CN114234554A - A quick cooling device for jelly production - Google Patents

Abstract

The utility model belongs to the technical field of jelly production, and particularly relates to a quick cooling device for jelly production, which comprises a box body; the box body is provided with a feeding hole and a discharging hole, the middle part of the top end of the box body is provided with a winding assembly, the output end of the winding assembly is connected with a lifting cylinder through a pull rope, the side wall of the top end of the lifting cylinder is provided with a spray hole, a motor is arranged in the lifting cylinder, the top end of the motor is connected with fan blades through a rotating rod, the inner wall of the box body is connected with a fixing ring, and a woven mesh is connected between the fixing ring and the side wall of the top end of the lifting cylinder; the utility model can lead the cooling water in the box body to continuously circulate and flow in the vertical direction under the action of the lifting cylinder, promotes the heat exchange between the cooling water and the jelly, and can reduce the damage of the jelly in the cooling process.

Description

A quick cooling device for jelly production

Technical Field

The utility model belongs to the technical field of jelly production, and particularly relates to a quick cooling device for jelly production.

Background

The jelly food is an industry which is rapidly developed in recent years, the shaping of the jelly is mainly formed by a cooling method, after the jelly is packaged, the jelly is generally cooled by being put into cold water in a cooling water tank, after the cooling is finished, the jelly is manually fished out, and then the next batch of jelly is cooled; the manual fishing not only has high labor intensity, but also is not easy to completely fish the jelly in the cooling water tank.

A chinese patent publication No. CN210425688U discloses a jelly cooling device, wherein a guide ring is fixed on the top of a cooling water tank; the lifting shaft sequentially penetrates through the inner top wall of the cooling water tank and the guide ring from bottom to top and then is fixedly connected with the output end of the unreeling machine; the top of the cooling water tank is provided with a feed inlet; a fixing ring is fixed in the inner cavity of the cooling water tank; the outer ring of the fixing ring is matched with the inner cavity of the cooling water tank; the retainer ring is sleeved outside the shaft body of the lifting shaft; a lower baffle ring is arranged at the bottom end of the lifting shaft; a plurality of discharge holes are uniformly distributed on the outer side wall of the cooling water tank; the discharge holes are circumferentially distributed on the cooling water tank; the bottom of discharge opening and the top of solid fixed ring set up on same horizontal plane. When the automatic jelly salvaging device is used, jelly can be automatically salvaged in one step, so that the labor intensity is reduced, and the salvaging efficiency of the jelly is improved.

However, in the jelly cooling device in the above-mentioned technology, when the jelly is cooled, since the jelly in the cooling water tank is relatively static, the heat exchange efficiency between the jelly and the surrounding water is low, and although the heat exchange between the jelly and the cooling water can be promoted by stirring with the stirring device, the stirring device is liable to damage the formed jelly, which affects the processing quality of the jelly.

Therefore, the utility model provides a quick cooling device for jelly production.

Disclosure of Invention

To remedy the deficiencies of the prior art, at least one of the technical problems set forth in the background is addressed.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model relates to a quick cooling device for jelly production, which comprises a box body; the automatic winding device is characterized in that a feeding hole is formed in the top end of the box body, a group of uniformly distributed discharge holes are formed in the middle of the side wall of the box body, a winding assembly is mounted in the middle of the top end of the box body, a pull rope is wound at the output end of the winding assembly, the other end of the pull rope stretches into the interior of the box body and is connected with a lifting cylinder, an opening is formed in the bottom end of the lifting cylinder, spray holes are formed in the side wall of the top end of the lifting cylinder, a motor is mounted in the lifting cylinder, the top end of the motor is connected with fan blades through a rotating rod, a fixing ring is connected to the inner wall of the box body corresponding to the bottom end of the discharge hole, a woven net is connected between the fixing ring and the side wall of the top end of the lifting cylinder, and a limiting net plate matched with the lifting cylinder is connected to the middle of the bottom surface of the box body; when the jelly cooling device in the prior art cools jelly, the heat exchange efficiency between the jelly and surrounding water is low because the jelly in the cooling water tank is relatively static, although the heat exchange between the jelly and the cooling water can be promoted by stirring through stirring equipment, the stirring equipment is easy to damage formed jelly, and the processing quality of the jelly is influenced; when the jelly needs to be cooled, the pulling rope is released by the rolling component, the lifting cylinder at the bottom of the rolling component falls into the limiting screen plate and is limited, the woven mesh between the lifting cylinder and the fixing ring is in a funnel shape with a wide upper part and a narrow lower part, then the jelly is put into the box body filled with cooling water from the feeding hole, and the fan blades are driven by the motor to rotate at the same time, so that the cooling water at the bottom end of the lifting cylinder can be continuously sucked by the fan blades and is upwards conveyed to the spraying hole to be sprayed out, the cooling water in the box body continuously and circularly flows in the vertical direction under the action of the lifting cylinder, the heat exchange between the cooling water and the jelly is promoted, the damage of the jelly in the cooling process is reduced, after the jelly is cooled, the rolling component pulls the lifting cylinder and the middle part of the woven mesh to move upwards through the pulling rope, the woven mesh forms the funnel shape with the narrow upper part and the wide lower part, and the jelly fished up by the mesh can flow out from the discharging hole, the cooled jelly can be conveniently put into the next process.

