阅读说明：本技术 一种酵素桶 (Ferment bucket ) 是由 李扬 于 2018-07-13 设计创作，主要内容包括：本发明公开了一种酵素桶,属于酵素设备技术领域。本发明采用的结构,通过密封排气装置：压力控制杆,用于控制酵素桶排气；垫圈,套在压力控制杆的底部,用于密封桶盖底部的通孔；弹性部件,套在压力控制杆上,用于传动压力,以控制压力控制杆上下移动；具有内腔的排气限位盖帽,内腔容纳压力控制杆,实现密封和排气,以实现成本低、密封效果好、自动智能排气,高质量、简单易行的自制酵素的效果。(The invention discloses a ferment barrel, and belongs to the technical field of ferment equipment. The structure adopted by the invention is characterized in that the sealing exhaust device: the pressure control rod is used for controlling the ferment barrel to exhaust; the gasket is sleeved at the bottom of the pressure control rod and used for sealing the through hole at the bottom of the barrel cover; the elastic component is sleeved on the pressure control rod and used for transmitting pressure so as to control the pressure control rod to move up and down; the exhaust limiting cap with the inner cavity accommodates the pressure control rod to realize sealing and exhaust, so that the effects of low cost, good sealing effect, automatic intelligent exhaust, high quality, simplicity and easiness in implementation of self-made enzyme are realized.)

1. A ferment bucket, comprising:

a sealing exhaust device for sealing and exhausting the ferment barrel, wherein

The sealed exhaust apparatus includes:

the pressure control rod is used for controlling the ferment barrel to exhaust;

the gasket is sleeved at the bottom of the pressure control rod and used for sealing the through hole at the bottom of the barrel cover;

the elastic component is sleeved on the pressure control rod and used for transmitting pressure so as to control the pressure control rod to move up and down;

an exhaust limit cap having an interior cavity that receives the pressure control rod.

2. The enzyme vat according to claim 1, further comprising:

a barrel body;

a barrel cover; and

a handle.

3. The ferment barrel of claim 1, wherein a through hole is formed at the top of the exhaust limiting cap, and the pressure control rod passes through the through hole.

4. The enzyme bucket according to claim 3, wherein a gap is provided between the pressure control rod and the through hole at the top of the exhaust limiting cap for exhausting gas.

5. The ferment barrel according to claim 1, wherein the through holes of the bottom of the barrel cover are grid-shaped through holes, preferably circular grid-shaped or diamond grid-shaped.

6. The enzyme bucket according to claim 1, wherein the exhaust limiting cap has external teeth for engaging with internal teeth of a groove on the lid of the enzyme bucket.

7. The ferment drum of claim 1, wherein the elastic member can be compressed and stretched, preferably a stainless steel spring, a plastic spring.

8. The enzyme bucket of claim 1, wherein the gasket is made of a food grade silicone material.

9. The enzyme bucket according to claim 1, wherein the bottom of the exhaust limiting cap has symmetrically distributed exhaust grooves.

Technical Field

The invention relates to the technical field of enzyme equipment, in particular to an enzyme barrel.

Background

With the improvement of health consciousness of people, modern people increasingly accept the health care effect of enzyme products on human bodies, and the enzyme is simple and convenient to manufacture, so that more people are praised. At present, the representative ferment barrel on the market is more famous internationally in Japan, Kangli and Hovenia, and especially the fast ferment barrel in Japan and Heinea is very popular among domestic and foreign users. In China, the enzyme barrels of Taiwan Taimeitang and Taiwan Taiqian are used as representatives.

However, these current ferment buckets are mostly sealed with ordinary bung, form airtight space, nevertheless can produce gas at ferment fermentation in-process, make the internal gas pressure increase of bucket, and like this, the atmospheric pressure environment in the bucket is great to ferment fermentation influence (for example fermentation speed), seriously influences the fermentation quality, and atmospheric pressure is too big can arouse potential safety hazards such as the ferment bucket explodes moreover, and the fermentation security is lower. Manual exhaust is also used, which is troublesome and cannot accurately monitor when the optimal schedule time is reached. Therefore, the enzyme barrel with low cost, good sealing effect and automatic intelligent exhaust is an urgent problem to be solved.

Disclosure of Invention

Aiming at the defects of the prior art, the embodiment of the invention aims to provide the ferment barrel with the intelligent exhaust device so as to realize the effects of low cost, good sealing effect, automatic intelligent exhaust, high quality, simplicity and easiness in ferment self-making.

