阅读说明：本技术 浮选工艺发泡剂载体钻孔开腔与加热棒插设一体设备 (Foaming agent carrier drilling cavity opening and heating rod inserting integrated equipment for flotation process ) 是由 欧志明 于 2021-07-19 设计创作，主要内容包括：本发明涉及一种有色金属领域,尤其涉及一种浮选工艺发泡剂载体钻孔开腔与加热棒插设一体设备。本发明要解决的技术问题：提供一种浮选工艺发泡剂载体钻孔开腔与加热棒插设一体设备。技术方案是：一种浮选工艺发泡剂载体钻孔开腔与加热棒插设一体设备,包括有动力组件、开腔组件、钻孔组件、填塞组件、底架和侧支架等；侧支架固接有动力组件；动力组件的左侧部件转动连接侧支架。本发明实现了依次对冰球进行顶端钻孔、内部开腔、侧面钻孔和石灰棒封塞工作,通过在冰球的内部进行钻孔部件的角度和工作半径的调节,可实现单独对冰球的内部进行扩撑开腔处理,并且将冰渣封堵在冰球侧面开孔中可防止石灰棒滑出。(The invention relates to the field of nonferrous metals, in particular to a foaming agent carrier drilling and cavity opening and heating rod inserting integrated device in a flotation process. The technical problems to be solved by the invention are as follows: provides a device integrating drilling, cavity opening and heating rod inserting of a foaming agent carrier in a flotation process. The technical scheme is as follows: a foaming agent carrier drilling open cavity and heating rod inserting integrated equipment for a flotation process comprises a power assembly, an open cavity assembly, a drilling assembly, a filling assembly, a bottom frame, a side support and the like; the side bracket is fixedly connected with a power assembly; the left component of the power assembly is rotatably connected with the side bracket. According to the invention, the top drilling, the internal cavity opening, the side drilling and the lime stick plugging work of the ice hockey are sequentially carried out, the internal cavity expanding and opening treatment of the ice hockey can be independently carried out by adjusting the angle and the working radius of the drilling component in the ice hockey, and the ice slag is plugged in the side opening of the ice hockey to prevent the lime stick from sliding out.)

1. A foaming agent carrier drilling cavity opening and heating rod inserting integrated equipment for a flotation process comprises a bottom frame, side brackets and a first sliding chute; a side bracket is fixedly connected to the middle part of the underframe; a first sliding chute is fixedly connected to the upper right of the side bracket; it is characterized by also comprising a power component, a cavity opening component, a drilling component and a filling component; the side bracket is fixedly connected with a power assembly; the left part of the power assembly is rotatably connected with the side bracket; the left side of the first sliding chute is connected with an open cavity component in a sliding manner; the power assembly engages the open cavity assembly; the power assembly can drive the open cavity assembly to work; the cavity opening assembly can perform top drilling and internal cavity opening work on the ice hockey; a drilling component is fixedly connected to the left rear part of the underframe; the drilling assembly can sequentially drill the side surfaces of the ice hockey; the underframe is fixedly connected with a filling assembly; the filling assembly can sequentially and tightly fill the lime rod into the side opening of the ice hockey stick.

2. The device for integrating the drilling cavity and the inserting cavity of the foaming agent carrier with the heating rod in the flotation process according to claim 1, wherein the power assembly comprises a first fixing frame, a main motor, a first rotating shaft, a first driving wheel, a spline shaft, a second rotating shaft, a second driving wheel and a first straight gear; the middle part of the side bracket is fixedly connected with a first fixing bracket; the left upper part of the side bracket is fixedly connected with a main motor; the left side of the side bracket is rotatably connected with a first rotating shaft; the output shaft of the main motor is fixedly connected with a first rotating shaft; the lower side of the first rotating shaft is rotatably connected with a first fixing frame; a first driving wheel is fixedly connected to the upper side of the first rotating shaft; a spline shaft is fixedly connected to the lower end of the first rotating shaft; the spline shaft is rotationally connected to the left side of the side bracket; the side bracket is rotatably connected with a second rotating shaft on the right side of the first rotating shaft; the lower part of the second rotating shaft is rotatably connected to the left side of the first fixed frame; a second driving wheel is fixedly connected to the upper side of the second rotating shaft; the first driving wheel is in transmission connection with a second driving wheel through a belt; a first straight gear is fixedly connected to the lower side of the second rotating shaft; the first spur gear engages the open cavity assembly.

