CN114148977B

CN114148977B - Aseptic couplant intelligence filling equipment

Info

Publication number: CN114148977B
Application number: CN202111321730.8A
Authority: CN
Inventors: 王金强; 伊雪范; 刘丽丽; 蒋媛媛; 王玉丹
Original assignee: Shandong Disineer Disinfection Science And Technology Inc
Current assignee: Shandong Disineer Disinfection Science And Technology Inc
Priority date: 2021-11-09
Filing date: 2021-11-09
Publication date: 2023-03-24
Anticipated expiration: 2041-11-09
Also published as: CN114148977A

Abstract

The invention discloses an aseptic coupling agent and intelligent filling equipment thereof.

Description

Aseptic couplant intelligence filling equipment

Technical Field

The invention relates to the technical field of couplant production, in particular to intelligent filling equipment for an aseptic couplant.

Background

The couplant is a gel preparation used in ultrasonic examination of human body, and is aimed at eliminating air between ultrasonic probe and skin of examined position of human body, and strengthening coupling between ultrasonic probe and skin of human body so as to make sound wave conduction be attenuated without influence of air to obtain reliable detection result. Most products of the currently widely used medical ultrasonic coupling agents are sterilized to realize sterility, and the conventional coupling agents are generated by the scheme aiming at the problems in view of the fact that the problems are deeply researched.

Disclosure of Invention

The technical scheme of the invention for realizing the aim is as follows: an aseptic couplant intelligent filling apparatus comprising: the device comprises a concave transport table and a filling support, wherein the filling support is arranged on the concave transport table, a uniform transport structure and a carrying structure are arranged on the concave transport table, and a filling structure is arranged on the filling support;

the filling structure includes: the device comprises two pairs of lifting irrigation hydraulic push rods, irrigation plates, a transfer box, a transfer stretching driver, a transfer stretching driving bevel gear, a transfer stretching transmission bevel gear, a transfer stretching threaded pipe, a transfer stretching threaded rod, a concave push-pull block, a sealing rubber pad, an extrusion loading valve pipe, a sealing disinfection loading assembly and a raw material assembly;

the two pairs of lifting irrigation hydraulic push rods are arranged on the top end of the inner side of the filling support in a pairwise parallel manner, the irrigation plate is arranged on the pushing ends of the two pairs of lifting irrigation hydraulic push rods, the transit box is arranged on the irrigation plate, the transit tensile driver is arranged on the top end of the transit box, the transit tensile threaded pipe is inserted on the top end of the transit box through a bearing, the transit tensile threaded rod is movably inserted on the inner side of the transit tensile threaded pipe, the transit tensile driving helical gear is arranged on the driving end of the transit tensile driver, the transit tensile driving helical gear is arranged on the transit tensile threaded pipe, the transit tensile driving helical gear is meshed with the transit tensile driving helical gear, the concave push-pull block is arranged on the transit tensile threaded rod, the sealing rubber pad is arranged on the concave push-pull block, the sealing and disinfecting feeding assembly is arranged on the irrigation plate, the raw material assembly is arranged on the irrigation plate, and the extrusion feeding valve pipe is inserted on the transit box;

the sealed sterilizing feeding assembly comprises: the device comprises a pair of extrusion sealing hydraulic push rods, a pair of semicircular limiting blocks, a pair of lifting telescopic arc convex sheets, a plurality of extrusion telescopic spring columns, a pair of semicircular sheets, two pairs of flexible sealing rubber pads, a cross-shaped drainage tube, three feeding valves, a cleaning liquid box, a sealing liquid box, a pair of liquid pumping pumps, a pair of electric heating tubes and a pair of ultraviolet irradiation lamps;

