CN212017717U - Forming system for producing hantian crystal balls - Google Patents

Abstract

The utility model belongs to the technical field of the quartzy ball production of hantian, specifically disclose a molding system for producing quartzy ball of hantian, the installing support, a plurality of former, former includes forming mechanism and circulating water cooling mechanism, circulating water cooling mechanism is used for cooling off the product that forming mechanism produced, material collecting pit, and cooling unit, cooling unit is used for filtering and cooling the water in the material collecting pit, supplies with cooling water to forming mechanism and circulating water cooling mechanism. The utility model discloses a molding system for producing hantian crystal ball, a set of cooling unit of a plurality of former sharing to form circulating water system, it is big to have saved traditional natural cooling pond area, and has improved the production productivity.

Description

Forming system for producing hantian crystal balls

Technical Field

The utility model belongs to the technical field of chemical machinery and specifically relates to a molding system for producing hantian crystal ball is related to.

Background

Along with the improvement of living standard of people, the milk tea is more and more popular among people, not only can moisten throat to quench thirst, but also has good taste. The taste of the milk tea is influenced by different food materials added into the milk tea, the cold celestial crystal ball Q is elastic and refreshing, the taste is smooth and throat-moistening, and the milk tea is more distinctive and can improve the taste, so that more people gradually like drinking the beverage in which the cold celestial crystal ball is added. Because of being rich in dietary fiber and colloid, the food has the characteristics of solidification, unfreezing and resolidification without flavor change, and is convenient to use; the crystal ball has the effects of eliminating constipation, beautifying, losing weight, preventing chronic diseases and the like, is the most attractive food for modern people, is gradually added in the fields of baking, foods, catering auxiliary products and the like, and suppliers increase the production strength in order to meet the demand of the existing crystal balls in the sky.

However, the conventional forming equipment for producing the skyscraper balls has the defects that:

the forming mechanism of the existing equipment has a plurality of extrusion holes uniformly distributed on the plane, and the extruded closterine ball is pushed down by a push rod.

The forming process of the hantian crystal ball comprises the steps of stirring, extruding and feeding after stirring is finished, and then cutting and forming. In traditional hantian crystal ball former, the hantian crystal ball that extrudes pushes away through the push rod and falls, because hantian crystal ball viscosity is high, pushing away the in-process of cutting, can make hantian crystal ball pile up, finally cause hantian crystal ball adhesion, be unfavorable for hantian crystal ball's serialization production.

The raw materials need to be stirred firstly during production of the cold celestial sphere, a stirred semi-finished product belongs to a sticky object, and if the temperature is lower than 50 ℃, a bonding phenomenon can occur. Therefore, the semi-finished products are always above 50 ℃ before cutting, after cutting, the spray heads spray cooling water to spray the cutting and forming positions of the semi-finished products, the finished products and the cooling water are formed after heat exchange and fall into the collecting box together, the cooling water can be naturally cooled in the collecting box, and then the cooling water in the collecting box is pumped into the spray heads again by the water pump to be sprayed, so that the cooling water can be recycled. But cooling water and the cold day crystal ball after the heat transfer directly fall into and collect the box and carry out the natural cooling, along with the lapse of time, cooling water temperature can be higher and higher, and until cooling water temperature and cold day crystal ball temperature are equivalent, this in-process, cold day crystal ball cools off to appointed temperature required time overlength, must not in time cool off to take place the phenomenon that the finished product bonded together mutually.

In order to improve the yield, at least six sets of forming equipment are arranged on the traditional forming equipment, the six sets of forming equipment are arranged along a straight line, and a natural cooling pool for cooling water under the forming equipment is very large in size and large in occupied area.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a molding system for producing hantian crystal ball has the big problem of area through cooling water circulation system in order to solve traditional molding equipment that is used for producing hantian crystal ball.

The utility model provides a molding system for producing a hantian crystal ball,

a support is arranged on the base plate, and the support is arranged on the support,

a plurality of forming devices, wherein each forming device comprises a forming mechanism and a circulating water cooling mechanism, the circulating water cooling mechanism is used for cooling products produced by the forming mechanism,

a material collecting tank, and

and the cooling unit is used for filtering and cooling the water in the material collecting pool, and supplying cooling water to the forming mechanism and the circulating water cooling mechanism.