3. The device for integrating drilling, cavity opening and heating rod insertion of the foaming agent carrier in the flotation process as claimed in claim 2, wherein the cavity opening assembly comprises a first electric slide block, a third rotating shaft, a second straight gear, a second fixing frame, a first electric push rod, a third fixing frame, a main spring slide block, a fourth fixing frame, a first U-shaped support, a fourth rotating shaft, a second electric push rod, a fifth rotating shaft, an arc-shaped scraper, a multistage expansion plate, an electric lock, a second U-shaped support, a sixth rotating shaft and a third U-shaped support; the left side of the first sliding groove is connected with a first electric sliding block in a sliding manner; a third rotating shaft is rotatably connected to the lower left of the first electric sliding block; the third rotating shaft is fixedly connected with a second straight gear, a second fixing frame and a third fixing frame in sequence from top to bottom; the second straight gear is meshed with the first straight gear; two groups of first electric push rods are fixedly connected below the second fixing frame; each group of first electric push rods is fixedly connected with a main spring slide block; the lower surface of the third fixing frame is fixedly connected with a fourth fixing frame; the outer surface of the third fixing frame is connected with a main spring sliding block in a sliding manner; the spring part of the main spring sliding block is fixedly connected with a fourth fixing frame; the outer surface of the main spring sliding block is fixedly connected with a first U-shaped bracket; the outer side of the first U-shaped bracket is rotatably connected with a fourth rotating shaft; the outer surface of the fourth rotating shaft is fixedly connected with a second electric push rod; a fifth rotating shaft is fixedly connected below the second electric push rod; the outer surface of the fifth rotating shaft is rotatably connected with a third U-shaped bracket; a second U-shaped support is fixedly connected to the lower part of the inner side of the arc-shaped scraper fixedly connected to the outer side of the third U-shaped support; the inner surface of the fourth fixing frame is connected with a multi-stage expansion plate in a sliding manner; the outer end of the multistage expansion plate is fixedly connected with a sixth rotating shaft; the sixth rotating shaft is rotatably connected to the inner side of the second U-shaped bracket; three groups of first U-shaped supports, a fourth rotating shaft, a second electric push rod, a fifth rotating shaft, an arc-shaped scraper, a multistage telescopic plate, a second U-shaped support, a sixth rotating shaft and a third U-shaped support are arranged around the outer surface of the main spring sliding block at equal intervals; six groups of electric lock heads are arranged around the outer surface of the fourth fixing frame; the outer end of each group of multistage expansion plates is respectively connected with two groups of corresponding electric lock heads in a sliding way.

4. The integrated equipment for drilling and opening the cavity of the foaming agent carrier and inserting the heating rod in the flotation process according to claim 3, wherein the drilling assembly comprises a second chute, a second electric slide block, a left motor, a drill bit and an annular scraper; a second sliding chute is fixedly connected to the left rear part of the underframe; a second electric sliding block is connected above the second sliding groove in a sliding manner; the rear side of the second electric sliding block is fixedly connected with a left motor; a drill bit is rotatably connected above the second electric sliding block; the output shaft of the left motor is fixedly connected with a drill bit; the rear side of the outer surface of the drill bit is fixedly connected with an annular scraper.

5. The device integrating drilling, cavity opening and heating rod insertion for the foaming agent carrier in the flotation process as claimed in claim 4, wherein the filling assembly comprises a third chute, an arc-shaped supporting plate, a third electric sliding block, a right motor, a fifth fixing frame, a third electric push rod, a rolling plate, a single-spring sliding block, a fourth electric push rod, a sixth fixing frame and an arc-shaped pressing plate; a third sliding chute is fixedly connected to the rear right of the underframe; two groups of arc-shaped supporting plates are symmetrically and fixedly connected to the two sides of the front upper part of the third sliding chute; a third electric sliding block is connected above the third sliding groove in a sliding manner; the rear side of the third electric sliding block is fixedly connected with a right motor; a fifth fixing frame is rotatably connected above the third electric sliding block; the front end of the fifth fixing frame is fixedly connected with a third electric push rod; the front end of the third electric push rod is fixedly connected with a rolling plate; the outer surface of the rolling plate is connected with a single spring slide block in a sliding way; the spring part of the single-spring sliding block is fixedly connected with the rolling plate; a fourth electric push rod is fixedly connected above the single-spring sliding block; the lower end of the fourth electric push rod is fixedly connected with a sixth fixing frame; an arc-shaped pressing plate is fixedly connected to the front side of the sixth fixing frame; two groups of single-spring sliding blocks, a fourth electric push rod, a sixth fixing frame and an arc-shaped pressing plate are symmetrically arranged on the upper side and the lower side of the outer surface of the rolling plate.

6. The integrated equipment for drilling and opening the cavity of the foaming agent carrier and inserting the heating rod in the flotation process according to any one of claims 3 to 5, wherein the arc-shaped scraper is narrow at the lower side; and the upper side is wide.

7. The integrated equipment for drilling and cavity opening of foaming agent carrier and inserting heating rod in flotation process according to claim 3, characterized in that one side of the second U-shaped bracket close to the multistage expansion plate is provided with two groups of slots.

8. The device for integrating the drilling cavity and the inserting cavity of the foaming agent carrier with the heating rod in the flotation process as claimed in claim 5, wherein the front end of the rolling plate is provided with a lug.

Technical Field

The invention relates to the field of nonferrous metals, in particular to a foaming agent carrier drilling and cavity opening and heating rod inserting integrated device in a flotation process.

Background

The ore pulp flotation method is a mineral screening process commonly used in nonferrous metal production, the process utilizes the difference of physical and chemical properties of the surface of a mineral to select mineral particles, a foaming agent is needed to be used for screening target minerals, in order to effectively put the foaming agent into the ore pulp, an ice ball body with lime rods inserted at the periphery can be put into water as a carrier of the foaming agent, after the ice ball is put into the ore pulp, the ice ball is broken by stirring equipment, the foaming agent in the ice ball body is dispersed to react with the target objects, and meanwhile, the lime rods emit a large amount of heat in the water to provide the temperature condition required in the flotation process.