In order to achieve the above object, an embodiment of the present invention provides a ferment barrel, which is implemented by the following technical solutions:

a ferment bucket, comprising:

a sealing exhaust device for sealing and exhausting the ferment barrel, wherein

The sealed exhaust apparatus includes:

the pressure control rod is used for controlling the ferment barrel to exhaust;

the gasket is sleeved at the bottom of the pressure control rod and used for sealing the through hole at the bottom of the barrel cover;

the elastic component is sleeved on the pressure control rod and used for transmitting pressure so as to control the pressure control rod to move up and down;

an exhaust limiting cap having an inner cavity, the inner cavity housing a pressure control rod.

Further, ferment bucket still includes:

a barrel body;

a barrel cover; and

a handle.

Further, the top of the exhaust limiting cap is provided with a through hole, and the pressure control rod penetrates through the through hole.

Further, a gap is formed between the pressure control rod and the through hole in the top of the exhaust limiting cap and used for exhausting gas.

Further, the through holes on the barrel cover are latticed through holes, preferably circular latticed or rhombic latticed.

Further, the exhaust limiting cap is provided with outer teeth for being meshed with the inner teeth of the groove in the cover of the enzyme barrel.

Further, the elastic member can be compressed and stretched, preferably a stainless steel spring, a plastic spring.

Further, the gasket is made of food grade silicone material.

Further, the exhaust grooves are symmetrically distributed at the bottom of the inner cavity of the exhaust limiting cap.

The structure adopted by the invention is characterized in that the sealing exhaust device: the pressure control rod is used for controlling the ferment barrel to exhaust; the gasket is sleeved at the bottom of the pressure control rod and used for sealing the through hole at the bottom of the barrel cover; the elastic component is sleeved on the pressure control rod and used for transmitting pressure so as to control the pressure control rod to move up and down; the exhaust limiting cap with the inner cavity accommodates the pressure control rod to realize sealing and exhaust, so that the effects of low cost, good sealing effect, automatic intelligent exhaust, high quality, simplicity and easiness in implementation of self-made enzyme are realized.

Drawings

FIG. 1 is a schematic view of a structure of a ferment barrel;

FIG. 2 is a schematic view of a sealing arrangement for sealing the exhaust;

FIG. 3 is a schematic view of the venting structure of the sealed venting device;

fig. 4 is a schematic view of the exhaust groove structure of the exhaust limiting cap.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

as shown in fig. 1, a ferment barrel includes:

a barrel body 300;

a tub cover 200 physically connected to the tub 300; and

the sealing and exhausting device 100 is nested inside the groove of the tub cover 200, and is used for sealing and exhausting the ferment tub.

Further, as shown in fig. 1, a handle 400 is disposed on the tub cover 200, and specifically, the handle may also be disposed on the tub body.

As shown in fig. 2, the seal vent apparatus 100 includes: the pressure control rod 101 is used for controlling the air exhaust of the ferment barrel; a gasket 102 sleeved at the bottom of the pressure control rod 101 for sealing the through hole at the bottom of the tub cover 200; the elastic component 103 is sleeved on the pressure control rod 101 and is used for transmitting pressure so as to control the pressure control rod 101 to move up and down; a vent stop cap 104 having an interior cavity that receives a pressure control stem. The exhaust stopper cap 104 is used to limit the position of the pressure control rod 101 and the position of the elastic member 103.

In the embodiment, the ferment is not immediately fermented when being just put into the ferment barrel, and no excess gas is generated, at this time, as shown in fig. 2, the internal and external air pressures of the ferment barrel are the same, and there is no air pressure difference, and the barrel cover 200 is pressed on the barrel body 300 through the sealing and exhausting device 100 to form a sealing cavity. Specifically, the gasket 102 sleeved at the bottom of the pressure control rod 101 is attached to the through hole 105 of the groove of the barrel cover 200 to form a sealed cavity.

As shown in fig. 3, when gas is generated by fermentation, when the pressure value in the ferment barrel is greater than the pressure value on the elastic component 103 of the sealed exhaust device, a pressure difference is generated, the pressure control rod 101 is pushed open by the high pressure in the barrel, and the gas is exhausted in the direction indicated by the arrow 1. After exhausting, when the air pressure value in the barrel is less than or equal to the pressure on the elastic component, the elastic component automatically resets to form a sealed cavity again according to the self characteristics.

