JP3211785B2 - Feed pump - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

FIELD OF THE INVENTION The present invention relates to a motor driven feed pump adapted for use in a beer brewing process, especially in combination with a wet roughing roll. The supply pump may be a part of the generi
c clause).

[0002]

2. Description of the Prior Art The material to be coarsely ground in the production of wet coarsely ground material is mixed with water and fed to a grinding means, where it is ground between two rollers. The coarse material is passed under the grinding means by a feed pump.

[0003] With known wet grinding rolls, the coarse material is:
Passed by an eccentric screw pump located at the discharge end of the wet grinding roller and acting as a feed pump. However, such eccentric screw pumps are very worn by the grinding operation and therefore require a lot of maintenance work.

In other known feed pumps which can be mounted on the discharge end of a wet grinding roller, a suction connection, for example, which can be mounted on the flange of the wet grinding roller, follows the pump housing, and inside the housing there is also a suction connection. For the purpose of transmission, the impeller sucks material impinging on said impeller from above through a compression connection.

In this known supply pump, the shaft of the supply pump is supported by bearings in a bearing block, which is fixed in the pump housing from below. The lower end of the shaft projects beyond the bottom of the bearing housing. A pulley is fixed to the lower end of the shaft, and the pulley is driven by an electric motor via a belt to rotate a pump impeller.

[0006]

In such feed pumps, the overall height is substantially determined by the length of the bearing block relative to a vertical axis having a pulley mounted at its lower end. When using commercially available bearing means (and thus can be manufactured as a series of products), bearing means with a certain minimum length must be used, leaving the overall height of the pump unit unchanged Was increasing. Therefore specially manufactured bearing means (comparable to conventional ones) are used to obtain a small overall height.

[0007]

SUMMARY OF THE INVENTION Starting from this prior art, it can be manufactured at a lower cost than known feed pumps, despite its lower overall height, and is suitable for use in combination with a wet grinding roller. It is an object of the present invention to provide a particularly suitable feed pump.

This object is achieved by a feed pump according to a generic part having the features of the part characteristic to claim 1.

The supply pump according to the present invention is provided with a bevel gear mechanism for transmitting a driving force from the motor to the supply pump.

With the bevel gear mechanism according to the invention, a low overall height can be achieved. The reason is that no further bearing blocks for the shaft and no pulleys for driving the shaft are provided. The axial forces generated when the pump is operated are dissipated by the support of the bevel gear mechanism. In addition, bevel gear mechanisms are economical in price and robust, and have less wear than belt drives.

According to an advantageous embodiment, the feed pump comprises:
A pump impeller is provided with a substantially vertically extending drive shaft, the drive shaft being rotatably supported. Such impellers can have a robust structural design and are less susceptible to defects. According to a simple embodiment, the invention is adapted such that the first bevel gear of the bevel gear mechanism rotates about the same axis as the axis, and the second bevel gear of the bevel gear mechanism has a second transmission mechanism. Is driven by a motor via the

The bevel gears are advantageously arranged such that their axes are perpendicular to one another. This arrangement allows the overall height of the feed pump to be optimally reduced. Because the motor can be supported in a substantially horizontal position.

According to an advantageous embodiment, the first transmission means used for transmitting the driving force to the shaft comprises a hollow shaft connected to and driven by the first bevel gear,
The shaft is mounted on the upper end surface of the hollow shaft frame. The shaft is fixed to a predetermined position at the other end of the shaft by a shaft nut. In this way it is ensured that the shaft is reliably and accurately supported in such a way that the axial forces generated during operation of the pump are dissipated in the best possible way.

Further, the shaft is inserted into the hollow shaft, and the first transmitting means used for transmitting the driving force to the shaft transmits the driving force of the hollow shaft to the shaft by push-fitting engagement. The inclusion is advantageous. Such an arrangement has a very simple structural design and is easily disassembled and reassembled, for example for cleaning purposes. Furthermore, this type of push-fit engagement transmission is robust and insensitive to defects.

According to one embodiment, the member for transmitting the driving force to the shaft is a feather key.

