JPH0885114A - Method and device for processing waste urethane - Google Patents

Abstract

PURPOSE: To prevent the fluorocarbon gas released at the compression of waste urethane from being leaked outside a device by connecting the inside of a hopper to the inside of a cylinder at the back of a driving piston. CONSTITUTION: The waste urethane is put in a hopper 1 and transported to a grinder 3 by a screw 2 to be finely ground. Most of fluorocarbon gas produced from the urethane permeates the hopper 4 and is recovered through a fluorocarbon gas recovery device 5. The ground waste urethane is reduced in volume with the release of residual fluorocarbon gas in a compression cylinder 6 by a driving piston 7 and a driven piston 8. A part of the fluorocarbon gas is moved through a pipe 21 from the inside of the hopper 4 into a cylinder space 9 provided at the back of the driving piston. In this manner, a pressure fluctuation in the hopper 4 is mitigated, and an amount of fluorocarbon gas leaking outside the device at the compression of the waste urethane is reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste urethane treating apparatus and method for crushing urethane foam used as a heat insulating material to separate and recover freon gas which is a foaming agent.

[0002]

2. Description of the Related Art Conventionally, the separation of CFC gas in a heat insulating material is
There is a method for treating waste urethane in which crushed waste urethane is stored in a hopper, and a cylinder portion below the hopper is compressed using a piston to separate CFC gas remaining in the waste urethane (JP-A-6-26461). Gazette).

[0003]

The above method has a problem in that, when compressed by the piston, a pressure is generated in the hopper and the CFC gas separated from the upper crushing section leaks out of the apparatus.

An object of the present invention is to provide an apparatus and method for preventing the separated CFC gas from leaking out of the apparatus when the waste urethane is compressed.

[0005]

By connecting the inside of the hopper and the inside of the cylinder behind the driving piston, it is possible to prevent the separated CFC gas from leaking out of the apparatus when the waste urethane is compressed.

[0006]

Function When the waste urethane is compressed, the separated CFC gas is pressurized. On the other hand, since the driving piston moves by being driven by the cylinder below the hopper, the pressure inside the cylinder behind the driving piston is reduced. Therefore, by guiding the pressure inside the hopper to the inside of the cylinder at the rear part of the main drive piston, fluctuations in the pressure inside the hopper are reduced.

[0007]

The present invention will be described below with reference to the drawings. First, FIG. 1 will be described. 1 is a hopper for charging urethane, 2 is a screw for feeding urethane, 3 is a crusher for destroying the independent bubbles in the urethane, and extracting chlorofluorocarbon gas, 4 is a hopper for filling the chlorofluorocarbon gas, and 5 is a hopper for filling the hopper 4. This is a device for extracting and recovering existing CFC gas. 6 is a compression cylinder for compressing waste urethane to extract the CFC gas remaining between urethanes, 7 is a main piston with a long stroke for compression, 8 is working in conjunction with main piston 7, and is a main piston when waste urethane is compressed. 7
A driven piston with a short stroke that compresses urethane from the opposite direction with the same force as that, 9 is a cylinder space behind the driving piston 7, 21 is a pipe connecting the hopper 4 and the cylinder space 9, and 22 is finely divided urethane. A filter for preventing the piston from mixing into the back portion, 23 is a pump (or compressor), and 24 is a drive system of the pump (or compressor) 23.

In such an apparatus, waste urethane is stored in the hopper-1 and is conveyed to the crusher 3 by the screw 2 and finely crushed. As a result, most of the CFC gas generated from urethane is filled in the hopper 4, and is recovered from the CFC gas recovery device 5. The crushed waste urethane is the compression piston 6 and the driving piston 7 and the driven piston 8.
The residual CFC gas is separated by and the volume is reduced. And
A part of the chlorofluorocarbon gas is moved from the inside of the hopper 4 to the rear cylinder space 9 of the driving piston by the pipe 21, which is the main part of the present invention.

In this way, by moving a portion of the Freon gas from the hopper 4 to the rear cylinder space 9 of the main piston, the pressure fluctuation in the hopper 4 is reduced, and the amount of Freon gas leaking out of the apparatus when the waste urethane is compressed is reduced. Can be reduced.

FIG. 2 is a block diagram showing another embodiment of the present invention. 31 is a pressure gauge for detecting the pressure in the hopper 4, 32 is a temporary discharge of the CFC gas in the hopper 4,
A pressure cylinder for supply, 33 is a hydraulic cylinder for operating the pressure cylinder 32, and 34 is a control device.

In such an apparatus, the control device 34 controls the hydraulic cylinder 33 in accordance with the pressure sensed by the pressure gauge 31 when the Freon gas is used for compressing the waste urethane.
By this control, the pressure cylinder 32 is also controlled, and as a result, the CFC gas in the hopper 4 is discharged and supplied, and the pressure fluctuation is reduced.

