KR20120039814A - Pocket spring structure for mattress - Google Patents

Abstract

PURPOSE: A pocket spring for a mattress capable of enduring the compressive strength by the load using a rigid-supporting end is provided to prevent the deformation of a spring. CONSTITUTION: A pocket spring includes a pocket and upper and lower springs(12). The upper and lower springs are integrated to the upper and lower sides of a main spring(20) winded to the predetermined coiling times. The pocket is formed with a fabric for sealing and storing the springs. A rigid-supporting end(30) is integrated with parts of the main spring.

Description

Pocket spring structure for mattress

The present invention relates to a pocket spring for the mattress, and more particularly, to form a rigid support end that withstands the compressive strength according to the load action in a portion of the spring inherent in the sealed pocket to prevent deformation of the spring. At the same time, the present invention relates to a pocket spring for the mattress that can extend the life of the spring.

In general, a pocket spring-embedded mattress is a means for providing cushioning force and cushioning force mounted on a bed frame and the like, and will be briefly described with reference to FIG.

Providing a pocket spring (10) sealed in a pocket (14) made of fabric paper with a single spring (12) embedded therein; Arranging the plurality of pocket springs 10 closely and equally at right and left over the mattress area; Continuously stacking a plurality of cushion means including air band foam, memory foam, felt and nonwoven fabric, etc. as the intermediate member 16 above the pocket spring 10; The pocket spring 10 and the intermediate member 16 is covered with a cover member 18, and then a mating process is completed through a step of sealing the joints of the cover member 18 with a sealing means.

Here, look at the conventional pocket spring structure used in the mattress as follows.

15A and 15B are a perspective view and a side view showing an example of a conventional pocket spring structure.

As shown in Figs. 15A and 15B, a conventional pocket spring consists of a pocket 14 made of woven paper and a spring 12 enclosed in and sealed in the pocket 14.

The spring 12 has a coil body main body 20 of the coil shape that gradually decreases in diameter in the vertical direction from the center portion, and the upper end extending flat winding at the point where the upper end winding 22 of the body spring 20 ends It can be divided into a spring 24 and a lower spring 28 extending flat and wound at the point where the lowermost winding 26 of the body spring 20 ends.

However, when the pocket spring is manufactured by applying the conventional spring, and the pocket spring is installed in a mattress for a bed, there are the following disadvantages.

After the load applied to the mattress is first buffered at the intermediate members 16, the buffer 12 is finally absorbed and absorbed by the spring 12 of each pocket spring 10. In the main body spring 20 of 12) it is finally buffered and absorbed.

When such different loads are irregularly concentrated on the body spring 20 of each pocket spring 10, there is a fear that the body spring 20 portion of the spring 12 built into the pocket 14 may be deformed quickly. As the springs 12 are deformed, neighboring pocket springs 10 may be in contact with each other, causing noise.

In addition, since the spring in the conventional pocket spring is not provided with a separate means for strengthening the elastic compressive strength, the spring is too easily compressed and deformed at the same time the elastic force of the bed is too large, rather there is a disadvantage that the comfort of the bed is halved.

The present invention has been made to solve the above-mentioned conventional problems, by integrally forming a separate rigid support end that can withstand the compressive strength according to the load in one section of the spring in the pocket made of fabric paper, It is an object of the present invention to provide a pocket spring for a mattress that can easily prevent deformation of a spring even when large and small loads are concentrated repeatedly irregularly, and can further extend the life of the spring and further improve the quality of the mattress.

The present invention for achieving the above object is a spring comprising a body spring wound at a predetermined number of turns, and the top and bottom springs integrally connected to the upper and lower portions of the body spring, respectively; A pocket for internally sealing the spring; It is configured to provide a pocket spring for the mattress, characterized in that formed by forming a separate rigid support end integrally withstands the compressive strength when a load acts on some sections of the body spring of the spring.

In a preferred embodiment, the rigid support end is perpendicular to the top winding of the body spring connected to the upper spring is characterized in that it is integrally formed.

In another preferred embodiment, the rigid support end is formed integrally only with the upper winding of the body spring connected to the upper spring, the upper and lower ends are bent at an obtuse or acute angle to be inclined.

In another preferred embodiment, the rigid support end is perpendicular to the lowermost winding of the body spring connected to the bottom spring, characterized in that formed integrally.

