CN215975868U - Standing heat-preservation crystallizing device for preparing rock sugar - Google Patents

Abstract

The utility model relates to the field of rock candy manufacturing, in particular to a standing heat-preservation crystallizing device for manufacturing rock candy. The tail end of the cord is put into a heat-insulating barrel of the frame, the head end of the cord is tied to the connecting rod, and the connecting rod is arranged on a fork opening of a Y-shaped support on the frame. The support comprises bottom plate and curb plate, and the both ends of putting the bottom plate of heat-preserving container are all vertical to be provided with the curb plate, and two pivot are fixed to run through behind two blocks of curb plates rotatable locate in the frame. The clamping frame consists of a connecting rod and a cross rod which are arranged side by side, a fixed ring and a movable ring which are used for clamping the heat-preserving barrel are respectively arranged on the connecting rod and the cross rod, and two ends of the connecting rod are arranged on the two rotating shafts. During the operation, the cotton rope can accelerate the crystallization of rock sugar liquid, and can take out the rock sugar piece that the crystallization formed in the heat-preserving container fast through drawing the cotton rope, and in addition, accessible support drives the heat-preserving container upset, emptys the collection as early as possible with remaining rock sugar mother liquor in the heat-preserving container, avoids the waste of time and energy, improves the production efficiency of rock sugar.

Description

Standing heat-preservation crystallizing device for preparing rock sugar

Technical Field

The utility model relates to the field of rock candy manufacturing, in particular to a standing heat-preservation crystallizing device for manufacturing rock candy.

Background

The production of domestic crystal sugar generally adopts a traditional technology, be concentrated the sugar liquid under high temperature promptly, then make natural cooling, in the cooling process, the crystal sugar just progressively crystallizes out from the supersaturated sugar liquid, form the crystal sugar piece, and the sugar liquid of non-crystallization then is called the crystal sugar mother liquor, traditional crystal sugar crystallization device is very inconvenient when taking out the crystal sugar piece that the crystallization formed, need spend more time and energy, and to remaining crystal sugar mother liquor's in the crystallization device recovery operation comparatively loaded down with trivial details, waste time, lead to the crystal sugar production efficiency low.

Disclosure of Invention

Aiming at the defects brought forward by the background technology, the utility model provides a standing heat-preservation crystallizing device for preparing crystal sugar.

The utility model adopts the following technical scheme that:

the sugar-free candy sugar machine comprises a rack, wherein a heat-preserving barrel is arranged in the rack and used for containing a sugar solution of rock sugar, and supports are symmetrically arranged on the inner wall of the rack and have a Y-shaped structure;

the tail end of the rope is placed in the heat-insulating barrel, the head end of the rope is tied to a connecting rod, two ends of the connecting rod are respectively erected on the V-shaped fork openings of the supports, the connecting rod can move up and down relative to the rack, and the tail end of the rope is used for adhering and crystallizing the rock candy sugar liquid to form a rock candy block;

the support is composed of a bottom plate and side plates, the two ends of the bottom plate are both vertically provided with the side plates, the bottom plate is used for placing the heat-insulating barrel, rotating shafts penetrate through the two side plates and are rotatably connected to the rack, and the rotating shafts are fixedly connected with the side plates;

the clamping frame, the clamping frame comprises connecting rod, stationary ring, horizontal pole and rotating ring, be equipped with on the connecting rod a plurality of with the stationary ring of heat-preserving container looks adaptation, this stationary ring is semi-circular, and the mobilizable horizontal pole that is equipped with in connecting rod one side, be equipped with a plurality of rotating rings on the horizontal pole, and the rotating ring with the stationary ring structure is unanimous, and this rotating ring is used for fixing heat-preserving container clamp on the stationary ring, connecting rod both ends respectively fixed connection two in the pivot.

As a further improvement, a heat preservation cavity is arranged in the shell of the heat preservation barrel, and the heat preservation cavity is in a sealed state.

As a further improvement, the inner walls of the fixed ring and the movable ring, which are close to one side of the heat-insulating barrel, are respectively provided with a buffer cushion, and the buffer cushions are made of elastic materials.

As a further improvement, a plurality of limiting rings matched with the heat-insulating barrel are arranged on the bottom plate, and when the heat-insulating barrel is arranged on the bottom plate, the limiting rings are sleeved outside the bottom end of the heat-insulating barrel.