the pair of extrusion sealing hydraulic push rods are relatively installed on the inner side of the filling support, the pair of extrusion sealing hydraulic push rods are respectively installed on the pair of extrusion sealing hydraulic push rods, the pair of extrusion sealing hydraulic push rods are respectively provided with a convex type telescopic groove, the pair of lifting telescopic circular arc convex sheets are respectively movably inserted in the pair of convex type telescopic grooves, the plurality of extrusion telescopic spring columns are respectively installed on the pair of convex type telescopic grooves, the other ends of the extrusion telescopic spring columns are respectively connected to the pair of lifting telescopic circular arc convex sheets, the pair of lifting telescopic circular arc convex sheets are respectively installed on the pair of semicircular limiting blocks, the two pairs of flexible sealing rubber gaskets are respectively installed on the pair of lifting telescopic circular arc convex sheets and the pair of semicircular limiting blocks, the cross-shaped drainage tubes are inserted in the irrigation plate, the three feeding valves are installed on the cross-shaped drainage tubes, the cleaning liquid box and the sealing liquid box are installed on the irrigation plate, the pair of liquid pumps are respectively installed on the cleaning liquid box and the sealing liquid box, and the pair of liquid pumps are connected to the cross-shaped drainage tubes and the ultraviolet radiation lamps are respectively connected to the pair of semicircular limiting blocks.

The raw material component comprises: the device comprises a raw material box, a convex raw material feeding block, a feeding auxiliary support, two pairs of lifting feeding hydraulic push rods, a clip-shaped auxiliary block and a feeding concave sealing rubber pad;

the raw material box is installed on the pouring plate, the convex raw material feeding block is inserted on the top end of the raw material box, the feeding auxiliary support is installed on the raw material box, two pairs of lifting feeding hydraulic push rods are installed on the feeding auxiliary support in a pairwise parallel mode, the clip-shaped auxiliary blocks are installed on the pushing ends of the two pairs of lifting feeding hydraulic push rods, the clip-shaped auxiliary blocks are installed on the convex raw material feeding block, and the feeding concave type sealing rubber gasket is installed on the convex raw material feeding block.

Preferably, the uniform transportation structure comprises: the pair of tooth loading blocks, the plurality of extrusion hydraulic push rods, the plurality of pushing hydraulic push rods, the plurality of extrusion slide blocks, the plurality of extrusion slide ways, the plurality of pushing slide blocks and the plurality of pushing slide ways;

the extrusion hydraulic push rod and the plurality of push hydraulic push rod are installed on the concave transport table in a cross mode, the extrusion slide ways are installed on the push ends of the extrusion hydraulic push rods respectively, the push slide ways are installed on the push ends of the push hydraulic push rods respectively, the extrusion slide blocks and the push slide blocks are installed on the tooth loading blocks respectively, the extrusion slide blocks are movably inserted into the extrusion slide ways respectively, and the push slide blocks are movably inserted into the push slide ways respectively.

Preferably, the carrying structure includes: the conveying device comprises a conveying support, a conveying lead screw module, a conveying hydraulic push rod and a conveying clamping jaw;

the carrying support is installed on the concave type transport table, the carrying lead screw module is installed on the carrying support, the carrying hydraulic push rod is installed on the moving end of the carrying lead screw module, and the carrying clamping jaw is installed on the pushing end of the carrying hydraulic push rod.

Preferably, a pair of the semicircular sheets are respectively provided with an exhaust transit trough, and a plurality of raw material holes are formed in the pair of the exhaust transit troughs.

Preferably, a pair of the exhaust gas transit grooves are respectively provided with filtering activated carbon.

Preferably, a plurality of ball grooves are formed in the pair of semicircular pieces, and moving balls are arranged on the inner sides of the plurality of ball grooves respectively.

According to the intelligent sterile couplant filling equipment manufactured by the technical scheme, the raw material bottles are uniformly extruded and pushed through the uniform transportation structure, the raw materials pushed at a fixed length are extruded and fixed through the filling structure, and are sprayed, sterilized and subjected to ultraviolet sterilization, and meanwhile, the problem that liquid in a sealed box is difficult to flow is solved through quantitative filling, high-temperature hot melting sealing, negative pressure adsorption and high-pressure extrusion.

Drawings

Fig. 1 is a schematic sectional view of a front view of an intelligent aseptic couplant filling apparatus according to the present invention.

Fig. 2 is a left side cross-sectional schematic view of an intelligent aseptic couplant filling apparatus according to the present invention.

Fig. 3 is a schematic sectional top view of an intelligent aseptic couplant filling apparatus according to the present invention.

Fig. 4 is a right side view cross-sectional schematic diagram of an intelligent aseptic couplant filling apparatus according to the present invention.

Fig. 5 is an enlarged view of a portion "a" in fig. 2.