In another preferred embodiment, the rigid support end is integrally formed only on the lowermost winding of the body spring connected to the bottom spring, and the top and bottom ends are bent at an obtuse or acute angle to be inclined.

In another preferred embodiment, the rigid support end is perpendicular to the uppermost winding of the body spring connected to the top spring and is formed perpendicularly to the first rigid support end formed integrally with the bottom winding of the body spring connected to the bottom spring. It is erected as characterized in that consisting of a second rigid support end formed integrally.

In another preferred embodiment, the rigid support end, the first rigid support end is bent at an obtuse angle or acute angle to the upper end winding of the body spring is connected to the top spring is formed obliquely, and the body is connected to the bottom spring The upper and lower ends of the spring are bent at an obtuse angle or an acute angle, and the second rigid support end is formed to be inclined.

In another preferred embodiment, the rigid support end is perpendicular to the middle winding of the body spring, characterized in that formed integrally.

In another preferred embodiment, the rigid support is integrally formed only in the middle winding of the body spring, the upper and lower ends are bent at an obtuse or acute angle, characterized in that formed inclined.

In another preferred embodiment, the rigid support end is vertically established only in a section in which the middle winding and the top winding of the body spring are connected, characterized in that formed integrally.

In another preferred embodiment, the rigid support end is integrally formed only in the section in which the middle winding and the top winding of the body spring are connected, and the top and bottom are bent at an obtuse angle or an acute angle to be inclined.

As another preferred embodiment, the rigid support end is characterized in that it is vertically standing and integrally formed only in a section in which the middle winding and the lowest winding of the body spring are connected.

As another preferred embodiment, the rigid support end is integrally formed only in the section in which the middle winding and the lower winding of the body spring are connected, the upper and lower ends are bent at an obtuse angle or an acute angle to be inclined.

In another preferred embodiment, the rigid support end is perpendicular to the section in which the middle winding of the body spring and the uppermost winding is connected to the first rigid support end is formed integrally, the middle winding and the lower winding of the body spring is connected It is characterized in that it consists of a second rigid support end that is vertically erected vertically to be a section.

In another preferred embodiment, the rigid support end, the first rigid support end is bent to form an obtuse or acute angle in the interval between the upper end and the lower end of the body spring and the main winding of the body spring, and the body of the spring It characterized in that it consists of a second rigid support end which is bent to form an obtuse or acute angle at the bottom of the upper end in the section in which the intermediate winding and the lowest winding is connected.

Through the above problem solving means, the present invention provides the following effects.

According to the present invention, a separate rigid support end capable of withstanding the compressive strength according to the load is integrally formed in one section of the spring which is enclosed in the pocket and sealed, so that the spring is not compressed by the rigid support end when small load is applied. To provide cushioning force only in the intermediate member, and when a large load is applied, the spring is directly compressed to provide cushioning cushioning force, thereby providing a suitable elasticity to the mattress user and preventing deformation of the spring.

In other words, when a small load is applied to the mattress (a user's torsional load), the load is transmitted from the rigid support end to the spring to prevent the shock from being absorbed and absorbed by the intermediate member. When a load such as a moment of sitting is applied, a large load can be transmitted from the rigid support end to the spring to cushion / absorb the shock in the spring in the pocket.

Thus, by the rigid support end of the present invention, as the spring in the pocket is compressed while large and small loads are distributed, it is possible to prevent the deformation of the spring and at the same time extend the life of the spring.

