CN205288314U - A heating cycle system for mixer - Google Patents

Abstract

The utility model discloses a heating cycle system for mixer, including the mixer, the mixer includes the workbin and wears to locate the first rabbling mechanism on workbin upper portion, still includes to set up first junction box, second junction box, a duct assembly, the 2nd duct assembly, the 3rd duct assembly on the mixer, a duct assembly feeds through first junction box, first rabbling mechanism and second junction box, the 2nd duct assembly feeds through first junction box, workbin and the 3rd duct assembly, the 3rd duct assembly feeds through first junction box, cavity inner chamber and second junction box. The utility model provides a heating cycle system for mixer, compact structure, the suitability is strong, the stirring of a large amount of candies of specially adapted, easy popularization in the field of business.

Description

A kind of heating circulation system for blender

Technical field

This utility model belongs to confection processing preparing technical field, is specifically related to a kind of heating circulation system for blender.

Background technology

Confection, as common consumer product, is listed in five and enjoys greatly one of food, it has also become the important component part of retail market, the world. Confection there occurs great variety in nearest decades, is developed into multiple branch from the hard sugar in past, toffee, and along with increasing of confection kind, the increase of confection demand is also promoted the renewal of production equipment by consumer. Preparing in the course of processing at confection, it is necessary to be stirred making soft material by candy raw material, it is to make confection wet granular preamble important step. The material of each component is sufficiently mixed uniformly by stirring function, and material can be made to reach the requirement of certain fineness, blender generally includes drive motor, reductor, shaft, tank body and stirring paddle, and shaft is located on the outfan of reductor, and extending in tank body, stirring paddle is located on shaft; But when material is stirred by current blender, the effect of stirring need to improve, when having stirred discharging, for having the candy raw material mixture of certain stickiness, discharging difficulty, complex operation, inefficiency.

Utility model content

The purpose of this utility model is to solve the problems referred to above, it is provided that a kind of heating circulation system for blender.

For solving above-mentioned technical problem, the technical solution of the utility model is: a kind of heating circulation system for blender, including blender, described blender includes hopper and is arranged in first rabbling mechanism on hopper top, described hopper surrounding sidewall and bottom are hollow structure, described hollow structure constitutes hollow cavity, described first rabbling mechanism includes being set in parallel in the main shaft on hopper top, secondary shaft, described main shaft and secondary shaft are hollow-core construction, and aforementioned hollow structure respectively constitutes blank pipe one and blank pipe two; The first header of also including being arranged on blender, the second header, the first conduit assembly, second pipe assembly, the 3rd conduit assembly, described first conduit assembly connects the first header, blank pipe one, blank pipe two and the second header, described second pipe assembly connects the first header, hollow cavity and the 3rd conduit assembly, and described 3rd conduit assembly connects the first header, hollow cavity and the second header.

Preferably, described hollow cavity includes the inner chamber one and the inner chamber two that lay respectively at hopper left side wall and right side wall, and is positioned at the inner chamber three of hopper front-rear side walls and bottom.

Preferably, described first conduit assembly includes the pipeline one being arranged at the first header with main shaft, is arranged at the pipeline two between main shaft and secondary shaft, and is arranged at pipeline three between secondary shaft and the second header;

Described second pipe assembly includes pipeline four, pipeline five, pipeline six and pipeline seven, the two ends of described pipeline five and pipeline seven are arranged at hopper left side wall bottom and right side wall bottom respectively, pipeline four is arranged between pipeline five and the first header, pipeline six is arranged between pipeline five and pipeline seven, also includes the pipeline eight and the pipeline nine that are respectively arranged at hopper right side wall top and left side wall top;

Described 3rd conduit assembly includes the pipeline ten being arranged at bottom hopper and between the first header, and is arranged at the pipeline 11 between hopper top and the second header;

Described pipeline eight is all connected with pipeline 11 with pipeline nine.

The beneficial effects of the utility model are: the heating circulation system for blender that this utility model provides, in whipping process, the candy raw material in hopper can be heated, the heating function of hopper simultaneously, make raw material will not adhere on hopper inwall, therefore raw material can be direct plungeed into, it is not necessary to raw material are preheated. Further heating circulation system makes the first rabbling mechanism also have heating function, heated perimeter can be further increased on the basis of hopper heating, promote the efficiency of heating surface, simultaneously, the major and minor shaft of the first rabbling mechanism will not adhere to raw material, further promote stirring efficiency, make candy raw material stirring more uniform. As a complete unit, the heating circulation system for blender that this utility model provides, compact conformation, the suitability is strong, is particularly well-suited to the stirring of a large amount of confection, it is easy to popularization in the field of business.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of blender in this utility model preferred embodiment;

