although some snowball making machines are currently on the market, the snowball making machines are relatively inefficient in making snowballs, and snowballs are typically formed by pressing snow against them, which can cause the snowball to stick to the mold, resulting in inconvenient snow removal. In addition, the snowball maker is inconvenient to move over the snow.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the snowball manufacturing machine overcomes the defects of the prior art, two lower dies are arranged on the lower die sliding frames, so that the two lower dies can be matched with the upper die sliding frames, and when snowballs are manufactured on one of the lower die sliding frames, the other lower die sliding frame can also perform demoulding and snow accumulation on the snowballs, so that the efficiency is improved; the snow pile can be pressed into a snowball through the up-and-down movement of the upper die carriage under the action of the hemispherical female die and the snow filtering hole and the snow discharging hole; the lower die sliding frame extending out of the upper die sliding frame provides a supporting function while the lower die sliding frame is limited by the side baffle and the edge of the horizontal substrate extending to the connecting plate; through the action of the positioning balls and the positioning grooves, the lower die sliding frame can be accurately positioned, and an upper die of the upper die sliding frame is convenient to match with a lower die of the lower die sliding frame positioned right below the upper die sliding frame to manufacture a snowball; through the effect of slide, be convenient for snowball making machine can move in the snowfield.

The technical scheme adopted by the utility model is as follows:

the snowball making machine comprises a bottom frame, wherein a horizontal base plate is fixed at the top of the bottom frame, a lower die sliding frame which horizontally reciprocates along the directions of two ends of the horizontal base plate is arranged at the top of the horizontal base plate, an upper die sliding frame which vertically reciprocates is arranged right above the horizontal base plate, the upper die sliding frame is driven by a driving motor fixed at the bottom of the bottom frame, an upper die is arranged on the bottom surface of the upper die sliding frame, two lower dies are arranged on the top surface of the lower die sliding frame, the lower dies are distributed along the horizontal sliding direction of the lower die sliding frame, when the lower die sliding frame horizontally slides to the maximum stroke position to any side, the lower die far away from the side is positioned right below the upper die, and the lower die; the bottom of the upper die and the top of the lower die are respectively provided with a plurality of hemispherical female dies, and the size, the position and the number of the hemispherical female dies at the bottom of the upper die are matched with those of the hemispherical female dies at the top of the lower die which is positioned right below the upper die; when the upper die sliding frame moves upwards to the maximum stroke position, the distance between the bottom surface of the upper die and the top surface of the lower die is larger than the radius of the hemispherical concave die, and when the upper die sliding frame moves downwards to the maximum stroke position, the bottom surface of the upper die is contacted with the top surface of the lower die.

The utility model discloses the further improvement is, horizontal base plate's top, be located both sides border position punishment and do not be equipped with the side shield, the side shield extends to both ends respectively to between the side shield, be located the one end that horizontal base plate was kept away from to the side shield and be fixed with the connecting plate, horizontal base plate, the both sides that are corresponding to the side shield extend to connecting plate position department respectively.

The utility model discloses a further improvement is, driving motor's output shaft passes through the reducing gear box and is connected with the transmission of drive pivot, the drive pivot is passed through connecting rod A and connecting rod B and is connected with the connecting rod of last mould balladeur train, the reducing gear box is fixed in the bottom of chassis, connecting rod A and connecting rod B are located the outside of horizontal base plate, the top of side shield, the fixed side riser that is equipped with in middle part corresponding to horizontal base plate, the connecting rod is movable from top to bottom along the bar through-hole that the side riser was established.

The utility model discloses further improve the scheme and be, horizontal diaphragm fixed connection is passed through at the top between the side riser, be connected with the spring A who is equipped with the pre-pressure between horizontal diaphragm and the last mould balladeur train.

The utility model discloses further improve the scheme and be, the outside of horizontal base plate is stretched out at the both ends of drive pivot, the both sides of horizontal base plate symmetry respectively are equipped with connecting rod A and connecting rod B.

