JPH07164533A - Resin box body and disassembling method thereof - Google Patents

Abstract

PURPOSE:To separate and disassemble a box body of an electronic apparatus when it is to be disposed or recycled. CONSTITUTION:Box parts 2 and 3 which are previously formed into shapes warped in the separating direction of a box body 1 are connected by withholding the warps so as to form the box body 1. For connecting parts 4 and 5 of the box parts, for example, a shape-memory resin is used. When it is heated, the connecting parts are released. Accordingly, the box body 1 separates and disassembles automatically due to the reaction force of the warps produced at molding.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin casing and a method for disassembling the casing, such as electric equipment, in consideration of disassembling property and separability.

[0002]

2. Description of the Related Art Conventional resin housings used in electronic devices, home appliances, etc. are composed of parts made of mold resin, and a machine using screws and insert parts for joining these housing parts. There are many uses of dynamic joining. More recently, in order to improve the ease of assembly by mass production,
In many cases, they are joined by a snap fit structure utilizing the moldability of the molding resin. The snap-fit structure is a fitting structure that uses a hook portion and a groove portion that are integrally formed when the housing is molded, and can be joined without using parts or materials other than the housing. Furthermore, compared with mechanical joining, the snap-fit structure does not require a tool for joining and has advantages such as short joining time. However, the joining force is inferior to mechanical joining.

By the way, with respect to recent electronic devices and home electric appliances, disposal after use has become a problem from the viewpoint of protecting the global environment. Therefore, these products have been dismantled and separated according to materials or parts for the purpose of effective use of resources, and they have been reused. Therefore, disassembly and separation are also performed in the above resin casing. JP-A-52
No. 23168/1993, a heat treatment method for plastics using microwaves and ferrite, JP-A-2-29092.
Japanese Unexamined Patent Publication No. 8 discloses a method of disassembling a molding device by applying heat cycle to a transformer composed of a metal coil and a molding resin and utilizing deterioration of the resin. However, the resin is joined by mechanical joining or snap fit structure. The dismantling of the housing cannot be easily dismantled with this technique.

[0004]

In the conventional method of disassembling a resin housing, it is necessary to loosen the screw at a place where the screw and the insert part are joined by using a tool such as a screwdriver. At this time, since the size of the screw differs depending on the joint, it is necessary to select an appropriate tool. Regarding the parts that are joined by the snap-fit structure, it is often impossible to identify the parts that are snap-fit from the appearance, so it is possible to insert a tool into the gap between the housing joints and check the joints before prying open. . However, there is a problem in that disassembling and separating in a short time without taking time and effort is impossible with the above disassembling method, and is not effective when disassembling and disassembling a large number of casings.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems and to make it possible to easily separate and disassemble a resin housing which is discarded after being used, without any trouble, and a disassembly thereof. To provide a method.

The resin casing of the first invention comprises a plurality of casing portions made of a resin having a heat distortion temperature and a joint portion for joining the casing portions together, and the joint portions are joined by heating. Has the function of opening the part or the function of reducing the bondability,
The housing portion is characterized in that it has a function of automatically separating and disassembling the housing by utilizing the reaction force due to the warp of the housing portion when the joint portion is opened or the joining property is reduced.

According to a second aspect of the present invention, a plurality of casings made of resin having a heat distortion temperature, a joint for connecting the casings, and the casings are connected and pushed in the direction of separating the casings. It is composed of a spring in a contracted state, and the joint has a function of opening the joint by heating or a function of lowering the joint,
The spring is a resin housing having a housing separating function utilizing its restoring force.

In a third aspect of the present invention, an electromagnetic wave absorbing heating element is attached to the joint of the first or second aspect of the invention, or a resin having a large dielectric power factor is attached to the joint or the joint itself. The resin housing is characterized in that a shape memory resin, a shape memory alloy, or a bimetal, which is used as a material or which is processed in advance so that the joint is opened when heated, is used as a material for the entire joint.

According to a fourth aspect of the present invention, a shape-memory resin is used for the casing and the joint of the first aspect of the invention so that the joint is opened during heating so that the casing warps in the separating direction. It is a characteristic resin housing.