Fig. 6 is an enlarged view of a portion "B" in fig. 2.

In the figure: 1. a concave transport table; 2. filling the bracket; 3. lifting a hydraulic pouring push rod; 4. pouring a plate; 5. a transfer box; 6. a transfer stretching driver; 7. transferring, stretching and driving the bevel gear; 8. transferring, stretching and driving the bevel gear; 9. transferring and stretching the threaded pipe; 10. transferring and stretching the threaded rod; 11. a concave push-pull block; 12. sealing the rubber gasket; 13. extruding a feeding valve pipe; 14. extruding a sealing hydraulic push rod; 15. a semicircular limiting block; 16. lifting and telescopic arc convex sheets; 17. compressing and contracting the spring columns; 18. a semicircular sheet; 19. a flexible sealing rubber mat; 20. a cross-shaped drainage tube; 21. a feeding valve; 22. a cleaning solution tank; 23. sealing the liquid tank; 24. a liquid pump; 25. an electric heating tube; 26. an ultraviolet irradiation lamp; 27. a raw material tank; 28. a convex raw material feeding block; 29. a feeding auxiliary support; 30. lifting a feeding hydraulic push rod; 31. a clip-shaped auxiliary block; 32. loading a concave sealing rubber pad; 33. loading a material loading block by teeth; 34. extruding the hydraulic push rod; 35. pushing a hydraulic push rod; 36. extruding the slide block; 37. extruding the slideway; 38. pushing the sliding block; 39. a push chute.

Detailed Description

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Examples

As shown in fig. 1-6, the filling support 2 is mounted on the concave transport table 1, the concave transport table 1 is mounted with a uniform transport structure and a carrying structure, and the filling support 2 is mounted with a filling structure;

specifically, the filling structure includes: the device comprises two pairs of lifting irrigation hydraulic push rods 3, irrigation plates 4, a transfer box 5, a transfer stretching driver 6, a transfer stretching driving bevel gear 7, a transfer stretching driving bevel gear 8, a transfer stretching threaded pipe 9, a transfer stretching threaded rod 10, a concave push-pull block 11, a sealing rubber pad 12, an extrusion feeding valve 21 pipe 13, a sealing disinfection feeding assembly and a raw material assembly;

specifically, two pairs of 3 two double parallel installations of lift watering hydraulic push rod in on the 2 inboard tops of filling support, watering board 4 is installed in two pairs the promotion of lift watering hydraulic push rod 3 is served, transfer case 5 install in on watering board 4, the tensile driving machine 6 of transfer install in on the top of transfer case 5, the tensile screwed pipe of transfer 9 pass through the bearing cartridge in on the top of transfer case 5, the tensile threaded rod 10 activity cartridge of transfer in the inboard of the tensile screwed pipe of transfer 9, the tensile driving helical gear 7 of transfer install in on the drive end of the tensile driving machine 6 of transfer, the tensile transmission helical gear 8 of transfer install in on the tensile screwed pipe of transfer 9, just the tensile transmission helical gear 8 of transfer with the tensile driving helical gear 7 meshing of transfer, concave type push-pull piece 11 install in on the tensile threaded rod 10 of transfer, sealed cushion 12 install in on concave type push-pull piece 11, sealed disinfection material loading subassembly install in on watering board 4, the raw materials subassembly install in on watering board 4, extrusion material loading valve 21 pipe 13 in on the transfer case 5.

When the device is used, the two pairs of lifting irrigation hydraulic push rods 3 on the filling support 2 stretch and retract to drive the filling plates on the pushing ends of the two pairs of lifting irrigation hydraulic push rods 3 to lift, the transfer box 5, the sealing and disinfecting feeding assembly and the raw material assembly on the filling plates lift, the transfer box 5 on the filling plates are driven by the transfer stretching driver 6 on the transfer box 5 to run, the transfer stretching driving bevel gear 7 on the driving end of the transfer stretching driver 6 is driven to rotate, the transfer stretching driving bevel gear 8 meshed with the transfer stretching driving bevel gear 7 is driven to rotate by the transfer stretching driving bevel gear 8, the transfer stretching threaded pipe 9 on the transfer stretching driving bevel gear 9 is driven to rotate by the transfer stretching driving bevel gear 9, the concave push-pull block 11 on the transfer stretching driving bevel gear 10 is driven by the concave push-pull block 10, the sealing rubber pad 12 on the concave push-pull block 11 is driven by the concave push-pull block 11 and the sealing rubber pad 12 to lift, so as to generate negative pressure in the transfer box 5, and the raw materials in the raw material assembly are drained by the transfer box 5.