As a further improvement, a collecting plate is arranged below the bottom plate, the collecting plate is obliquely arranged inside the rack, a discharging opening is formed in the side face, close to the oblique lower end of the collecting plate, of the rack, and the collecting plate is used for collecting the rock candy mother liquid poured out of the heat-insulating barrel.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the device comprises a machine frame and a clamping frame. The tail end of the cord is put into a heat-insulating barrel of the frame, the head end of the cord is tied to the connecting rod, and the connecting rod is arranged on a fork opening of a Y-shaped support on the frame. The support comprises bottom plate and curb plate, and the both ends of putting the bottom plate of heat-preserving container are all vertical to be provided with the curb plate, and two pivot are fixed to run through behind two blocks of curb plates rotatable locate in the frame. The clamping frame consists of a connecting rod and a cross rod which are arranged side by side, a fixed ring and a movable ring which are used for clamping the heat-preserving barrel are respectively arranged on the connecting rod and the cross rod, and two ends of the connecting rod are arranged on the two rotating shafts. During the operation, the cotton rope can accelerate the crystallization of rock sugar liquid, and can take out the rock sugar piece that the crystallization formed in the heat-preserving container fast through drawing the cotton rope, and in addition, accessible support drives the heat-preserving container upset, emptys the collection as early as possible with remaining rock sugar mother liquor in the heat-preserving container, avoids the waste of time and energy, improves the production efficiency of rock sugar.

Drawings

Fig. 1 is a schematic cross-sectional structure of the present invention.

Fig. 2 is a schematic perspective view of the bracket, the heat-preserving barrel and the clamping frame.

Fig. 3 is a schematic perspective view of the holding frame and the heat-insulating barrel.

Fig. 4 is a schematic top view of the thermal insulating barrel and the holding frame.

Fig. 5 is a schematic top view of the stationary ring, the movable ring, the buffer pad and the thermal insulation barrel.

Fig. 6 is a schematic sectional structure view of the heat-insulating barrel.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in attached figures 1 and 2, the standing and heat-preserving crystallizing device for preparing the crystal sugar comprises a frame 1, a thread rope 2, a bracket 4 and a clamping frame 43.

As shown in attached figures 1 and 6, a heat-preserving container 3 is arranged in the frame 1, the heat-preserving container 3 is used for containing a sugar solution of a rock sugar, brackets 22 are symmetrically arranged on the inner wall of the frame 1, the brackets 22 are of a Y-shaped structure, the tail end of the rope 2 is placed in the heat-preserving container 3, the head end of the rope 2 is tied to a connecting rod 21, two ends of the connecting rod 21 are respectively erected on V-shaped fork openings of the brackets 22, the connecting rod 21 can move up and down relative to the frame 1, the tail end of the rope 2 is used for adhering crystallization of the sugar solution of the rock sugar to form a rock sugar block, the arrangement of the rope 2 can accelerate the solidification time of the sugar solution of the rock sugar, improve the crystallization efficiency, and after the rock sugar block is stably adhered to the rope 2 and crystallized, the connecting rod 21 only needs to be lifted upwards, the connecting rod 21 can lift the rock sugar block formed by pulling the crystal sugar block upwards through the rope 2 from the heat-preserving container 3, the structure is simple and convenient to operate, the ice candy block can be taken out conveniently, and the waste of time and energy is reduced. Furthermore, a heat preservation cavity 31 is arranged in a shell of the heat preservation barrel 3, the heat preservation cavity 31 is in a sealed state, the heat preservation cavity 31 can preserve heat of the rock candy sugar liquid in the heat preservation barrel 3, loss of the temperature of the rock candy sugar liquid is reduced, the temperature of the rock candy sugar liquid can be well maintained, the sugar liquid is not afraid of cold and heat in the crystallization process, the better the temperature of the sugar liquid is maintained, the higher the crystallization rate of the sugar liquid is, and therefore the yield of the rock candy blocks is improved. In addition, the upper surface of frame 1 articulates there is apron 11, when taking out the rock candy piece that forms behind the crystallization, only need upwards overturn and open apron 11, then the manual work with connecting rod 21 together with the rock candy piece from heat-preserving container 3 and frame 1 in propose can, simple structure, the simple operation reduces the waste of time and energy.