Before a foaming agent is plugged into an ice hockey, cavity opening treatment needs to be carried out on the interior of the ice hockey, even if drilling equipment is used for drilling a hole at the top of the ice hockey, and expanding equipment is used for drilling a group of cavities in the interior of the ice hockey, when the existing expanding equipment works in the interior of the ice hockey, the angle of a claw rod needs to be adjusted to enable a blade to expand outwards, when the inclined claw rod rotates along with the blade, the hole drilled at the top of the ice hockey is expanded into a state with wide inside and narrow outside, when the ice hockey is used for plugging the hole at the top of the ice hockey in the follow-up process, the ice hockey cannot be tightly clamped in the hole at the top of the ice hockey, the ice hockey easily slides out in the follow-up transportation step, and after the side face of the ice hockey is drilled through the drilling equipment, a lime stick plugged into the hole at the side face of the ice hockey also easily slides out of the hole.

Therefore, there is a high necessity for an automatic processing device that can ensure that the inserted parts do not slip out after the ice hockey puck is holed, to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the claw pole of tilt state and easily widen the trompil inside of puck when rotatory, the unable inseparable card of time ice plug is in puck top trompil, and the easy slip-out in follow-up transportation step to punch the back to the side of puck through drilling equipment, the shortcoming that the lime rod of stuffing in puck side trompil also slips out in the trompil easily, the technical problem that solve: provides a device integrating drilling, cavity opening and heating rod inserting of a foaming agent carrier in a flotation process.

The technical scheme is as follows: a drilling cavity opening and heating rod inserting integrated equipment for a foaming agent carrier in a flotation process comprises a power assembly, a cavity opening assembly, a drilling assembly, a filling assembly, a bottom frame, side brackets, a first sliding groove, a control console, a lime rod filling machine part and a tray; a side bracket is fixedly connected to the middle part of the underframe; a first sliding chute is fixedly connected to the upper right of the side bracket; the front surface of the first sliding chute is fixedly connected with a control console; a lime rod filling machine element is fixedly connected to the right rear side of the underframe; a tray is arranged on the upper surface of the underframe; the side bracket is fixedly connected with a power assembly; the left part of the power assembly is rotatably connected with the side bracket; the left side of the first sliding chute is connected with an open cavity component in a sliding manner; the power assembly engages the open cavity assembly; the power assembly can drive the open cavity assembly to work; the cavity opening assembly can perform top drilling and internal cavity opening work on the ice hockey; a drilling component is fixedly connected to the left rear part of the underframe; the drilling assembly can sequentially drill the side surfaces of the ice hockey; a filling assembly is fixedly connected to the bottom frame right below the lime rod filling machine element; the filling assembly can sequentially and tightly fill the lime rod into the side opening of the ice hockey stick.

Furthermore, the power assembly comprises a first fixed frame, a main motor, a first rotating shaft, a first driving wheel, a spline shaft, a second rotating shaft, a second driving wheel and a first straight gear; the middle part of the side bracket is fixedly connected with a first fixing bracket; the left upper part of the side bracket is fixedly connected with a main motor; the left side of the side bracket is rotatably connected with a first rotating shaft; the output shaft of the main motor is fixedly connected with a first rotating shaft; the lower side of the first rotating shaft is rotatably connected with a first fixing frame; a first driving wheel is fixedly connected to the upper side of the first rotating shaft; a spline shaft is fixedly connected to the lower end of the first rotating shaft; the spline shaft is rotationally connected to the left side of the side bracket; the side bracket is rotatably connected with a second rotating shaft on the right side of the first rotating shaft; the lower part of the second rotating shaft is rotatably connected to the left side of the first fixed frame; a second driving wheel is fixedly connected to the upper side of the second rotating shaft; the first driving wheel is in transmission connection with a second driving wheel through a belt; a first straight gear is fixedly connected to the lower side of the second rotating shaft; the first spur gear engages the open cavity assembly.

Furthermore, the cavity opening assembly comprises a first electric sliding block, a third rotating shaft, a second straight gear, a second fixing frame, a first electric push rod, a third fixing frame, a main spring sliding block, a fourth fixing frame, a first U-shaped support, a fourth rotating shaft, a second electric push rod, a fifth rotating shaft, an arc-shaped scraper, a multi-stage expansion plate, an electric lock, a second U-shaped support, a sixth rotating shaft and a third U-shaped support; the left side of the first sliding groove is connected with a first electric sliding block in a sliding manner; a third rotating shaft is rotatably connected to the lower left of the first electric sliding block; the third rotating shaft is fixedly connected with a second straight gear, a second fixing frame and a third fixing frame in sequence from top to bottom; the second straight gear is meshed with the first straight gear; two groups of first electric push rods are fixedly connected below the second fixing frame; each group of first electric push rods is fixedly connected with a main spring slide block; the lower surface of the third fixing frame is fixedly connected with a fourth fixing frame; the outer surface of the third fixing frame is connected with a main spring sliding block in a sliding manner; the spring part of the main spring sliding block is fixedly connected with a fourth fixing frame; the outer surface of the main spring sliding block is fixedly connected with a first U-shaped bracket; the outer side of the first U-shaped bracket is rotatably connected with a fourth rotating shaft; the outer surface of the fourth rotating shaft is fixedly connected with a second electric push rod; a fifth rotating shaft is fixedly connected below the second electric push rod; the outer surface of the fifth rotating shaft is rotatably connected with a third U-shaped bracket; a second U-shaped support is fixedly connected to the lower part of the inner side of the arc-shaped scraper fixedly connected to the outer side of the third U-shaped support; the inner surface of the fourth fixing frame is connected with a multi-stage expansion plate in a sliding manner; the outer end of the multistage expansion plate is fixedly connected with a sixth rotating shaft; the sixth rotating shaft is rotatably connected to the inner side of the second U-shaped bracket; three groups of first U-shaped supports, a fourth rotating shaft, a second electric push rod, a fifth rotating shaft, an arc-shaped scraper, a multistage telescopic plate, a second U-shaped support, a sixth rotating shaft and a third U-shaped support are arranged around the outer surface of the main spring sliding block at equal intervals; six groups of electric lock heads are arranged around the outer surface of the fourth fixing frame; the outer end of each group of multistage expansion plates is respectively connected with two groups of corresponding electric lock heads in a sliding way.