1A and 1B are perspective and side cross-sectional views showing a pocket spring for a mattress according to a first embodiment of the present invention, and FIG. 1C is a partial cross-sectional perspective view showing a mattress structure to which a pocket spring is applied according to the first embodiment of the present invention.
Figure 2a and 2b is a perspective view and a side cross-sectional view showing a pocket spring for the mattress according to a second embodiment of the present invention, Figure 2c is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the second embodiment of the present invention is applied.
3A and 3B are perspective and side cross-sectional views showing a pocket spring for a mattress according to a third embodiment of the present invention, and FIG. 3C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the third embodiment of the present invention is applied.
Figures 4a and 4b is a perspective view and a side cross-sectional view showing a pocket spring for the mattress according to a fourth embodiment of the present invention, Figure 4c is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the fourth embodiment of the present invention.
5a and 5b are a perspective view and a side cross-sectional view showing a pocket spring for a mattress according to a fifth embodiment of the present invention, Figure 5c is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the fifth embodiment of the present invention is applied.
6A and 6B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to a sixth embodiment of the present invention, and FIG. 6C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring is applied according to the sixth embodiment of the present invention.
7a and 7b are a perspective view and a side cross-sectional view showing a pocket spring for a mattress according to a seventh embodiment of the present invention, Figure 7c is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the seventh embodiment of the present invention.
8A and 8B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to an eighth embodiment of the present invention, and FIG. 8C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the eighth embodiment of the present invention is applied.
9A and 9B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to a ninth embodiment of the present invention, and FIG. 9C is a partial cross-sectional perspective view showing a mattress structure to which a pocket spring is applied according to a ninth embodiment of the present invention.
10A and 10B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to a tenth embodiment of the present invention, and FIG. 10C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the tenth embodiment of the present invention is applied.
11A and 11B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to an eleventh embodiment of the present invention, and FIG. 11C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the eleventh embodiment of the present invention is applied.
12A and 12B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to a twelfth embodiment of the present invention, and FIG. 12C is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the twelfth embodiment of the present invention is applied.
13A and 13B are perspective and side cross-sectional views illustrating a pocket spring for a mattress according to a thirteenth embodiment of the present invention, and FIG. 13C is a partial cross-sectional perspective view showing a mattress structure to which a pocket spring according to a thirteenth embodiment of the present invention is applied.
14a and 14b are a perspective view and a side cross-sectional view showing a pocket spring for a mattress according to a fourteenth embodiment of the present invention, Figure 14c is a partial cross-sectional perspective view showing a mattress structure to which the pocket spring according to the fourteenth embodiment of the present invention.
15A and 15B are perspective and side cross-sectional views showing a conventional pocket spring, and FIG. 15C is a partial cross-sectional perspective view for explaining a mattress structure to which a conventional pocket spring is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As described above, the pocket spring 10 is composed of a pocket 14 made of woven paper and a spring 12 which is internally sealed in the pocket 14.

These pocket springs 10 are arranged in close contact with each other at equal intervals on the mattress area, and a plurality of layers including air band foams, memory foams, felts and nonwoven fabrics as intermediate members 16 above the pocket springs 10. After continuously stacking the cushioning means, the pocket spring 10 and the intermediate member 16 are covered with the cover member 18 to be sealed, thereby completing a mattress having the pocket spring 10 embedded therein.

The present invention has a main feature in that a separate rigid support end 30 is integrally formed in a section of the spring 12 which is built and sealed in the pocket 14 of the pocket spring 10.

Therefore, according to the present invention, when a small load acts on the mattress, the spring 10 is not compressed by the rigid support end 30 while buffering the impact in the intermediate member 16 stacked above the spring. On the other hand, when a large load is applied, the spring 12 having the rigid support end 30, including the intermediate member 16, can be easily absorbed while compressing the shock. By allowing the inner spring to be compressed, it is possible to prevent the deformation of the spring and at the same time extend the life of the spring.

Here, with reference to Figures 1a to 1c attached to the structure and working state of the pocket spring for the mattress according to the first embodiment of the present invention are as follows.

The pocket spring 10 according to the first embodiment of the present invention comprises a pocket 14 made of woven paper and a spring 12 which is internally sealed in the pocket 14 and is rigidly supported in an upper section of the spring. It is characterized in that the stage 30 is formed integrally.

That is, the spring 12 according to the first embodiment of the present invention, which is built and sealed in the pocket 14, has a coil shape having the same diameter along the vertical direction, or a coil whose diameter gradually decreases from the center portion to the vertical direction. Or a top spring extending flat and wound at the end of the main spring 20 formed of a coil shape, the diameter of which gradually increases in the vertical direction from the center, or the upper end of the main spring 20 ( 24 and the lower spring 28 extending flat and extending at the end of the lower winding 26 of the body spring 20, the rigid support end 30 of the body spring 20 It is erected vertically only at the top winding 22 and formed integrally.

Preferably, the rigid support end 30 is vertically formed at the same time the upper end and the lower end is integrally formed at the middle point of the upper end winding 22 connected to the upper spring 24 of the entire section of the body spring 20 Let it stand.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. It is cushioned in the stacked cushion means), withstands a small load in the rigid support end 30 and prevents the compressive strength according to the small load from being transmitted to the spring 12 in the pocket 14.

