CN115592465A

CN115592465A - Cooling system for cutting processing of axle

Info

Publication number: CN115592465A
Application number: CN202211609392.2A
Authority: CN
Inventors: 马志伟; 徐双; 朱熀宏; 范明松
Original assignee: Jingjiang Mingyu Shaft Manufacturing Co ltd
Current assignee: Jingjiang Mingyu Shaft Manufacturing Co ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-01-13

Abstract

The invention discloses a cooling system for axle cutting, which belongs to the field of axle cutting, and is characterized in that a high-temperature part is continuously cooled by cooling mist under high pressure, so that scraps can be cleaned while the high temperature is reduced, the cutting effect is improved, a clamping head drives a drill bit and a spiral ring to rotate at high speed in the process, the diameter of the spiral ring is gradually reduced from top to bottom, the spiral cooling mist can be rolled to rise upwards and continuously enter a condensation box by matching with the high-speed rotation of the spiral ring, then the condensation is carried out in the condensation box, the condensed cooling mist is reformed into cooling water to flow into a water storage box, the cooling water is guided into a heat exchanger through a water outlet pipe to carry out further heat exchange, the temperature of the cooling water is reduced, and finally the cooling water is guided into a water pump through the heat exchanger to be used, the effect of water circulation is realized, the waste of the cooling water is reduced, and the problem that a large amount of cooling water and the scraps are inconvenient to separate after being mixed is avoided.

Description

Cooling system for cutting processing of axle

Technical Field

The invention relates to the field of axle cutting, in particular to a cooling system for axle cutting.

Background

Need cool down to the high temperature that processing department produced among the axletree cutting process to reach the effect of protection cutting piece and improvement cutting efficiency, generally to the high temperature that processing department produced, utilize the cooling water of lasting spun, accelerate thermal loss, and leave the cutting department with the piece that the cutting produced, reach the purpose that improves cutting efficiency.

Traditional axletree cutting process's cooling generally uses the cooling water to continuously wash the cooling to high temperature department through water-cooled mode, and adopts the mode that the cooling water washed, not only extravagant cooling water very much, and the cooling water is after mixing with the piece, and is inconvenient to the problem that the piece was collected.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a cooling system for axle cutting processing, which can realize the continuous cooling of a high-temperature part by using cooling mist under high pressure, can clean chips while reducing the high temperature, and improve the cutting effect.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a cooling system of axletree cutting process, is including processing platform and the processing frame that is used for fixed axletree, the lower surface mounting of mounting bracket has the drilling machine, and the drilling machine is located the processing platform directly over, the output fixed mounting of drilling machine has the holding head, and the output fixed mounting of holding head has the drill bit, its characterized in that: the lower surface of the drilling machine is fixedly connected with a condensation box, the condensation box is sleeved at the top end, the lower surface of the condensation box is provided with a water storage box, the inner wall of the water storage box is fixedly connected with a water retaining frame for retaining condensed water, the water storage box is connected with a water outlet pipe in a penetrating manner, one end, far away from the water storage box, of the water outlet pipe is communicated with an external heat exchanger, a water outlet of the external heat exchanger is communicated with a water inlet of a water pump through a hose, a spiral ring for promoting spiral rising of cooling mist is fixedly arranged on an arc profile of the clamping head, the diameter of the spiral ring is gradually reduced from top to bottom, the upper surface of the condensation box is fixedly connected with a rectangular flow distribution box, the top of the rectangular flow distribution box is connected with a water inlet pipe in a penetrating manner, the water inlet pipe is communicated with the water outlet of the external water pump, and the lower surface of the rectangular flow distribution box is connected with water spray pipes in a penetrating manner near four corners, the bottom ends of the four water spraying pipes sequentially penetrate through the water storage box and the condensation box, the atomization spray head is fixedly installed on the water storage box, the spiral ring is provided with a plurality of mist rolling assemblies for improving the rising effect of cooling mist, the inner wall of the condensation box is provided with a plurality of condensation assemblies for improving the rapid condensation of the cooling mist, axle workpieces can be conveniently placed on the processing table, the installation of a drilling machine can be facilitated through the installation frame, the automatic drilling of the axle can be realized through the arrangement of the water inlet pipe, the drilling machine, the clamping head and the drill bit, in the drilling process, cooling water is guided into the rectangular shunt box from the water inlet pipe through the water pump, then the cooling water is sprayed out through the four water spraying pipes and the atomization spray head, and finally the cooling mist is continuously sprayed and cooled at the drill bit and the axle drilling position from four directions and blows away chips, through changing traditional water-cooling, utilize the cooling mist under the high pressure to continuously cool down to high temperature department, can clear up the piece when reducing high temperature, improve the cutting effect, avoid the cooling water to last in a large number and strike the waste that causes the cooling water, make things convenient for the separation of cooling water and piece mixture simultaneously, strengthen cutting efficiency, the holding head drives drill bit and spiral ring and carries out high-speed rotatory at this in-process, the diameter from the top down through the spiral ring sets up that reduces gradually, cooperate its high-speed rotatory, can reach the roll cooling mist and rise upwards, continuously enter into the condensation box, condense in the condensation box afterwards, the cooling mist after the condensation reforms into the cooling water and flows into in the retaining box, then lead to the heat transfer in the heat exchanger through the outlet pipe of link up on the retaining box, reduce the cooling water, finally lead to in the water pump through the heat exchanger, use, reach the synchronous collection of cooling water in the cutting process, and then realize the effect of hydrologic cycle, reduce the waste of cooling water, the problem of inconvenient separation after having avoided a large amount of cooling water and piece mixture simultaneously, and the motion of the cooling mist temperature and condensation subassembly in this in-process, can promote the collection effect of cooling water mist.