As shown in fig. 1 and 2, the support 4 is composed of a bottom plate 41 and side plates 42, the two ends of the bottom plate 41 are vertically provided with the side plates 42, the bottom plate 41 is used for placing the heat-insulating barrel 3, two rotating shafts 44 penetrate through the side plates 42, and the rotating shafts 44 are rotatably connected to the rack 1, specifically, the rotating shafts 44 are driven by motors 46 fixed on the rack 1, the rotating shafts 44 and the side plates 42 are fixedly connected, and when the heat-insulating barrel 4 is operated, the rotating shafts 44 and the support 4 are driven by the motors 46 to rotate, so that the heat-insulating barrel 3 placed on the support 4 rotates along with the rotation of the heat-insulating barrel, the mother liquor left in the heat-insulating barrel 3 is automatically poured out, and the rock candy is time-saving and labor-saving. Further, be equipped with a plurality of spacing rings 45 with 3 looks adaptations of heat-preserving container on the bottom plate 41, when heat-preserving container 3 was arranged in on the bottom plate 41, this spacing ring 45 overlap in the 3 bottom outsides of heat-preserving container utilize the limiting displacement that spacing ring 45 played heat-preserving container 3, can strengthen the stability of being connected between heat-preserving container 3 and the bottom plate 41, avoid heat-preserving container 3 to appear the displacement at the brilliant in-process of crystal sugar piece, influence the process of crystal sugar crystallization.

As shown in fig. 3, 4 and 5, the clamping frame 43 is composed of a connecting rod 431, a fixed ring 432, a cross bar 433 and a movable ring 434, the connecting rod 431 is provided with a plurality of fixed rings 432 adapted to the thermal insulation barrel 3, the fixed rings 432 are semicircular, one side of the connecting rod 431 is movably provided with the cross bar 433, specifically, the cross bar 433 is driven by a plurality of air cylinders 436 fixed on the connecting rod 431, the cross bar 433 is provided with a plurality of movable rings 434, the movable rings 434 are consistent with the fixed rings 432 in structure, the movable rings 434 are used for clamping and fixing the thermal insulation barrel 3 on the fixed rings 432, two ends of the connecting rod 431 are respectively and fixedly connected to the two rotating shafts 44, during operation, the air cylinders 436 are started to drive the cross bar 433 and the movable rings 434 to move, the thermal insulation barrel 3 arranged between the movable rings 434 and the fixed rings 432 is clamped and fixed on the fixed rings 432, so as to avoid the thermal insulation barrel 3 from displacing in the processes of crystallizing and taking out the ice candy, influence the rock candy crystallization and take out the process of operation, and drive heat-preserving container 3 at support 4 and rotate, when pouring remaining rock candy mother liquor in heat-preserving container 3, can make heat-preserving container 3 fix on support 4, avoid heat-preserving container 3 to drop and lead to the rock candy mother liquor unrestrained. Furthermore, the inner walls of the fixed ring 432 and the movable ring 434 close to one side of the heat-preserving container 3 are provided with cushions 435, and the cushions 435 are made of elastic materials, such as: the arrangement of the cushion 435 made of synthetic rubber can prevent the fixed ring 432 and the movable ring 434 from wearing the surface of the heat-insulating barrel 3 in the process of clamping the heat-insulating barrel 3, thereby prolonging the service life of the heat-insulating barrel 3.

As shown in the accompanying drawing 1, in addition, the below of bottom plate 41 is equipped with collecting plate 5, and inside frame 1 was located in this collecting plate 5 slope, and was equipped with bin outlet 12 on the side of frame 1 that is close to the 5 slope low ends of collecting plate, collecting plate 5 is used for collecting the rock candy mother liquor that pours out from heat-preserving container 3, and this bin outlet 12 can external storage bucket to be used for collecting the rock candy mother liquor, but rock candy mother liquor reuse is used for the system sugar, avoids the waste of rock candy mother liquor, practices thrift manufacturing cost.

