CN114751196B - Continuous conveying device and method for ice hockey - Google Patents

Abstract

The invention discloses an ice hockey continuous conveying device, which comprises a water supply mechanism, an ice hockey continuous conveying mechanism and a drainage mechanism; the water supply mechanism is respectively connected with the ice ball continuous conveying mechanism and the water discharge mechanism and is used for supplying high-pressure water to the ice ball continuous conveying mechanism and the water discharge mechanism; the ice ball continuous conveying mechanism comprises an ice ball storage box filled with ice balls, a ball falling pipe with a ball falling valve and an ice ball conveying pipeline with an ice ball conveying valve, a rotating mechanism is arranged in the ice ball storage box, the rotating mechanism rotates to continuously convey the ice balls in the ice ball storage box to the ball falling pipe, and the ball falling pipe is communicated with the ice ball conveying pipeline; the water draining mechanism is used for draining water in the ice ball conveying pipeline before the ice ball continuous conveying mechanism formally conveys the ice balls. The invention also provides a continuous conveying method of the ice hockey. The invention can continuously emit the ice hockey, thereby improving the law enforcement capability of the official ship and the deterrence of the remote transport ship.

Description

Continuous conveying device and method for ice hockey

Technical Field

The invention belongs to the technical field of high-pressure fluid conveying, and particularly relates to a continuous conveying device and a continuous conveying method for ice hockey.

Background

The water cannon is a fire-fighting system capable of extinguishing fire in a long distance by high-pressure injection of water medium.

Under such conditions, we introduce ice hockey water cannons to increase the effective range of the cannon.

Disclosure of Invention

The invention aims to provide an ice ball continuous conveying device and a conveying method capable of continuously emitting ice balls.

The technical scheme adopted by the invention is as follows:

a continuous ice hockey conveying device comprises a water supply mechanism, a continuous ice hockey conveying mechanism and a drainage mechanism;

The water supply mechanism is respectively connected with the ice ball continuous conveying mechanism and the water discharge mechanism and is used for supplying high-pressure water to the ice ball continuous conveying mechanism and the water discharge mechanism;

The ice ball continuous conveying mechanism comprises an ice ball storage box filled with ice balls, a ball falling pipe with a ball falling valve and an ice ball conveying pipeline with an ice ball conveying valve, a rotating mechanism is arranged in the ice ball storage box, the rotating mechanism rotates to continuously convey the ice balls in the ice ball storage box to the ball falling pipe, and the ball falling pipe is communicated with the ice ball conveying pipeline;

the water draining mechanism is used for draining water in the ice ball conveying pipeline before the ice ball continuous conveying mechanism formally conveys the ice balls.

In a further scheme, the water supply mechanism comprises a water supply pipe, wherein the water supply pipe comprises a main water pipe and two branch pipes respectively connected with the main water pipe; the first branch pipe is communicated with the ball falling pipe, and the connecting port is arranged at the near end of the ball falling valve outlet, so that the ice hockey ball can be pushed to move forwards conveniently; the second branch pipe is communicated with a bypass pipe of the drainage mechanism; the main water pipe is provided with a water pump, and the first branch pipe is provided with a water supply valve.

In a further scheme, the drainage mechanism comprises a bypass pipe, and a water supply bypass valve, an injection pump and a drainage valve are sequentially arranged on the bypass pipe; the jet pump is connected with the ice ball conveying pipeline through a water pumping pipe, and the connecting position of the water pumping pipe and the ice ball conveying pipeline is positioned at the lowest point of the ice ball conveying pipeline.

In a further scheme, the ball falling pipe is communicated with the ice ball conveying pipe through the bent pipe, so that the ice balls can smoothly enter the ice ball conveying pipe from the ball falling pipe.

The ice hockey storage box further comprises a shell, a push-pull rod, a reciprocating motor, a foldable supporting plate, a vertical positioning groove and a rolling groove;

the top of the shell is provided with an ice ball filling port, and the bottom of the shell is provided with a ball falling hole;

one end of the push-pull rod is connected with a reciprocating motor at the top of the shell; the other end of the push-pull rod is connected with the foldable supporting plate;

The vertical positioning groove is arranged below the foldable supporting plate and is clung to the side wall of the shell;

The rolling groove is annular, is arranged at the bottom edge of the shell and is arranged below the vertical positioning groove; the ball falling hole is arranged on the rolling groove;

the reciprocating motor drives the push-pull rod to move up and down, the push-pull rod drives the foldable support plate to move up and down, the foldable support plate rises to drive the lower edge to move inwards to form a notch, and an ice ball arranged between the foldable support plate and the shell falls into the vertical positioning groove from the notch and then falls into the rolling groove, and rolls out of the ice ball storage box through the ball falling hole.