Further, it includes haulage rope and cold-storage ball to roll up the fog subassembly, haulage rope fixed connection is at the lower surface of spiral ring, it is a plurality of to hold cold-storage ball fixed connection in the bottom of haulage rope the spiral ring lower surface presents the spiral array and distributes, through the haulage rope with hold cold-storage ball's setting, can reach when the spiral ring rotates fast, drives haulage rope and cold-storage ball and scatter, when reaching increase spiral ring rotation, to the spiral rising area of cooling fog, the collection of cooling fog with higher speed.

Further, the cold-storage ball adopts the cold-storage nature material that the quality is lighter, the total length of haulage rope and cold-storage ball is less than the interval between two-layer about the helicoidal ring, and the cold-storage ball through cold-storage nature material can promote the cold insulation effect of cooling fog, cools off the condensation effect of fog with higher speed, and the total length of haulage rope and cold-storage ball is less than the setting of interval between two-layer about the helicoidal ring, can avoid cold-storage ball and helicoidal ring to take place the striking, causes the damage.

Further, the condensation subassembly is including heat dissipation convex ball and water conservancy diversion rope, heat dissipation convex ball fixed connection is on the inner wall of condensation box, water conservancy diversion rope fixed connection can increase the surface area of condensation box inner wall in the bottom of heat dissipation convex ball through the setting of heat dissipation convex ball, cools off the condensation of fog with higher speed, and simultaneously, the setting of water conservancy diversion rope can be with in the leading-in retaining box of the comdenstion water on the heat dissipation convex ball, convenient collection to the comdenstion water.

Further, the condensation subassembly still includes the gravity ball, gravity ball fixed connection can increase the weight of water conservancy diversion rope in the bottom of water conservancy diversion rope through the setting of gravity ball, avoids adjacent water conservancy diversion rope to adhere together after moist for the water conservancy diversion rope can keep the vertical state downwards, makes things convenient for flowing into of comdenstion water to hold between water box and the manger plate frame.

Further, a plurality of grooves are formed in the arc-shaped outline of the heat dissipation convex ball, the shape of each groove is hemispherical, the surface area of the heat dissipation convex ball can be increased through the arrangement of the grooves, the heat dissipation effect of the heat dissipation convex ball is further enhanced, and condensation of mist is cooled in an accelerated manner.