Further, the drilling assembly comprises a second sliding chute, a second electric sliding block, a left motor, a drill bit and an annular scraper; a second sliding chute is fixedly connected to the left rear part of the underframe; a second electric sliding block is connected above the second sliding groove in a sliding manner; the rear side of the second electric sliding block is fixedly connected with a left motor; a drill bit is rotatably connected above the second electric sliding block; the output shaft of the left motor is fixedly connected with a drill bit; the rear side of the outer surface of the drill bit is fixedly connected with an annular scraper.

Furthermore, the filling assembly comprises a third sliding chute, an arc-shaped supporting plate, a third electric sliding block, a right motor, a fifth fixing frame, a third electric push rod, a rolling plate, a single-spring sliding block, a fourth electric push rod, a sixth fixing frame and an arc-shaped pressing plate; a third sliding chute is fixedly connected to the rear right of the underframe; two groups of arc-shaped supporting plates are symmetrically and fixedly connected to the two sides of the front upper part of the third sliding chute; a third electric sliding block is connected above the third sliding groove in a sliding manner; the rear side of the third electric sliding block is fixedly connected with a right motor; a fifth fixing frame is rotatably connected above the third electric sliding block; the front end of the fifth fixing frame is fixedly connected with a third electric push rod; the front end of the third electric push rod is fixedly connected with a rolling plate; the outer surface of the rolling plate is connected with a single spring slide block in a sliding way; the spring part of the single-spring sliding block is fixedly connected with the rolling plate; a fourth electric push rod is fixedly connected above the single-spring sliding block; the lower end of the fourth electric push rod is fixedly connected with a sixth fixing frame; an arc-shaped pressing plate is fixedly connected to the front side of the sixth fixing frame; two groups of single-spring sliding blocks, a fourth electric push rod, a sixth fixing frame and an arc-shaped pressing plate are symmetrically arranged on the upper side and the lower side of the outer surface of the rolling plate.

Further, the arc-shaped scraper is narrow at the lower side; and the upper side is wide.

Furthermore, two groups of slots are formed in one side, close to the multistage telescopic plate, of the second U-shaped support.

Further, the front end of the rolling plate is provided with a lug.

The invention has the following advantages:

firstly, in order to overcome the defect that a claw rod in an inclined state is easy to widen the inside of an open hole of an ice hockey when rotating, an ice plug cannot be tightly clamped in the open hole at the top of the ice hockey and easily slides out in the subsequent transportation step, and after the side face of the ice hockey is perforated by drilling equipment, a lime rod plugged into the open hole at the side face of the ice hockey also easily slides out of the open hole.

The device of the invention comprises: when in use, the underframe is stably placed on an operation table, the control table adjusting device is regulated and controlled after the power supply is connected externally, then an operator clamps an ice ball to be processed in the rotating component, then the power component drives the drilling component of the cavity opening component to rotate, meanwhile, the power component drives the rotating component and the clamped ice ball to reversely rotate, simultaneously, the cavity opening component sequentially drills the top end and the inner cavity opening of the ice ball through the drilling component, then the cavity opening component leaves the ice ball, each area to be processed on the side surface of the ice ball is sequentially rotated to the drilling component and the filling component to be aligned by the rotating component, the drilling component sequentially drills holes on the side surface of the ice ball, the drilling component drills out a circle of annular groove around the drilled hole, and a lime rod filling component sequentially places a lime rod to be filled in the filling component, and the filling assembly sequentially fills the lime rod into the drilled open holes on the side surfaces of the ice hockey, and after the lime rod is filled into the open holes on the side surfaces of the ice hockey, the filling assembly breaks the annular grooves around the open holes and fills the annular grooves outside the open holes of the ice hockey so that the crushed ice residues are blocked outside the open holes of the ice hockey and the lime rod is prevented from sliding out of the side open holes of the ice hockey.