Preferably, the injection direction of the injection hole is directed obliquely downward; when the mesh grid carries out row material under the drive of a lift section of thick bamboo, continue the air pump of pivoted flabellum bottom to spout department blowout, the air current direction that the orifice sprays is unanimous with mesh grid's inclined plane this moment, thereby can utilize orifice spun air current to blow off the jelly that has dragged for up on the mesh grid, promote jelly's collection, the air current of spout department can advance the cooling and the drying that promote jelly simultaneously, and can blow off the water droplet on the mesh grid, reduce the cooling water and remain on jelly surface, the processingquality of jelly has been improved.

Preferably, a limiting piece is connected to the inner wall of the lifting cylinder corresponding to one side of the rotating rod, and an impact block matched with the limiting piece is connected to the side wall of the rotating rod at one side of the limiting piece through a traction rope; after the lifting cylinder rises from the cooling water surface, the impact block can continuously impact the limiting part under the driving of the rotating rod, so that the surface of the lifting cylinder shakes with the woven net, the sliding collection of jelly on the woven net is promoted, and meanwhile, the throwing of water drops on the jelly and the woven net is also promoted.

Preferably, the limiting piece is provided with an adsorption block, the outer wall of the lifting cylinder corresponding to the top end of the limiting piece is connected with an electromagnet capable of attracting the adsorption block, the inner wall of the lifting cylinder at the bottom end of the limiting piece is connected with a support frame, and the limiting piece is connected with the support frame through a spring and can freely slide in the lifting cylinder; when the lift cylinder bottom stretched into to the coolant liquid inside, this moment the locating part under the pulling force of spring and pivoted striking piece between had the clearance, reduce the locating part to the produced resistance of rotation of bull stick, when the lift cylinder stretches out the coolant liquid and need drive the mesh grid shake simultaneously, the electro-magnet work was adsorbed the piece through attracting this moment, drive the locating part to the one side motion that is close to the striking piece to make the bull stick can drive the mesh grid shake smoothly through the striking piece when rotating.

Preferably, the limiting part is made of elastic membrane material, an elastic body is connected between the limiting part and the inner wall of the lifting cylinder, a clapper is rotatably connected to the outer wall of the lifting cylinder on one side of the limiting part, a telescopic bag is connected between the bottom end of the clapper and the outer wall of the lifting cylinder on one side of the clapper, and an air passage communicating the telescopic bag with the inner cavity of the limiting part is formed in the side wall of the lifting cylinder; when not needing striking piece and locating part to collide mutually, the locating part of elastic membrane material is deformed to one side of keeping away from striking piece under the effect of spring this moment, when the rotation that needs pass through the bull stick drives the mesh grid shake, the electro-magnet can be through the attraction to the adsorption piece this moment, make the locating part restore to the throne to the position department with striking piece looks collision, when striking piece extrudees the locating part simultaneously, its inside gas passes through the air flue and flows into the bellows, make the bellows drive the bat pole rotation after the extension, the bat pole can play the effect of patting the mesh grid at subsequent reset in-process, further promote the shake effect of mesh grid.