The utility model has the further improvement scheme that the two ends of the top of the horizontal base plate are respectively provided with a positioning groove A, the bottom of the lower die sliding frame is provided with a positioning bead, the positioning bead is movably connected in a positioning groove B arranged at the bottom of the lower die sliding frame up and down, and the positioning bead is connected with the groove bottom in the positioning groove B through a spring B with pre-pressure; when the lower die sliding frame moves to the maximum stroke position towards one side, the positioning beads are positioned in the positioning grooves A of the horizontal base plate corresponding to the side, and when the lower die sliding frame moves to the maximum stroke position towards the other side, the positioning beads are positioned in the positioning grooves A of the horizontal base plate corresponding to the side.

The utility model discloses a further improvement is, the both ends of lower mould balladeur train are fixed with the end plate respectively, still the symmetry is equipped with the handle respectively on the end plate, the handle is located the top of connecting plate.

The utility model discloses a further improvement is, lower mould balladeur train's lower mould top surface, evenly distributed have multirow hemisphere die, and every row of evenly distributed has a plurality of hemisphere dies, the top surface of lower mould, be located and strain snow hole A between two adjacent row hemisphere dies, the top surface of lower mould, be located and still be equipped with between two adjacent hemisphere dies of every row hemisphere die and strain snow hole B.

The utility model discloses further improve the scheme and be, horizontal base plate is equipped with the snow through-hole, the snow through-hole of arranging is located the mould balladeur train under the size of snow through-hole is less than the size of lower mould balladeur train to, be located the lower mould balladeur train under the mould balladeur train strain snow hole A and strain snow hole B, all be located the within range of the snow through-hole of arranging.

The utility model discloses further improve the scheme and be, the bottom of chassis symmetry respectively is equipped with the slide of two parallels.

The beneficial effects of the utility model reside in that:

first, the utility model discloses a snowball maker is equipped with two lower moulds on the lower mould balladeur train to can cooperate and go up the mould balladeur train, when making the snowball to one of them lower mould balladeur train, another lower mould balladeur train can also carry out the drawing of patterns and pile snow of snowball, thereby raises the efficiency.

Second, the utility model discloses a snowball maker is through hemisphere die and the effect in straining snow hole and row snow hole for can be through going up reciprocating of mould balladeur train, suppress out the snowball with the snow heap.

Third, the utility model discloses a snowball maker is through side shield and the horizontal substrate border that extends to the connecting plate for when the lower mould balladeur train is spacing, the lower mould balladeur train that will stretch out the mould balladeur train provides the supporting role.

Fourth, the utility model discloses a snowball maker through location pearl and constant head tank A's effect for the lower mould balladeur train can accurate location, be convenient for go up the mould balladeur train go up the mould and match the lower mould of making the snowball with being located the lower mould balladeur train under the mould balladeur train.

Fifthly, the utility model discloses a snowball maker through the effect of slide, and the snowball maker of being convenient for can remove in the snowfield.

Description of the drawings:

fig. 1 is a schematic view of the present invention in partial section from the front view.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is an enlarged cross-sectional view of the positioning device of fig. 1.

Fig. 5 is a perspective view of the present invention.

The specific implementation mode is as follows:

as can be seen from fig. 1 to 5, the snowball making machine of the present invention comprises a bottom frame 1, a horizontal substrate 2 is fixed on the top of the bottom frame 1, a lower die carriage 3 horizontally reciprocating along the direction of two ends of the horizontal substrate 2 is arranged on the top of the horizontal substrate 2, an upper die carriage 4 vertically reciprocating is arranged right above the horizontal substrate 2, the upper die carriage 4 is driven by a driving motor 6 fixed on the bottom of the bottom frame 1, an upper die is arranged on the bottom surface of the upper die carriage 4, two lower dies are arranged on the top surface of the lower die carriage 3, the lower dies are distributed along the horizontal sliding direction of the lower die carriage 3, when the lower die carriage 3 horizontally slides to the maximum stroke position to any side, the lower die far away from the side is positioned right below the upper die, and the lower die near the side is positioned outside the upper die; the bottom of the upper die and the top of the lower die are respectively provided with a plurality of hemispherical female dies 5, and the size, position and number of the hemispherical female dies 5 at the bottom of the upper die are matched with those of the hemispherical female dies at the top of the lower die which is positioned right below the upper die; when the upper die carriage 4 moves upwards to the maximum stroke, the distance between the bottom surface of the upper die and the top surface of the lower die is larger than the radius of the hemispherical female die, and when the upper die carriage 4 moves downwards to the maximum stroke, the bottom surface of the upper die is contacted with the top surface of the lower die; the top of the horizontal base plate 2 and the positions at the edges of the two sides are respectively provided with a side baffle 18, the side baffles 18 respectively extend towards the two ends, a connecting plate 26 is fixed between the side baffles 18 and at one end of the side baffle 18 far away from the horizontal base plate 2, and the two sides of the horizontal base plate 2 corresponding to the side baffles 18 respectively extend to the positions of the connecting plate 26; an output shaft of the driving motor 6 is in transmission connection with a driving rotating shaft 13 through a reduction gearbox 12, the driving rotating shaft 13 is connected with a connecting rod 8 of the upper die sliding frame 4 through a connecting rod A14 and a connecting rod B15, the reduction gearbox 12 is fixed at the bottom of the underframe 1, the connecting rod A14 and the connecting rod B15 are located on the outer side of the horizontal base plate 2, a side vertical plate 7 is fixedly arranged at the top of the side baffle 18 and in the middle of the horizontal base plate 2, and the connecting rod 8 moves up and down along a strip-shaped through hole 9 formed in the side vertical plate 7; the top parts of the side vertical plates 7 are fixedly connected through a horizontal transverse plate 16, and a spring A17 with pre-pressure is connected between the horizontal transverse plate 16 and the upper die sliding frame 4; two ends of the driving rotating shaft 13 extend out of the outer side of the horizontal base plate 2, and two sides of the horizontal base plate 2 are respectively and symmetrically provided with a connecting rod A14 and a connecting rod B15; positioning grooves A22 are respectively arranged at two ends of the top of the horizontal base plate 2, positioning beads 24 are arranged at the bottom of the lower die sliding frame 3, the positioning beads 24 are movably connected into positioning grooves B23 arranged at the bottom of the lower die sliding frame 3 up and down, and the positioning beads 24 are connected with the bottom of the groove in the positioning grooves B23 through springs B25 with pre-pressure; when the lower die carriage 3 moves to the maximum stroke side, the positioning ball 24 is located in the positioning groove a22 of the horizontal base plate 2 corresponding to the side, and when the lower die carriage 3 moves to the maximum stroke side, the positioning ball 24 is located in the positioning groove a22 of the horizontal base plate 2 corresponding to the side; end plates 19 are respectively fixed at two ends of the lower die sliding frame 3, handles 20 are respectively symmetrically arranged on the end plates 19, and the handles 20 are positioned above the connecting plate 26; a plurality of rows of hemispherical female dies 5 are uniformly distributed on the top surface of the lower die carriage 3, a plurality of hemispherical female dies 5 are uniformly distributed on each row, snow filtering holes A10 are formed in the top surface of the lower die and between two adjacent hemispherical female dies 5 in each row of hemispherical female dies 5, and snow filtering holes B11 are also formed in the top surface of the lower die and between two adjacent hemispherical female dies 5 in each row of hemispherical female dies 5; the horizontal base plate 2 is provided with a snow discharge through hole which is positioned right below the upper die carriage 4, the size of the snow discharge through hole is smaller than that of the lower die carriage 3, and the snow filtering hole A10 and the snow filtering hole B11 of the lower die carriage 3 which are positioned right below the upper die carriage 4 are both positioned in the range of the snow discharge through hole; the bottom of the underframe 1 is symmetrically provided with two parallel sliding plates 21 respectively.