A fifth aspect of the present invention is a method for disassembling a resin casing according to the first, second, third and fourth aspects of the present invention, wherein the casing is heated to raise the temperature of the joint or the entire casing. By so doing, the joint portion is opened or the jointability is reduced, and then the resin casing is automatically separated and disassembled.

[0011]

The housing portion of the resin housing of the present invention is made of a resin having a heat deformation temperature such as a thermoplastic resin, and some or all of those housing parts are preliminarily warped in the separating direction. They are formed, and are joined while suppressing this warpage. In addition, an electromagnetic wave absorbing heating element that reduces the bondability by heating or a resin having a high dielectric power factor, or a shape memory resin, shape memory alloy, or bimetal that has been previously stored and processed so that the bond will open when heated. Are used. Therefore, when the casing of the present invention is heated by applying electromagnetic waves or hot water, warm air, etc., the joint portion is opened or the joint property is deteriorated, and thereby the restraining force of the casing component warped in the separating direction in advance is reduced. Then, the housing is automatically separated and disassembled by using the reaction force of this warp.

Further, in the resin case of the second invention, a spring in a compressed state in which a force acts in the separating direction of the case is connected between the case parts, and the case is heated and joined. If the parts are opened or the joining property is lowered, the housing can be automatically separated / disassembled by utilizing the good restoring force of the spring generated in the separation direction of the housing.

In the resin casing of the fourth invention, both the casing portion and the joint portion are made of a shape memory resin, and the joint portion is opened when heated, and the casing portion is separated. The shape that warps is stored in advance.
By heating the entire case, the joint and the case are deformed to the memorized shape, and at the same time as opening the joint, the reaction force of the warp of the case automatically separates and disassembles the case. be able to.

[0014]

【Example】

(Embodiment 1) FIG. 1 is a sectional view of a housing showing an embodiment of the invention described in claims 1, 3 and 5. The resin housing 1 of the present invention is an upper resin housing 2 made of a thermoplastic molding resin such as acrylonitrile butadiene styrene resin (ABS), polycarbonate resin (PC), polybutylene terephthalate resin (PBT), or the like.
And the lower resin housing 3, the upper resin housing 2 or the lower resin housing 3 is preliminarily warped in the separating direction of the housing 1 as shown in FIG. It is joined with a snap fit structure so as to hold it down. Furthermore, the joint portion (hook spring) 4 of the upper resin casing 2,
Alternatively, as shown in FIG. 1, an electromagnetic wave absorbing heat generating portion 6 such as a plated coating, aluminum foil, or ferrite is attached to the joint portion (hook joint groove) 5 of the lower resin housing 3, or a phenol resin having a large dielectric power factor. Are likewise attached or used as material for the joint itself.

In the case of disassembling this casing, when an electromagnetic wave was irradiated with an oscillator of 1 k to 2.5 MHz and 1 kW using an electromagnetic wave irradiation device, after only 2 to 20 minutes, only the joint portion was 200.
The temperature increased above 0 ° C., and the bondability of the fitting portion was deteriorated due to the thermal deformation of the resin of the hook portion 4 or the groove portion 5. Further, as a result, the restraint of the upper resin casing 2 or the lower resin casing 3 restrained at the joint portion is lowered, so that the upper resin casing 2 and the lower resin casing 3 are automatically moved by the reaction force of the warp during molding. I was able to separate and dismantle. Since it is not necessary to heat the entire resin casing, and only the joints 4 and 5 and the electromagnetic wave absorbing and heat generating portion 6 may be heated, the casings can be separated and dismantled in a short time and at low cost, and a large number of casings can be disassembled. Suitable for

(Embodiment 2) FIG. 2 is a sectional view of a housing for explaining an embodiment of the invention described in claims 1, 3, 4 and 5. In addition to the electromagnetic wave absorbing heating element of the first embodiment, a shape memory alloy, shape memory resin, bimetal, or the like can be used for the joint portion, and the shape memory alloy is used for the joint portion 4 or 5. 2 shows an example. The configuration is the same as that of the above-described first embodiment except for the joint portion, and the housing 1 is composed of an upper resin housing 2 and a lower resin housing 3 made of thermoplastic resin, and the upper housing 2 or the lower housing 3 is The housing 1 is formed in a warped shape in the separating direction in advance, and is joined by a snap-fit structure so as to suppress the warping.
The joint portion (hook spring) 4 of the upper resin casing 2 or the joint portion (hook joint groove) 5 of the lower resin casing 3 is inside the casing in the hook spring 4 and outside the casing in the hook joint groove 5, respectively. The shape memory alloy is made of a previously stored shape memory alloy so as to be deformed at the transformation temperature of the shape memory alloy. The shape memory alloy used is, for example, a nickel-titanium alloy such as a Ti—Ni alloy or a copper alloy such as a Cu—Zn—Al or Cu—Al—Ni alloy having a transformation temperature of 40 ° C. to 80 ° C.

