阅读说明：本技术 一种台球浇注用快速冷却降温装置 (Quick cooling device for casting billiards ) 是由 方晓东 于 2020-06-19 设计创作，主要内容包括：本发明涉及台球加工领域,具体的公开了一种台球浇注用快速冷却降温装置,包括外壳、进料口、出料口和传送带；所述外壳内固定有两个竖直平行的挡水板,两个挡水板将外壳内分隔为两侧的喷淋冷却腔以及位于两个挡水板之间的吹风冷却腔；所述喷淋冷却腔的正下方设置有水平的导热板,导热板朝向传送带的一侧壁上均匀排布有若干个接触板,并且接触板与导热板之间通过转轴转动连接,接触板沿传送带的输送方向倾斜,使接触板在传送带的上表面与在传送带上移动的台球模具接触。本发明通过挡水板将外壳内分隔为两部分,通过两部分同时对传送带上的台球模具降温,使浇注后的台球快速降温。(The invention relates to the field of billiard processing, and particularly discloses a rapid cooling device for billiard pouring, which comprises a shell, a feeding hole, a discharging hole and a conveying belt, wherein the shell is provided with a feeding hole; two vertical parallel water baffles are fixed in the shell, and the two water baffles divide the interior of the shell into a spraying cooling cavity at two sides and a blowing cooling cavity positioned between the two water baffles; the horizontal heat-conducting plate is arranged under the spraying cooling cavity, a plurality of contact plates are uniformly distributed on one side wall of the heat-conducting plate facing the conveying belt, the contact plates are rotatably connected with the heat-conducting plate through rotating shafts, and the contact plates incline along the conveying direction of the conveying belt, so that the contact plates are in contact with the billiard ball mold moving on the conveying belt on the upper surface of the conveying belt. The interior of the shell is divided into two parts by the water baffle, and the billiard mold on the conveyor belt is cooled by the two parts simultaneously, so that the poured billiards are cooled rapidly.)

1. A rapid cooling device for casting billiards comprises a shell (1), a feed inlet (2), a discharge outlet (3) and a conveyor belt (4); the shell (1) is of a horizontally arranged box body structure, a feeding hole (2) and a discharging hole (3) which are arranged in the same horizontal direction are formed in the left end and the right end of the shell (1), a conveying belt (4) is horizontally arranged in the shell (1), and the left end and the right end of the conveying belt (4) penetrate out of the feeding hole (2) and the discharging hole (3) respectively; the device is characterized in that two vertical and parallel water baffles (8) are fixed in the shell (1), the water baffles (8) are symmetrically arranged, the two water baffles (8) divide the interior of the shell (1) into a spraying cooling cavity (16) at two sides and an air blowing cooling cavity (17) between the two water baffles (8), and the conveyor belt (4) is positioned under the air blowing cooling cavity (17); a horizontal heat conducting plate (7) is arranged right below the spraying cooling cavity (16), the heat conducting plate (7) is higher than the upper surface of the conveying belt (4), and the heat conducting plate (7) is fixed on the inner wall of the shell (1) through a supporting frame (15); a spray pipe (9) which is horizontally fixed on the top of the shell (1) is arranged on the top of the spray cooling cavity (16), and a plurality of nozzles (10) are arranged on the lower side of the spray pipe (9); heat-conducting plate (7) evenly arranges a plurality of contact plate (12) towards on the lateral wall of conveyer belt (4), and contact plate (12) vertical setting to rotate through pivot (13) between contact plate (12) and heat-conducting plate (7) and be connected, the free end of contact plate (12) is located conveyer belt (4) top, the direction of delivery slope of conveyer belt (4) is followed in contact plate (12), makes contact plate (12) at the upper surface of conveyer belt (4) and billiard ball mould (5) contact of removing on conveyer belt (4), and contact plate (12) are the heat conduction material, at the free end of every contact plate (12) with equal fixedly connected with supporting spring (14) between the lateral wall of heat-conducting plate (7).

2. The rapid cooling device for billiard ball pouring according to claim 1, wherein: the heat conducting plate (7) is of a wedge-shaped structure, and the inclined plane faces upwards.

3. The rapid cooling device for billiard ball pouring according to claim 1, wherein: the bottom in the shell (1) is filled with cooling water (6), the bottom of the shell (1) is provided with a circulating pump (11), and the circulating pump (11) is communicated with the spray pipe (9).

4. The rapid cooling device for billiard ball pouring according to claim 1, wherein: the distance between the lower end of the contact plate (12) and the upper surface of the conveyor belt (4) is 5-10 mm.

5. A rapid cooling device for billiard ball pouring according to claim 1 or 4, wherein: the conveying belt is characterized in that a plurality of convex strips (18) are uniformly and fixedly installed on the surface of the conveying belt (4) at equal intervals, the convex strips (18) are perpendicular to the moving direction of the conveying belt (4), and the conveying belt is made of metal.

6. A rapid cooling device for billiard ball pouring according to claim 5, wherein: the length of the convex strip (18) is 4/5-5/6 of the width of the conveyor belt (4).

7. The rapid cooling device for billiard ball pouring according to claim 1, wherein: and a blower (19) and an exhaust fan (20) are respectively arranged at two ends of the shell (1) corresponding to the blowing cooling cavity (17).

8. The rapid cooling device for billiard ball pouring according to claim 7, wherein: the blower (19) is positioned above the discharge hole (3), and the exhaust fan (20) is positioned above the feed inlet (2).

Technical Field

The invention relates to the field of billiard ball processing, in particular to a rapid cooling device for billiard ball pouring.

