JPS60102333A - Asbestos pressure feeder - Google Patents

Abstract

PURPOSE:To reduce an asbestos pressure feeder to a compact size by conducting an asbestos loosing work in a rotary valve casing, and accomodating a blower motor and a power motor in an enclosure. CONSTITUTION:A valve rotor 15 is inserted in a rotary valve casing 6 and a pipe 9 is threaded. A brush roller 10 is inserted in the pipe 9 and a blower motor 16 and a power motor 18 are enclosed in an enclosure. This arrangement can reduce a feeder to a compact side so that the feeder can be carried in a job site or replacement of parts can be facilitated.

Description

[Detailed Description of the Invention] Since the conventional asbestos spraying machine is large, it is not possible to bring the spraying machine close to the asbestos spraying site, and it is inconvenient that a brane must be used to move from floor to floor. In order to replace worn out structural parts of a spray machine, it is necessary to dismantle the spray machine, which is inconvenient and requires a large amount of money to repair and preserve the spray machine. There is a desire for greater flexibility and ease of parts replacement.The inventors aim to provide a spraying machine that meets these demands.

Next, the structure will be explained in detail based on the drawings.

(A) Two stirring shafts (2) are provided inside the hopper (1) completely parallel to each other, and a suitable number of stirring rods (3) are set up alternately at appropriate intervals on the stirring shaft (2). 75 asbestos is thrown into the hopper (1) by the rotation of the hopper (1), and the asbestos is properly hogged with the stirring rod (3) and falls to the bottom of the hopper (1).

(B) A screw is formed around the bottom of the hopper (1), and a single screw shaft (4) is installed parallel to the stirring shaft (2), and several blades are attached to the screw shaft (4) at the tip of the screw shaft (4). (
5) Fully erect, with the vane (5) facing into the rotary valve casing (6), and asbestos is pushed by the screw and accumulated on the vane (5) by the rotation of the screw shaft (4).

(C) Vane inside rotary valve casing (6) (
Below 5), there is a groove (8) which is open at the top and bottom and into which the shaft of the adjustment plate (7) is inserted, and a pipe (9) that protrudes completely outward and is screwed into the inner wall of the rotary valve casing (6). Insert the flage roller (10) into the pipe (9), and insert the axis of the adjustment plate (η into the groove (8) so that the plate part faces the rotation of the brush roller (10). , a brush roller (1) is installed on the outside of the rotary valve casing (page 6).
0) and the adjustment plate (7).
) ', and the brush roller (10) is connected to a motor so as to rotate at high speed.

As a result, asbestos accumulated on the blade (5) falls onto the brush roller (10) due to the rotation of the blade (5). The fallen asbestos is broken into small pieces by a brush roller (lO) rotating at high speed and a regulating plate (7).

In this case, use the handle (1) to fully adjust the amount of asbestos.
1) This is possible by changing the distance between the brush roller (10) and the adjusting plate (7).

(D) Open at the top and provide ventilation grooves (I2) at the bottom1
Put this ○-shaped section (13) into the rotary 1<) rev casing (6), insert the upper blank roller (10) into the upper opening, and insert it into the lower opening of the eve (9). The tube (18) e is screwed onto the inner wall of the rotary valve casing (6), and is attached to both sides of the cylindrical inner wall at the top of the ventilation groove (12) of the tube (13). The replacement liner (14) is screwed on oppositely to the replacement liner (14)', and the spacing between the ends of the replacement liner (14) on the ventilation groove (12) side is such that the air outlet is wide and the windward direction is gradually narrower to prevent asbestos from falling. be averaged. A knob rotor (+5) with several blades made of two comb plates set up around the shaft:
Insert the screw shaft (4) into the replacement liner (14)
It rotates in conjunction with.

The asbestos is appropriately hogged by the flage roller (10) and falls onto the blades of the valve rotor (15) in the tube (13), and as the blades rotate, the asbestos passes between the replacement liners (14) and is ventilated. It falls into the groove (12).

(E) A blower motor (+6) is installed at the bottom of the box on the opposite side of the rotary valve casing (6), and a pipe runs from the backflow prevention filter at the air outlet to the ventilation groove (12).
The injection hose (1) is connected to the outlet of the ventilation groove (12).
7) Connect.

The -pressure air coming out of the air outlet carries asbestos falling into the ventilation groove (12) to the injection hose (17) and injects it to the outside.

In this case, while the blades of the valve rotor (15) are rotating, one of the blades is in close contact with the inner wall of the replacement liner (I4), and side plates are screwed onto the outer wall of the rotary valve casing (6) on both sides. This prevents the high pressure air passing through the ventilation groove (12) from blowing up into the cylinder (13) or leaking to the outside.