The ice hockey stick expanding and blocking device realizes the top drilling, the internal cavity opening, the side drilling and the lime stick blocking of the ice hockey stick in sequence, can realize the independent cavity expanding and blocking treatment of the ice hockey stick by adjusting the angle and the working radius of the drilling component in the ice hockey stick, and can prevent the lime stick from sliding out by blocking ice slag in the side opening of the ice hockey stick.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a front view of the power assembly of the present invention;

FIG. 5 is a front view of the open chamber assembly of the present invention;

FIG. 6 is a schematic view of a first partial perspective view of the open chamber assembly of the present invention;

FIG. 7 is a schematic diagram of a second partial perspective view of the open cavity assembly of the present invention;

FIG. 8 is a schematic diagram of a third partial perspective view of the open chamber assembly of the present invention;

FIG. 9 is a perspective view of a second U-shaped bracket according to the present invention;

FIG. 10 is a perspective view of the drilling assembly of the present invention;

FIG. 11 is a perspective view of the packing assembly of the present invention;

FIG. 12 is a partial perspective view of the tamping assembly of the present invention;

FIG. 13 is a front view of a lime rod packing mechanism of the present invention;

fig. 14 is a perspective view of the upper ring binder plate of the present invention.

Reference numerals: 1_ chassis, 2_ side stand, 3_ first chute, 4_ console, 5_ lime rod filling machine, 6_ tray, 101_ first fixed mount, 102_ main motor, 103_ first rotating shaft, 104_ first driving wheel, 105_ spline shaft, 106_ second rotating shaft, 107_ second driving wheel, 108_ first straight gear, 201_ first electric slider, 202_ third rotating shaft, 203_ second straight gear, 204_ second fixed mount, 205_ first electric push rod, 206_ third fixed mount, 207_ main spring slider, 208_ fourth fixed mount, 209_ first U-shaped bracket, 210_ fourth rotating shaft, 211_ second electric push rod, 212_ fifth rotating shaft, 213_ arc scraper, 214_ multistage expansion plate, 215_ electric lock, 216_ second U-shaped bracket, 217_ sixth rotating shaft, 218_ third U-shaped bracket, 301_ second chute, 302_ second electric slider, 303_ left motor, 304_ drill, 305_ annular scraper, 401_ third chute, 402_ arc pallet, 403_ third electric slider, 404_ right motor, 405_ fifth mount, 406_ third electric push rod, 407_ rolling plate, 408_ single spring slider, 409_ fourth electric push rod, 410_ sixth mount, 411_ arc platen, 501_ upper annular clamp plate, 502_ double spring slider, 503_ bushing, 504_ third spur gear, 505_ fourth spur gear, 506_ lower annular clamp plate, 507_ toothed ring.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A foaming agent carrier drilling open cavity and heating rod inserting integrated equipment for a flotation process is disclosed, and shown in a figure 1-3, and comprises a power assembly, an open cavity assembly, a drilling assembly, a filling assembly, a bottom frame 1, a side bracket 2, a first chute 3, a control console 4, a lime rod filling machine part 5 and a tray 6; a side bracket 2 is fixedly connected with the middle part of the underframe 1; a first chute 3 is fixedly connected to the upper right of the side bracket 2; the front surface of the first chute 3 is fixedly connected with a control console 4; a lime rod filling machine part 5 is fixedly connected to the right rear side of the underframe 1; a tray 6 is arranged on the upper surface of the underframe 1; the side bracket 2 is fixedly connected with a power component; the left part of the power assembly is rotatably connected with the side bracket 2; the left side of the first chute 3 is connected with an open cavity component in a sliding way; the power assembly engages the open cavity assembly; the power assembly can drive the open cavity assembly to work; the cavity opening assembly can perform top drilling and internal cavity opening work on the ice hockey; a drilling component is fixedly connected to the left rear part of the underframe 1; the drilling assembly can sequentially drill the side surfaces of the ice hockey; a filling assembly is fixedly connected to the underframe 1 right below the lime rod filling machine element 5; the filling assembly can sequentially and tightly fill the lime rod into the side opening of the ice hockey stick.

When in use, the underframe 1 is stably placed on an operation table, the adjusting device of the control console 4 is regulated and controlled after being externally connected with a power supply, then an operator clamps an ice ball to be processed in the rotating component, then the power component drives the drilling component of the cavity opening component to rotate, meanwhile, the power component drives the rotating component and the clamped ice ball to reversely rotate, simultaneously, the cavity opening component sequentially drills the top end and the inner cavity opening of the ice ball through the drilling component, then the cavity opening component leaves the ice ball, each area to be processed on the side surface of the ice ball is sequentially rotated to the drilling component and the filling component to be aligned by the rotating component, the drilling component sequentially drills holes on the side surface of the ice ball, the drilling component carves a circle of annular groove around the drilled hole while drilling, and a lime rod filling component 5 sequentially places a lime rod to be filled in the filling component, the filling assembly fills the lime rod into the drilled open hole on the side surface of the ice hockey in sequence, and after the lime rod is inserted into the open hole on the side surface of the ice hockey, the filling assembly breaks the annular groove around the open hole and fills the annular groove outside the open hole of the ice hockey so that the crushed ice slag is blocked outside the open hole of the ice hockey and the lime rod is prevented from sliding out of the side open hole of the ice hockey; according to the invention, the top drilling, the internal cavity opening, the side drilling and the lime stick plugging work of the ice hockey are sequentially carried out, the internal cavity expanding and opening treatment of the ice hockey can be independently carried out by adjusting the angle and the working radius of the drilling component in the ice hockey, and the ice slag is plugged in the side opening of the ice hockey to prevent the lime stick from sliding out.