Further, the top of the exhaust limiting cap is provided with a through hole, and the pressure control rod penetrates through the through hole.

Further, as shown in fig. 3, a gap 0 is provided between the pressure control rod 101 and the through hole at the top of the exhaust limiting cap for gas exhaust.

Further, the through holes 105 of the barrel cover groove are grid-shaped through holes, preferably circular grid-shaped or rhombic grid-shaped.

In the embodiment, the gas fermented by the ferment is bubble-shaped, and the grid-shaped through holes are beneficial to bursting the bubbles at the bottom of the through holes, so that liquid splashing during bubble bursting is prevented, parts of the sealed exhaust device are corroded, and the liquid splashing is effectively prevented from overflowing along the exhaust groove.

Further, the exhaust limiting cap is provided with outer teeth for being meshed with the inner teeth of the groove in the cover of the enzyme barrel.

Further, the elastic member can be compressed and stretched, preferably a stainless steel spring, a plastic spring.

In a specific embodiment, the elastic component is subjected to a variable load or an impact load during operation, and in order to ensure that the spring can work reliably and durably, the material of the elastic component must have a high elastic limit and a high fatigue limit, and at the same time, the elastic component should have sufficient toughness and plasticity, and good heat-treatability, especially food-grade safety, and prevent the enzyme fermentation process from being polluted, specifically including a carbon spring, an alloy spring, a stainless steel spring, and a plastic spring, and the stainless steel spring and the plastic spring are only preferred schemes of the embodiment.

Further, the gasket is made of food grade silicone material.

In a specific embodiment, the gasket is sleeved at the bottom of the pressure control rod and used for sealing a through hole in a cover of the ferment barrel, and the gasket with a sealing effect comprises fluorine rubber, silicon rubber, nitrile rubber, polyurethane and the like. A food grade silicone gasket is preferred for this embodiment.

Further, as shown in fig. 4, the bottom of the exhaust limiting cap 104 is provided with four exhaust grooves 2 for guiding the gas to flow out.

In a specific embodiment, the exhaust grooves in the bottom of the cap can also be used for solving the exhaust locking condition, and the exhaust grooves are arranged in the bottom of the exhaust limiting cap and are symmetrically distributed so as to ensure that the guide gas is uniformly exhausted. Specifically, when exhausting, an extreme case, the cover has the pressure control pole bottom of packing ring to jack-up to the high point position, and the packing ring is closely laminated with exhaust spacing block bottom this moment, and the gaseous siltation can't be discharged, and the design of exhaust duct can in time guide gas and pass through, then by the clearance department that is equipped with between the through-hole on pressure control pole and the exhaust spacing block flow, prevent that sealed exhaust apparatus is whole by gaseous jack-up, unable normal exhaust to influence sealed effect. The inventor also unexpectedly finds that the design of the vent groove can ensure that the pressure control rod can be accurately reset to the through hole 105 of the groove of the barrel cover 200 to form a seal again.

In another embodiment of the present invention, the barrel further comprises a measurement scale for measuring the enzymatic liquid scale.

In another embodiment of the present invention, the bottom of the barrel further includes a water outlet, including but not limited to a faucet-type water outlet, for taking out the ferment.

The structure adopted by the invention is characterized in that the sealing exhaust device: the pressure control rod is used for controlling the ferment barrel to exhaust; the gasket is sleeved at the bottom of the pressure control rod and used for sealing the through hole at the bottom of the barrel cover; the elastic component is sleeved on the pressure control rod and used for transmitting pressure so as to control the pressure control rod to move up and down; the exhaust limiting cap with the inner cavity accommodates the pressure control rod to realize sealing and exhaust, so that the effects of low cost, good sealing effect, automatic intelligent exhaust, high quality, simplicity and easiness in implementation of self-made enzyme are realized.

Those skilled in the art will appreciate that the above embodiments of the present invention are only one of the preferred embodiments of the present invention, and not all embodiments can be enumerated herein for the sake of brevity, and any embodiment that can embody the claims of the present invention is within the scope of the present invention.

It should be noted that the above-mentioned embodiments are provided for further detailed description of the present invention, and the present invention is not limited to the above-mentioned embodiments, and those skilled in the art can make various modifications and variations on the above-mentioned embodiments without departing from the scope of the present invention.