Preferably, a push rod is mounted on the inner wall of the lifting cylinder at the top end of the discharge port, the bottom end of the push rod is connected with an annular plate capable of plugging the discharge port, the bottom end of the feed port is connected with an arc-shaped material guide cavity, and the bottom end of the material guide cavity extends to the middle of the box body; before jelly got into inside the box, push rod control annular plate carried out the shutoff to the discharge gate, and the middle part jack-up that drives the mesh grid through a section of thick bamboo that goes up simultaneously, the jelly that flows in from the feed inlet this moment can be along the stable flow of direction chamber at the middle part top of mesh grid to constantly flow down along the inclined plane of mesh grid, reduce jelly and directly drop into the box from the feed inlet, lead to jelly to take place the condition of damaging from higher position whereabouts.

Preferably, a shunt hole communicated with the lifting cylinder is formed in the inner wall of the lifting cylinder on one side of the spray hole, the spraying direction of the shunt hole is inclined upwards, and control valves are respectively arranged in the spray hole and the shunt hole; when the mesh grid is transferred to the cooling water and the jelly is cooled, the control valve in the shunt hole is opened, the control valve in the spray hole is closed, the jelly on one side can be upwards sprayed by the water flow obliquely upwards sprayed in the lifting cylinder, and meanwhile, the jelly can continuously slide to the position of the shunt hole along the inclined plane of the mesh grid, so that the jelly can continuously turn up and move in the cooling water, and the cooling efficiency of the jelly is further improved.

Preferably, the bottom of the mesh grid is connected with a group of mutually communicated flexible pipes, one side of each flexible pipe, facing the mesh grid, is provided with a plurality of air holes, the flexible pipe is connected with the air outlet end of an external air pump through an air conveying pipe, and the air inlet end of the air pump is communicated with a cold air source; the air pump can be with the air conditioning of air conditioning source department carry to in the flexible tube to spray at woven mesh department through the gas pocket on its surface, not only can directly cool off the jelly of woven mesh department, still can promote the jelly to move about in the cooling water simultaneously, further improved the cooling efficiency of jelly.

Preferably, a group of concave parts are arranged on the flexible pipe, the width of each concave part is gradually increased from inside to outside, and the positions of the woven mesh corresponding to the concave parts are attached to the concave parts; jelly can flow into the mesh grid at the concave part, and the concave part that sets up this moment can increase the air injection area of flexible pipe to jelly to make the cooling that the jelly can be more quick.

Preferably, a group of magnetic blocks which are mutually attracted are symmetrically connected to the side wall of the concave part; when the middle part of the mesh grid moves upwards gradually, the mutually attracted magnetic blocks can be separated instantaneously along with the continuous stretching of the mesh grid and the flexible pipe, the flexible pipe and the mesh grid are driven to extend and shake, the discharge of jelly is further promoted, the water residue on the jelly and the mesh grid is reduced, and the processing quality of the jelly is improved.

The utility model has the following beneficial effects:

1. according to the jelly cooling device, cooling water in the box body continuously and circularly flows in the vertical direction under the action of the lifting cylinder, heat exchange between the cooling water and jelly is promoted, damage of the jelly in the cooling process is reduced, and after the jelly is cooled, the winding assembly pulls the lifting cylinder and the middle part of the mesh grid to move upwards through the pull rope, so that the mesh grid forms a funnel shape with a narrow top and a wide bottom, the jelly fished by the mesh grid can flow out from the discharge hole downstream, and the cooled jelly can conveniently enter the next process.

2. When the woven net is driven by the lifting cylinder to discharge materials, the fan blades continuously rotating pump air at the bottom end of the lifting cylinder to the spray holes to be sprayed out, and the direction of air flow sprayed by the spray holes is consistent with the inclined plane of the woven net, so that jelly scooped up from the woven net can be blown off by the air flow sprayed by the spray holes, the collection of the jelly is promoted, meanwhile, the air flow at the spray holes can promote the cooling and drying of the jelly, water drops on the woven net can be blown off, the residue of cooling water on the surface of the jelly is reduced, and the processing quality of the jelly is improved.