Fig. 2 is the front view of blender and heating circulation system in this utility model preferred embodiment;

Fig. 3 is the top view of blender and heating circulation system in this utility model preferred embodiment;

Fig. 4 is the side view of blender and heating circulation system in this utility model preferred embodiment;

Fig. 5 be in this utility model preferred embodiment blender without top plan;

Fig. 6 be in this utility model preferred embodiment blender along the A-A direction sectional view of Fig. 5;

Fig. 7 is bin side view in this utility model preferred embodiment;

Fig. 8 be in this utility model preferred embodiment hopper along the B-B direction sectional view of Fig. 7;

Fig. 9 is master/slave shaft structural representation in this utility model preferred embodiment.

Description of reference numerals: 1, base plate; 2, the first gripper shoe; 3, the second gripper shoe; 4, the first rabbling mechanism; 41, main shaft; 42, secondary shaft; 43, the first motor; 44, the first reduction box; 45, gear-box; 5, the second rabbling mechanism; 51, auger axle; 52, the second motor; 53, the second reduction box; 6, hopper: 610, inner chamber three; 611, gas outlet; 612, water inlet; 620, dog-house; 621, Gai Men; 622, spice mouth; 7, heating circulation system; 71, water inlet pipe; 72, outlet pipe; 73, air inlet pipe; 740, pipeline one; 741, pipeline two, 742, pipeline three;750, pipeline four; 751, pipeline five; 752 pipelines six; 753, pipeline seven; 754, pipeline eight; 755, pipeline nine; 760, pipeline ten; 761, pipeline 11; 762, pipeline 12; 763, pipeline 13; 77, escape pipe; 78, the first header; 79, the second header; 8, electrical control panel; 9, regulator cubicle.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, this utility model is described further:

As shown in figs 1-9, the structural representation of blender in this utility model, including base plate the 1, first gripper shoe the 2, second gripper shoe the 3, first rabbling mechanism the 4, second rabbling mechanism 5, hopper 6, heating circulation system 7, electrical control panel 8 and regulator cubicle 9. First gripper shoe 2 and the second gripper shoe 3 is vertical parallel is arranged on base plate 1, hopper is fixedly installed between the first gripper shoe 2 and the second gripper shoe 3. First rabbling mechanism 4 and the second rabbling mechanism 5 are arranged in hopper 6, and heating circulation system 7 connects with hopper the 6, first rabbling mechanism 4 respectively.

As it is shown in figure 1, base plate 1 adopts rectangular platy structure, the first gripper shoe 2 is arranged at the middle part of base plate 1, and the second gripper shoe 3 is arranged at the left side of base plate 1.

As shown in Fig. 1 and Fig. 6-7, hopper 6 be fixedly installed on the first gripper shoe 2 and the second gripper shoe 3 it, the surrounding sidewall of hopper 6 is hollow structure, the hollow structure of its left side wall constitutes inner chamber one, the hollow structure of right side wall constitutes inner chamber two, the hollow structure of two side, front and back and bottom constitutes inner chamber 3 610, and the bottom of hopper 6 is additionally provided with gas outlet 611 and water inlet 612. Hopper 6 top is provided with dog-house 620, spice mouth 622, and dog-house 620 is used for feeding intake, and spice mouth for putting into spice etc. in whipping process, and corresponding dog-house position is additionally provided with the lid door 621 being connected with top movable. Dog-house 620 place is additionally provided with netted parting bead, and netted parting bead for isolating oversize candy raw material in the process of feeding intake, and oversize candy raw material puts into hopper 6 again after artificial pulverizing. Obviously, in the present embodiment, position and the shape of dog-house 620, spice mouth 621 and fine powder mouth are not particularly limited, in the present embodiment, dog-house 620 is square aperture, is positioned at top side, and spice mouth 621 is circular open, it is positioned at the centre of top opposite side, additionally, one jiao of top is additionally provided with fine powder mouth, fine powder mouth is used for being recovered in fine powder material in the process of feeding intake.