According to an advantageous further embodiment, the second transmission means for transmitting the driving force from the motor to the second bevel gear of the bevel gear mechanism comprises a drive shaft comprising a relasable connection. Prepare. The bevel gear mechanism can thus be easily separated from the motor. Furthermore, such a releasable connection allows the bevel gear mechanism to be replaced without any difficulty.

According to a simple embodiment, the motor for driving the bevel gear mechanism is an electric motor, which is connected to the housing of the bevel gear mechanism by a flange connection.

A preferred embodiment of the feed pump according to the invention is described below with reference to the drawings.

The use of the feed pump according to the invention in combination with a wet roughing roller is described below. Such wet grinding rollers are used, for example, in beer brewing processes.

[0020]

DETAILED DESCRIPTION OF THE INVENTION A wet roughing roller in combination with a feed pump according to the invention can be used in an advantageous manner with grinding means comprising two rollers 31, 32 arranged in a container 30. . The container 30 is provided with a supply means 34 for supplying the material to be coarsely ground. At the discharge end of the container 30, a discharge pump 40 is arranged, the end of which is in the supply conduit 35.

The suction connection 17 of the supply pump 40 is flanged to the discharge side end 25 of the wet roughing roller. The suction connection 17 leads to the pump housing 1 in which the pump impeller 2 rotates. The pump impeller 2 is supported by a vertically arranged shaft 9. Reference numeral 16 indicates a compression connection from which the impeller discharges the coarse material. The bottom of the pump housing 1 is closed by a pump base plate 13, and the pump base plate 13 is fixed to the pump housing 1 by a flange 3. The base plate is provided on a spacer 4 and continues down by an adapter flange 6. The pump chamber is sealed by the shaft seal 4 from the space inside the spacer 4 at the point where the shaft passes through the pump base plate. The shaft 9 is provided with a shaft collar 24 up to the level of the matching flange 6, said shaft collar 24 resting on the hollow shaft 18. The pump shaft 9 extends into the hollow shaft 18 and has a push-fit engagement with the hollow shaft via the feather key 7. The first bevel gear 20 having the same axis as the shaft 9 and the hollow shaft 18 are fixed outside the hollow shaft 18. The first bevel gear 20 is located in the upper region of the hollow shaft near the matching flange 6. A second bevel gear 19 having a horizontal axis meshes with the first bevel gear 20. The second bevel gear 19 is driven by the electric motor 12 via the shaft 22. The axis 22 is a point 21
Made to be able to be separated by. The connection point 21 can be, for example, a plug integrated connection.
The electric motor 12 is fixed to a flange 14 of the bevel gear mechanism by a flange 15 and is supported by holding means 23.

The shaft 9 is held in the bevel gear mechanism 8 by a washer 10 and a self-locking shaft nut 11. The bevel gear mechanism 8 and the shaft 9 are a series of products, and may be commercially available members.

In the following, the operation mode of the present embodiment of the supply pump according to the present invention will be described based on an example of a wet roughing roller exhaust pump. The electric motor 12 has a shaft 22
Drives the bevel gear 19, which in turn engages with the bevel gear 20 arranged at right angles to the bevel gear and drives the hollow shaft 18. The feather key 7 transmits this driving torque to the shaft 9 by pushing in engagement. The pump impeller 2 is driven by a shaft 9.

The material to be wet-ground by the mills 31 and 32 passes through the outlet 25 of the container 30 and collides with the impeller 2. The impeller 2 passes the impinging coarse material from above into the supply conduit 35 through the compression connection 16. An axial force is generated when the pump is operated, which force is dissipated by the shaft nut 11 having the shaft collar 24 and the washer 10 via the hollow shaft 18 of the bevel gear mechanism 8.