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 description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

The utility model will be further explained with reference to the drawings.

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

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic structural view of a second embodiment of the present invention, wherein the flexible tube is engaged with the mesh grid;

in the figure: the device comprises a box body 1, a feeding hole 2, a discharging hole 3, a winding component 4, a pull rope 5, a lifting cylinder 6, a spray hole 7, a motor 8, fan blades 9, a fixing ring 10, a woven mesh 11, a limiting mesh plate 12, a limiting piece 13, an impact block 14, an adsorption block 15, an electromagnet 16, an elastic body 17, a clapper 18, a telescopic bag 19, an air passage 20, a push rod 21, an annular plate 22, a material guide cavity 23, a diversion hole 24, a control valve 25, a flexible pipe 26, a concave part 27 and a magnetic block 28.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1 to 3, a rapid cooling device for jelly production according to an embodiment of the present invention includes a case 1; the automatic feeding device comprises a box body 1, a feeding hole 2, a group of uniformly distributed discharge holes 3, a winding assembly 4, a pull rope 5, a lifting cylinder 6, a motor 8, a fixing ring 10, a mesh grid 11 and a limiting mesh plate 12, wherein the feeding hole 2 is formed in the top end of the box body 1, the middle of the side wall of the box body 1 is provided with the uniformly distributed discharge holes 3, the winding assembly 4 is installed in the middle of the top end of the box body 1, the output end of the winding assembly 4 is wound with the pull rope 5, the other end of the pull rope 5 extends into the box body 1 and is connected with the lifting cylinder 6, the bottom end of the lifting cylinder 6 is provided with an opening, the side wall of the top end of the lifting cylinder 6 is provided with a spray hole 7, the motor 8 is installed in the lifting cylinder 6, the top end of the motor 8 is connected with a fan blade 9 through a rotating rod, the inner wall of the box body 1 corresponding to the bottom end of the discharge holes 3 is connected with the fixing ring 10, the fixing ring 10 is connected between the side wall of the top end of the lifting cylinder 6, and the side wall of the bottom surface of the box body 1 is connected with the limiting mesh plate 12 matched with the lifting cylinder 6; when the jelly cooling device in the prior art cools jelly, the heat exchange efficiency between the jelly and surrounding water is low because the jelly in the cooling water tank is relatively static, although the heat exchange between the jelly and the cooling water can be promoted by stirring through stirring equipment, the stirring equipment is easy to damage formed jelly, and the processing quality of the jelly is influenced; when the jelly needs to be cooled, the winding component 4 releases the pull rope 5, so that the lifting cylinder 6 at the bottom of the winding component falls into the limiting screen plate 12 and is limited, the woven mesh 11 between the lifting cylinder 6 and the fixing ring 10 is in a funnel shape with a wide upper part and a narrow lower part, then the jelly is put into the box body 1 filled with cooling water from the feeding hole 2, the fan blades 9 are driven by the motor 8 to rotate at the same time, so that the cooling water at the bottom end of the lifting cylinder 6 can be continuously sucked by the fan blades 9 and is upwards conveyed to the spraying holes 7 to be sprayed out, the cooling water in the box body 1 continuously and circularly flows in the vertical direction under the action of the lifting cylinder 6, the heat exchange between the cooling water and the jelly is promoted, the damage of the jelly in the cooling process is reduced, after the jelly is cooled, the winding component 4 pulls the lifting cylinder 6 and the middle part of the woven mesh 11 to move upwards through the pull rope 5, so that the woven mesh 11 forms the funnel shape with the narrow upper part and the wide lower part, therefore, the jelly fished by the mesh grid 11 can flow downstream from the discharge port 3, and the cooled jelly can enter the next process conveniently.