Referring to fig. 4, the power assembly includes a first fixing frame 101, a main motor 102, a first rotating shaft 103, a first driving wheel 104, a spline shaft 105, a second rotating shaft 106, a second driving wheel 107 and a first straight gear 108; the middle part of the side bracket 2 is fixedly connected with a first fixing bracket 101; the first fixing frame 101 is connected with the rotating component in a sliding manner; the upper left of the side bracket 2 is fixedly connected with a main motor 102; a first rotating shaft 103 is rotatably connected to the left side of the side bracket 2; the output shaft of the main motor 102 is fixedly connected with a first rotating shaft 103; the lower side of the first rotating shaft 103 is rotatably connected with a first fixing frame 101; a first driving wheel 104 is fixedly connected to the upper side of the first rotating shaft 103; a spline shaft 105 is fixedly connected to the lower end of the first rotating shaft 103; the spline shaft 105 is rotationally connected to the left side of the side bracket 2; the spline shaft 105 is slidably connected with the rotating component; a second rotating shaft 106 is rotatably connected to the side bracket 2 at the right side of the first rotating shaft 103; the lower part of the second rotating shaft 106 is rotatably connected to the left side of the first fixing frame 101; a second driving wheel 107 is fixedly connected to the upper side of the second rotating shaft 106; the first driving wheel 104 is connected with a second driving wheel 107 through belt transmission; a first straight gear 108 is fixedly connected to the lower side of the second rotating shaft 106; the first straight gear 108 engages the open cavity assembly.

After the ice ball to be processed is clamped in the rotating component, the output shaft of the main motor 102 drives the first rotating shaft 103 to rotate, the first rotating shaft 103 simultaneously drives the first driving wheel 104 and the spline shaft 105 to rotate, the first driving wheel 104 drives the second driving wheel 107 through the belt to drive the second rotating shaft 106 to rotate, the second rotating shaft 106 drives the first straight gear 108 to rotate, meanwhile, the first straight gear 108 drives a drilling component of the cavity opening component to rotate, the spline shaft 105 drives the rotating component and the held ice hockey to reversely rotate, so that the cavity opening component can smoothly drill the top end of the ice hockey and perform internal cavity opening treatment on the ice hockey, then the main motor 102 which intermittently works drives the rotating component through the spline shaft 105 to sequentially rotate all areas to be treated on the side surface of the ice hockey to align the drilling component and the filling component, and the drilling component and the filling component sequentially perform side surface drilling and lime stick sealing treatment on the side surface of the ice hockey; the assembly completes the work of driving the open cavity assembly and rotating the assembly.

Referring to fig. 5-9, the cavity opening assembly includes a first electric sliding block 201, a third rotating shaft 202, a second spur gear 203, a second fixed frame 204, a first electric push rod 205, a third fixed frame 206, a main spring sliding block 207, a fourth fixed frame 208, a first U-shaped bracket 209, a fourth rotating shaft 210, a second electric push rod 211, a fifth rotating shaft 212, an arc-shaped scraper 213, a multi-stage expansion plate 214, an electric lock head 215, a second U-shaped bracket 216, a sixth rotating shaft 217, and a third U-shaped bracket 218; a first electric slide block 201 is connected to the left side of the first chute 3 in a sliding manner; a third rotating shaft 202 is rotatably connected to the lower left of the first electric slider 201; a second spur gear 203, a second fixing frame 204 and a third fixing frame 206 are fixedly connected to the third rotating shaft 202 from top to bottom in sequence; the second spur gear 203 engages the first spur gear 108; two groups of first electric push rods 205 are fixedly connected below the second fixing frame 204; each group of first electric push rods 205 is fixedly connected with a main spring slide block 207; a fourth fixing frame 208 is fixedly connected to the lower surface of the third fixing frame 206; the outer surface of the third fixing frame 206 is connected with a main spring sliding block 207 in a sliding manner; the spring part of the main spring sliding block 207 is fixedly connected with the fourth fixing frame 208; a first U-shaped bracket 209 is fixedly connected to the outer surface of the main spring sliding block 207; the outer side of the first U-shaped bracket 209 is rotatably connected with a fourth rotating shaft 210; a second electric push rod 211 is fixedly connected to the outer surface of the fourth rotating shaft 210; a fifth rotating shaft 212 is fixedly connected below the second electric push rod 211; the outer surface of the fifth rotating shaft 212 is rotatably connected with a third U-shaped bracket 218; a second U-shaped bracket 216 is fixedly connected to the lower part of the inner side of the arc-shaped scraper 213 fixedly connected to the outer side of the third U-shaped bracket 218; the inner surface of the fourth fixing frame 208 is slidably connected with a multi-stage expansion plate 214; a sixth rotating shaft 217 is fixedly connected to the outer end of the multistage retractable plate 214; the sixth rotating shaft 217 is rotatably connected to the inner side of the second U-shaped bracket 216; three groups of first U-shaped brackets 209, fourth rotating shafts 210, second electric push rods 211, fifth rotating shafts 212, arc-shaped scrapers 213, multi-stage expansion plates 214, second U-shaped brackets 216, sixth rotating shafts 217 and third U-shaped brackets 218 are arranged around the outer surface of the main spring sliding block 207 at equal intervals; six groups of electric locking heads 215 are arranged around the outer surface of the fourth fixing frame 208; the outer end of each group of multi-stage expansion plates 214 is respectively connected with two corresponding groups of electric lock heads 215 in a sliding way.