CF) Connect the -shaft of the double-shaft power motor (18) to the flange roller (10) via the V pulley and the belt.
The other shaft is connected to the valve rotor (15
), and is also connected to the screw F11fI (4) and stirring @ (2) via a chain carrier, the brush roller (10) is rotated at high speed, and the valve rotor (1
5) The screw shaft (4) and push shaft (2) are rotated at the same speed at low speed.

The structure is as follows. Next, one embodiment will be described in detail.

Pour asbestos into the hopper (1) and turn on the power motor (18)
This E4JA is pushed by the screw shaft (4) and moves toward the rotary valve casing (6), and the blade (5) of the screw shaft (4) inside the rotary valve casing (6)
) and falls onto the brush roller (10) by the rotation of the blade (5). When passing between the brush roller (10) and the adjustment plate (7), the asbestos is finely hobbed into a tube (
Asbestos falls onto the valve rotor (15) in the valve rotor (13), and as the valve rotor (15) rotates, the asbestos falls into the ventilation groove (12). When the blower motor (16) is energized, high-pressure air passes from the backflow prevention filter through the hose and into the ventilation groove (12).
), the asbestos is rapidly transported to the injection hose (17) and spraying work can be performed.

The inventor investigated the sprayed shape of asbestos and confirmed that the asbestos was not sprayed in the form of balls or balls, but was on average. High pressure air passes through the ventilation groove (12), so the air flows through the tube (1).
3) Blow up the air to the top of the tube (
13) and the brush roller (10), but there was no evidence of asbestos being blown upwards, and the valve rotor (10) was inspected.
15) There was an average amount of asbestos on each blade, and it was blown up from below and disturbed, so no trace of asbestos was found. The degree of hobbing of asbestos was investigated by operating the adjustment plate (7), and if the adjustment plate (7) was close to the brush roller (1o) without touching it, the degree of hobbing of asbestos was determined to be appropriate. It was confirmed.

As described below, in the present invention, the asbestos hobbing work is carried out in the rotary half-kernel sink (6), and the blower motor (16) is used to hob asbestos.
) The power motor (18) is also housed inside the box and has been made smaller, so it can be carried around the work site, and it can be moved from floor to floor by pushing it manually without using a brain. It is easy to move to the work place, and since parts that wear out are housed inside the rotary valve casing (6), parts replacement can be easily done by removing the side plate.2.Compared to conventional large machines. It has the advantage of being inexpensive.

[Brief explanation of drawings]

Figure 1 Front view with side plates removed Figure 2 Left side view with side plate removed Figure 3 Right side view with side plate removed Figure 4 Structure diagram Figure 5 A-A cross-sectional left side view Figure 6 Cross-sectional plan view along line B-B Figure 7 Enlarged front view of valve rotor 111i1. figure Figure 2

Claims (1)

[Claims] A screw $111 (4) is installed at the bottom of the hopper (1) parallel to the stirring shaft (2), and several blades (5) are fully erected at one end of the screw shaft (4). A pipe (9) facing into the O-tally casing (6), open at the top and bottom under the vane (5), and having a protruding groove (8) on the side for inserting 4Ill of the adjustment plate (7) is attached to the rotary. Screw it onto the inner wall of the casing (6), insert the brush roller Do)e into the pipe (9), and insert the shaft of the adjustment plate (7) into the groove (8) so that the plate part can rotate the brush roller (10). The adjustment plate (7) is extended to the outside of the rotary casing (6), a handle (11) is provided on it, the upper part is open, and the lower part is provided with a ventilation groove (
12) Put the pipe (13) with a Q-shaped cross section into the rotary casing (6), and insert the upper opening into the pipe (9).
) is screwed onto the inner wall of the Crowley casing (6), and on both sides of the inner wall of the upper circular part of the tube (13) so as not to block the upper and lower openings. Screw on the replacement liner (14) facing the ventilation groove (1
The spacing between the tips of the replacement liner (14) on the 2) side is as follows:
The wind outlet is made wider upwind and narrower in the upwind direction, several vanes made of two rubber plates are set upright, and the single valve rotor (15) is replaced and inserted into the liner (14). The negative shaft of the motor (18) is connected to the brush roller (10) via the Boo J-1V belt, and the other shaft is connected to the valve rotor (15) via a variable speed gear and a speed reducer.
The screw shaft (4) and the stirring shaft (2) are connected through a changer. Ventilation groove (12) ventilation motor
(16) An asbestos pumping machine connected to the blower motor (16) with a pipe and the other side connected to the injection hose (17).