When the utility model is used, the lower die sliding frame 3 is moved to the maximum stroke position towards one end, then snow is shoveled on the lower die of the lower die sliding frame 3 positioned outside the upper die sliding frame 4, and the snow is piled into a cuboid, and the top of the cuboid snow pile is higher than the radius of the hemispherical concave die 5 and is less than or equal to the maximum stroke of the upper die sliding frame 4; then the lower die carriage 3 provided with the cuboid snow pile is pushed to be right below the upper die carriage 4; then, a driving motor 6 is started, the driving motor 6 drives the upper die sliding frame 4 to continuously reciprocate up and down under the action of a driving rotating shaft 13, a connecting rod A14 and a connecting rod B15, so that snow heaps between the upper die sliding frame 4 and the lower die sliding frame 3 are pressed into snow balls, and redundant snow around the hemispherical female die 5 is discharged downwards through a snow filtering hole A10 and a snow filtering hole B11 through a snow discharging hole; meanwhile, snow is continuously shoveled on the lower die of the lower die sliding frame 3 positioned at the other end of the outer side of the upper die sliding frame 4, and the snow is piled into a cuboid; after the snowball is formed by the hemispherical female die 5 which is positioned right below the upper die sliding frame 4, the lower die sliding frame 3 which is positioned at the outer side of the upper die sliding frame 4 is pushed into the position right below the upper die sliding frame 4 again, so that the lower die sliding frame 3 which is filled with the snowball is completely pushed out of the upper die sliding frame 4, the upper die sliding frame 3 presses the snow on the lower die sliding frame 3 into the snowball again, the snowball formed on the lower die sliding frame 3 which is positioned at the outer side of the upper die sliding frame 4 is separated from the lower die due to vibration under the action of the up-and-down movement of the upper die sliding frame 4, the snowball is convenient to take out, the snowball is taken out and then continues to be piled on the lower die, so that the snowball can be pushed to the position below the upper die sliding. If switch contacts of the driving motor 6 are respectively arranged at the positions of the positioning bead 24 and the positioning groove A22, the lower die carriage 3 can automatically start the up-and-down movement of the upper die carriage 4 at the same time of positioning, thereby facilitating the automatic manufacture of the snowball.

Claims (10)

1. Snowball makes machine, its characterized in that: the horizontal base plate (2) is fixed at the top of the chassis (1), a lower die sliding frame (3) which horizontally reciprocates along the directions of two ends of the horizontal base plate (2) is arranged at the top of the horizontal base plate (2), an upper die sliding frame (4) which vertically reciprocates is arranged right above the horizontal base plate (2), the upper die sliding frame (4) is driven by a driving motor (6) fixed at the bottom of the chassis (1), an upper die is arranged on the bottom surface of the upper die sliding frame (4), two lower dies are arranged on the top surface of the lower die sliding frame (3), the lower dies are distributed along the horizontal sliding direction of the lower die sliding frame (3), and when the lower die sliding frame (3) horizontally slides to the maximum stroke position to any side, the lower die far away from the side is positioned right below the upper die, and the lower die close to the side is positioned on the outer side of the upper; the bottom of the upper die and the top of the lower die are respectively provided with a plurality of hemispherical female dies (5), and the size, position and number of the hemispherical female dies (5) at the bottom of the upper die are matched with those of the hemispherical female dies at the top of the lower die which is positioned right below the upper die; when the upper die sliding frame (4) moves upwards to the maximum stroke position, the distance between the bottom surface of the upper die and the top surface of the lower die is larger than the radius of the hemispherical concave die, and when the upper die sliding frame (4) moves downwards to the maximum stroke position, the bottom surface of the upper die is contacted with the top surface of the lower die.

