阅读说明：本技术 一种娃娃鱼面条冷却装置 (Giant salamander noodle cooling device ) 是由 冷皓智晨 于 2019-11-28 设计创作，主要内容包括：本申请公开了面条加工技术领域的一种娃娃鱼面条冷却装置,包括放面筒,放面筒的侧壁外设有两个环形空腔,从内到外依次为冷却腔和过渡腔,冷却腔与放面筒转动连接,过渡腔的上方固定有储液腔,储液腔与过渡腔之间设有单向阀,储液腔内滑动连接有第一活塞,第一活塞上设有第一活塞杆,第一活塞杆的上端设有用于带动第一活塞杆移动的气缸；过渡腔与冷却腔之间的侧壁上均布有若干毛细孔,过渡腔外固定有压缩筒,过渡腔与压缩筒连通,压缩筒内滑动连接有第二活塞,第二活塞上设有第二活塞杆,第二活塞杆与第一活塞杆设有杠杆,杠杆的两端分别与第一活塞杆和第二活塞杆铰接。本方案解决了现有技术不能快速对娃娃鱼面条均匀冷却的问题。(The application discloses a giant salamander noodle cooling device in the technical field of noodle processing, which comprises a noodle placing barrel, wherein two annular cavities are arranged outside the side wall of the noodle placing barrel, a cooling cavity and a transition cavity are sequentially arranged from inside to outside, the cooling cavity is rotationally connected with the noodle placing barrel, a liquid storage cavity is fixed above the transition cavity, a one-way valve is arranged between the liquid storage cavity and the transition cavity, a first piston is connected in the liquid storage cavity in a sliding manner, a first piston rod is arranged on the first piston, and an air cylinder for driving the first piston rod to move is arranged at the upper end of the first piston rod; the side wall between the transition cavity and the cooling cavity is uniformly provided with a plurality of capillary holes, the transition cavity is externally fixed with a compression cylinder, the transition cavity is communicated with the compression cylinder, a second piston is connected in the compression cylinder in a sliding manner, the second piston is provided with a second piston rod, the second piston rod and the first piston rod are provided with a lever, and two ends of the lever are respectively hinged with the first piston rod and the second piston rod. The scheme solves the problem that the prior art can not uniformly cool the giant salamander noodles quickly.)

1. A giant salamander noodle cooling device is characterized in that: the noodle placing device comprises a noodle placing barrel, wherein two annular cavities concentric with the noodle placing barrel are arranged outside the side wall of the noodle placing barrel, a cooling cavity and a transition cavity are sequentially arranged from inside to outside, the cooling cavity is rotationally connected with the noodle placing barrel, a liquid storage cavity is fixed above the transition cavity, a one-way valve is arranged between the liquid storage cavity and the transition cavity, a first piston for sealing the liquid storage cavity is connected in the liquid storage cavity in a sliding mode, a first piston rod is arranged on the first piston, and an air cylinder for driving the first piston rod to move is arranged at the upper end of the first piston rod; the transition chamber is externally fixed with a compression cylinder, the transition chamber is communicated with the compression cylinder, a second piston of the sealed compression cylinder is connected in the compression cylinder in a sliding manner, a second piston rod is arranged on the second piston, the second piston rod is provided with a lever, and two ends of the lever are respectively hinged with the first piston rod and the second piston rod.

2. The apparatus for cooling giant salamander noodles according to claim 1, wherein: the all openings in section of thick bamboo both ends of putting, the bottom sliding connection of putting a section of thick bamboo has the lid of placing that is used for sealed putting a section of thick bamboo bottom, it is equipped with a plurality of rows and places the pole to place to cover to place, it is equipped with a plurality of air vents on the pole to place.

3. The apparatus for cooling giant salamander noodles according to claim 2, wherein: the outside package in stock solution chamber is equipped with the insulating layer.

Technical Field

The invention relates to the technical field of noodle processing, in particular to a giant salamander noodle cooling device.

Background

The giant salamander noodles are food prepared by pulping giant salamander without thorns and mixing the giant salamander with flour, the noodles are not completely cooled after coming out of a drying room, and have residual heat, the existence of the residual heat affects the packaging quality, because the residual heat can cause the noodles to absorb moisture in expansion with heat and contraction with cold, the risk of product deterioration in the quality guarantee period exists, and the time cost can be increased by waiting for the noodles to be packaged after being naturally cooled.

