阅读说明：本技术 一种四桶拌料机 (Four-barrel material mixer ) 是由 张明淑 贾清焕 于 2021-03-08 设计创作，主要内容包括：本发明公开了一种四桶拌料机,包括底座钢架,所述底座钢架内设有旋转传动装置,所述底座钢架顶部中间位置连接有八角桶旋转底座,所述八角桶旋转底座底部设有减速支撑钢圈,所述减速支撑钢圈上方连接有原点信号感应器,所述原点信号感应器上方连接有旋转感应片,所述旋转感应片对侧设有旋转限位开关,所述旋转限位开关下方安装有原点限位开关,所述八角桶旋转底座连接有搅拌钢架,所述八角桶旋转底座贯穿搅拌钢架与旋转导电滑环连接,所述搅拌钢架内部分别连接有升降气缸,所述升降气缸顶部连接搅拌传动,搅拌传动头部连接拌料桶。可以较大的提高拌料效率,扩大生产规模,降低操作人员的劳动负荷,较好的满足市场的需求,创造出较好的经济效益。(The invention discloses a four-barrel material mixer which comprises a base steel frame, wherein a rotary transmission device is arranged in the base steel frame, an octagonal barrel rotary base is connected to the middle position of the top of the base steel frame, a deceleration support steel ring is arranged at the bottom of the octagonal barrel rotary base, an origin signal sensor is connected above the deceleration support steel ring, a rotary sensing piece is connected above the origin signal sensor, a rotary limit switch is arranged on the opposite side of the rotary sensing piece, an origin limit switch is arranged below the rotary limit switch, the octagonal barrel rotary base is connected with a mixing steel frame, the octagonal barrel rotary base penetrates through the mixing steel frame to be connected with a rotary conductive slip ring, a lifting cylinder is connected inside the mixing steel frame, the top of the lifting cylinder is connected with mixing transmission, and the head of the mixing transmission is connected with a material barrel. The material mixing efficiency can be greatly improved, the production scale is enlarged, the labor load of operators is reduced, the market demand is better met, and better economic benefit is created.)

1. The utility model provides a four buckets mixer which characterized in that: including the base steelframe, be equipped with rotary transmission in the base steelframe, base steelframe top intermediate position is connected with eight aluminium bucket rotating base, eight aluminium bucket rotating base bottom is equipped with the speed reduction and supports the steel ring, speed reduction supports the steel ring top and is connected with origin signal inductor, origin signal inductor top is connected with the rotation induction piece, rotation induction piece offside is equipped with rotatory limit switch, origin limit switch is installed to rotatory limit switch below, eight aluminium bucket rotating base is connected with the stirring steelframe, eight aluminium bucket rotating base runs through the stirring steelframe and is connected with rotatory conductive slip ring, stirring steelframe inside is connected with the lift cylinder respectively, lift cylinder top stirring transmission system, the head has the stirring storage bucket.

2. The speed reduction support steel ring 3 is divided into an upper steel ring and a lower steel ring, a track is arranged in the steel rings, a plurality of steel balls are placed in the upper track and the lower track, when the base rotates, the steel balls roll uniformly, and the base rotates stably.

3. The four-bucket mixer of claim 1, wherein: the lifting cylinders are respectively a first lifting cylinder, a second lifting cylinder, a third lifting cylinder and a fourth lifting cylinder which can reciprocate along the central axis.

4. The four-bucket mixer of claim 1, wherein: the mixing barrels are respectively a first mixing barrel, a second mixing barrel, a third mixing barrel and a fourth mixing barrel.

5. The four-bucket mixer of claim 1, wherein: the lifting cylinders correspond to the mixing barrels one to one.

6. The four-barrel mixer of claim 1, characterized in that: the rotary transmission device comprises a driving wheel and a driven wheel, and a chain is arranged between the driving wheel and the driven wheel.

7. The four-bucket mixer of claim 1, wherein: the stirring transmission device comprises a driving wheel and a driven wheel, and a belt is arranged between the driving wheel and the driven wheel.

Technical Field

The invention belongs to the technical field of food equipment, and particularly relates to a four-barrel stirring machine.

Background

The wheaten food is a traditional food in China, and comprises gluten, fried dough twists and other series of puffed foods, so that the wheaten food is widely popular with the people. The production process of the wheaten food comprises extrusion, forming, material mixing, frying and the like, wherein the material mixing is an important part in the processes, and the quality of the final product is directly influenced by the quality of the material mixing effect. The existing material mixing machine is generally a single barrel, so that the production scale is limited, and the burden of field operators is increased.