When disassembling the housing of this embodiment, the fitting temperature is raised by using hot water, warm air, electromagnetic waves, etc. to the transformation temperature (40 ° C. to 80 ° C.) of the shape memory alloy. The part was deformed and the joint was opened. Further, as a result, the restraining force of the upper resin casing 2 or the lower resin casing 3 restrained at the joint portion is reduced, so that the upper resin casing 2 and the lower resin casing 3 are separated by the reaction force of the warp during molding. Could be easily disassembled and dismantled. Since it is not necessary to heat the entire resin casing and only the joints 4 and 5 need to be heated, the casing can be separated and disassembled in a short time and at low cost, which is suitable for dismantling a large number of casings.

(Embodiment 3) FIG. 3 is a sectional view of a housing showing an embodiment of the invention described in claims 2, 3 and 5.
The resin housing 1 of the present invention comprises an upper resin housing 2 made of a thermoplastic molding resin such as ABS, PC, PBT.
And a lower resin housing 3 and a separation spring mechanism 7,
The upper resin casing 2 and the lower resin casing 3 are joined by a snap fit structure. In addition, is the electromagnetic wave absorbing heat generating portion 6 such as plating coating, aluminum foil or ferrite attached to the joint portion (hook spring) 4 of the upper resin casing 2 or the joint portion (hook joint groove) 5 of the lower resin casing 3? Alternatively, a phenolic resin having a high dielectric power factor is similarly attached or used as a material for the joint itself. Further, as shown in FIG. 3, a spring mechanism 7, which exerts a force in the separating direction of the housing 1, is connected between the upper housing 2 and the lower housing 3 in a compressed state.

In the case of disassembling this case, when an electromagnetic wave was radiated with an oscillator of 1 k to 2.5 MHz and 1 kW using an electromagnetic wave irradiation device, after only 2 to 20 minutes, only the joint portion was 200.
The temperature increased above 0 ° C., and the bondability of the fitting portion was deteriorated due to the thermal deformation of the resin of the hook portion 4 or the groove portion 5. Further, by the restoring force of the spring mechanism 7 provided inside which is generated by this, the upper resin casing 2 and the lower resin casing 3 can be automatically and easily separated and disassembled. Since it is not necessary to heat the entire housing and only the joints 4 and 5 need to be heated, the housings can be separated and disassembled in a short time and at low cost, which is suitable for dismantling a large number of housings.

(Embodiment 4) FIG. 4 is a sectional view of a housing for explaining another embodiment of the invention described in claims 2, 3 and 5. The second embodiment according to claim 2, wherein a bimetal, a shape memory alloy, a shape memory resin, or the like can be used for the joining portion in addition to the electromagnetic wave absorbing heating element of the third embodiment, and bimetal is used for the joining portion 4 or 5. An example is shown. The configuration is the same as that of the above-described third embodiment except for the joint portion, and the housing 1 is composed of an upper resin housing 2, a lower resin housing 3, and a separation spring mechanism 7. The joint portion (hook spring) 4 of the upper resin casing 2 or the joint portion (hook joint groove) 5 of the lower resin casing 3 has a hook joint groove 5 inside the casing in the hook spring 4, respectively.
Then, a bimetal that deforms when heated to the outside of the housing was used. As the bimetal, a laminated alloy of nickel and brass was used.

When disassembling the housing of this embodiment, the temperature of the joint was raised by using hot water, warm air, electromagnetic waves, etc., and the bimetal was deformed to open the joint of the fitting portion. Further, by the restoring force of the spring mechanism 7 provided inside which is generated by this, the upper resin casing 2 and the lower resin casing 3 can be automatically and easily separated and disassembled. Since it is not necessary to heat the entire housing and only the joints 4 and 5 need to be heated, the housings can be separated and disassembled in a short time and at low cost, which is suitable for dismantling a large number of housings.