Background

Billiards is an elegant indoor sport widely popularized internationally, and is an indoor entertainment sport which uses a ball rod to hit a ball on a table and determines the success or failure of a game by calculating scores. Billiards are also called billiards (Yue hong and Australia), billiards (Taiwan). Billiards were initially made of wood, after which ivory was created.

The billiards are manufactured by casting, and after casting is finished, the billiards need to be cooled, so that the overall temperature of the billiards and the mold is reduced, and the billiards are quickly molded and taken out; the existing cooling mode has a simple structure and long cooling time, and leads to the reduction of the processing efficiency, so that a rapid cooling device needs to be designed to meet the requirements.

Disclosure of Invention

The invention aims to provide a rapid cooling device for billiard ball pouring, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a rapid cooling device for casting billiards comprises a shell, a feed inlet, a discharge outlet and a conveyor belt; the shell is of a horizontally arranged box body structure, a feeding hole and a discharging hole in the same horizontal direction are formed in the left end and the right end of the shell, the conveying belt is horizontally arranged in the shell, the left end and the right end of the conveying belt respectively penetrate out of the feeding hole and the discharging hole, the two ends of the conveying belt are driven by the driving rollers, the conveying belt conveys the billiard ball mold placed on the conveying belt into the shell, and the billiard ball mold is cooled in the shell; two vertical parallel water baffles are fixed in the shell and symmetrically arranged, the two water baffles divide the interior of the shell into a spraying cooling cavity at two sides and a blowing cooling cavity between the two water baffles, the conveying belt is positioned right below the blowing cooling cavity, and the billiard ball die conveyed on the conveying belt is subjected to blowing cooling through the blowing cooling cavity; a horizontal heat conducting plate is arranged right below the spraying cooling cavity, the heat conducting plate is higher than the upper surface of the conveying belt, and the heat conducting plate is fixed on the inner wall of the shell through a support frame to keep the heat conducting plate stable in the horizontal direction; a horizontal spray pipe fixed on the top of the shell is arranged on the top of the spray cooling cavity, a plurality of nozzles are arranged on the lower side of the spray pipe, cooling water is sprayed downwards through the nozzles to cool the lower part, and the cooling water only flows downwards in the spray cooling cavity and falls on a heat conducting plate below; the heat-conducting plate is characterized in that a plurality of contact plates are uniformly distributed on one side wall of the heat-conducting plate facing the conveying belt, the contact plates are vertically arranged and are rotatably connected with each other through a rotating shaft, so that the contact plates can swing around the rotating shaft, the free ends of the contact plates are positioned above the conveying belt, the contact plates are inclined along the conveying direction of the conveying belt, the contact plates can be contacted with the billiard ball dies moving on the conveying belt on the upper surface of the conveying belt, the billiard ball dies are contacted with each contact plate, heat in the contact plates is transferred through contact, the contact plates are made of heat-conducting materials, the heat on the billiard ball dies can be quickly transferred to the heat-conducting plate, supporting springs are fixedly connected between the free ends of the contact plates and the side wall of the heat-conducting plate, the free ends of the supporting springs are used, the contact plate is held extended to again be able to contact the billiard mold.

Further: the heat-conducting plate is of a wedge-shaped structure, and the inclined plane faces upwards, so that cooling water falling from the upper part flows downwards along the inclined plane.

Further: the bottom in the shell is filled with cooling water, the bottom of the shell is provided with a circulating pump, and the circulating pump is communicated with the spray pipe to recycle the cooling water inside.

Further: the distance between the lower end of the contact plate and the upper surface of the conveyor belt is 5-10 mm.

Further: the even equidistance fixed mounting of conveyer belt has a plurality of sand grip on the surface, the sand grip with the direction that the conveyer belt removed is perpendicular, and its material is the metal, and the billiard ball mould is placed on the conveyer belt, through contradicting on the sand grip, avoids the billiard ball mould to slide under the promotion of contact plate, keeps the billiard ball mould to follow the conveyer belt and removes.

Further: the length of the convex strip is 4/5-5/6 of the width of the conveyor belt.

Further: and a blower and an exhaust fan are respectively arranged at two ends of the shell corresponding to the blowing cooling cavity.

Further: the blower is located above the discharge port, the exhaust fan is located above the feed port, the air flowing direction in the air blowing cooling cavity and the billiard ball mold moving direction inside are made to be downward, and cooling of the billiard ball mold is achieved through internal air blowing.

Compared with the prior art, the invention has the beneficial effects that: the interior of the shell is divided into two parts by the water baffle, and the billiard mold on the conveyor belt is cooled by the two parts simultaneously, so that the poured billiards are cooled rapidly; the cooling is carried out by adopting air cooling and water cooling modes, and the direct influence of cooling water on the billiard ball die is reduced; the contact plates are arranged, so that the billiard ball mold is in continuous contact with the contact plates, sufficient contact time is guaranteed for heat transfer, and the temperature of the billiard ball mold is greatly reduced.

Drawings

FIG. 1 is a schematic structural view of a rapid cooling device for casting billiards.

FIG. 2 is a schematic view of the structure A-A in FIG. 1.

FIG. 3 is a schematic top view of a heat conducting plate in the rapid cooling device for casting billiards.

FIG. 4 is a schematic structural diagram of a conveyor belt in a rapid cooling device for casting billiards.

In the figure: 1-shell, 2-feed inlet, 3-discharge outlet, 4-conveyor belt, 5-billiard mold, 6-cooling water, 7-heat conducting plate, 8-water baffle, 9-shower pipe, 10-nozzle, 11-circulating pump, 12-contact plate, 13-rotating shaft, 14-supporting spring, 15-supporting frame, 16-shower cooling cavity, 17-blowing cooling cavity, 18-raised strip, 19-blower and 20-exhaust fan.

Detailed Description