The injection direction of the injection hole 7 is directed obliquely downward; when the woven mesh 11 is driven by the lifting cylinder 6 to discharge materials, the fan blades 9 which continuously rotate pump air at the bottom end of the lifting cylinder 6 to the spray holes 7 to spray, at the moment, the direction of air flow sprayed by the spray holes 7 is consistent with the inclined plane of the woven mesh 11, so that jelly scooped up on the woven mesh 11 can be blown down by the air flow sprayed by the spray holes 7, the collection of the jelly is promoted, meanwhile, the air flow at the spray holes 7 can promote the cooling and drying of the jelly, water drops on the woven mesh 11 can be blown down, the residue of cooling water on the surface of the jelly is reduced, and the processing quality of the jelly is improved.

A limiting piece 13 is connected to the inner wall of the lifting cylinder 6 corresponding to one side of the rotating rod, and an impact block 14 matched with the limiting piece 13 is connected to the side wall of the rotating rod at one side of the limiting piece 13 through a traction rope; after the lifting cylinder 6 rises from the cooling water surface, the impact block 14 can continuously impact the limiting part 13 under the driving of the rotating rod, so that the surface of the lifting cylinder 6 and the mesh grid 11 shake, the sliding collection of jelly on the mesh grid 11 is promoted, and the throwing of water drops on the jelly and the mesh grid 11 is also promoted.

An adsorption block 15 is arranged on the limiting piece 13, an electromagnet 16 capable of attracting the adsorption block 15 is connected to the outer wall of the lifting cylinder 6 corresponding to the top end of the limiting piece 13, a support frame is connected to the inner wall of the lifting cylinder 6 at the bottom end of the limiting piece 13, and the limiting piece 13 is connected with the support through a spring and can freely slide in the lifting cylinder 6; when the bottom of a lift section of thick bamboo 6 stretched into to the coolant liquid inside, locating part 13 had the clearance under the pulling force of spring and between the pivoted striking piece 14 this moment, reduce the produced resistance of locating part 13 to the rotation of bull stick, simultaneously when a lift section of thick bamboo 6 stretches out the coolant liquid and need drive braided net 11 shake, 16 work of electro-magnet this moment and through attracting adsorption piece 15, drive locating part 13 to the one side motion that is close to striking piece 14, thereby make the bull stick drive braided net 11 through striking piece 14 and shake smoothly when rotating.

The limiting piece 13 is made of elastic membrane materials, an elastic body 17 is connected between the limiting piece 13 and the inner wall of the lifting cylinder 6, a clapper 18 is rotatably connected to the outer wall of the lifting cylinder 6 on one side of the limiting piece 13, a telescopic bag 19 is connected between the bottom end of the clapper 18 and the outer wall of the lifting cylinder 6 on one side, and an air passage 20 communicating the telescopic bag 19 with the inner cavity of the limiting piece 13 is formed in the side wall of the lifting cylinder 6; when the impact block 14 and the limiting part 13 do not need to collide, the limiting part 13 made of the elastic film is deformed to one side far away from the impact block 14 under the action of the spring, when the woven mesh 11 needs to be driven to shake through rotation of the rotating rod, the electromagnet 16 can attract the adsorption block 15 at the moment, so that the limiting part 13 is reset to the position where the impact block 14 collides, meanwhile, when the impact block 14 extrudes the limiting part 13, air in the elastic bag flows into the telescopic bag 19 through the air passage 20, the telescopic bag 19 drives the racket rod 18 to rotate after being extended, the racket rod 18 can play a role of beating the woven mesh 11 in the subsequent resetting process, and the shaking effect of the woven mesh 11 is further promoted.

A push rod 21 is mounted on the inner wall of the lifting cylinder 6 at the top end of the discharge port 3, the bottom end of the push rod 21 is connected with an annular plate 22 capable of plugging the discharge port 3, the bottom end of the feed port 2 is connected with an arc-shaped guide cavity 23, and the bottom end of the guide cavity 23 extends to the middle of the box body 1; before jelly gets into inside of box 1, push rod 21 control annular plate 22 carries out the shutoff to discharge gate 3, drives the middle part jack-up that weaves net 11 through a section of thick bamboo 6 simultaneously, and the jelly that flows in from feed inlet 2 this moment can be along the stable flow of direction chamber at the middle part top of weaving net 11 to constantly flow down along the inclined plane of weaving net 11, reduce jelly and directly drop into box 1 from feed inlet 2, lead to the jelly to take place the condition of damaging from higher position whereabouts.