Further, set up the guiding gutter of a plurality of rather than looks adaptation on the inner wall of condensation box, through the setting of guiding gutter, can reach and carry out the water conservancy diversion to the comdenstion water, promote the collection effect of comdenstion water.

Further, the inner wall of condensation box is upwards sunken to present the quadrangular frustum pyramid shape, the inner wall through condensation box is upwards sunken, and present the quadrangular frustum pyramid shape, can reach and make things convenient for the comdenstion water to flow down to the lower department of four sides from the higher department in center, conveniently collect the comdenstion water.

Further, waterproof coating is coated on the outer surface of the gravity ball, heat-insulating material is filled in the gravity ball, the gravity ball is made of ferromagnetic material, a magnetic block is embedded in one side of the top end of the spiral ring, the gravity ball is provided with the waterproof coating, condensate water can be prevented from hanging, the gravity ball is made of ferromagnetic material, the magnetic block can attract a plurality of gravity balls to swing under the influence of magnetism when the spiral ring rotates, the condensate water falls in an accelerating mode, the heat-insulating material filled in the gravity ball can reduce the accumulation of heat, and the heat dissipation is accelerated.

Further, the material that water storage box, condensation box adopted is metallic copper, the spraying has the hydrophobic lacquer on water storage box, condensation box and the heat dissipation convex ball, through the setting of hydrophobic lacquer, can reach the drop that makes things convenient for the comdenstion water to flow from the outlet pipe with higher speed the comdenstion water, promote hydrologic cycle's effect, at this in-process, the giving off of carrying the heat in the cooling mist can be accelerated to the water storage box and the condensation box of metallic copper material.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

through utilizing the cooling fog under the high pressure to continuously cool down high temperature department, can clear up the piece when reducing the high temperature, improve the cutting effect, the holding head drives drill bit and spiral ring and carries out high-speed rotation at this in-process, the diameter from the top down setting that reduces gradually through the spiral ring, cooperate its high-speed rotation, can reach the roll cooling fog and upwards rise, continuously enter into in the condensation box, condense in the condensation box afterwards, the cooling fog after the condensation reforms into the cooling water and flows into in the retaining box, then lead to the heat exchanger through the outlet pipe and carry out further heat transfer, reduce the cooling water temperature, finally in leading-in water pump through the heat exchanger, use, realize the effect of hydrologic cycle, reduce the waste of cooling water, the inconvenient problem of separating after a large amount of cooling water and piece mix has been avoided simultaneously.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic bottom view of the structure of the drilling machine, the clamping head and the drill bit of the present invention;

FIG. 3 is an expanded view of the structure of the water storage box and the condensing box of the present invention;

FIG. 4 is a schematic bottom view of the condensation box of the present invention;

FIG. 5 is a schematic view of the mist rolling assembly according to the present invention;

FIG. 6 is a schematic view of a condensing assembly according to the present invention;

fig. 7 is a schematic sectional view of the gravity ball of the present invention.

The numbering in the figures illustrates:

1. a processing table; 2. a water inlet pipe; 3. a drilling machine; 4. a clamping head; 5. a drill bit; 6. a helical ring; 7. a rectangular shunt box; 8. a water spray pipe; 9. a water storage box; 10. a condensing box; 11. a water retaining frame; 12. a water outlet pipe; 13. a hauling rope; 14. a cold storage ball; 15. a mist rolling assembly; 16. a heat dissipation convex ball; 17. a diversion trench; 18. a flow guide rope; 19. a gravity ball; 20. a condensing assembly; 21. a mounting frame; 22. a magnetic block.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example 1:

referring to fig. 1-6, a cooling system for axle cutting includes a processing table 1 for fixing an axle and a processing frame 21, a drilling machine 3 is mounted on the lower surface of the mounting frame 21, the drilling machine 3 is located right above the processing table 1, a clamping head 4 is fixedly mounted at the output end of the drilling machine 3, and a drill bit 5 is fixedly mounted at the output end of the clamping head 4, and is characterized in that: the lower surface of a drilling machine 3 is fixedly connected with a condensation box 10, the condensation box 10 is sleeved at the top end of the drilling machine 4, the inner wall of a water storage box 9 is fixedly connected with a water retaining frame 11 for retaining condensed water, a water outlet pipe 12 is connected on the water storage box 9 in a penetrating way, one end of the water outlet pipe 12, far away from the water storage box 9, is communicated with an external heat exchanger, a water outlet of the external heat exchanger is communicated with a water inlet of a water pump through a hose, a spiral ring 6 for promoting the spiral rising of cooling mist is fixedly arranged on the arc profile of a clamping head 4, the diameter of the spiral ring 6 is gradually reduced from top to bottom, the upper surface of the condensation box 10 is fixedly connected with a rectangular flow distribution box 7, the top of the rectangular flow distribution box 7 is connected with a water inlet pipe 2 in a penetrating way, the water inlet pipe 2 is communicated with the water outlet of the external water pump, the lower surface of the rectangular flow distribution box 7 is communicated with water spray pipes 8 at four corners, the bottom ends of the four water spray pipes 8 sequentially penetrate through the water storage box 9 and the condensation box 10, the atomization spray heads are fixedly installed, the spiral ring 6 is provided with a plurality of mist rolling assemblies 15 used for improving the ascending effect of cooling mist, the inner wall of the condensation box 10 is provided with a plurality of condensation assemblies 20 used for improving the rapid condensation of the cooling mist, axle workpieces can be conveniently placed through the processing table 1, the installation of the drilling machine 3 can be facilitated through the installation frame 21, the automatic drilling of axles can be realized through the arrangement of the water inlet pipe 2, the drilling machine 3, the clamping head 4 and the drill bit 5, in the drilling process, cooling water is guided into the rectangular flow distribution box 7 from the water inlet pipe 2 through the water pump, then the cooling water is sprayed out through the four water spray pipes 8 and the atomization spray heads, and finally the cooling mist is continuously sprayed to the drill bit 5 and the axle drill hole from four directions and is blown away debris, through changing traditional water-cooling, utilize the cooling mist under the high pressure to continuously cool down to high temperature, can clear up the piece when reducing high temperature, improve the cutting effect, avoid the cooling water to last to strike in a large number and cause the waste of cooling water, make things convenient for the separation of cooling water and piece mixture simultaneously, strengthen cutting efficiency, clamping head 4 drives drill bit 5 and spiral ring 6 and carries out high-speed rotation at this in-process, the diameter from the top down through spiral ring 6 reduces the setting gradually, cooperate its high-speed rotation, can reach the upwards rise of roll cooling mist, continuously enter into condensation box 10, subsequently condense in condensation box 10, the cooling mist after the condensation reforms into the cooling water and flows into in retaining box 9, then further heat transfer in leading-in the heat exchanger through outlet pipe 12 of through-connection on retaining box 9, reduce the cooling water temperature, finally, through the leading-in water pump of heat exchanger, reach the synchronous collection of cooling water in the cutting process, and then realize the effect of hydrologic cycle, reduce the waste of cooling water, the problem of separation after having avoided a large amount of cooling water and piece mixing, and the mist motion of condensation subassembly 15 and condensation in this process can promote the cooling effect of collection.

Roll up fog subassembly 15 and include haulage rope 13 and cold-storage ball 14, haulage rope 13 fixed connection is at the lower surface of helicoidal ring 6, cold-storage ball 14 fixed connection is in haulage rope 13's bottom, a plurality of cold-storage balls 14 present the spiral array at helicoidal ring 6 lower surface and distribute, setting through haulage rope 13 and cold-storage ball 14, can reach when helicoidal ring 6 rotates fast, drive haulage rope 13 and cold-storage ball 14 scatter, when reaching increase helicoidal ring 6 and rotate, the spiral area that rises to cooling mist, the collection of cooling mist with higher speed.