FIG. 3 is a block diagram showing another embodiment of the present invention. The pressure gauge 31 detects the pressure in the hopper 4, and the control device 24 directly controls the pump or compressor 23 that supplies the CFC gas to the CFC gas recovery device 5 according to the detection result. Such a CFC flow rate adjustment reduces the pressure change in the hopper 4.

FIG. 4 is an enlarged view showing a connecting portion between the hopper 4 and the compression cylinder 6. In FIG. 4, reference numeral 41 is a blocking plate that blocks the inside of the hopper 4 from the compression cylinder 6. Four
Reference numeral 2 is a connecting pipe that connects the space between the main piston 7 and the follower piston 8 and the rear space 9 of the main piston.

In such a device, when the fine urethane powder is compressed, the blocking plate 4 is interlocked with the movement of the cylinders 7 and 8.
1 is moved, thereby closing the compression cylinder 6.
In this state, when the fine urethane powder is compressed, the CFC gas in the fine urethane powder moves from the compression cylinder 6 to the rear space 9 of the driving piston, so that the pressure in the hopper 4 does not change.

In the embodiment shown in FIG. 5, a tare or bellows 51 is provided which expands and contracts in response to pressure fluctuations.

In such a device, the CFCs move to the tare or bellows 51 according to the pressure in the hopper 4, so that the pressure fluctuation is reduced.

[0017]

EFFECTS OF THE INVENTION According to the present invention, by crushing urethane foam used as a heat insulating material, it is possible to prevent the separated CFC gas from leaking to the outside of the CFC recovery apparatus when the waste urethane is compressed. Various recovery processing can be performed.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing an embodiment of an apparatus for treating waste urethane according to the present invention.

FIG. 2 is an overall configuration diagram showing another embodiment of a waste urethane processing apparatus according to the present invention.

FIG. 3 is an overall configuration diagram showing another embodiment of a waste urethane processing apparatus according to the present invention.

FIG. 4 is an overall configuration diagram showing another embodiment of the processing apparatus for waste urethane according to the present invention.

FIG. 5 is an overall configuration diagram showing another embodiment of the processing apparatus for waste urethane according to the present invention.

[Explanation of symbols]

1 ... Urethane storage hopper, 2 ... Screw, 3 ... Crusher, 4 ... CFC-filled hopper, 5 ... CFC gas recovery device, 6 ... Compression cylinder, 7 ... Driving piston, 8
… Driven piston, 9… Rear cylinder of drive piston, 2
DESCRIPTION OF SYMBOLS 1 ... Connection piping, 22 ... Filter, 23 ... Pump or compressor, 24 ... Control device, 31 ... Pressure gauge, 32 ...
Pressure cylinder, 33 ... Hydraulic cylinder, 34 ... Control device,
41 ... Blocking plate, 42 ... Connection pipe, 51 ... Tare or bellows.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification number Reference number within the agency FI Technical display location B29K 105: 26 (72) Inventor Chiyo Oda 502 Jintamachi, Tsuchiura-shi, Ibaraki Hiritsu Seisakusho Co., Ltd. Inside the research institute (72) Inventor Kazuo Sakaguchi 502 Jinritsucho, Tsuchiura, Ibaraki Prefecture

Claims (7)

[Claims] Claim: What is claimed is: 1. A device for crushing urethane foam for heat insulating material to separate freon gas, for compressing the crushed waste urethane and absorbing a pressure increase generated when the freon gas remaining in the waste urethane is separated. By providing absorption means,
A waste urethane processing device characterized by reducing pressure fluctuations. 2. A waste urethane processing apparatus, wherein in a device for crushing urethane foam for heat insulating material to separate CFC gas, a cylinder inside a rear part of a driving piston and a hopper are connected by a pipe. 3. The waste urethane processing apparatus according to claim 2, further comprising a filter for preventing the crushed urethane powder from passing through the pipe. 4. An apparatus for crushing urethane foam for heat insulating material to separate CFC gas, wherein a pressure gauge monitoring apparatus is provided,
A waste urethane treatment device characterized by supplying / exhausting gas from the outside according to pressure fluctuations. 5. A device for crushing urethane foam for heat insulating material to separate freon gas, wherein a pressure gauge monitoring device is provided,
A method for treating waste urethane, which comprises controlling a pump or a compressor for feeding CFC gas to a CFC gas recovery apparatus according to a change in pressure. 6. A waste urethane processing apparatus, wherein in a device for crushing urethane foam for heat insulating material to separate freon gas, a space immediately before the driven piston and a space behind the driving piston are connected by a pipe. 7. The waste urethane processing apparatus according to claim 6, wherein a urethane blocking plate is provided above the compression cylinder to seal the inside of the cylinder during compression.