Preferably, the molding mechanism includes:

a feeding mechanism and a molding die head,

the molding die head comprises an upper shell cover, an extrusion disc and a lower shell cover,

the top of the upper shell cover is provided with a feed inlet,

a plurality of extrusion through holes are arranged on the extrusion disc, extrusion pipes communicated with the extrusion through holes are arranged on the extrusion through holes,

the bottom of the lower shell cover is provided with a plurality of cooling water holes,

go up clamshell and lower clamshell fixed connection, the extrusion dish is fixed to be set up between last clamshell and lower clamshell, be formed with the cooling water passageway with outside cooling water intercommunication between extrusion dish and the lower clamshell, extrude the pipe and wear to establish in the cooling water hole, the cooling water of being convenient for in the cooling water passageway passes through from extruding the cooling clearance between pipe and the cooling water hole, the forming die head passes through the feed inlet and feed mechanism intercommunication at last clamshell top, forming die head bottom still is equipped with the cutting mechanism who is used for cutting the clod-plate dome.

Preferably, a screw pump convenient for stable feeding is further arranged between the feeding mechanism and the forming die head.

Preferably, the upper housing cover is of a double-layer structure and comprises an outer housing layer and an inner housing layer, a water inlet gap is formed between the outer housing layer and the inner housing layer, a water inlet pipe for introducing external cooling water into the water inlet gap is arranged outside the outer housing layer, the extrusion disc is provided with an extrusion disc flange, a plurality of communication holes are uniformly distributed in the extrusion disc flange, and the water inlet gap is communicated with the cooling water channel through the communication holes.

Preferably, the bottom of the extruded tube protrudes from the bottom of the lower housing shell.

Preferably, the cutting mechanism comprises a cutter seat and a cutter, the cutter is mounted on the cutter seat, a cutting through groove convenient for the cutter to cut products is formed in the cutter seat, and the cutting mechanism further comprises a driving part used for driving the cutter seat to reciprocate.

The cutter is integrally plate-shaped, and a plurality of through holes convenient for the crystal balls to pass through are formed in the plate surface.

Preferably, the cutting knife is a filament fixed in parallel in the cutting knife seat.

Preferably, the filament is a metal wire, an alloy wire, an inorganic non-metal wire or an organic wire.

Preferably, the driving part is a cylinder and comprises a cylinder barrel and a piston rod, and the piston rod is fixedly connected with the cutter seat.

Preferably, the driving part comprises a driving motor, an eccentric connecting disc, a guide seat and a guide rod, the guide rod is in guide sliding fit with the guide seat, two ends of the guide rod are fixedly connected with the eccentric connecting disc and the cutter seat respectively, and the driving motor drives the eccentric connecting disc to rotate.

Preferably, the circulating water cooling mechanism includes:

circulating water cooling assembly and cooling coil

The circulating water cooling assembly comprises a cooling outer barrel and a cooling inner barrel which are coaxially nested and fixedly connected, the upper edge of the cooling outer barrel is higher than the upper edge of the cooling inner barrel, an overflow area is formed between the cooling inner barrel and the cooling outer barrel, a cooling area is formed in the cooling inner barrel, an inner barrel discharging pipe which penetrates through the cooling outer barrel and is communicated with the outside is arranged at the bottom of the cooling inner barrel, a liquid inlet pipe communicated with the overflow area is arranged at the bottom of the cooling outer barrel,

the cooling coil is coiled on the outer side wall of the cooling outer barrel, the cooling coil comprises a coil lower inlet arranged at the lower part of the cooling coil and a coil upper outlet arranged at the upper part of the cooling coil,

the inlet is linked together with interior bucket discharging pipe under the coil pipe, and export is discharged the cold day crystal ball to the material collecting pit through arranging the material pipe on the coil pipe, export and row material pipe on the coil pipe are all less than the upper edge of interior bucket of cooling.

Preferably, the bottom of the cooling inner barrel is conical, an overflow pipe communicated with the overflow area is arranged on the outer side wall of the cooling outer barrel, and the overflow pipe is higher than the upper edge of the cooling inner barrel.

Preferably, the overflow area is provided with a plurality of uniformly distributed connecting brackets for fixedly connecting the cooling outer barrel and the cooling inner barrel.