As shown in fig. 1-6, the sealed, sterile feeding assembly comprises: a pair of extrusion sealing hydraulic push rods 14, a pair of semicircular limiting blocks 15, a pair of lifting telescopic arc convex sheets 16, a plurality of extrusion contraction spring columns 17, a pair of semicircular sheets 18, two pairs of flexible sealing rubber pads 1912, a cross-shaped drainage tube 20, three feeding valves 21, a cleaning liquid tank 22, a sealing liquid tank 23, a pair of liquid pumping pumps 24, a pair of electric heating tubes 25 and a pair of ultraviolet irradiation lamps 26;

specifically, a pair of the extrusion sealing hydraulic push rods 14 are relatively installed on the inner side of the filling support 2, a pair of the semicircular limiting blocks 15 are respectively installed on the pushing ends of the pair of extrusion sealing hydraulic push rods 14, a pair of the semicircular limiting blocks 15 are respectively provided with a convex telescopic slot, a pair of the lifting telescopic circular arc convex pieces 16 are respectively movably inserted into the inner sides of the pair of convex telescopic slots, a plurality of the extrusion telescopic spring columns 17 are respectively installed on the inner sides of the pair of convex telescopic slots, the other ends of the extrusion telescopic spring columns 17 are respectively connected to the pair of lifting telescopic circular arc convex pieces 16, a pair of the semicircular pieces 18 are respectively installed on the pair of semicircular limiting blocks 15, two pairs of the flexible sealing rubber gaskets 1912 are respectively installed on the pair of lifting telescopic circular arc convex pieces 16 and the pair of semicircular limiting blocks 15, the cross drainage tube 20 is inserted into the irrigation plate 4, three feeding valves 21 are installed on the cross drainage tube 20, the cleaning solution tank 22 and the sealing solution tank 23 are respectively installed on the irrigation plate 4, a pair of the cleaning solution pump 24 and the sealing liquid tank 23 are respectively connected to the pair of the sealing liquid pump 20, and the pair of the cross drainage tube 20 are respectively installed on the pair of the cross drainage tube 20, and the cross lamp 20, and the pair of the cross lamp 20 are respectively installed on the pair of the ultraviolet tube 26.

During the use, through the operation of a pair of extrusion seal hydraulic push rod 14, drive a pair of extrusion seal hydraulic push rod 14 and promote semicircle stopper 15 on the end, extrude fixedly through a pair of semicircle stopper 15 raw materials bottle, simultaneously through the cooperation of the semicircle piece 18 on a pair of semicircle stopper 15, extrude fixedly the bottom of raw materials bottle, go up and down through watering board 4 simultaneously, go up and down to extrude a pair of flexible circular arc protruding type piece 16 of going up and down on a pair of semicircle stopper 15 through watering board 4, make flexible circular arc protruding type piece 16 go up and down in the flexible inslot of protruding type in semicircle stopper 15, thereby reach and seal the raw materials bottle top, watering board 4 goes up and down simultaneously, insert cross drainage tube 20 to the inboard of raw materials bottle, later through the cooperation of three material loading valve 21, a pair of drawing liquid pump 24 and transfer tensile driving machine 6, antiseptic solution, raw materials liquid and sealing liquid are sprayed and filled to the inboard of raw materials bottle in proper order, simultaneously, solidify the sealing liquid through the high temperature of electrothermal tube 25, shine simultaneously and disinfect the raw materials piece through ultraviolet lamp 26.