Disclosure of Invention

The invention aims to provide a giant salamander noodle cooling device to solve the problem that the giant salamander noodle cannot be cooled uniformly in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: a giant salamander noodle cooling device comprises a noodle placing barrel, wherein two annular cavities concentric with the noodle placing barrel are arranged outside the side wall of the noodle placing barrel, a cooling cavity and a transition cavity are sequentially arranged from inside to outside, the cooling cavity is rotationally connected with the noodle placing barrel, a liquid storage cavity is fixed above the transition cavity, a one-way valve is arranged between the liquid storage cavity and the transition cavity, a first piston for sealing the liquid storage cavity is connected in the liquid storage cavity in a sliding mode, a first piston rod is arranged on the first piston, and an air cylinder for driving the first piston rod to move is arranged at the upper end of the first piston rod; the transition chamber is externally fixed with a compression cylinder, the transition chamber is communicated with the compression cylinder, a second piston of the sealed compression cylinder is connected in the compression cylinder in a sliding manner, a second piston rod is arranged on the second piston, the second piston rod is provided with a lever, and two ends of the lever are respectively hinged with the first piston rod and the second piston rod.

The working principle of the invention is as follows: the noodle is placed into the noodle placing cylinder, the cylinder is controlled to move downwards, the first piston moves downwards to press cold water in the liquid storage cavity into the transition cavity, meanwhile, the second piston moves upwards, the pressure in the whole cavity communicated with the transition cavity of the compression cylinder is reduced, a capillary phenomenon is formed between the capillary holes and the cold water, the cold water cannot enter the cooling cavity through the capillary holes, after the transition cavity is filled with the cold water, the cylinder is controlled to move upwards, the second piston moves downwards, the pressure in the whole cavity communicated with the transition cavity of the compression cylinder is increased, the cold water overcomes the surface tension between the cold water and the capillary holes, the cold water is sprayed to the outer wall of the noodle placing cylinder through the capillary holes, and the noodles in the noodle placing cylinder are uniformly cooled because the capillary holes are uniformly distributed.

The invention has the beneficial effects that: in the scheme, the first piston moves downwards to press cold water in the liquid storage cavity into the transition cavity, meanwhile, the second piston rod drives the second piston to move upwards, the pressure in the whole cavity communicated with the compression cylinder and the transition cavity is reduced, and due to the fact that the pressure in the transition cavity is small at the moment and the capillary phenomenon formed between the capillary holes and the cold water, the surface tension between the cold water and the capillary holes is large, and the cold water cannot enter the heating cavity through the capillary holes. Therefore, cold water is gradually filled in the transition cavity to prepare for heating, when the first piston rod moves upwards to drive the second piston to move downwards, the pressure in the whole cavity communicated with the transition cavity of the compression cylinder is increased under the action of the one-way valve, the cold water overcomes the surface tension between the cold water and the capillary holes and is sprayed to the outer wall of the noodle placing cylinder through the capillary holes, and the noodles in the noodle placing cylinder are uniformly cooled because the capillary holes are uniformly distributed.

The optimization of the basic technical scheme is as follows:

further, put a face section of thick bamboo both ends and all open-ended, the bottom sliding connection who puts a face section of thick bamboo has the lid of placing that is used for sealed putting a face section of thick bamboo bottom, it is equipped with a plurality of rows and places the pole to place to cover, it is equipped with a plurality of air vents on the pole to place. Thus, the noodles are conveniently put into the noodle holding barrel in rows.

Further, the outside package in stock solution chamber is equipped with the insulating layer. The heat insulating layer can reduce the over-quick temperature rise of the cold water in the liquid storage cavity.

Drawings

Fig. 1 is a schematic structural view of a giant salamander noodle cooling device according to the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a cylinder 1, a first piston rod 2, a lever 3, a second piston rod 4, a liquid storage cavity 5, a compression cylinder 6, a second piston 7, a capillary hole 8, a placing cover 9, a placing rod 10, a transition cavity 11, a cooling cavity 12, a one-way valve 13, a surface placing cylinder 14 and a first piston 15.