Disclosure of Invention

In order to solve the problems, the inventor researches and develops a four-barrel mixer according to long-term experiments and gropes in the technical field of food equipment.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a four buckets mixer, includes the base steelframe, be equipped with rotary transmission in the base steelframe, base steelframe top intermediate position is connected with eight corner bucket rotating base, eight corner bucket rotating base bottom is equipped with the speed reduction and supports the steel ring, speed reduction supports the steel ring top and is connected with origin signal inductor, origin signal inductor top is connected with the rotation-induced piece, rotation-induced piece offside is equipped with rotatory limit switch, origin limit switch is installed to rotatory limit switch below, eight corner bucket rotating base is connected with the stirring steelframe, eight corner bucket rotating base runs through the stirring steelframe and is connected with rotatory conductive sliding ring, stirring steelframe both sides are connected with the lift cylinder respectively, lift cylinder top is connected with stirring transmission system, and the head is connected and is mixed the storage bucket.

Furthermore, the speed reduction support steel ring is divided into an upper steel ring and a lower steel ring, a track is arranged in the steel rings, a plurality of steel balls can be placed on the upper track and the lower track, and when the base rotates, the steel balls roll uniformly, so that the base rotates stably.

Furthermore, the rotating conductive slip ring can enable the equipment to rotate by 360 degrees, the problem that the rotation angle of the existing equipment is limited is solved, the circuit is safe and reliable, the service cycle is long, and the failure rate is low.

Furthermore, the lifting cylinders are respectively a first lifting cylinder, a second lifting cylinder, a third lifting cylinder and a fourth lifting cylinder which can reciprocate along the central axis.

Furthermore, the material mixing barrels are respectively a first material mixing barrel, a second material mixing barrel, a third material mixing barrel and a fourth material mixing barrel.

Furthermore, the lifting cylinders correspond to the mixing barrels one by one.

Furthermore, the rotary transmission device comprises a driving wheel and a driven wheel, and a chain is arranged between the driving wheel and the driven wheel.

Further, stirring transmission includes the action wheel and follows the driving wheel, be equipped with the belt between action wheel and the follow driving wheel.

Compared with the prior art, the invention has the following beneficial effects: the inventor improves the original single-barrel equipment into four-barrel operation on the basis of the prior art, when the equipment is powered on, the four material mixing barrels can simultaneously stir and rotate, an original point is searched, and when an original point signal sensor senses an original point limit switch, the rotation is stopped; the position is set as a No. 1 station, the first mixing barrel starts to receive materials, after the materials are received, the rotary transmission device is started, when the rotary induction sheet senses the rotary limit switch, the rotation stops, and the position of the first mixing barrel is a No. 2 station, so that the powder scattering operation can be carried out at the station; meanwhile, the second mixing barrel starts to receive materials; the rotary transmission device is started again, when the rotary induction sheet senses the rotary limit switch, the rotation stops, the first material mixing barrel is positioned at the No. 3 station, sugar spraying operation can be carried out at the station, meanwhile, the second material mixing barrel is used for carrying out powder scattering operation at the No. 2 station, and the third material mixing barrel waits for material receiving at the No. one station; when the third mixing barrel finishes material receiving, the rotary transmission device is started again, when the rotary induction sheet senses the rotary limit switch, the rotation is stopped, the position of the first mixing barrel is a No. 4 station, and after the mixing is finished, the first lifting cylinder is operated to move downwards to discharge the materials in the first mixing barrel; meanwhile, the second material mixing barrel is used for spraying sugar at the station No. 3, the third material mixing barrel is used for scattering powder at the station No. 2, and the fourth material mixing barrel is used for waiting for material receiving at the station No. 1.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a rotating conductive slip ring.

Fig. 3 is a schematic view of the deceleration support steel ring.

