CN217578828U - Material-sticking-free buckling hammer - Google Patents

Abstract

The utility model discloses a not sticking material's buckling tup, including the hollow tup body and set up a plurality of holes in tup body bottom, the inside hydroecium for being filled with water of tup body, hydroecium and external water route intercommunication. The hammer head body comprises a cover plate at the top, a bottom plate arranged below the cover plate and a plurality of side plates arranged along the edge of the cover plate, the cover plate and the bottom plate are fixedly connected with the side plates and adjacent side plates, the water chamber is formed by surrounding the cover plate, the bottom plate and the side plates, a pipe joint is fixedly connected to the cover plate, the hole is formed in the bottom plate, and the pipe joint is communicated with an external water path. When the buckling hammer head is lifted upwards, water enters between the buckling hammer head and the pressed bent block, so that the buckling hammer head is easily separated from the bent block, and the phenomenon of material sticking cannot occur.

Description

Material-sticking-free buckling hammer

Technical Field

The utility model relates to a making wine equipment technical field especially relates to a buckling tup of on-stick material.

Background

The yeast is a raw material for brewing wine, also called lump yeast or brick yeast, which is prepared from barley, wheat, peas and the like through crushing, adding water, kneading, and pressing into Qu Pei which is convenient for transportation, storage and use and is mostly a cuboid similar to a brick.

The mechanical koji making gradually replaces the manual koji making, and becomes the development trend of modern wine brewing enterprises, and the produced koji blanks have consistent size, high production efficiency and low labor intensity.

At present, the process of mechanically making the yeast generally comprises the steps of firstly putting raw materials for making the yeast into a rectangular yeast pressing groove, and then compacting the raw materials from top to bottom by using a yeast hammer with a rectangular hammer head to form a yeast block. Because the curved hammer and the contact surface of the raw material are planes, the raw material is easily adhered to the bottom surface of the curved hammer and is scattered along with the curved hammer after being lifted, so that not only is waste caused, but also the pressed curved block is easily uneven in top surface or lack of the material.

The patent application with the publication number of CN108587833A discloses a distiller's yeast billet block manufacturing device, which comprises a supporting plate and a supporting column fixedly connected below the supporting plate, wherein a stirring mechanism and a billet manufacturing mechanism are arranged on the supporting plate, and a material conveying mechanism is arranged between the stirring mechanism and the billet manufacturing mechanism; fully mixing the screened barley flour and the screened pea flour in a stirring mechanism according to a proportion, and then conveying the mixture to a blank making mechanism through a material conveying mechanism to make a blank block. When the blank block is manufactured, raw materials are easy to adhere to the bottom surface of the pressing plate when the pressing plate is pressed in the forming box. This problem also exists with a koji making apparatus for brewing white spirit disclosed in patent application publication No. CN 212610509U.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a buckling hammer head of on-stick material is provided to solve the problem of buckling hammer head sizing when suppressing the bent piece.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the utility model provides a not buckling tup of sticking material, includes hollow tup body and sets up a plurality of holes in tup body bottom, the inside hydroecium that is filled with water of tup body, hydroecium and external water route intercommunication.

Furthermore, the hammer head body comprises a cover plate at the top, a bottom plate arranged below the cover plate and a plurality of side plates arranged along the edge of the cover plate, the cover plate and the bottom plate are fixedly connected with the side plates, adjacent side plates are fixedly connected, the water chamber is formed by surrounding the cover plate, the bottom plate and the side plates, a pipe joint is fixedly connected to the cover plate, the hole is formed in the bottom plate, and the pipe joint is communicated with an external water path.

Further, the hammer head body is a cuboid, and the cover plate, the bottom plate and the side plates are all rectangular.

Furthermore, when the buckling hammer head is used for buckling a buckling block in the buckling groove, the side plate is tightly attached to the inner wall of the buckling groove and slides along the inner wall of the buckling groove.

Furthermore, the outer side of the side plate, which is close to the bottom, is fixedly provided with a baffle, and when the buckling hammer head is used for buckling the buckling block in the buckling groove, the baffle is tightly attached to the inner wall of the buckling groove and slides along the inner wall of the buckling groove.

Furthermore, the bottom of the hammer head body is fixedly provided with a water-permeable hammer wrapping cloth.

Furthermore, a water-permeable hammer wrapping cloth is fixedly arranged below the bottom plate.