In a further scheme, the reciprocating motor is provided with a reciprocating motion mode and a vibration mode, and in order to avoid ice hockey adhesion in the ice hockey storage box, the vibration mode needs to be started regularly.

In a further scheme, the foldable supporting plate comprises a supporting plate with a V-shaped vertical section and folding plates positioned around the supporting plate, namely the bottom edge of the foldable supporting plate can be folded; the push-pull rod is connected with the middle of the supporting plate.

In a further scheme, a plurality of vertical positioning grooves are uniformly formed on the side wall of the shell in a surrounding manner; the number of the ball falling holes is 2, and each ball falling hole corresponds to 1 ball falling pipe.

In a further scheme, the shell is internally coated with a heat insulation material so as to avoid rapid melting of the ice hockey.

The further scheme is that the ice hockey storage box is connected with an external dehumidifier, and the humidity level in the storage box is controlled to avoid adhesion of ice hockey in the storage box.

In a further scheme, the rotating mechanism comprises a plurality of rotating deflector rods, a rotating shaft and a rotating motor; the rotary deflector rod is uniformly arranged at one end of the rotary shaft and can rotate in a clockwise or anticlockwise direction, and the other end of the rotary shaft is connected with the rotary motor; the rotary motor drives the rotary deflector rod to rotate, the rotary deflector rod pushes the ice ball in the vertical positioning groove to roll in the rolling groove, and when the ice ball reaches the ball falling hole, the ice ball enters the ball falling pipe. The rotary deflector rod takes 180 degrees as a rotary period, and a plurality of ice hockey balls can be respectively fed into 2 ball falling holes in each rotary period.

The invention also provides a method for continuously conveying the ice hockey by adopting the ice hockey continuous conveying device, which comprises the following steps:

sequentially opening a drain valve and a water supply bypass valve, closing the water supply valve, and enabling the water pump to provide working water for the jet pump, wherein the jet pump utilizes the principle of high-speed jet suction to drain accumulated water in the ice hockey stick conveying pipe; after the water is discharged, closing a drain valve and a water supply bypass valve;

starting a reciprocating motor and a rotating motor, opening a ball falling valve, driving a push-pull rod to move up and down by the reciprocating motor, driving a foldable supporting plate to move up and down by the push-pull rod, driving the lower edge of the foldable supporting plate to move inwards to form a notch, enabling an ice ball to fall into a vertical positioning groove from the notch, then falling into a rolling groove, falling into a ball falling pipe through a ball falling hole, then entering an ice ball conveying pipe, and closing the ball falling valve;

Opening an ice ball conveying valve and a water supply valve, conveying ice balls to a water cannon system, and closing the ice ball conveying valve and the water supply valve after conveying is finished; completing one period of ice hockey conveying;

And so on.

All valves, reciprocating motors and rotating motors of the invention are controlled by a PLC; the water supply valve, the water supply bypass valve and the drain valve adopt stop valves, and the ball falling valve and the ice ball conveying valve are ball valves; in order to ensure the quick response speed of the valve, the valve adopts an electromagnetic valve or a pneumatic valve.

The invention has the beneficial effects that:

The ice ball continuous conveying device uses high-pressure water as a conveying power source, and realizes continuous conveying of ice balls through valve control logic;

Through the arrangement of the ice ball storage box, the ice balls are temporarily stored, and the ice balls are controlled to fall into the ice ball conveying pipeline through the rotating mechanism, so that the phenomenon of jamming in the ice ball conveying process is avoided;

The ice ball storage box is used for filling ice balls, and the rotating mechanism is used for controlling the falling quantity and speed of the ice balls; the water pump supplies high-pressure water to the ice hockey conveying pipe;

the device can also be used for continuously conveying other spheroidal solids and providing reference significance for other conveying systems.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural view of an ice hockey continuous conveying device;