Preferably, a mesh plate for preventing the crystal balls from entering the overflow area is arranged between the cooling outer barrel and the cooling inner barrel.

Preferably, the material collecting pool comprises a material collecting pool body, and a solid-liquid separation partition plate for separating cooling water from the crystal balls is arranged at the top of the material collecting pool body.

The beneficial effects of the utility model reside in that:

(1) the utility model discloses a molding system for producing a cold celestial crystal ball, a plurality of molding devices share a set of cooling unit, and form a circulating water system, save the floor area of the traditional natural cooling pond;

(2) the utility model discloses a molding system for producing hantian crystal ball, with external cooling water and cooling water passageway intercommunication, the cooling water passes through the cooling water passageway, again through the cooling clearance between extrusion tube and the cooling water hole outflow, can cool off the hantian crystal ball of extruding fast on the one hand, do not form the adhesion after the cutting, on the other hand, when cutting the hantian crystal ball of extruding, the cooling water that flows out between extrusion tube and the cooling water hole makes every hantian crystal ball all have the cooling water cladding outward, be unfavorable for hantian crystal ball mutual adhesion when cutting, compare with traditional hantian crystal ball molding mechanism, the productivity on the unit area increases several times;

(3) the utility model discloses a molding system for producing hantian crystal ball, which is provided with a screw pump between a feeding mechanism and a molding die head, so that the extrusion capacity of the molding mechanism is constant, thereby precisely controlling the productivity and leading the produced hantian crystal ball to reach higher consistency;

(4) the utility model discloses a forming system for producing crystalline substance ball in hantian compares with conventional equipment, sets up six at least sets of forming mechanism on traditional forming equipment could with the utility model discloses a crystalline substance ball forming mechanism productivity in hantian matches, because crystalline substance ball viscosity in hantian is high, needs periodic cleaning, and traditional forming equipment need drop into a large amount of manpowers and wash all forming equipment one by one, and the utility model discloses a forming mechanism only need wash one set can, consequently the utility model discloses a crystalline substance ball forming mechanism in hantian washs aspect work load littleer, the washing of being convenient for more.

(5) The utility model discloses a forming system for producing cold day pellet, carry the overflow district of the outer bucket of cooling through the feed liquor pipe with the cooling water, the water yield in the overflow district increases gradually, when the last edge of the interior bucket of cooling is surpassed, water can overflow into the interior bucket of cooling, and through the discharging pipe, cooling coil, water level in the bucket is higher than on the coil pipe export and arrange the material pipe after in the cooling, adopt liquid level difference principle, water finally can flow to the material collecting pit, fall into the interior bucket of cooling when cold day pellet, sink to cool down interior bucket bottom, along with rivers to the material collecting pit, cold day pellet that falls into in the interior bucket of cooling at every turn all directly contacts and cools off with the cooling water, the cooling effect is good, the finished product is not adherent.

(6) The utility model discloses a molding system for producing hantian crystal ball, after hantian crystal ball comes out from the cooling inner barrel, through the coil pipe cooling, only reach the material collecting pit finally, the use of cooling coil pipe has prolonged the time that the material contacted with the cooling water, makes the material can fully cool off, fundamentally has solved the problem of hantian crystal ball adhesion, and the use of coil pipe has saved a large amount of spaces simultaneously;

(7) the utility model discloses a molding system for producing hantian crystal ball, cooling coil dish are established at the outer bucket lateral wall of cooling, can be under the refrigerated prerequisite of accomplishing hantian crystal ball, furthest's saving equipment occupation of land space.

(8) The utility model discloses a molding system for producing hantian crystal ball has abandoned traditional hantian crystal ball former, and the hantian crystal ball that extrudes has adopted the form of cutting to realize the production of hantian crystal ball through the structure that the push rod pushed off, has fundamentally solved the condition that hantian crystal ball takes place the adhesion when cutting;

(9) the utility model discloses a molding system for producing hantian crystal ball, the reciprocating twice cutting of once can being accomplished of drive unit has promoted the production efficiency of hantian crystal ball greatly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a plan view of the present invention;

FIG. 4 is a schematic perspective view of the forming mechanism;

FIG. 5 is a plan view of the forming mechanism;

FIG. 6 is a perspective view of the cutting mechanism;

FIG. 7 is a partially exploded view of the cutting mechanism;

FIG. 8 is a partially exploded view of the forming mechanism;

FIG. 9 is a partial top view of the forming mechanism;

FIG. 10 is a cross-sectional view taken along line B-B of FIG. 9;

FIG. 11 is an enlarged view at C of FIG. 10;

FIG. 12 is a first partial schematic view of a circulating water cooling mechanism;

fig. 13 is a partial schematic view of a circulating water cooling mechanism.