A diversion hole 24 communicated with the lifting cylinder 6 is formed in the inner wall of the lifting cylinder on one side of the spray hole 7, the spraying direction of the diversion hole 24 is inclined upwards, and control valves 25 are respectively installed in the spray hole 7 and the diversion hole 24; when the mesh grid 11 is transferred to the cooling water to cool the jelly, the control valve 25 in the branch flow hole 24 is opened, the control valve 25 in the spray hole 7 is closed, so that the jelly on one side can be sprayed upwards by the water flow sprayed upwards from the inside of the lifting cylinder 6, and meanwhile, the jelly can continuously slide to the position of the branch flow hole 24 along the inclined plane of the mesh grid 11, so that the jelly can continuously move in the cooling water, and the cooling efficiency of the jelly is further improved.

Example two:

as shown in fig. 4, a first comparative example, in which another embodiment of the present invention is: the bottom of the mesh grid 11 is connected with a group of mutually communicated flexible pipes 26, one side of each flexible pipe 26 facing the mesh grid 11 is provided with a plurality of air holes, the flexible pipes 26 are connected with the air outlet end of an external air pump through air conveying pipes, and the air inlet end of the air pump is communicated with a cold air source; the air pump can convey cold air at the cold air source to the flexible pipe 26 and spray the cold air at the woven net 11 through the air holes on the surface of the flexible pipe, so that the jelly at the woven net 11 can be directly cooled, the movement of the jelly in cooling water can be promoted, and the cooling efficiency of the jelly is further improved.

A group of concave parts 27 are arranged on the flexible pipe 26, the width of the concave parts 27 is gradually increased from inside to outside, and the positions of the woven mesh 11 corresponding to the concave parts 27 are attached to the concave parts 27; the jelly can flow into the mesh grid 11 at the recessed portion 27, and the recessed portion 27 provided at this time can increase the air injection area of the flexible tube 26 to the jelly, thereby enabling the jelly to be cooled more rapidly.

A group of magnetic blocks 28 which are mutually attracted are symmetrically connected to the side wall of the concave part 27; when the middle part of the mesh grid 11 moves upwards gradually, at the moment, along with the continuous stretching of the mesh grid 11 and the flexible tube 26, the mutually attracted magnetic blocks 28 can be separated instantaneously, and the flexible tube 26 and the mesh grid 11 are driven to extend and shake, so that the discharge of jelly is further promoted, the residual moisture on the jelly and the mesh grid 11 is reduced, and the processing quality of the jelly is improved.