Hold cold ball 14 and adopt the cold-storage nature material that the quality is lighter, haulage rope 13 and hold cold ball 14 total length be less than spiral ring 6 interval between two-layer from top to bottom, hold cold ball 14 through cold-storage nature material and can promote the cold-keeping effect of cooling fog, the condensation effect of cooling fog with higher speed, and haulage rope 13 and hold the setting that cold ball 14 total length is less than spiral ring 6 interval between two-layer from top to bottom, can avoid holding cold ball 14 and spiral ring 6 to take place the striking, cause the damage.

Condensation subassembly 20 is including heat dissipation convex ball 16 and water

conservancy diversion rope

18, 16 fixed connection of heat dissipation convex ball are on the inner wall of condensation box 10, and water conservancy diversion rope 18 fixed connection is in the bottom of heat dissipation convex ball 16, through the setting of heat dissipation convex ball 16, can increase the surface area of condensation box 10 inner wall, the condensation of cooling down fog with higher speed, and simultaneously, the setting of water conservancy diversion rope 18 can be with in the leading-in water storage box 9 of the comdenstion water on the heat dissipation convex ball 16, the convenient collection to the comdenstion water.

The condensation component 20 further comprises a gravity ball 19, the gravity ball 19 is fixedly connected to the bottom end of the diversion rope 18, and the weight of the diversion rope 18 can be increased through the gravity ball 19, so that the adjacent diversion rope 18 is prevented from being adhered together after being wetted, the diversion rope 18 can be kept in a downward vertical state, and condensed water can flow into the space between the water storage box 9 and the water retaining frame 11 conveniently.

A plurality of grooves are formed in the arc-shaped outline of the heat dissipation convex ball 16, the shape of each groove is hemispherical, the surface area of the heat dissipation convex ball 16 can be increased through the arrangement of the grooves, the heat dissipation effect of the heat dissipation convex ball 16 is further enhanced, and condensation of mist is cooled with higher speed.

Set up a plurality of guiding gutter 17 rather than the looks adaptation on the inner wall of condensation box 10, through the setting of guiding gutter 17, can reach and carry out the water conservancy diversion to the comdenstion water, promote the collection effect of comdenstion water.

The inner wall of the condensation box 10 is recessed upwards and is in a quadrangular frustum pyramid shape, so that condensed water can flow down from a higher center to lower four sides conveniently and is collected conveniently.

The surface of gravity ball 19 is scribbled and is equipped with waterproof coating, the inside packing of gravity ball 19 has the heat-insulating material, gravity ball 19 is by ferromagnetic material, the embedded magnetic path 22 of installing in 6 top one sides of helicoidal ring, setting through waterproof coating on gravity ball 19, can reach and avoid the comdenstion water to hang, the material through gravity ball 19 is formed by ferromagnetic material preparation, can be when helicoidal ring 6 is rotatory, magnetic path 22 on it can attract a plurality of gravity balls 19 to receive the magnetic influence and swing, the whereabouts of comdenstion water with higher speed, the heat-insulating material of the inside packing of gravity ball 19 can reduce thermal piling up, thermal giveaway with higher speed.

The material that water storage box 9, condensation box 10 adopted is metallic copper, and the spraying has the hydrophobic lacquer on water storage box 9, condensation box 10 and the protruding ball 16 of heat dissipation, through the setting of hydrophobic lacquer, can reach the falling that makes things convenient for the comdenstion water to flow out from outlet pipe 12 with higher speed in the comdenstion water, promote hydrologic cycle's effect, and at this in-process, metallic copper material's water storage box 9 and condensation box 10 carry thermal giving off in can the cooling mist with higher speed.