As shown in Fig. 1-3 and Fig. 5, the first rabbling mechanism 4 includes main shaft 41, secondary shaft 42, and the first drive system includes the first motor the 43, first reduction box 44 and gear-box 45. main shaft 41 top that is through at hopper 6 parallel with secondary shaft 42, in the present embodiment, main shaft 41, secondary shaft 42 are all set to Z-type stirring paddle in hopper 6, it is clear that main shaft 41, secondary shaft 42 may be used without the types such as auger axle. as it is shown in figure 9, Z-shaped stirring paddle is hollow-core construction, the hollow-core construction of main shaft 41 constitutes blank pipe one, and the hollow-core construction of secondary shaft 42 constitutes blank pipe two. first reduction box 44 is arranged at the right part of base plate 1, the i.e. left side of the first gripper shoe 2, base plate 1 is provided with rectangular seat, first reduction box 44 is arranged on this rectangular seat, first motor 43 is arranged on the first reduction box 44, the output shaft of the first motor 43 is connected by the power shaft of driving belt and the first reduction box 44, aforementioned feed belt is sheathed on the output shaft of the first motor 43 and the power shaft of the first reduction box 44, the main drive gear that the output shaft of the first reduction box 44 is connected to gear-box 45 by gear connects, main shaft 41 is fixedly connected on the axle center of the main drive gear of gear-box 45, secondary shaft 42 is fixedly connected on the axle center from output shaft.In the present embodiment, the two ends of main shaft 41 and secondary shaft 42 are equipped with rotating shaft set, and rotating shaft is overlapped one end and is individually fixed on the left and right sidewall of hopper 6, and the other end of rotating shaft set is provided with bearing cap. Being equipped with packing between main shaft 41, secondary shaft 42 and rotating shaft set, packing is used for sealing, and can prevent confection compound leakage in whipping process.

As shown in figures 2-6, this utility model includes hollow cavity, blank pipe one and blank pipe the two, first header the 78, second header the 79, first conduit assembly, second pipe assembly and the 3rd conduit assembly for the heating circulation system 7 of blender. as it was previously stated, the surrounding sidewall of hopper 6 is hollow structure, the hollow structure of its left side wall constitutes inner chamber one, and the hollow structure of right side wall constitutes inner chamber two, and the hollow structure of two side, front and back and bottom constitutes inner chamber 3 610. first header 78 is arranged on base plate 1, is positioned at below hopper 6, and the first header 78 is provided with water inlet pipe 71 and escape pipe 77. second header 79 is arranged at the top of the second gripper shoe 3, and the second header 79 is provided with outlet pipe 72 and air inlet pipe 73. first header 78 and the second header 79 are for playing shunting action to the pipeline being connected to it on. first conduit assembly includes pipeline 1 and pipeline 3 742, pipeline 1 is arranged between main shaft 41 left end and the first header 78, connect main shaft 41 and the first header 78, pipeline three is arranged between secondary shaft 42 left end and the second header 79, connects secondary shaft 41 and the second header 79. in addition, first conduit assembly also includes pipeline 2 742, pipeline 2 742 is arranged between main shaft 41 right part and secondary shaft 42 right part, connect main shaft 41 and secondary shaft 42, it should be noted that, when including main shaft 41 and secondary shaft 42 when the first rabbling mechanism 4, need to arrange pipeline 2 742, if the first rabbling mechanism 4 only one of which shaft, pipeline 2 742 then need not be set, obviously, first rabbling mechanism 4 is not limited to two shafts, can increase or reduce the quantity of shaft according to actual needs, then number of tubes between corresponding increase or minimizing shaft, simply in the present embodiment, first rabbling mechanism 4 adopts main shaft and secondary shaft totally two shafts. second pipe assembly includes pipeline 4 750, pipeline 5 751, pipeline 6 752, pipeline 7 753, pipeline 8 754 and pipeline 9 755. between left side wall bottom and the right side wall bottom of the two ends of pipeline 5 751 and the two ends hopper 6 of pipeline 7 753, pipeline 5 751 outside that be positioned at hopper 6 parallel with pipeline 7 753, equal communication with cavity one and inner chamber two. pipeline 4 750 is arranged at the bottom of the first header 78 and hopper 6, communication with cavity three and the first header 78. pipeline 6 752 is arranged between pipeline 5 751 and pipeline 7 753, for connecting pipe 5 751 and pipeline 7 753. pipeline 8 754 is arranged between hopper 6 right side wall top and pipeline 11, for communication with cavity two and pipeline 11. pipeline 755 is arranged between hopper 6 left side wall top and pipeline 11, for communication with cavity one and pipeline 11. 3rd conduit assembly includes pipeline 10, pipeline 11 and pipeline 12. pipeline 10 one end is arranged on the first header 78, and the other end connects the water inlet 612 bottom hopper 6, and pipeline 10 is used for connecting the first header 78 and inner chamber three.One end of pipeline 11 is arranged at hopper 6 antetheca top, and it is connected to the second header 79 around hopper 6 right side wall and the rear wall other end, for communication with cavity 3 610 and the second header 79. Pipeline 12 is arranged between hopper 6 rear wall top and pipeline 11, for communication with cavity three and pipeline 11. 3rd conduit assembly also includes pipeline 13, and one end of pipeline 13 is arranged on the first header 78, and the other end connects the gas outlet 611 bottom hopper 6, and it is used for communication with cavity three and the first header 78.