The working principle is as follows: when the jelly needs to be cooled, the pulling rope 5 is released by the rolling component 4, the lifting cylinder 6 at the bottom of the rolling component is made to fall into the limiting screen plate 12 and limited, the woven mesh 11 between the lifting cylinder 6 and the fixing ring 10 is funnel-shaped with a wide top and a narrow bottom, then the jelly is put into the box body 1 filled with cooling water from the feeding hole 2, the fan blades 9 are driven by the motor 8 to rotate at the same time, the cooling water at the bottom of the lifting cylinder 6 can be continuously sucked by the fan blades 9 and is upwards conveyed to the spraying holes 7 to be sprayed out, the cooling water in the box body 1 continuously and circularly flows in the vertical direction under the action of the lifting cylinder 6, so that the heat exchange between the cooling water and the jelly is promoted, the situation that the jelly is damaged in the cooling process is reduced, after the jelly is cooled, the rolling component 4 pulls the lifting cylinder 6 and the middle of the woven mesh 11 to move upwards through the pulling rope 5, and the woven mesh 11 forms the funnel-shaped with the narrow top and the wide bottom, so that the jelly fished by the mesh grid 11 can flow downstream from the discharge port 3, and the cooled jelly can enter the next process; when the woven mesh 11 is driven by the lifting cylinder 6 to discharge materials, the fan blades 9 which continuously rotate pump air at the bottom end of the lifting cylinder 6 to the spray holes 7 to spray, and at the moment, the direction of air flow sprayed by the spray holes 7 is consistent with the inclined plane of the woven mesh 11, so that the jelly scooped up from the woven mesh 11 can be blown down by the air flow sprayed by the spray holes 7, the collection of the jelly is promoted, meanwhile, the air flow at the spray holes 7 can promote the cooling and drying of the jelly, and water drops on the woven mesh 11 can be blown down, the residue of cooling water on the surface of the jelly is reduced, and the processing quality of the jelly is improved; after the lifting cylinder 6 rises from the cooling water surface, the impact block 14 can continuously impact the limiting piece 13 under the driving of the rotating rod, so that the surface of the lifting cylinder 6 and the mesh grid 11 are shaken, the sliding collection of jelly on the mesh grid 11 is promoted, and meanwhile, the throwing of water drops on the jelly and the mesh grid 11 is also promoted; when the bottom end of the lifting cylinder 6 extends into the cooling liquid, a gap is reserved between the limiting piece 13 and the rotating impact block 14 under the tension of the spring, so that the resistance of the limiting piece 13 to the rotation of the rotating rod is reduced, and meanwhile, when the lifting cylinder 6 extends out of the cooling liquid and needs to drive the woven mesh 11 to shake, the electromagnet 16 works and drives the limiting piece 13 to move towards one side close to the impact block 14 through the attraction adsorption block 15, so that the rotating rod can drive the woven mesh 11 to shake smoothly through the impact block 14 when rotating; when the impact block 14 and the limiting part 13 do not need to collide, the limiting part 13 made of an elastic film deforms towards one side far away from the impact block 14 under the action of a spring, when the woven mesh 11 needs to shake under the driving of the rotation rod, the electromagnet 16 can suck the adsorption block 15 to reset the limiting part 13 to the position where the limiting part 13 collides with the impact block 14, and meanwhile, when the impact block 14 extrudes the limiting part 13, air in the elastic bag flows into the telescopic bag 19 through the air passage 20, so that the telescopic bag 19 drives the racket rod 18 to rotate after being extended, and the racket rod 18 can play a role of beating the woven mesh 11 in the subsequent resetting process, thereby further promoting the shaking effect of the woven mesh 11; before the jelly enters the box body 1, the push rod 21 controls the annular plate 22 to plug the discharge hole 3, meanwhile, the middle part of the woven mesh 11 is driven by the lifting cylinder 6 to jack upwards, the jelly flowing in from the feed inlet 2 can stably flow at the top end of the middle part of the woven mesh 11 along the guide cavity and continuously flows down along the inclined surface of the woven mesh 11, and the situation that the jelly falls from a higher position to be damaged due to direct feeding of the jelly into the box body 1 from the feed inlet 2 is reduced; when the mesh grid 11 is lowered into cooling water to cool the jelly, the control valve 25 in the diversion hole 24 is opened, the control valve 25 in the spray hole 7 is closed, so that the jelly on one side can be sprayed upwards by water flow sprayed upwards in the lifting cylinder 6, and meanwhile, the jelly can continuously slide to the position of the diversion hole 24 along the inclined surface of the mesh grid 11, so that the jelly can continuously move up in the cooling water, and the cooling efficiency of the jelly is further improved; the air pump can convey cold air at the cold air source to the flexible pipe 26 and spray the cold air at the woven net 11 through the air holes on the surface of the flexible pipe, so that the jelly at the woven net 11 can be directly cooled, the movement of the jelly in cooling water can be promoted, and the cooling efficiency of the jelly is further improved; the jelly can flow into the mesh grid 11 at the concave part 27, and the concave part 27 arranged at the moment can increase the air injection area of the flexible pipe 26 to the jelly, so that the jelly can be cooled more quickly; when the middle part of the mesh grid 11 moves upwards gradually, at the moment, along with the continuous stretching of the mesh grid 11 and the flexible tube 26, the mutually attracted magnetic blocks 28 can be separated instantaneously, and the flexible tube 26 and the mesh grid 11 are driven to extend and shake, so that the discharge of jelly is further promoted, the residual moisture on the jelly and the mesh grid 11 is reduced, and the processing quality of the jelly is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. A rapid cooling device for jelly production comprises a box body (1); the method is characterized in that: the automatic feeding device is characterized in that a feeding hole (2) is formed in the top end of the box body (1), a group of uniformly distributed discharge holes (3) is formed in the middle of the side wall of the box body (1), a winding component (4) is installed in the middle of the top end of the box body (1), a pull rope (5) is wound on the output end of the winding component (4), the other end of the pull rope (5) stretches into the box body (1) and is connected with a lifting cylinder (6), an opening is formed in the bottom end of the lifting cylinder (6), a spray hole (7) is formed in the side wall of the top end of the lifting cylinder (6), a motor (8) is installed in the lifting cylinder (6), the top end of the motor (8) is connected with fan blades (9) through a rotating rod, a fixing ring (10) is connected to the inner wall of the box body (1) corresponding to the bottom end of the discharge hole (3), and a woven mesh (11) is connected between the fixing ring (10) and the side wall of the top end of the lifting cylinder (6), the middle part of the bottom surface of the box body (1) is connected with a limit screen plate (12) matched with the lifting cylinder (6).