(Embodiment 5) With reference to FIG. 2, an embodiment of the invention of claim 4 in which both the casing and the joint are made of a shape memory resin will be described. The resin housing 1 of this embodiment is
It is composed of an upper resin housing 2 and a lower resin housing 3, and the upper resin housing 2 and the lower resin housing 3 are joined by a snap fit structure. The joint portion (hook spring) 4 of the upper resin casing 2 or the joint portion (hook joint groove) 5 of the lower resin casing 3 is located inside the casing 1 in the hook spring 4, respectively.
A shape memory resin stored in advance is used in the hook joint groove 5 so as to be deformed to the outside of the housing 1, and the upper resin housing 2 or the lower resin housing 3 is warped in the separating direction shown in FIG. When the recovery temperature of the shape memory resin is reached, the shape memory resin is transformed into the previously stored shape. As the shape memory resin, for example, a polynorporne resin having a recovery temperature of 40 ° C. to 80 ° C., a trans polyisoprene resin, or the like is used.

When the housing is disassembled, the entire housing is simply heated to the recovery temperature (40 ° C. to 80 ° C.) of the shape memory resin using hot water, warm air, electromagnetic waves, etc. Is deformed into a memorized shape, and at the same time as opening the joint, the reaction force of the warp of the housing can easily separate and dismantle the housing, which is less laborious than in the past and a large amount of It is also suitable for separating and disassembling the case of.

[0024]

According to the resin housing of the present invention, all the joints are automatically opened or the jointability is reduced only by the step of heating the resin casing or the joints. The housing is automatically separated and disassembled by the reaction force at the time of molding the part or the restoring force of the spring. As a result, there is no need to check the joints and there is no need to select a tool according to the joints, and it is possible to consistently and automatically perform the opening of the joints and the disassembly of the entire housing. By applying the resin housing of the present invention to electronic devices and home electric appliances, the housing can be disassembled and disassembled quickly, easily, easily and efficiently at the time of their disposal or recycling, and it requires less human labor than before. The present invention is also suitable for dismantling and disassembling a large number of housings.

[Brief description of drawings]

FIG. 1 is a sectional view of a resin casing showing a first embodiment of the present invention.

FIG. 2 is a sectional view of a resin casing showing the second and fifth embodiments of the present invention.

FIG. 3 is a cross-sectional view of a resin housing showing a third embodiment of the present invention.

FIG. 4 is a sectional view of a resin casing showing a fourth embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 case 2 upper case 3 lower case 4 joint (hook spring) 5 joint (hook joint groove) 6 electromagnetic wave absorption heat generating section 7 separation spring mechanism

Claims (5)

[Claims] 1. A plurality of casings made of resin having a heat distortion temperature and a joint for joining the casings together, the joint having a function of opening the joint by heating or A resin housing, which has a function of lowering bondability, and the housing portion has a housing separating function utilizing a reaction force due to a warp. 2. A housing comprising a plurality of housings made of resin having a heat distortion temperature, a joint connecting the housings, and a spring connecting the housings in the housing separating direction. A resin casing, wherein the joint portion has a function of opening the joint portion by heating or a function of lowering the joint property by heating, and the spring has a casing separation function utilizing a restoring force. 3. An electromagnetic wave absorption heating element is attached to the joint, or a resin having a large dielectric power factor is attached to the joint or is used as a material for the joint itself, or the joint The resin housing according to claim 1 or 2, wherein a shape memory resin, a shape memory alloy, or a bimetal which is processed so that the joint portion is opened at the time of heating is used for the portion. 4. The shape memory resin, which is stored in advance, is used for the housing portion and the joint portion so that the joint portion opens during heating and the casing warps in the separating direction. Resin enclosure. 5. Claim 1 or claim 2 or claim 3.
5. The method for disassembling a resin casing according to claim 4, wherein the casing is heated to raise the temperature of the joint or the entire casing to open the joint or reduce the jointability. Then, the method for disassembling the resin casing is characterized in that the resin casing is separated and disassembled.