FIG. 2 is a schematic structural view of an ice hockey storage bin;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

in the figure: 1-a water pump; 2-a water supply pipe; 3-a water supply valve; 4-a first ball drop valve; 5-an ice hockey storage box; 6-a second ball drop valve; 7-ball falling pipe; 8-ice hockey; 9-an ice ball conveying valve; 10-an ice ball conveying pipeline; 11-a drain valve; 12-jet pump; 13-a water suction pipe; 14-by-pass pipe; 15-a water supply bypass valve; 16-a housing; 17-a push-pull rod; 18-a reciprocating motor; 19-a foldable support plate; 20-an ice ball filling port (containing a cover plate); 21-a vertical positioning groove; 22-rolling grooves; 23-rotating a deflector rod; 24-rotating shaft; 25-a rotating electrical machine; 26-ball drop hole.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1-3, an ice hockey continuous conveying device comprises a water supply mechanism, an ice hockey continuous conveying mechanism and a water draining mechanism. The water supply mechanism is respectively connected with the ice ball continuous conveying mechanism and the water draining mechanism and is used for supplying high-pressure water to the ice ball continuous conveying mechanism and the water draining mechanism. The ice ball continuous conveying mechanism comprises an ice ball storage box 5 provided with an ice ball 8, a ball falling pipe 7 with a ball falling valve and an ice ball conveying pipeline 10 with an ice ball conveying valve 9, a rotating mechanism is arranged in the ice ball storage box 5, the rotating mechanism rotates to continuously convey the ice ball 8 in the ice ball storage box 5 to the ball falling pipe 7, and the ball falling pipe 7 is communicated with the ice ball conveying pipeline 10 through an elbow pipe. The water discharge mechanism is used for discharging water in the ice ball conveying pipeline 10 before the ice ball continuous conveying mechanism formally conveys the ice balls 8.

In this embodiment, the water supply mechanism includes a water supply pipe 2, and the water supply pipe 2 includes a main water pipe, two branch pipes connected to the main water pipe respectively; the first branch pipe is communicated with the ball falling pipe 7, and the connecting port is arranged at the near end of the ball falling valve outlet, so that the ice hockey ball can be pushed to move forwards conveniently; the second branch pipe is communicated with a bypass pipe 14 of the drainage mechanism; the main water pipe is provided with a water pump 1, and the first branch pipe is provided with a water supply valve 3. The drainage mechanism comprises a bypass pipe 14, and a water supply bypass valve 15, an injection pump 12 and a drainage valve 11 are sequentially arranged on the bypass pipe 14; the jet pump 12 is connected to the lowest point of the ice hockey stick delivery pipe 10 through a water suction pipe 13.

In this embodiment, the ice hockey storage box 5 includes a housing 16, a push-pull rod 17, a reciprocating motor 18, a foldable support plate 19, a vertical positioning slot 21, and a rolling slot 22. The top of the housing 16 is provided with an ice ball filling opening (with a cover plate) 10 and the bottom is provided with 2 ball drop holes 26. One end of the push-pull rod 17 is connected with a reciprocating motor 18 at the top of the shell 16; the other end of the push-pull rod 17 is connected with the center of the foldable supporting plate 19; there are 14 vertical positioning grooves 21 which are arranged below the foldable support plate 19 and uniformly annularly arranged on the side wall of the shell 16. The rolling groove 22 is annular, is arranged at the bottom edge of the shell 16, and is arranged below the vertical positioning groove 21. The 2 ball drop holes 26 are symmetrically arranged on the rolling groove 22. The foldable support plate 19 comprises a support plate with V-shaped vertical section and folding plates positioned around the support plate, namely the bottom edge of the foldable support plate 19 can be folded. The reciprocating motor 18 drives the push-pull rod 17 to move up and down, the push-pull rod 17 drives the foldable support plate 19 to move up and down, the lower edge of the foldable support plate 19 is driven to move inwards to form a notch, the ice ball 8 arranged between the foldable support plate 19 and the shell 16 falls into the vertical positioning groove 21 from the notch and then falls into the rolling groove 22, the ice ball falls into the ball falling pipes 7 through the ball falling holes 26, the 2 ball falling holes 26 respectively correspond to one ball falling pipe 7, one ball falling valve is arranged on each ball falling pipe 7, namely, the first ball falling valve 4 is arranged on one ball falling pipe 7, and the second ball falling valve 6 is arranged on the other ball falling pipe 7. The foldable support plate 19 falls back under the drive of the reciprocating motor 18, and the lower edge of the foldable support plate 19 is supported at the top of the vertical positioning groove 21, so that the notch is blocked, and the ice hockey puck 8 is prevented from entering the vertical positioning groove 21.