2. The snowball making machine of claim 1, wherein: the top of horizontal base plate (2), be located both sides border position department and be equipped with side shield (18) respectively, side shield (18) extend to both ends respectively to between side shield (18), be located side shield (18) and keep away from the one end of horizontal base plate (2) and be fixed with connecting plate (26), horizontal base plate (2), the both sides that correspond to side shield (18) extend to connecting plate (26) position department respectively.

3. The snowball making machine of claim 2, wherein: an output shaft of the driving motor (6) is in transmission connection with a driving rotating shaft (13) through a reduction gearbox (12), the driving rotating shaft (13) is connected with a connecting rod (8) of the upper die sliding frame (4) through a connecting rod A (14) and a connecting rod B (15), the reduction gearbox (12) is fixed to the bottom of the bottom frame (1), the connecting rod A (14) and the connecting rod B (15) are located on the outer side of the horizontal base plate (2), a side vertical plate (7) is fixedly arranged at the top of the side baffle plate (18) and in the middle of the horizontal base plate (2), and the connecting rod (8) moves up and down along a strip-shaped through hole (9) formed in the side vertical plate (7).

4. A snowball making machine as claimed in claim 3, wherein: the top parts between the side vertical plates (7) are fixedly connected through a horizontal transverse plate (16), and a spring A (17) with pre-pressure is connected between the horizontal transverse plate (16) and the upper die sliding frame (4).

5. A snowball making machine as claimed in claim 3, wherein: the two ends of the driving rotating shaft (13) extend out of the outer side of the horizontal base plate (2), and the two sides of the horizontal base plate (2) are symmetrically provided with a connecting rod A (14) and a connecting rod B (15) respectively.

6. The snowball making machine of claim 1, wherein: positioning grooves A (22) are respectively arranged at two ends of the top of the horizontal base plate (2), positioning beads (24) are arranged at the bottom of the lower die sliding frame (3), the positioning beads (24) are movably connected into positioning grooves B (23) arranged at the bottom of the lower die sliding frame (3) up and down, and the positioning beads (24) are connected with the bottom of the groove in the positioning grooves B (23) through springs B (25) with pre-pressure; when the lower die sliding frame (3) moves to the maximum stroke position towards one side, the positioning beads (24) are positioned in the positioning grooves A (22) of the horizontal base plate (2) corresponding to the side, and when the lower die sliding frame (3) moves to the maximum stroke position towards the other side, the positioning beads (24) are positioned in the positioning grooves A (22) of the horizontal base plate (2) corresponding to the side.

7. The snowball making machine of claim 1, wherein: the two ends of the lower die sliding frame (3) are respectively fixed with an end plate (19), handles (20) are symmetrically arranged on the end plates (19) respectively, and the handles (20) are located above the connecting plates (26).

8. The snowball making machine of claim 1, wherein: lower mould top surface, the evenly distributed of lower mould balladeur train (3) have multirow hemisphere die (5), and every row of evenly distributed has a plurality of hemisphere die (5), the top surface of lower mould, be located between two adjacent rows of hemisphere die (5) strain snow hole A (10), the top surface of lower mould, be located and still be equipped with between two adjacent hemisphere die (5) in every row of hemisphere die (5) and strain snow hole B (11).

9. The snowball making machine of claim 8, wherein: the horizontal substrate (2) is provided with a snow discharge through hole, the snow discharge through hole is positioned under the upper die sliding frame (4), the size of the snow discharge through hole is smaller than that of the lower die sliding frame (3), and a snow filtering hole A (10) and a snow filtering hole B (11) of the lower die sliding frame (3) which is positioned under the upper die sliding frame (4) are positioned in the range of the snow discharge through hole.

10. The snowball making machine of claim 1, wherein: the bottom of the underframe (1) is respectively and symmetrically provided with two parallel sliding plates (21).

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