Firstly, the first straight gear 108 is meshed with the second straight gear 203 to drive the third rotating shaft 202 and the components connected with the third rotating shaft to rotate, then the first electric slider 201 drives the third rotating shaft 202 and the components connected with the third rotating shaft to move downwards along the cavity opening assembly, the top end drilling treatment of the ice hockey is realized by the rotating arc-shaped scraper 213, after the arc-shaped scraper 213 drills into the ice hockey, the first electric slider 201 stops moving, the third rotating shaft 202 continues to keep rotating, then the second electric push rod 211 contracts inwards, meanwhile, the second electric push rod 211 drives the arc-shaped scraper 213 to rotate around the sixth rotating shaft 217 through the fifth rotating shaft 212 and the third U-shaped bracket 218, so that the arc-shaped scraper 213 is adjusted to be in a vertical state from an inclined state, and the open groove on the side surface of the second U-shaped bracket 216 is opposite to the electric lock head 215 thereof, then the two groups of electric lock heads 215 simultaneously slide along the multistage expansion plate 214 and are respectively inserted into the two groups of open grooves on the side surface of the second U-shaped bracket 216, the locking of the second U-shaped support 216 is realized, then the first electric push rod 205 pushes the main spring slider 207 to compress downwards along the third fixing frame 206, meanwhile, the main spring slider 207 applies an oblique pushing force to the arc-shaped scraper 213 through the second electric push rod 211, so that the arc-shaped scraper 213 pulls the multi-stage expansion plate 214 through the sixth rotating shaft 217 to slide outwards along the fourth fixing frame 208, the cavity opening treatment of the rotating arc-shaped scraper 213 expanding outwards inside the ice hockey is realized, then, the first electric push rod 205 resets, meanwhile, the main spring slider 207 drives the arc-shaped scraper 213 to reset through the second electric push rod 211, and the first electric slider 201 drives the third rotating shaft 202 and the components connected with the third rotating shaft 202 to reset upwards along the cavity opening assembly; the assembly completes the top drilling and internal cavity opening work of the ice hockey in sequence.

Referring to fig. 10, the drilling assembly includes a second chute 301, a second electric slider 302, a left motor 303, a drill bit 304 and an annular scraper 305; a second sliding chute 301 is fixedly connected to the left rear part of the underframe 1; a second electric slide block 302 is connected above the second chute 301 in a sliding manner; the rear side of the second electric sliding block 302 is fixedly connected with a left motor 303; a drill bit 304 is rotatably connected above the second electric slide block 302; an output shaft of the left motor 303 is fixedly connected with a drill bit 304; an annular blade 305 is fixed to the rear side of the outer surface of the drill bit 304.

After the rotating component rotates the ice hockey side surface to-be-processed area to the drill bit 304 to align, the output shaft of the left motor 303 drives the drill bit 304 and the annular scraper 305 to rotate, meanwhile, the second electric sliding block 302 drives the connected component to move towards the ice hockey direction along the second chute 301, so that the rotating drill bit 304 performs drilling processing on the side surface of the ice hockey, when the rotating annular scraper 305 contacts the side surface of the ice hockey, an annular groove is carved on the periphery of a hole drilled on the side surface of the ice hockey by the annular scraper 305, and then the second electric sliding block 302 drives the connected component to reversely reset along the second chute 301; the assembly completes drilling and ring groove opening of the side of the puck.

Referring to fig. 11-12, the stuffing assembly includes a third sliding chute 401, an arc-shaped supporting plate 402, a third electric sliding block 403, a right motor 404, a fifth fixing frame 405, a third electric pushing rod 406, a rolling plate 407, a single spring sliding block 408, a fourth electric pushing rod 409, a sixth fixing frame 410 and an arc-shaped pressing plate 411; a third chute 401 is fixedly connected to the rear right of the underframe 1; two groups of arc-shaped supporting plates 402 are symmetrically and fixedly connected to the two sides of the front upper part of the third sliding chute 401; a third electric slide block 403 is connected above the third slide groove 401 in a sliding manner; a right motor 404 is fixedly connected to the rear side of the third electric sliding block 403; a fifth fixing frame 405 is rotatably connected above the third electric sliding block 403; the front end of the fifth fixing frame 405 is fixedly connected with a third electric push rod 406; the front end of the third electric push rod 406 is fixedly connected with a rolling plate 407; the outer surface of the rolling plate 407 is slidably connected with a single spring slider 408; the spring component of the single spring slide block 408 is fixedly connected with the rolling plate 407; a fourth electric push rod 409 is fixedly connected above the single-spring sliding block 408; the lower end of the fourth electric push rod 409 is fixedly connected with a sixth fixing frame 410; an arc-shaped pressing plate 411 is fixedly connected to the front side of the sixth fixing frame 410; two groups of single-spring sliding blocks 408, a fourth electric push rod 409, a sixth fixing frame 410 and an arc-shaped pressing plate 411 are symmetrically arranged on the upper side and the lower side of the outer surface of the rolling plate 407.