In the present embodiment, the rotation mechanism includes 16 rotation levers 23, a rotation shaft 24, and a rotation motor 25. All the rotary levers 23 are uniformly installed at one end of the rotary shaft 24 to be rotatable in a clockwise or counterclockwise direction, and the other end of the rotary shaft 24 is connected to the rotary motor 25. The rotary motor 25 drives the rotary deflector 23 to rotate, the rotary deflector 23 pushes the ice ball 8 in the vertical positioning groove 21 to roll in the rolling groove 22, and when the ice ball 8 reaches the ball falling hole 26, the ice ball enters the ball falling pipe 7. The rotation deflector 23 takes 180 degrees as a rotation period, and a plurality of ice hockey balls 8 can be respectively fed into 2 ball falling holes 26 in each rotation period.

The reciprocating motor 18 has two operation modes of a reciprocating mode and a vibration mode, and in order to avoid adhesion of the puck 8 in the puck storage case 5, the vibration mode needs to be turned on at regular time.

To avoid rapid melting of the puck, a thermal insulation material may be wrapped within the housing 16. In order to avoid the adhesion of the ice hockey balls 8 in the ice hockey ball storage box 5, the ice hockey ball storage box 5 can be connected with a dehumidifier, and the humidity level in the storage box can be controlled.

The water supply valve 3, the first ball drop valve 4, the second ball drop valve 6, the ice ball conveying valve 9, the drain valve 11 and the water supply bypass valve 15 are controlled by electromagnetic or pneumatic, wherein the first ball drop valve 4, the second ball drop valve 6 and the ice ball conveying valve) are ball valves. The valve and the motor are all controlled by a PLC.

In the invention, the cross section of the rolling groove 22 is semicircular, and the number of the vertical positioning groove 21 and the rotary deflector 23 can be changed according to design requirements.

Example 2

The method for continuously conveying the ice hockey by adopting the ice hockey continuous conveying device comprises the following steps of:

The water discharge valve 11 and the water supply bypass valve 15 are sequentially opened, the water supply valve 3 is closed, the water pump 1 supplies working water to the jet pump 12, and the jet pump 12 utilizes the principle of high-speed jet suction to empty accumulated water in the ice hockey stick conveying pipe 10; after draining the water, the drain valve 11 and the water supply bypass valve 15 are closed;

Starting a reciprocating motor 18 and a rotating motor 25 to open the ball dropping valve, wherein the reciprocating motor 18 drives a push-pull rod 17 to move up and down, the push-pull rod 17 drives a foldable supporting plate 19 to move up and down, the lower edge of the foldable supporting plate 19 is driven to move inwards to form a notch, the ice ball 8 falls into a vertical positioning groove 21 from the notch and then falls into a rolling groove 22, falls into a ball dropping pipe 7 through a ball dropping hole 26 and then enters into an ice ball conveying pipe 10, and the ball dropping valve is closed;

Opening the ice ball conveying valve 9 and the water supply valve 3, conveying the ice balls to the water cannon system, and closing the ice ball conveying valve 9 and the water supply valve 3 after conveying is finished; completing one period of ice hockey conveying;

The cycle is then completed until the delivery of the puck 8 is completed.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (9)

1. The utility model provides a continuous conveyor of puck, its characterized in that: comprises a water supply mechanism, an ice hockey continuous conveying mechanism and a drainage mechanism;

The water supply mechanism is respectively connected with the ice ball continuous conveying mechanism and the water discharge mechanism and is used for supplying high-pressure water to the ice ball continuous conveying mechanism and the water discharge mechanism;

The ice ball continuous conveying mechanism comprises an ice ball storage box filled with ice balls, a ball falling pipe with a ball falling valve and an ice ball conveying pipeline with an ice ball conveying valve, a rotating mechanism is arranged in the ice ball storage box, the rotating mechanism rotates to continuously convey the ice balls in the ice ball storage box to the ball falling pipe, and the ball falling pipe is communicated with the ice ball conveying pipeline;