2. The rapid cooling device for jelly production according to claim 1, wherein: the injection direction of the injection holes (7) is directed obliquely downward.

3. The rapid cooling device for jelly production according to claim 1, wherein: the lifting device is characterized in that a limiting piece (13) is connected to the inner wall of the lifting cylinder (6) corresponding to one side of the rotating rod, and an impact block (14) matched with the limiting piece (13) is connected to the side wall of the rotating rod on one side of the limiting piece (13) through a traction rope.

4. The rapid cooling device for jelly production according to claim 3, wherein: be equipped with on locating part (13) and adsorb piece (15), be connected with on the lift section of thick bamboo (6) outer wall that locating part (13) top corresponds and can attract electro-magnet (16) mutually with adsorbing piece (15), be connected with the support frame on the lift section of thick bamboo (6) inner wall of locating part (13) bottom, locating part (13) link to each other and can be in lift section of thick bamboo (6) inside free slip through spring and support.

5. The rapid cooling device for jelly production according to claim 4, wherein: the limiting part (13) is composed of an elastic membrane material, an elastic body (17) is connected between the limiting part (13) and the inner wall of the lifting cylinder (6), a clapper rod (18) is rotatably connected to the outer wall of the lifting cylinder (6) on one side of the limiting part (13), a telescopic bag (19) is connected between the bottom end of the clapper rod (18) and the outer wall of the lifting cylinder (6) on one side of the clapper rod, and an air passage (20) communicated with the inner cavity of the limiting part (13) and the telescopic bag (19) is formed in the side wall of the lifting cylinder (6).

6. The rapid cooling device for jelly production according to claim 1, wherein: install push rod (21) on lifting cylinder (6) inner wall on discharge gate (3) top, push rod (21) bottom is connected with annular slab (22) that can carry out the shutoff to discharge gate (3), the bottom of feed inlet (2) is connected with curved guide chamber (23), the bottom in guide chamber (23) stretches to box (1) middle part.

7. The rapid cooling device for jelly production according to claim 2, wherein: the inner wall of the lifting cylinder (6) on one side of the spray hole (7) is provided with a shunt hole (24) communicated with the lifting cylinder, the spraying direction of the shunt hole (24) is inclined upwards, and the spray hole (7) and the shunt hole (24) are internally provided with control valves (25) respectively.

8. The rapid cooling device for jelly production according to claim 1, wherein: the bottom of mesh grid (11) is connected with a set of flexible tube (26) that communicate each other, a plurality of gas pockets have been seted up towards one side of mesh grid (11) in flexible tube (26), flexible tube (26) link to each other through the end of giving vent to anger of gas-supply pipe with external air pump, the inlet end and the cold air supply intercommunication of air pump.

9. The rapid cooling device for jelly production according to claim 8, wherein: be provided with a set of depressed part (27) on flexible tube (26), the width of depressed part (27) is crescent from inside to outside, mesh grid (11) and the corresponding position department of depressed part (27) are laminated mutually with depressed part (27).

10. The rapid cooling device for jelly production according to claim 9, wherein: the side wall of the concave part (27) is symmetrically connected with a group of magnetic blocks (28) which are mutually attracted.

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