Reference numerals: 1. the rotary transmission device, 2, the base steelframe, 3, the speed reduction supports the steel ring, 4, the initial point signal inductor, 5, rotatory conductive slip ring, 6, the stirring steelframe, 7, first lift cylinder, 8, the second lift cylinder, 9, stirring transmission device, 10, first stirring storage bucket, 11, the second is mixed the storage bucket, 12, the third is mixed the storage bucket, 13, the fourth is mixed the storage bucket, 14, the third lift cylinder, 15, the fourth lift cylinder, 16, rotatory response piece, 17, rotatory limit switch, 18, initial point limit switch, 19, octagonal barrel rotating base.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1, a four-barrel material mixer is characterized in that: including base steelframe 2, be equipped with rotary transmission 1 in the base steelframe 2, 2 top intermediate positions of base steelframe are connected with eight angular drum rotating base 19, 19 both sides of eight angular drum rotating base are equipped with speed reduction support steel ring 3, speed reduction support steel ring 3 top is connected with origin signal inductor 4, 4 tops of origin signal inductor are connected with rotation induction piece 16, 16 left sides of rotation induction piece are equipped with rotatory limit switch 17, origin limit switch 18 is installed to rotatory limit switch 17 below, eight angular drum rotating base 19 is connected with stirring steelframe 6, eight angular drum rotating base 19 runs through stirring steelframe 6 and is connected with rotatory electrically conductive sliding ring 5, 6 both sides of stirring steelframe are connected with the lift cylinder respectively, lift cylinder top is connected with mixes the storage bucket.

In this embodiment, the deceleration support steel ring 3 is divided into an upper steel ring and a lower steel ring, a rail is arranged in the steel rings, a plurality of steel balls can be placed on the upper rail and the lower rail, and when the base rotates, the steel balls roll uniformly, so that the base rotates stably.

In this embodiment, the rotating conductive slip ring 5 can rotate the device by 360 degrees, so that the problem that the rotation angle of the existing device is limited is solved, the circuit is safe and reliable, the service cycle is long, and the failure rate is low.

In this embodiment, the lifting cylinders are a first lifting cylinder 7, a second lifting cylinder 8, a third lifting cylinder 14, and a fourth lifting cylinder 15, respectively.

In this embodiment, the mixing barrels are a first mixing barrel 10, a second mixing barrel 11, a third mixing barrel 12, and a fourth mixing barrel 13, respectively.

In this embodiment, lift cylinder and mix the storage bucket one-to-one.

In this embodiment, the rotation transmission device 1 includes a driving wheel and a driven wheel, and a chain is provided between the driving wheel and the driven wheel.

In this embodiment, the stirring transmission device 9 includes a driving wheel and a driven wheel, and a belt is arranged between the driving wheel and the driven wheel.

When the device is used specifically, firstly, a power supply is switched on, after the device is powered on, the four stirring barrels are used for stirring and rotating simultaneously, the stirring can be carried out all the time, the stirring speed is adjustable, the original point is searched, and after the original point signal sensor 4 senses the original point limit switch 18, the rotation is stopped; the position is set as a No. 1 station, the first material mixing barrel 10 starts to receive materials, after the materials are completely received, the rotary transmission device 1 is started, when the rotary sensing piece 16 senses the rotary limit switch 17, the rotation stops, and the position of the first material mixing barrel 10 is a No. 2 station, so that the powder scattering operation can be carried out at the station; meanwhile, the second material mixing barrel 11 starts to receive materials, the rotary transmission device 1 is started again, when the rotary sensing piece 16 senses the rotary limit switch 17, the rotation stops, and at the moment, the first material mixing barrel 10 is positioned at a No. 3 station, and sugar spraying operation can be carried out at the station; meanwhile, the second mixing barrel 11 carries out powder scattering operation at the station No. 2, and the third mixing barrel 12 waits for material receiving at the station No. one; when the third mixing barrel 12 finishes receiving materials, the rotary transmission device 1 is started again, when the rotary sensing piece 16 senses the rotary limit switch 17, the rotation stops, the position of the first mixing barrel 10 is a No. 4 station, and after the stirring is finished, the first lifting cylinder 7 is operated to move downwards to discharge the materials in the first mixing barrel 10; meanwhile, the second material mixing barrel 11 performs sugar spraying operation at the station No. 3, the third material mixing barrel 12 performs powder scattering operation at the station No. 2, and the fourth material mixing barrel 13 waits for material receiving at the station No. 1, and the steps are repeated in a circulating manner.

In this document, the terms upper, left and the like are used to define the positions of the structures in the drawings and the positions of the structures relative to each other, and are used for the sake of clarity and convenience in technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the present invention.

It should be noted that the above-mentioned embodiments are illustrative and not restrictive of the technical solutions of the present invention, and equivalents of those skilled in the art or other modifications made in the prior art are intended to be included within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.