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CN-122006559-A - Particle mixer

CN122006559ACN 122006559 ACN122006559 ACN 122006559ACN-122006559-A

Abstract

The application relates to a particle mixer, which comprises a frame, wherein a hopper, a feed pipe, a discharge pipe and a mixing pump are arranged on the frame, the hopper is communicated with the mixing pump through a conveying pipe, a partition plate is arranged in the hopper, opposite end surfaces of the partition plate are enclosed with the inner side wall of the hopper to form a nut area and a fruit area, a stirring mechanism is arranged in the hopper, the stirring mechanism comprises a first stirring shaft rotationally connected with the nut area and a second stirring shaft rotationally connected with the fruit area, a plurality of stirring pieces are arranged on the outer surfaces of the first stirring shaft and the second stirring shaft, a mounting cavity is formed in the partition plate, the end parts of the first stirring shaft and the second stirring shaft extend into the mounting cavity and are in transmission connection through a reduction gear set, and a driving motor is arranged on the hopper and drives the reduction gear set to rotate through a transmission component. The application has the effect of improving the applicability of the mixer.

Inventors

  • ZHAO XIAO
  • ZHAO DANQUN

Assignees

  • 无锡市丹霄机械有限公司

Dates

Publication Date
20260512
Application Date
20260317

Claims (7)

  1. 1. The utility model provides a particle mixer, includes frame (1), be provided with hopper (2), inlet pipe (101), discharging pipe (103) and compounding pump (102) on frame (1), hopper (2) pass through conveyer pipe (22) with compounding pump (102) intercommunication, a serial communication port, be provided with baffle (5) in hopper (2), the terminal surface that baffle (5) are relative with the inside wall encloses nut district (23) and fruit grain district (24) that forms of hopper (2), hopper (2) inside is provided with rabbling mechanism (3), rabbling mechanism (3) are including rotating first (31) and the second (32) of connecting in rotation nut district (24) stirring axle (31) with second (32) surface all is provided with a plurality of stirring piece (33), set up installation cavity (51) in baffle (5), first (31) and second (32) are enclosed nut district (23) and fruit grain district (24), first (31) and second (32) are including rotating the second (32) is connected with second (32) stirring axle first (31) and second (32) are rotated second (32) and are connected to speed reduction cavity (51) in the end portion of motor (34) and are connected to hopper (25), the driving motor (25) drives the reduction gear set (34) to rotate through a transmission assembly (35).
  2. 2. A particle mixer according to claim 1, characterized in that the reduction gear set (34) comprises a first gear (341) coaxially arranged at the end of the first stirring shaft (31), a second gear (342) meshed with the first gear (341) is coaxially arranged at the end of the second stirring shaft (32), the number of teeth of the first gear (341) is smaller than that of the second gear (342), the transmission assembly (35) comprises a transmission shaft (351) rotatably connected in the mounting cavity (51), a driving gear (352) meshed with the first gear (341) is coaxially arranged on the transmission shaft (351), and the output shaft of the driving motor (25) and the transmission shaft (351) are in transmission connection through a bevel gear set (353).
  3. 3. A particle mixer as claimed in claim 2, wherein the ends of the first and second stirring shafts (31, 32) are in driving connection by a same-speed gear set (36), the same-speed gear set (36) comprises a third gear (361) arranged at the end of the first stirring shaft (31), a fourth gear (362) meshed with the third gear (361) is arranged at the end of the second stirring shaft (32), the third gear (361) is identical in modulus with the fourth gear (362) and meshed with the driving gear (352), and an adjusting assembly (6) for driving the driving gear (352) to move along the axial direction of the driving shaft (351) is arranged on the driving shaft (351).
  4. 4. A particle mixer according to claim 3, wherein the transmission shaft (351) is provided with an adjusting groove (7) along the axial direction, the adjusting assembly (6) comprises an adjusting block (61) slidably connected in the adjusting groove (7), the opposite inner side walls of the adjusting groove (7) are respectively provided with a first electromagnetic block (62) and a second electromagnetic block (63), and the adjusting block (61) is made of a magnetic conductive material in adsorption fit with the first electromagnetic block (62) and the second electromagnetic block (63); When the first electromagnetic block (62) adsorbs the regulating block (61), the regulating block (61) is positioned at a first position, and the driving gear (352) is meshed with the first gear (341); when the second electromagnetic block (63) adsorbs the regulating block (61), the regulating block (61) is located at a second position, and the driving gear (352) is meshed with the third gear (361).
  5. 5. A particle mixer as claimed in claim 1, wherein the stirring member (33) comprises a first stirring blade (331) and a second stirring blade (332) circumferentially distributed along the first stirring shaft (31) or the second stirring shaft (32), the first stirring blade (331) is a flexible blade, the second stirring blade (332) is a rigid blade, connecting seats (8) corresponding to a plurality of the first stirring blade (331) and the second stirring blade (332) one by one are arranged on the outer surfaces of the first stirring shaft (31) and the second stirring shaft (32), an adjusting shaft (81) is rotatably connected to the connecting seats (8), the first stirring blade (331) and the second stirring blade (332) are fixedly connected to the adjusting shaft (81), and switching components (9) driving the adjusting shaft (81) to rotate are arranged in the nut zone (23) and the particle zone so that the first stirring blade (331) and the second stirring blade (332) are in a retracted state.
  6. 6. The particle mixer according to claim 5, wherein a driving cavity (10) corresponding to a plurality of stirring pieces (33) one by one is formed in the first stirring shaft (31) and the second stirring shaft (32), the switching assembly (9) comprises a switching seat (91) slidingly connected in the driving cavity (10), toothed belts (92) corresponding to the first stirring blades (331) and the second stirring blades (332) in the same stirring piece (33) one by one are arranged on the switching seat (91), adjusting gears (93) meshed with the toothed belts (92) are arranged on each adjusting shaft (81), tooth gaps of the adjusting gears (93) are fixedly embedded at the end parts of the toothed belts (92) away from the switching seat (91), a third electromagnetic block (94) is arranged on the inner side wall of the driving cavity (10), the switching seat (91) is made of a material which is in adsorption fit with the third electromagnetic block (94), and two opposite reset ends of each adjusting shaft (81) are provided with a reset sleeve; In the natural state of the torsion spring (95), the first stirring blade (331) is in the retracted state, and the second stirring blade (332) is in the working state; when the third electromagnetic block (94) adsorbs the switching seat (91), the first stirring blade (331) is in the working state, and the second stirring blade (332) is in the retracted state.
  7. 7. A particle mixer as claimed in claim 6, characterized in that the drive chamber (10) is internally provided with support gears (1002) in one-to-one correspondence with a plurality of said toothed belts (92), the teeth of said toothed belts (92) being in mesh with said support gears (1002).