During operation, the empty heat-insulating barrel 3 is arranged in the limiting ring 45 of the bottom plate 41, the limiting ring 45 is utilized to limit the heat-insulating barrel 3, so that the connection stability between the heat-insulating barrel 3 and the bottom plate 41 can be enhanced, the heat-insulating barrel 3 is prevented from displacing in the crystal formation process of the rock candy block and influencing the crystal formation process of the rock candy, the cylinder 436 is restarted to drive the cross rod 433 and the movable ring 434 to move, the heat-insulating barrel 3 arranged between the movable ring 434 and the fixed ring 432 is clamped and fixed on the fixed ring 432, so that the heat-insulating barrel 3 is fixedly connected on the bottom plate 41 of the bracket 4, the heat-insulating barrel 3 is prevented from displacing in the crystal and taking-out operation processes of the rock candy block and influencing the crystal taking-out operation process, the cover plate 11 is opened again, two ends of the connecting rod 21 are respectively arranged on the V-shaped fork openings of the bracket 22, the tail ends of the thread ropes 2 on the connecting rod 21 are respectively arranged in the heat-insulating barrel 3, the rock candy is respectively poured into the heat-insulating barrel 3 from the opening of the cover plate 11, the rock candy syrup gradually overflows the thread rope 2, after the sugar liquor is poured, the cover plate 11 is closed, the heat-insulating barrel 3 is kept stand and is insulated, rock candy crystals can be separated out from the rock candy sugar liquor in the heat-insulating barrel 3 in the standing process, the crystals can be attached to the thread rope 2 for crystallization to form rock candy blocks, when the rock candy blocks formed after crystallization need to be taken out, the cover plate 11 is opened only by upwards overturning, the connecting rod 21 and the rock candy blocks are manually lifted out from the heat-insulating barrel 3 and the rack 1, the structure is simple, the operation is convenient, the waste of time and energy is reduced, finally, the motor 46 is started to drive the rotating shaft 44 and the bracket 4 to rotate, the heat-insulating barrel 3 placed on the bracket 4 is rotated together, the residual rock candy mother liquor in the heat-insulating barrel 3 is automatically poured out, time and labor are saved, the heat-insulating barrel 3 is driven to rotate by the bracket 4, when the residual rock candy mother liquor in the heat-insulating barrel 3 is poured out, the movable ring 434 clamps the heat-insulating barrel 3 and fixes the fixed ring 432, can make heat-preserving container 3 fix on support 4, avoid heat-preserving container 3 to drop and lead to the rock sugar mother liquor unrestrained, moreover, the steam generator is simple in structure, the simple operation, cotton rope 2 can accelerate the crystallization of rock sugar liquid, and can take out the rock sugar piece that the crystallization formed in heat-preserving container 3 fast through drawing cotton rope 2, in addition, accessible support 4 drives the 3 upsets of heat-preserving container, empty the remaining rock sugar mother liquor as early as possible in heat-preserving container 3 and collect, avoid the waste of time and energy, improve the production efficiency of rock sugar.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (5)

1. A stewing, heat-preserving and crystallizing device for manufacturing crystal sugar is characterized by comprising:

the sugar-free candy sugar machine comprises a rack, wherein a heat-preserving barrel is arranged in the rack and used for containing a sugar solution of rock sugar, and supports are symmetrically arranged on the inner wall of the rack and have a Y-shaped structure;

the tail end of the rope is placed in the heat-insulating barrel, the head end of the rope is tied to a connecting rod, two ends of the connecting rod are respectively erected on the V-shaped fork openings of the supports, the connecting rod can move up and down relative to the rack, and the tail end of the rope is used for adhering and crystallizing the rock candy sugar liquid to form a rock candy block;

the support is composed of a bottom plate and side plates, the two ends of the bottom plate are both vertically provided with the side plates, the bottom plate is used for placing the heat-insulating barrel, rotating shafts penetrate through the two side plates and are rotatably connected to the rack, and the rotating shafts are fixedly connected with the side plates;

the clamping frame, the clamping frame comprises connecting rod, stationary ring, horizontal pole and rotating ring, be equipped with on the connecting rod a plurality of with the stationary ring of heat-preserving container looks adaptation, this stationary ring is semi-circular, and the mobilizable horizontal pole that is equipped with in connecting rod one side, be equipped with a plurality of rotating rings on the horizontal pole, and the rotating ring with the stationary ring structure is unanimous, and this rotating ring is used for fixing heat-preserving container clamp on the stationary ring, connecting rod both ends respectively fixed connection two in the pivot.

2. A standing heat-preservation crystallizing device for manufacturing ice confections as set forth in claim 1, wherein: a heat preservation cavity is arranged in the shell of the heat preservation barrel and is in a sealed state.

3. A standing heat-preservation crystallizing device for manufacturing ice confections as set forth in claim 1, wherein: the inner walls of one sides of the fixed ring and the movable ring, which are close to the heat-insulating barrel, are provided with cushion pads, and the cushion pads are made of elastic materials.

4. A standing heat-preservation crystallizing device for manufacturing ice confections as set forth in claim 1, wherein: the bottom plate is provided with a plurality of limiting rings matched with the heat-insulating barrel, and when the heat-insulating barrel is arranged on the bottom plate, the limiting rings are sleeved outside the bottom end of the heat-insulating barrel.

5. A standing still heat-preservation crystallizing device for manufacturing ice confections as claimed in claim 4, wherein: the bottom plate is provided with a collecting plate in an inclined mode, the collecting plate is arranged inside the rack, a discharge hole is formed in the side face, close to the lower end of the inclined collecting plate, of the rack, and the collecting plate is used for collecting rock candy mother liquid poured out of the heat-insulating barrel.

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