As shown in Fig. 1-3 and Fig. 5, the second rabbling mechanism 5 includes auger axle 51, and the second drive system includes the second motor 52 and the second reduction box 53. Auger axle 51 is arranged in the bottom of hopper 6, which is provided with helical mixing blade, in the present embodiment, is provided with circular groove bottom hopper 6 inwall, and auger axle 51 is arranged in circular groove. The output shaft of the second motor 52 is connected to the power shaft of the second reduction box 53, and the output shaft of the second reduction box 53 is connected to one end of auger axle 51 by shaft coupling. The two ends set that auger axle 51 is positioned at outside hopper 6 is equipped with rotating shaft set, rotating shaft is overlapped one end and is fixed on the left and right sidewall being connected to hopper 6, it is provided with the other end in the rotating shaft of auger axle 51 right-hand member is overlapped and is provided with bearing cap, the other end of the rotating shaft set being located at auger axle 51 left end is connected with stop part, and the effect of this stop part will make an explanation in subordinate's literary composition. Being equipped with packing between auger axle 51 and rotating shaft set, packing is used for sealing, and can prevent confection compound leakage in whipping process. It should be noted that auger axle 51 of the present utility model not only acts as stirring action, also having the function of discharging concurrently, and stop part is opened when discharging, close in whipping process, concrete whipping process is as follows:

In whipping process, main shaft 41 and secondary shaft 42 relatively rotate, and namely as viewed from the first gripper shoe 2 direction, main shaft 41 rotates counterclockwise, and secondary shaft 42 rotates clockwise, and when discharging, auger axle 51 and secondary shaft 42 rotate backward. Auger axle 51 is different with rotation direction in discharge process in stirring according to the direction of rotation difference of helical mixing blade, in the present embodiment, the direction of rotation of the helical mixing blade of auger axle 51 adopts dextrorotation, therefore in whipping process, as viewed from the first gripper shoe 2 direction, auger axle 51 is for rotating counterclockwise, and when discharging, auger axle 51 is for rotating clockwise. In whipping process, main shaft 41 relatively rotates with secondary shaft 42, candy raw material extruding in the middle of hopper can be made, thus stirring is more uniform, and the rotating counterclockwise of auger axle 51, the direction of rotation of cause and helical mixing blade is contrary, then candy raw material will not flow out outward under the stirring of the 3rd shaft, is constantly extrude in hopper 6. When discharging, main shaft 41 and secondary shaft 42 rotate backward, the confection compound being stirred constantly springs up from the lateral bottom of inner chamber two of hopper 6, and now auger axle 51 rotates clockwise, confection compound constantly pours into discharge nozzle 75 along helical mixing blade, makes discharge process simple convenient again. The setting of main shaft 41, secondary shaft 42 and auger axle 51, not only plays good mixing effect, and three shafts acts on simultaneously candy raw material, it is possible to very fast mixing speed, promotes stirring efficiency. Meanwhile, auger axle 51 also has the function of discharging concurrently, does not need to arrange miscellaneous equipment auxiliary discharging again, makes discharging more laborsaving and thorough, designs ingenious, compact conformation.

Heating circulation system of the present utility model both can be heated by steam, can also be heated by water, when using steam heating to make, steam is passed into by the air inlet pipe 73 on top, through each conduit assembly, discharged by the escape pipe 77 of bottom again, ensure that steam circulation is by the upper entering and lower leaving of hopper 6, as passed into hot water, is then passed into hot water by the water inlet pipe 71 of bottom, discharged by the outlet pipe 72 on top again through each conduit assembly, it is ensured that hot water circuit is by the bottom in and top out of hopper 6. This method to set up adds thermal property based on steam and water and determines, it is clear that can also adopt other and fluid is heated.