Firstly, the rotating component rotates the side opening of the ice hockey to align with the rolling plate 407, and the lime rod coming out from the lime rod filling machine 5 falls between the two sets of arc-shaped supporting plates 402, then the third electric slide block 403 drives the connected component to move along the third sliding chute 401 in the opposite direction to the ice hockey, and the moving rolling plate 407 pushes the lime rod into the side opening of the ice hockey, and makes the two sets of arc-shaped pressing plates 411 respectively inserted into the upper and lower sides of the inside of the annular groove around the opening, then the third electric push rod 406 pushes the rolling plate 407 to push the lime rod completely into the deep inside of the opening, at the same time, the arc-shaped pressing plate 411 limited by the annular groove drives the single spring slide block 408 to move along the arc-shaped pressing plate 411 through the fourth electric push rod 409 for compression, then the third electric push rod 406 drives the rolling plate 407 to reset away from the ice hockey, at the same time, the single spring slide block 408 resets, then the fourth electric push rod 409 pushes the arc-shaped pressing plate 411, two sets of arc-shaped pressing plates 411 inserted into the annular groove on the side of the ice hockey stick are used for crushing the upper and lower sides of the inner wall of the annular groove and pushing the crushed inner wall between the opening on the side of the ice hockey stick and the rolling plate 407, then the fourth electric push rod 409 drives the arc-shaped pressing plates 411 to reset, then the third electric push rod 406 drives the rolling plate 407 to push the extruded groove wall into the opening, simultaneously the output shaft of the right motor 404 drives the fifth fixing frame 405 and the connected components to rotate, so that the rolling plate 407 rolls the extruded groove wall into ice slag, then the third electric push rod 406 drives the rolling plate 407 to reset away from the ice hockey stick, the output shaft of the right motor 404 drives the fifth fixing frame 405 and the connected components to rotate, so that the two sets of arc-shaped pressing plates 411 rotate from vertical arrangement to horizontal arrangement, and the fourth electric push the arc-shaped pressing plates 409 causes the two sets of arc-shaped pressing plates 411 to crush the left and right sides of the inner wall of the annular groove and push the left and right sides of the inner wall between the opening on the side of the ice hockey stick and the rolling plate 407, the rolling plate 407 rolls the ice cream into ice cream, and the ice cream is extruded and blocked in the side hole of the ice cream to prevent the lime rod from sliding out of the side hole of the ice cream; the assembly completes the work of plugging the lime rod.

Referring to fig. 13-14, the device further comprises a rotating assembly, wherein the rotating assembly comprises an upper annular clamping plate 501, a double-spring sliding block 502, a bushing 503, a third spur gear 504, a fourth spur gear 505, a lower annular clamping plate 506 and a toothed ring 507; an upper annular clamping plate 501 is connected to the middle part below the first fixing frame 101 in a sliding manner; the lower side of the side bracket 2 is connected with a double-spring sliding block 502 in a sliding way; the spring part of the double-spring slide block 502 is fixedly connected with the side bracket 2; a bushing 503 is rotatably connected to the left side of the double-spring sliding block 502; the inner surface of bushing 503 is slidably connected to the underside of spline shaft 105; a third spur gear 504 is fixedly connected to the outer surface of the bushing 503; on the right side of the third spur gear 504, a fourth spur gear 505 is rotatably connected to the double-spring slider 502 through a rotating shaft; the third spur gear 504 meshes with a fourth spur gear 505; the middle part above the double-spring sliding block 502 is connected with a lower annular clamping plate 506 in a sliding manner; a toothed ring 507 is fixedly connected to the outer surface of the lower annular clamping plate 506; the fourth spur gear 505 engages the toothed ring 507.

The operator pulls the double-spring slide block 502 downwards, so that the double-spring slide block 502 drives the connected components to move downwards along the side bracket 2 for compression, then the ice hockey puck is placed on the lower annular clamping plate 506, then the double-spring slide block 502 is released, the double-spring slide block 502 drives the connected components to reset upwards along the side bracket 2, so that the lower annular clamping plate 506 pushes the ice hockey balls to contact with the upper annular clamping plate 501 upwards, the rotating spline shaft 105 then rotates third spur gear 504 via bushing 503, third spur gear 504 engages and rotates fourth spur gear 505, meanwhile, the fourth spur gear 505 is engaged with the toothed ring 507 to drive the lower annular clamping plate 506 to slide along the double-spring sliding block 502, meanwhile, the lower annular clamping plate 506 drives the upper annular clamping plate 501 to slide along the first fixing frame 101 through the ice hockey, so that the ice hockey is clamped by the upper annular clamping plate 501 and the lower annular clamping plate 506 and is driven to rotate; the assembly completes the rotation of the puck.

The arc-shaped scraper 213 is narrow at the lower side; and the upper side is wide.

The top end of the ice hockey may be drilled by the lower side of the arc-shaped blade 213, and the inside of the ice hockey may be opened by rotating the arc-shaped blade 213 to be in a vertical state.

Two groups of slots are arranged on one side of the second U-shaped bracket 216 close to the multi-stage telescopic plate 214.

The electric lock head 215 can be locked into the slot of the second U-shaped bracket 216, and when the first electric push rod 205 pushes the main spring slider 207 to compress downward along the third fixing frame 206, the arc-shaped scraper 213 applying a downward oblique force cannot rotate around the sixth rotating shaft 217, so that the arc-shaped scraper 213 can expand outward inside the ice hockey puck.

The front end of the rolling plate 407 is provided with a protrusion.

The rolling plate 407 may be caused to roll the extruded chute wall into ice slush.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.