Reference numerals: 1. mounting bracket, 2, feeding mechanism, 5, material collecting tank, 31, screw pump, 32, forming die head, 33, guide rod, 34, guide seat, 35, cutting mechanism, 36, driving part, 41, cooling unit, 42, discharging pipe, 43, circulating water cooling component, 44, cooling coil, 51, solid-liquid separation baffle, 52, material collecting tank body, 321, upper shell cover, 322, extrusion disc, 323, lower shell cover, 324, cooling water channel, 325, water inlet pipe, 351, cutter seat, 352, cutting through groove, 353, cutter, 361, driving motor, 362, eccentric connecting disc, 431, cooling outer barrel, 433, connecting bracket, 434, mesh plate, 435, overflow pipe, 436, cooling inner barrel, 441, lower inlet of coil, 442, upper outlet of coil, 3211, feed inlet, 3221, extrusion through hole, 3222, extrusion pipe, 3231, cooling, 3241 cooling gap, 3212 outer shell, 3213 inner shell, 3214 water inlet gap, 3223 extruding disc flange, 3224 communicating hole, 4313 overflow area, 4312 cooling area, 4314 inner barrel discharging pipe, 4315 liquid inlet pipe.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

As shown in fig. 1-3, a molding system for producing a skyscraper ball comprises a mounting bracket 1 and a plurality of molding devices, wherein each molding device comprises a molding mechanism and a circulating water cooling mechanism, the circulating water cooling mechanism is used for cooling a product produced by the molding mechanism, a material collecting pool 5 and a cooling unit 41, and the cooling unit 41 is used for filtering and cooling water in the material collecting pool 5 and supplying cooling water to the molding mechanism and the circulating water cooling mechanism.

In this embodiment, two sets of molding devices are provided, and the number of the molding devices can be adjusted according to the capacity or the size of the production field.

In one embodiment, as shown in fig. 4-11, the forming mechanism structure may include:

the feed mechanism 2 and the forming die 32,

the molding die 32 includes an upper housing 321, an extrusion disc 322, and a lower housing 323,

the top of the upper casing 321 is provided with a feed inlet 3211,

a plurality of extrusion through holes 3221 are arranged on the extrusion disc 322, extrusion pipes 3222 communicated with the extrusion through holes 3221 are arranged on the extrusion through holes 3221,

a plurality of cooling water holes 3231 are formed at the bottom of the lower housing cover 323,

the upper shell cover 321 is fixedly connected with the lower shell cover 323, the extrusion disc 322 is fixedly arranged between the upper shell cover 321 and the lower shell cover 323, a cooling water channel 324 communicated with external cooling water is formed between the extrusion disc 322 and the lower shell cover 323, the extrusion pipe 3222 is arranged in the cooling water hole 3231 in a penetrating manner, the cooling water in the cooling water channel 324 can conveniently pass through a cooling gap 3241 between the extrusion pipe 3222 and the cooling water hole 3231, the forming die head 32 is communicated with the feeding mechanism 2 through a feeding hole 3211 at the top of the upper shell cover 321, and the bottom of the forming die head 32 is further provided with a cutting mechanism 35 for cutting the cold celestial crystal balls.

Preferably, a screw pump 31 for stable feeding is arranged between the feeding mechanism 2 and the forming die head 32.

In a specific embodiment, the upper casing 321 may be a double-layer structure, including an outer casing 3212 and an inner casing 3213, a water inlet gap 3214 is formed between the outer casing 3212 and the inner casing 3213, a water inlet pipe 325 for introducing external cooling water into the water inlet gap 3214 is disposed outside the outer casing 3212, the pressing plate 322 has a pressing plate flange 3223, a plurality of communicating holes 3224 are uniformly distributed on the pressing plate flange 3223, and the water inlet gap 3214 is communicated with the cooling water passage 324 through the communicating holes 3224.