It is heated to be example below with water, cyclic process is explained in detail, to show operation principle and the advantage of this heating circulation system further: air inlet pipe 73, escape pipe 77 are closed, the water of design temperature is passed into by water inlet pipe 72, water enters the first header 78, respectively enter pipeline 1, pipeline 4 750 and pipeline 10. Enter the water of pipeline 1, flow into blank pipe one, pipeline 2 741 and pipeline 3 742 successively, finally flow into the second header 79. The water of flow ipe 4 750, flow ipe 5 751, the part water of flow ipe 5 751 separately flows into inner chamber one and inner chamber two by two ends, and another part water passes through pipeline 6 752 flow ipe 7 753, then is flowed into inner chamber one and inner chamber two by the two ends of pipeline 7 753. Water in inner chamber one passes through pipeline 9 755 flow ipe 11, and the water in inner chamber two passes through pipeline 8 754 flow ipe 11 too. Water in flow ipe 10, enters inner chamber three, pipeline 11, pipeline 12 flow into the second header 79. In the second last header 79, water is got rid of via outlet pipe 72, can reheat entrance and recycle.

The heating circulation system for blender that this utility model provides, can be heated candy raw material in hopper 6, is made directly input raw material and can start stirring. Heated perimeter covers whole hopper 6, and the major and minor shaft of the first rabbling mechanism 4 adopts hollow-core construction simultaneously, candy raw material can be played heat effect, also prevent raw material from adhering on shaft, improve stirring efficiency. For whole heating circulation system, but design is simple heats wide coverage.

In the present embodiment, blender of the present utility model is additionally provided with electrical control panel 8, regulator cubicle 9, and electrical control panel 8 is arranged in the first gripper shoe 2. It is other that regulator cubicle 10 is arranged at base plate 1, and electrical control panel 8 and regulator cubicle 9 control for the operation of whole blender. About the setting of electrical control panel 8 and regulator cubicle 9, its general 26S Proteasome Structure and Function pattern is known to those skilled in the art, it is possible to be that any mode well known by persons skilled in the art is designed, and unrestricted.

What deserves to be explained is, the heating circulation system for blender that this utility model provides, it is not limited to be applied on the blender that the present embodiment is exemplified, blender can carry out the improvement in structure according to actual needs, the core of this heating circulation system is to realize the heating of hopper and shaft, as long as therefore ensureing the hollow structure of hopper and shaft, heating function can be realized.

Those of ordinary skill in the art is it will be appreciated that embodiment described here is to aid in reader understanding's principle of the present utility model, it should be understood that protection domain of the present utility model is not limited to such special statement and embodiment.Those of ordinary skill in the art can make various other various concrete deformation and combination without departing from this utility model essence according to these technology enlightenment disclosed in this utility model, and these deformation and combination remain in protection domain of the present utility model.

Claims (3)

1. the heating circulation system for blender, it is characterized in that: include blender, described blender includes hopper (6) and is arranged in first rabbling mechanism (4) on hopper (6) top, described hopper (6) surrounding sidewall and bottom are hollow structure, described hollow structure constitutes hollow cavity, described first rabbling mechanism (4) includes being set in parallel in the main shaft on hopper (6) top, secondary shaft, described main shaft and secondary shaft are hollow-core construction, and aforementioned hollow structure respectively constitutes blank pipe one and blank pipe two; The first header (78) of also including being arranged on blender, the second header (79), the first conduit assembly, second pipe assembly, the 3rd conduit assembly, described first conduit assembly connects the first header (78), blank pipe one, blank pipe two and the second header (79), described second pipe assembly connects the first header (78), hollow cavity and the 3rd conduit assembly, and described 3rd conduit assembly connects the first header (78), hollow cavity and the second header (79).

2. the heating circulation system for blender according to claim 1, it is characterized in that: described hollow cavity includes laying respectively at inner chamber one and the inner chamber two of hopper (6) left side wall and right side wall, and is positioned at the inner chamber three (610) of hopper (6) front-rear side walls and bottom.

3. the heating circulation system for blender according to claim 1 and 2, it is characterized in that: described first conduit assembly includes the pipeline one (740) being arranged at the first header (78) with main shaft, it is arranged at the pipeline two (741) between main shaft and secondary shaft, and is arranged at pipeline three (742) between secondary shaft and the second header (79);

Described second pipe assembly includes pipeline four (750), pipeline five (751), pipeline six (752) and pipeline seven (753), the two ends of described pipeline five (751) and pipeline seven (753) are arranged at hopper (6) left side wall bottom and right side wall bottom respectively, pipeline four (750) is arranged between pipeline five (751) and the first header (78), pipeline six (752) is arranged between pipeline five (751) and pipeline seven (753), also include the pipeline eight (754) and the pipeline nine (755) that are respectively arranged at hopper (6) right side wall top and left side wall top,

Described 3rd conduit assembly includes the pipeline ten (760) being arranged between hopper (6) bottom and the first header (78), and is arranged at the pipeline ten one (761) between hopper (6) top and the second header (79);

Described pipeline eight (754) is all connected with pipeline ten one (761) with pipeline nine (755).