As shown in fig. 1-6, the material assembly comprises: the device comprises a raw material box 27, a convex raw material feeding block 28, a feeding auxiliary bracket 29, two pairs of lifting feeding hydraulic push rods 30, a square-shaped auxiliary block 31 and a feeding concave sealing rubber pad 32;

specifically, the raw material box 27 is mounted on the pouring plate 4, the convex raw material feeding block 28 is inserted into the top end of the raw material box 27, the feeding auxiliary support 29 is mounted on the raw material box 27, two pairs of the lifting feeding hydraulic push rods 30 are mounted on the feeding auxiliary support 29 in parallel, the clip-shaped auxiliary block 31 is mounted on the push ends of the two pairs of the lifting feeding hydraulic push rods 30, the clip-shaped auxiliary block 31 is mounted on the convex raw material feeding block 28, and the feeding concave sealing rubber pad 32 is mounted on the convex raw material feeding block 28;

during the use, through the operation of the feed liquid pressure push rod 30 in two pairs of going up and down on the material loading auxiliary stand 29 on raw materials box 27, drive two pairs of going up and down and go up the feed liquid pressure push rod 30 and promote the shape auxiliary block 31 that returns on holding, drive protruding type raw materials feeding block 28 on it through shape auxiliary block 31 to reach and go up and down to extrude liquid to the inboard of cross drainage tube 20 with the inboard of raw materials box 27 through protruding type raw materials feeding block 28, avoided the appearance raw materials velocity of flow under the encapsulated situation inhomogeneous, the inhomogeneous phenomenon of filling.

As shown in fig. 1 to 6, the uniform transportation structure comprises: a pair of toothed loading blocks 33, a plurality of extrusion hydraulic push rods 34, a plurality of pushing hydraulic push rods 35, a plurality of extrusion slide blocks 36, a plurality of extrusion slide ways 37, a plurality of pushing slide blocks 38 and a plurality of pushing slide ways 39;

specifically, a plurality of extrusion hydraulic push rod 34 and a plurality of propelling movement hydraulic push rod 35 become the cross install in on the concave type transport table 1, a plurality of extrusion slide 37 is installed respectively in a plurality of on the promotion of extrusion hydraulic push rod 34 is served, a plurality of propelling movement slide 39 is installed respectively in a plurality of on the promotion of propelling movement hydraulic push rod 35 is served, a plurality of extrusion slider 36 and a plurality of propelling movement slider 38 is installed respectively in a pair of on the material piece 33 is adorned to the tooth, and a plurality of extrusion slider 36 respectively the activity cartridge in a plurality of extrusion slide 37, a plurality of propelling movement slider 38 respectively the activity cartridge in a plurality of propelling movement slide 39.

When the device is used, the extrusion hydraulic push rods 34 are driven to stretch to drive the extrusion slide ways 37 on the pushing ends of the extrusion hydraulic push rods 34, the extrusion slide blocks 36 on the extrusion slide ways are driven by the extrusion slide blocks 37, the pair of tooth loading blocks 33 on the extrusion slide blocks 36 are respectively driven by the extrusion slide blocks 36, a plurality of raw material bottles are extruded by the pair of tooth loading blocks 33, the pair of tooth loading blocks 33 relatively move to drive the pushing slide blocks 38 on the extrusion slide blocks, the pushing slide blocks 38 push the pushing slide ways 39 on the pushing ends of the pushing hydraulic push rods 35 to move inside, then the pushing hydraulic push rods 35 stretch to drive the pushing slide blocks 38 on the pushing ends of the pushing hydraulic push rods 35, and the raw material bottles are extruded and pushed one by one through the matching of the pushing slide blocks 38 and the pushing slide ways 39, so that the raw material bottles are pushed one by one through drainage.

As shown in fig. 1-6, the carrying structure comprises: the conveying device comprises a conveying support, a conveying lead screw module, a conveying hydraulic push rod and a conveying clamping jaw;

specifically, the carrying support is mounted on the concave transport table 1, the carrying lead screw module is mounted on the carrying support, the carrying hydraulic push rod is mounted on the moving end of the carrying lead screw module, and the carrying clamping jaw is mounted on the pushing end of the carrying hydraulic push rod.

During the use, through the operation of the transport lead screw module on the transport support, drive transport lead screw module and remove transport hydraulic push rod and the transport clamping jaw on holding, flexible through transport hydraulic push rod, drive transport hydraulic push rod and promote the transport clamping jaw on holding, carry the raw materials bottle after will sealing through the transport clamping jaw.

Preferably, the pair of semicircular plates 18 are respectively provided with an exhaust transit trough, and the pair of exhaust transit troughs are provided with a plurality of raw material holes.