Preferably, the bottom of the extruded tube 3222 protrudes beyond the bottom of the lower housing shell 323.

In one embodiment, as shown in fig. 4-7, the cutting mechanism 35 includes a cutter seat 351 and a cutter 353, the cutter 353 is mounted on the cutter seat, the cutter seat 351 is provided with a cutting through groove 352 for facilitating the cutter 353 to cut the product, and the cutting mechanism further includes a driving member 36 for driving the cutter seat 351 to reciprocate.

In one embodiment, as shown in fig. 1-3,12 and 13, the circulating water cooling mechanism comprises:

circulating water cooling unit 43 and cooling coil 44

The circulating water cooling assembly 43 comprises a cooling outer barrel 431 and a cooling inner barrel 436 which are coaxially nested and fixedly connected, the upper edge of the cooling outer barrel 431 is higher than the upper edge of the cooling inner barrel 436, an overflow area 4313 is formed between the cooling inner barrel 436 and the cooling outer barrel 431, a cooling area 4312 is formed in the cooling inner barrel 436, an inner barrel discharging pipe 4314 which penetrates through the cooling outer barrel 431 and is communicated with the outside is arranged at the bottom of the cooling inner barrel 436, a liquid inlet pipe 4315 which is communicated with the overflow area 4313 is arranged at the bottom of the cooling outer barrel 431,

the cooling coil 44 is coiled on the outer side wall of the cooling outer tub 431, the cooling coil 44 includes a coil lower inlet 441 disposed at the lower portion of the cooling coil 44 and a coil upper outlet 442 disposed at the upper portion of the cooling coil 44,

the lower coil inlet 441 is communicated with an inner barrel discharge pipe 4314, the upper coil outlet 442 discharges the skynet balls to a material collection pool through a discharge pipe 42, and both the upper coil outlet 442 and the discharge pipe 42 are lower than the upper edge of the inner cooling barrel 436.

The cooling coil 44 may be a separate plate disposed beside the circulating water cooling assembly, and may be in a shape of a Chinese character 'hui', a zigzag shape, or other irregular shapes, and the main purpose is to prolong the cooling time of the product.

Preferably, the bottom of the cooling inner tub 436 is tapered, and an overflow pipe 435 communicating with the overflow zone 4313 is provided on an outer sidewall of the cooling outer tub 431, the overflow pipe 435 being higher than the upper edge of the cooling inner tub 436.

Preferably, the overflow zone 4313 is provided with a plurality of evenly distributed connection brackets 433 fixedly connecting the cooling outer tub 431 and the cooling inner tub 436.

In one embodiment, as shown in fig. 1-3, the material collecting tank 5 includes a material collecting tank body 52, and a solid-liquid separating partition plate 51 for separating cooling water and the eutectic balls is disposed on the top of the material collecting tank body 52.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A molding system for producing a hantian crystal ball is characterized in that:

a mounting bracket (1),

a plurality of forming devices, wherein each forming device comprises a forming mechanism and a circulating water cooling mechanism, the circulating water cooling mechanism is used for cooling products produced by the forming mechanism,

a material collecting tank (5), and

and the cooling unit (41) is used for filtering and cooling the water in the material collecting tank (5) and supplying cooling water to the forming mechanism and the circulating water cooling mechanism.

2. The molding system for producing a hantian crystal ball of claim 1, wherein: the forming mechanism includes:

a feeding mechanism (2) and a molding die head (32),

the molding die head (32) comprises an upper shell cover (321), an extrusion disc (322) and a lower shell cover (323),

the top of the upper shell cover (321) is provided with a feed inlet (3211),

a plurality of extrusion through holes (3221) are arranged on the extrusion disc (322), extrusion tubes (3222) communicated with the extrusion through holes (3221) are arranged on the extrusion through holes (3221),

the bottom of the lower shell cover (323) is provided with a plurality of cooling water holes (3231),

the upper shell cover (321) is fixedly connected with the lower shell cover (323), the extrusion disc (322) is fixedly arranged between the upper shell cover (321) and the lower shell cover (323), a cooling water channel (324) communicated with external cooling water is formed between the extrusion disc (322) and the lower shell cover (323), the extrusion pipe (3222) is arranged in the cooling water hole (3231) in a penetrating manner, so that the cooling water in the cooling water channel (324) passes through a cooling gap (3241) between the extrusion pipe (3222) and the cooling water hole (3231), the forming die head (32) is communicated with the feeding mechanism (2) through a feeding hole (3211) in the top of the upper shell cover (321), and a cutting mechanism (35) for cutting the cold celestial crystal balls is further arranged at the bottom of the forming die head (32).