Furthermore, the bottom of the hammer head body is made of a water-permeable material, and the holes are micropores distributed in the water-permeable material.

Further, the water-permeable material is a water-permeable stone slab or a water-permeable ceramic tile.

The utility model discloses an actively the effect does:

1. the utility model discloses be equipped with the hole bottom the buckling tup, be equipped with the hydroecium in the buckling tup, when the buckling tup upwards lifted, water entered into between the buckling tup and the bent piece that the suppression is good to make the buckling tup break away from with bent piece very easily, can not take place the sizing phenomenon.

2. The lateral plate outside of buckling tup is close to the bottom and is equipped with the baffle, and when buckling tup moved in the buckling groove, only the inner wall cooperation in baffle and buckling groove, therefore reduced the resistance, therefore made the pressure of exerting on the raw materials bigger, made the piece of cranking more easily pressed into. Meanwhile, the area of the baffle is small, so that the matching surface of the baffle and the buckling groove is easier to process, and the processing precision is easier to guarantee.

3. The utility model discloses still be equipped with package hammering cloth bottom the buckling hammer head, because package hammering cloth roughness in surface, and absorbed the water that the hydroecium clearing hole flows, consequently the raw materials can not adhere with package hammering cloth. Meanwhile, water can permeate in the hammer cloth, so that the water can be uniformly distributed on the surface of the hammer cloth, and the anti-adhesion effect is better.

Drawings

FIG. 1 is a schematic external view of example 1 as viewed from above;

FIG. 2 is a schematic external view of example 1 as viewed from below;

FIG. 3 is a use diagram of embodiment 1;

FIG. 4 is a schematic external view of example 2 as seen from above;

FIG. 5 is a schematic outer view of example 2 as viewed from below;

FIG. 6 is a schematic outer view of example 3 as viewed from below;

in the figure:

10. pressing a curved groove; 8041. a cover plate; 8042. a side plate; 8043. a cutter; 8044. a base plate; 8045. a baffle plate; 8046. countersunk head screws; 8047. an aperture; 8048. a pipe joint; 8049. wrapping the hammerboard.

Detailed Description

Example 1

As shown in fig. 1 and 2, the non-adhesive buckling hammer comprises a hollow hammer body and a plurality of holes 8047 formed in the bottom of the hammer body, wherein a water chamber filled with water is formed inside the hammer body, and the water chamber is communicated with a pressure water pipe of a workshop through a pipeline.

The hammer head body comprises a rectangular cover plate 8041 at the top, a rectangular bottom plate 8044 arranged below the cover plate 8041 in parallel and four rectangular side plates 8042 arranged along the edge of the cover plate 8041, the cover plate 8041 and the bottom plate 8044 are both welded with the side plates 8042, the adjacent side plates 8042 are welded with each other, the cover plate 8041, the side plates 8042 and the bottom plate 8044 enclose a closed water chamber, a pipe joint 8048 is screwed on the cover plate 8041, the pipe joint 8048 is connected with a pressure water pipe in a workshop, and holes 8047 are uniformly distributed on the bottom plate 8044.

When the buckling hammer head presses the buckling block in the buckling groove 10, the side plate 8042 is attached to the inner wall of the buckling groove 10 and slides along the inner wall of the buckling groove 10.

As shown in FIG. 3, the working process of the present invention is:

1. the raw materials are fed into the buckling tank 10.

2. The buckling hammer head above the buckling groove 10 enters the buckling groove 10 downwards, the side plate 8042 slides downwards along the inner wall of the buckling groove 10, and the raw materials are extruded into a buckling block.

3. Water in the water chamber enters through holes 8047 between the bottom plate 8044 and the curved block.

4. The buckling hammer is lifted upwards and is drawn out of the buckling groove 10.

When the buckling hammer head is lifted upwards, water enters between the bottom plate 8044 and the bent block, so that the bottom plate 8044 is easy to separate from the bent block, and the phenomenon of material sticking cannot occur.

Example 2

The present embodiment is different from embodiment 1 in that:

the outer side of the side plate 8042 close to the bottom is fixedly connected with a baffle 8045 through a sunk screw 8046, and when the buckling hammer head presses the buckling block in the buckling groove 10, the baffle 8045 is tightly attached to the inner wall of the buckling groove 10 and slides along the inner wall of the buckling groove 10.