External heat exchanger, external water pump, processing platform 1, inlet tube 2, drilling machine 3, holding head 4 and drill bit 5 mentioned in this scheme are the existing equipment in this technical field, do not do too much repeated description here.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides a cooling system of axletree cutting process, is including processing platform (1) and the processing frame (21) that is used for fixed axletree, the lower surface mounting of mounting bracket (21) has drilling machine (3), and drilling machine (3) are located processing platform (1) directly over, the output fixed mounting of drilling machine (3) has clamping head (4), and the output fixed mounting of clamping head (4) has drill bit (5), its characterized in that: the lower surface of the drilling machine (3) is fixedly connected with a condensation box (10), the condensation box (10) is sleeved at the top end of the drilling machine (4), the lower surface of the condensation box (10) is provided with a water storage box (9), the inner wall of the water storage box (9) is fixedly connected with a water retaining frame (11) for retaining condensed water, the water storage box (9) is provided with a water outlet pipe (12) in a through connection mode, one end, away from the water storage box (9), of the water outlet pipe (12) is communicated with an external heat exchanger, a water outlet of the external heat exchanger is communicated with a water inlet of a water pump through a hose, a spiral ring (6) for promoting spiral rising of cooling mist is fixedly installed on an arc outline of the clamping head (4), the diameter of the spiral ring (6) is gradually reduced from top to bottom, the upper surface of the condensation box (10) is fixedly connected with a rectangular flow distribution box (7), the top of the rectangular flow distribution box (7) is provided with a water inlet pipe (2), the water inlet pipe (2) is communicated with an external water outlet, the lower surface of the rectangular flow distribution box (7) is close to four corners and is provided with a plurality of spray nozzles (8) and a plurality of spray nozzles (15) for improving the atomization effect of the cooling mist spray nozzle assembly, and a plurality of condensing assemblies (20) for improving the rapid condensation of the cooling mist are arranged on the inner wall of the condensing box (10).

2. The cooling system for axle cutting according to claim 1, wherein: roll up fog subassembly (15) and include haulage rope (13) and cold-storage ball (14), haulage rope (13) fixed connection is in the lower surface of spiral ring (6), cold-storage ball (14) fixed connection is in the bottom of haulage rope (13), and is a plurality of cold-storage ball (14) present spiral array and distribute at spiral ring (6) lower surface.

3. The cooling system for axle cutting according to claim 2, wherein: the cold accumulation ball (14) is made of a cold accumulation material with light weight, and the total length of the traction rope (13) and the cold accumulation ball (14) is smaller than the distance between the upper layer and the lower layer of the spiral ring (6).

4. The cooling system for axle cutting according to claim 1, wherein: the condensation component (20) comprises a heat dissipation convex ball (16) and a flow guide rope (18), the heat dissipation convex ball (16) is fixedly connected to the inner wall of the condensation box (10), and the flow guide rope (18) is fixedly connected to the bottom end of the heat dissipation convex ball (16).

5. The cooling system for axle cutting according to claim 4, wherein: the condensation component (20) further comprises a gravity ball (19), and the gravity ball (19) is fixedly connected to the bottom end of the flow guide rope (18).

6. The cooling system for axle cutting according to claim 4, wherein: a plurality of grooves are formed in the arc-shaped outline of the heat dissipation convex ball (16), and the shape of each groove is hemispherical.

7. The cooling system for axle cutting according to claim 1, wherein: the inner wall of the condensation box (10) is provided with a plurality of diversion trenches (17) matched with the condensation box.

8. The cooling system for axle cutting according to claim 1, wherein: the inner wall of the condensation box (10) is concave upwards and takes the shape of a quadrangular frustum pyramid.

9. The cooling system for axle cutting according to claim 5, wherein: the outer surface of the gravity ball (19) is coated with a waterproof coating, the interior of the gravity ball (19) is filled with a heat insulating material, the gravity ball (19) is made of a ferromagnetic material, and a magnetic block (22) is embedded in one side of the top end of the spiral ring (6).

10. The cooling system for axle cutting according to claim 4, wherein: the water storage box (9) and the condensation box (10) are made of copper, and hydrophobic paint is sprayed on the water storage box (9), the condensation box (10) and the heat dissipation convex balls (16).