3. The molding system for producing a hantian crystal ball of claim 2, wherein: and a screw pump (31) convenient for stable feeding is arranged between the feeding mechanism (2) and the forming die head (32).

4. The molding system for producing a hantian crystal ball of claim 2, wherein: the upper shell cover (321) is of a double-layer structure and comprises an outer shell layer (3212) and an inner shell layer (3213), a water inlet gap (3214) is formed between the outer shell layer (3212) and the inner shell layer (3213), a water inlet pipe (325) for introducing external cooling water into the water inlet gap (3214) is arranged outside the outer shell layer (3212), the extrusion disc (322) is provided with an extrusion disc flange (3223), a plurality of communicating holes (3224) are uniformly distributed in the extrusion disc flange (3223), and the water inlet gap (3214) is communicated with the cooling water channel (324) through the communicating holes (3224).

5. The molding system for producing a hantian crystal ball of claim 2, wherein: the bottom of the extrusion pipe (3222) protrudes out of the bottom of the lower shell cover (323).

6. The molding system for producing a hantian crystal ball of claim 2, wherein: cutting mechanism (35) include cutter seat (351) and cutter (353), cutter (353) are installed on the cutter seat, offer the cutting through groove (352) that is convenient for cutter (353) to cut the product on cutter seat (351), still include driver part (36) for drive cutter seat (351) reciprocating motion.

7. The molding system for producing a hantian crystal ball of claim 1, wherein: the circulating water cooling mechanism includes:

a circulating water cooling component (43) and a cooling coil (44)

The circulating water cooling assembly (43) comprises a cooling outer barrel (431) and a cooling inner barrel (436) which are coaxially nested and fixedly connected, the upper edge of the cooling outer barrel (431) is higher than the upper edge of the cooling inner barrel (436), an overflow area (4313) is formed between the cooling inner barrel (436) and the cooling outer barrel (431), a cooling area (4312) is formed in the cooling inner barrel (436), an inner barrel discharge pipe (4314) which penetrates through the cooling outer barrel (431) and is communicated with the outside is arranged at the bottom of the cooling inner barrel (436), a liquid inlet pipe (4315) communicated with the overflow area (4313) is arranged at the bottom of the cooling outer barrel (431),

the cooling coil (44) is coiled on the outer side wall of the cooling outer barrel (431), the cooling coil (44) comprises a coil lower inlet (441) arranged at the lower part of the cooling coil (44) and a coil upper outlet (442) arranged at the upper part of the cooling coil (44),

the lower inlet (441) of the coil pipe is communicated with the discharge pipe (4314) of the inner barrel, the upper outlet (442) of the coil pipe discharges the skynet balls to the material collecting tank through the discharge pipe (42), and the upper outlet (442) of the coil pipe and the discharge pipe (42) are both lower than the upper edge of the cooling inner barrel (436).

8. The molding system for producing a hantian crystal ball of claim 7, wherein: the bottom of the cooling inner barrel (436) is conical, an overflow pipe (435) communicated with the overflow area (4313) is arranged on the outer side wall of the cooling outer barrel (431), and the overflow pipe (435) is higher than the upper edge of the cooling inner barrel (436).

9. The molding system for producing a hantian crystal ball of claim 7, wherein: the overflow area (4313) is provided with a plurality of evenly distributed connecting brackets (433) which are fixedly connected with the cooling outer barrel (431) and the cooling inner barrel (436).

10. The molding system for producing a hantian crystal ball of claim 1, wherein: the material collecting tank (5) comprises a material collecting tank body (52), and a solid-liquid separation partition plate (51) for separating cooling water from the cold celestial crystal balls is arranged at the top of the material collecting tank body (52).

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