Preferably, a pair of the exhaust gas transit grooves are provided with filter activated carbon respectively.

Preferably, a plurality of ball grooves are formed in the pair of semicircular plates 18, and moving balls are respectively arranged on the inner sides of the plurality of ball grooves.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An aseptic couplant intelligent filling apparatus comprising: the device comprises a concave transport table and a filling support, and is characterized in that the filling support is arranged on the concave transport table, a uniform transport structure and a carrying structure are arranged on the concave transport table, and a filling structure is arranged on the filling support;

the sealed sterilization feeding assembly comprises: the device comprises a pair of extrusion sealing hydraulic push rods, a pair of semicircular limiting blocks, a pair of lifting telescopic arc convex sheets, a plurality of extrusion telescopic spring columns, a pair of semicircular sheets, two pairs of flexible sealing rubber pads, a cross-shaped drainage tube, three feeding valves, a cleaning liquid box, a sealing liquid box, a pair of liquid pumping pumps, a pair of electric heating tubes and a pair of ultraviolet irradiation lamps;

the pair of extrusion sealing hydraulic push rods are oppositely arranged on the inner side of the filling support, the pair of semicircular limiting blocks are respectively arranged on the pushing ends of the pair of extrusion sealing hydraulic push rods, convex telescopic grooves are respectively formed in the pair of semicircular limiting blocks, the pair of lifting telescopic circular arc convex sheets are respectively movably inserted into the inner sides of the pair of convex telescopic grooves, the plurality of extrusion telescopic spring columns are respectively arranged on the inner sides of the pair of convex telescopic grooves, the other ends of the plurality of extrusion telescopic spring columns are respectively connected to the pair of lifting telescopic circular arc convex sheets, the pair of semicircular sheets are respectively arranged on the pair of semicircular limiting blocks, the two pairs of flexible sealing rubber gaskets are respectively arranged on the pair of lifting telescopic circular arc convex sheets and the pair of semicircular limiting blocks, the cross-shaped drainage tube is inserted into the irrigation plate, the three feeding valves are arranged on the cross-shaped drainage tube, the cleaning liquid box and the sealing liquid box are respectively arranged on the irrigation plate, the pair of liquid pumps are respectively arranged on the cleaning liquid box and the sealing liquid box, the pair of liquid pumps are connected to the cross-shaped drainage tube, the pair of the electric heating tube and the pair of ultraviolet radiation lamp are respectively arranged on the pair of cross-shaped drainage tube, and the pair of semicircular limiting blocks;

the raw material box is arranged on the pouring plate, the convex raw material feeding block is inserted on the top end of the raw material box, the feeding auxiliary support is arranged on the raw material box, two pairs of lifting feeding hydraulic push rods are arranged on the feeding auxiliary support in a pairwise parallel mode, the clip-shaped auxiliary blocks are arranged on the pushing ends of the two pairs of lifting feeding hydraulic push rods, the clip-shaped auxiliary blocks are arranged on the convex raw material feeding block, and the feeding concave type sealing rubber gasket is arranged on the convex raw material feeding block.

2. The intelligent aseptic couplant filling apparatus of claim 1, wherein said uniform transport structure comprises: the pair of tooth loading blocks, the plurality of extrusion hydraulic push rods, the plurality of pushing hydraulic push rods, the plurality of extrusion slide blocks, the plurality of extrusion slide ways, the plurality of pushing slide blocks and the plurality of pushing slide ways;

3. The intelligent aseptic couplant filling apparatus of claim 1, wherein said handling structure comprises: the conveying device comprises a conveying support, a conveying lead screw module, a conveying hydraulic push rod and a conveying clamping jaw;

4. The intelligent aseptic couplant filling equipment according to claim 1, wherein a pair of semicircular plates are respectively provided with an exhaust transit trough, and a plurality of raw material holes are formed in the pair of exhaust transit troughs.

5. The intelligent aseptic couplant filling equipment according to claim 4, wherein a pair of exhaust transit tanks are respectively provided with filter activated carbon therein.

6. The intelligent aseptic couplant filling apparatus according to claim 1, wherein a plurality of ball grooves are formed in a pair of the semicircular sheets, and moving balls are respectively arranged on inner sides of the ball grooves.