Description

Particle mixer Technical Field The application relates to the technical field of ice cream production equipment, in particular to a particle mixer. Background In the continuous production process of ice cream, solid particle materials such as fruit particles and nut particles are uniformly mixed into frozen ice cream slurry for enriching the taste level of the product and improving the flavor diversity, and a particle mixer is used as matched equipment of an ice cream production line and mainly used for receiving the ice cream slurry output by a preamble equipment and mixing the particle materials with the slurry according to a preset proportion so as to obtain the ice cream slurry of mixed oil fruit particles or nuts. The utility model provides a granule mixer among the prior art usually includes the frame, installs inlet pipe, discharging pipe, hopper and compounding pump in the frame, and hopper internally mounted has the rabbling mechanism that is used for preventing granule material deposit caking, and the compounding pump is sent into to the granule material after the stirring, and inside the mixing pump was sent into through the inlet pipe to ice cream thick liquids simultaneously, granule and thick liquids were exported through the discharging pipe after mixing in the compounding pump. In the actual production process, the physical characteristics of the common fruit particles and nut particles in ice cream production have obvious differences, namely the fruit particles are soft in texture and loose in structure, are easy to break, deform or discharge water in the stirring process, so that the particle form integrity is damaged, the appearance and the taste of the product are influenced, the nut materials are hard in texture and high in density, are easy to deposit, agglomerate and even bridge, and the strong stirring strength is required to break up the agglomerate and prevent the deposit. However, the stirring mechanism inside the existing hopper can only set a fixed stirring state for single type of granular materials, the adaptation of the stirring state cannot be realized according to the different characteristics of the fruits and the nuts, if the fruits are processed in a strong stirring state of the adapted nuts, a large amount of the fruits are crushed, if the nuts are processed in a weak stirring state of the adapted nuts, the problems of nut caking and sedimentation cannot be effectively solved, and in addition, the existing hopper cannot stir the two types of granules at the same time, so that the existing granule mixer has poor applicability and obvious defects. Disclosure of Invention In order to improve the applicability of the particle mixer and enable the particle mixer to meet the stirring requirements of different materials, the application provides the particle mixer. The application provides a particle mixer which adopts the following technical scheme: The utility model provides a granule mixer, includes the frame, be provided with hopper, inlet pipe, discharging pipe and compounding pump in the frame, the hopper pass through the conveyer pipe with the compounding pump intercommunication, be provided with the baffle in the hopper, the terminal surface that the baffle is relative with the hopper inside wall encloses to close and forms nut district and fruit granule district, the inside rabbling mechanism that is provided with of hopper, rabbling mechanism is including rotating the connection first (mixing) shaft in nut district and rotating the second (mixing) shaft of connecting in fruit granule district, first (mixing) shaft with second (mixing) shaft surface all is provided with a plurality of stirring pieces, the installation cavity has been seted up in the baffle, first (mixing) shaft with the tip of second (mixing) shaft extends to in the installation cavity and is connected through reduction gear set transmission, be provided with driving motor on the hopper, driving motor drives through drive assembly reduction gear set rotates. Through adopting above-mentioned technical scheme, when two kinds of different types of materials need be mixed, the workman adds the fruit grain to the fruit grain district respectively, adds the nut granule to the nut district, during the stirring, driving motor drives reduction gear group through drive assembly and rotates, make the rotation speed of second (mixing) shaft be less than first (mixing) shaft when reduction gear group rotates, so make the granule material in nut district and fruit grain district be in the environment of different stirring speeds respectively, reduce the fruit grain because of the too fast possibility that leads to breakage, deformation or play water, reduce the possibility of nut district caking deposit simultaneously, the suitability of fruit grain mixer has been improved. Optionally, the reduction gear group includes coaxial setting is in first gear of first (mixing) shaft tip, the tip coaxial setting of second (