When the buckling hammer head moves in the buckling groove 10, only the baffle 8045 is matched with the inner wall of the buckling groove 10, so that the resistance is reduced, the pressure applied to the raw material is higher, and the buckling block is easier to be pressed.

Meanwhile, the baffle 8045 has a small area, so that the matching surface of the baffle 8045 and the buckling groove 10 is easier to process, and the processing precision is easier to guarantee.

Example 3

As shown in fig. 6, the present embodiment is different from embodiment 2 in that:

the bottom surface of the bottom plate 8044 is bonded with a water-permeable hammer-covering cloth 8049. The hammerboard 8049 is a water-permeable geotextile or nonwoven.

After the hammerboard 8049 is arranged, the hammerboard 8049 is rough in surface and contains moisture, so that the raw materials cannot be adhered to the hammerboard 8049. Meanwhile, water can permeate in the cloth 8049, so that the water can be uniformly distributed on the surface of the cloth 8049.

Example 4

The present embodiment is different from embodiment 1 in that:

the bottom of the hammer body is made of a water-permeable material, and the water-permeable material is a water-permeable stone slab or a water-permeable ceramic tile. Because the inside micropore of the stone slab that permeates water or the ceramic tile that permeates water itself just exists, therefore can make water more even that distributes below stone slab and the ceramic tile that permeates water to make the raw materials be difficult to the adhesion in the tup bottom.

The above-mentioned embodiments are described in detail and specifically for illustrating the preferred embodiments of the present invention, and it is intended that the present invention not be limited to the embodiments, but only be interpreted as the basis for the technical idea and features of the present invention, and it is within the scope of the present invention that the present invention can be implemented by those skilled in the art. At present, the technical scheme of the application has been subjected to pilot plant test, namely small-scale experiment before large-scale mass production of products; after the pilot test is finished, the investigation for the use of the user is carried out in a small range, and the investigation result shows that the satisfaction degree of the user is higher; the preparation of products for formal production for industrialization, including intellectual property risk early warning research, has been set forth.

Claims (9)

1. The buckling hammer head is characterized by comprising a hollow hammer head body and a plurality of holes (8047) formed in the bottom of the hammer head body, wherein a water chamber filled with water is arranged inside the hammer head body, and the water chamber is communicated with an external water path.

2. The non-stick buckling hammer head according to claim 1, wherein the hammer head body comprises a cover plate (8041) at the top, a bottom plate (8044) arranged below the cover plate (8041), and a plurality of side plates (8042) arranged along the edge of the cover plate (8041), the cover plate (8041) and the bottom plate (8044) are both fixedly connected with the side plates (8042), adjacent side plates (8042) are fixedly connected, the water chamber is enclosed by the cover plate (8041), the bottom plate (8044) and the side plates (8041), a pipe joint (8048) is fixedly connected to the cover plate (8041), the hole (8047) is arranged on the bottom plate (8044), and the pipe joint (8048) is communicated with an external water path.

3. A non-stick buckling hammer head according to claim 2, wherein said hammer head body is a rectangular parallelepiped, and said cover plate (8041), bottom plate (8044) and side plate (8042) are rectangular.

4. A non-stick buckling hammer head according to claim 2, characterized in that when the buckling hammer head presses the buckling block in the buckling groove (10), the side plate (8042) abuts against the inner wall of the buckling groove (10) and slides along the inner wall of the buckling groove (10).

5. The non-stick buckling hammer head as claimed in claim 2, wherein a baffle (8045) is fixedly arranged on the outer side of the side plate (8042) close to the bottom, and when the buckling hammer head presses the buckling block in the buckling groove (10), the baffle (8045) is tightly attached to the inner wall of the buckling groove (10) and slides along the inner wall of the buckling groove (10).

6. The non-stick buckling hammer head as claimed in claim 1, wherein a water permeable cloth covering (8049) is fixed on the bottom of the hammer head body.

7. A non-stick buckling hammer head as claimed in claim 2, wherein a water permeable cloth covering (8049) is fixed under the bottom plate (8044).

8. A non-stick buckling hammer head according to claim 1, wherein the bottom material of said hammer head body is a water permeable material, and said holes (8047) are micropores distributed in the water permeable material.

9. The non-stick buckling hammer head of claim 8, wherein the water permeable material is a water permeable stone slab or a water permeable tile.

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