The ice hockey storage box comprises a shell, a push-pull rod, a reciprocating motor, a foldable supporting plate, a vertical positioning groove and a rolling groove; the top of the shell is provided with an ice ball filling port, and the bottom of the shell is provided with a ball falling hole; one end of the push-pull rod is connected with a reciprocating motor at the top of the shell; the other end of the push-pull rod is connected with the foldable supporting plate; the vertical positioning groove is arranged below the foldable supporting plate and is clung to the side wall of the shell; the rolling groove is annular, is arranged at the bottom edge of the shell and is arranged below the vertical positioning groove; the ball falling hole is arranged on the rolling groove;

The reciprocating motor drives the push-pull rod to move up and down, the push-pull rod drives the foldable support plate to move up and down, the lower edge of the foldable support plate is driven to move inwards to form a notch, and an ice ball arranged between the foldable support plate and the shell falls into the vertical positioning groove from the notch and then falls into the rolling groove to roll out of the ice ball storage box through the ball falling hole;

the water draining mechanism is used for draining water in the ice ball conveying pipeline before the ice ball continuous conveying mechanism formally conveys the ice balls.

2. The ice hockey continuous conveying device according to claim 1, wherein: the water supply mechanism comprises a water supply pipe, wherein the water supply pipe comprises a main water pipe and two branch pipes respectively connected with the main water pipe; the first branch pipe is communicated with the ball falling pipe, and the connecting port is arranged at the near end of the ball falling valve outlet; the second branch pipe is communicated with a bypass pipe of the drainage mechanism; the main water pipe is provided with a water pump, and the first branch pipe is provided with a water supply valve.

3. The ice hockey continuous conveying device according to claim 1, wherein: the water draining mechanism comprises a bypass pipe, and a water supply bypass valve, an injection pump and a drain valve are sequentially arranged on the bypass pipe; the jet pump is connected with the ice ball conveying pipeline through a water pumping pipe, and the connecting position of the water pumping pipe and the ice ball conveying pipeline is positioned at the lowest point of the ice ball conveying pipeline.

4. The ice hockey continuous conveying device according to claim 1, wherein: the ball falling pipe is communicated with the ice ball conveying pipe through the bent pipe.

5. The ice hockey continuous conveying device according to claim 1, wherein: the foldable supporting plate comprises a supporting plate with a V-shaped vertical section and folding plates positioned around the supporting plate; the push-pull rod is connected with the middle of the supporting plate;

the reciprocating motor should have two modes of operation, a reciprocating mode and a vibration mode.

6. The ice hockey continuous conveying device according to claim 1, wherein: the vertical positioning grooves are uniformly arranged on the side wall of the shell in a surrounding manner; the number of the ball falling holes is 2, and each ball falling hole corresponds to 1 ball falling pipe.

7. The ice hockey continuous conveying device according to claim 1, wherein: the shell is internally coated with a heat insulation material; the ice hockey storage box is connected with an external dehumidifier and used for controlling the humidity level in the storage box.

8. The ice hockey continuous conveying device according to claim 1, wherein: the rotating mechanism comprises a plurality of rotating deflector rods, a rotating shaft and a rotating motor; one end of the rotating shaft is connected with the rotating motor, and the other end of the rotating shaft is connected with the rotating deflector rod;

the rotary motor drives the rotary deflector rod to rotate, so that the ice balls in the rolling groove on the bottom of the ice ball storage box roll, and when the ice balls reach the ball falling holes on the bottom of the ice ball storage box, the ice balls enter the ball falling pipe.

9. A method for continuously conveying ice hockey using the ice hockey continuous conveying apparatus as set forth in any one of claims 1 to 8, characterized by comprising the steps of:

sequentially opening a drain valve and a water supply bypass valve, closing the water supply valve, and enabling the water pump to provide working water for the jet pump, wherein the jet pump utilizes the principle of high-speed jet suction to drain accumulated water in the ice hockey stick conveying pipe; after the water is discharged, closing a drain valve and a water supply bypass valve;

starting a reciprocating motor and a rotating motor, opening a ball falling valve, driving a push-pull rod to move up and down by the reciprocating motor, driving a foldable supporting plate to move up and down by the push-pull rod, driving the lower edge of the foldable supporting plate to move inwards to form a notch, enabling an ice ball to fall into a vertical positioning groove from the notch, then falling into a rolling groove, falling into a ball falling pipe through a ball falling hole, then entering an ice ball conveying pipe, and closing the ball falling valve;

Opening an ice ball conveying valve and a water supply valve, conveying ice balls to a water cannon system, and closing the ice ball conveying valve and the water supply valve after conveying is finished; completing one period of ice hockey conveying;

And so on.