The bevel gear mechanism 8 can be easily replaced. The electric motor 12 can be removed at the flange connection portions 14 and 15, and the bevel gear mechanism is attached to the spacer 4 by the adapter flange 6.
Is fixed only through the. To do so, the shaft 22 is loosened at the connection 21. When this fitting flange is loosened, the hollow shaft 18 and shaft 9 of the bevel gear mechanism are loosened.
Is merely connected via the feather key 7, so that the bevel gear mechanism can be easily removed downward. In this operating state, the shaft 9 projects very slightly beyond the bottom of the bevel gear mechanism or does not project at all. A low overall height is guaranteed by the horizontal electric motor, which can be used since a bevel gear mechanism is provided. In accordance with the present invention, the design of the present modular structure includes a robust bevel gear mechanism, showing the potential for the axial drive of the feed pump to be manufactured at an economical price.

[Brief description of the drawings]

FIG. 1 is a partial cross-sectional view of a supply pump according to the present embodiment.

FIG. 2 is a schematic view of a wet rough grinding roller provided in a supply pump.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Pump housing, 2 ... Pump impeller, 3 ... Flange, 4 ... Spacer, 7 ... Feather key, 8 ... Bevel gear mechanism, 9 ... Drive shaft, 12 ... Motor, 14, 15 ... Flange connection part, 18 ... Hollow shaft, 19 ... second bevel gear,
20: first bevel gear, 21: connection part, 22: drive shaft, 24: shaft collar, 40: supply pump.

Continuation of the front page (73) Patent holder 597075395 Raiffeisencestrass 30, 85356 Freezing-Attaching, Germany (56) References JP-A-3-264415 (JP, A) JP-A-5-4053 (JP, A) Showa 61-178934 (JP, U) Actually open Showa 63-93749 (JP, U) Japanese Patent Publication No. 46-40981 (JP, B1) (58) Fields investigated (Int. Cl. ⁷ , DB name) B02C 1 / 00-7/18 B02C 15/00-17/24

Claims (9)

(57) [Claims] 1. A motor driven feed pump adapted for use at the discharge end of a wet coarse mill, comprising a bevel gear mechanism (8) for transmitting the driving force of a motor (12).
And a pump impeller (2) connected to the bevel gear mechanism (8) and discharging a fluid containing material coarsely ground by the mill through a compression connection (16). The mechanism (8) includes first and second bevel gears meshing with each other, and the drive shaft (9) of the pump impeller (2).
The first bevel gear (20) is fixed to a hollow shaft (18) inserted through a first transmission means, and the second drive shaft (22) of the motor is detachable at a connection point (21). A feed pump, wherein a bevel gear (19) is mounted, whereby the bevel gear mechanism is detachable from the pump impeller (2) and the motor (12). 2. Feed pump according to claim 1, characterized in that the drive shaft (9) is provided which extends substantially perpendicular to the pump impeller (2) and is rotatably supported. 3. The first bevel gear (20) of the bevel gear mechanism (8) is adapted to rotate about the same axis as the shaft (9), thereby providing the first transmission means. And the second bevel gear (19) of the bevel gear mechanism (8) is driven by the motor (12) via second transmission means (22). 3. The feed pump according to claim 2, wherein: 4. The bevel gear (20) and the second bevel gear (19) of the bevel gear mechanism (8) are arranged such that their axes are orthogonal to each other. 3
Supply pump according to 1. 5. The first transmission means comprises a hollow shaft (18).
Wherein the hollow shaft (18) is provided with the first bevel gear (20).
, Driven by the first bevel gear (20), wherein the shaft (9) is mounted on the upper end surface of the hollow shaft (18) via a shaft collar (24). The supply pump according to any one of claims 3 and 4, wherein 6. A method according to claim 1, wherein said first transmission means is provided with said hollow shaft (1).
The feed pump according to claim 5, characterized in that it comprises a member (7) for transmitting the driving force of (8) to the shaft (9) by push-fit engagement. 7. The supply pump according to claim 6, wherein the member for transmitting a driving force to the shaft (9) is a feather key (7). 8. A releasable connection for transmitting a driving force from the motor (12) to the second bevel gear (19) of the bevel gear mechanism (8). (2
A feed pump according to any one of claims 3 to 7, characterized in that it is a drive shaft (22) containing 1). 9. The motor (12) is an electric motor, wherein a bevel gear mechanism (8) is connected to a flange connection portion (14, 1).
2. The connection according to claim 1, wherein
The supply pump according to any one of claims 1 to 8.