Thus, when a small load is applied, since the compressive strength according to the small load is prevented from being transmitted from the rigid support end 30 to the spring 12, the spring 12 is protected while not causing large deformation. As a result, deformation of the spring 12 in the pocket 14 can be prevented and life can be extended.

On the other hand, when a larger load (such as a user's instantaneous sitting) is applied to the mattress, the compressive strength according to the large load is transmitted to the spring 12 in the pocket 14 through the rigid support end 30. The shock absorbed by the main body spring 20 constituting the spring 12 is in a state of being compressed and cushioned, so that the original function of the pocket spring 10 is exerted.

According to the magnitude of the load applied to the mattress, the degree of endurance of the compressive strength of the rigid support end 30 is different, so that the shock absorbing function of the pocket spring 10 clarifies the shock absorption process according to the large load and the small load. Can be provided to the mattress user while distinguishing between a large load and a small load, and in particular, the elastic compression of the spring 12 in the pocket 14 by the rigid support end 30. The operation is clearly divided according to the load size, so that the spring can be prevented from deforming and extending the life.

Here, with reference to Figures 2a to 2c attached to the structure and operation state of the pocket spring for the mattress according to the second embodiment of the present invention as follows.

The pocket spring 10 according to the second embodiment of the present invention comprises a pocket 14 made of woven paper and a spring 12 which is internally sealed in the pocket 14 and is rigidly supported in a lower section of the spring. It is characterized in that the stage 30 is formed integrally.

That is, the spring 12 according to the second embodiment of the present invention, which is built and sealed in the pocket 14, has a coil shape having the same diameter along the vertical direction, or a coil whose diameter gradually decreases from the center portion to the vertical direction. Shape or a coil spring whose diameter gradually increases from the center portion to the vertical direction, and an upper spring extending flat and wound at the point where the uppermost winding 22 of the body spring 20 ends. 24 and the bottom spring 28 which is flattened and extended at the point where the bottom winding 26 of the body spring 20 ends, in particular, the rigid support end 30 is the body spring 20. Only the lowest winding 26 of the vertical stand vertically formed integrally.

Preferably, the rigid support end 30 is vertically formed at the same time the upper end and the lower end integrally formed at the middle point of the lowest winding 26 connected to the lower spring 28 of the entire section of the body spring 20 Let it stand.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. A plurality of cushioning means stacked) and at the same time a small load in the body spring 20 of the spring 12 embedded in the pocket 14 is gently buffered.

On the other hand, when a larger load (a load such as a user is sitting by the user) is applied to the mattress, the compressive strength according to the large load is primarily buffered by the intermediate member 16 and at the same time, up to the spring 12 in the pocket 14. The main body spring 20 constituting the spring 12 is transmitted, and the shock is brought into a state in which the shock is softly cushioned.

That is, when a large load acts on the mattress, the impact is transmitted to the main body spring 20 constituting the spring 12, but the main body spring at the rigid support end 30 integrated under the main body spring 20. As it is in the state of supporting the (20), the natural function of the pocket spring 10, which provides a soft buffering force can be exerted, and the spring 12 has a large deformation due to the bearing force of the rigid support end 30 It is prevented from occurring and protected, and similarly, the deformation | transformation prevention and the life extension of the spring 12 in the pocket 14 can be aimed at.

Herein, a structure and an operation state of the pocket spring for a mattress according to the third embodiment of the present invention will be described with reference to FIGS. 3A to 3C.

The pocket spring 10 according to the third embodiment of the present invention comprises a pocket 14 made of woven paper and a spring 12 which is internally sealed in the pocket 14, and includes both upper and lower sections of the spring. The rigid support end 30 is characterized in that the integrally formed.

That is, the spring 12 according to the third embodiment of the present invention, which is enclosed and sealed in the pocket 14, has a coil shape having the same diameter along the vertical direction, or a coil whose diameter gradually decreases from the center portion to the vertical direction. Shape or a coil spring whose diameter gradually increases from the center portion to the vertical direction, and an upper spring extending flat and wound at the point where the uppermost winding 22 of the body spring 20 ends. 24 and the bottom spring 28 which is flattened and extended at the point where the bottom winding 26 of the body spring 20 ends, in particular, the rigid support end 30 is the body spring 20. The uppermost winding 22 and the lowest winding 26 of both are vertically erect and are integrally formed at the same time.

In more detail, the rigid support end 30 according to the third embodiment of the present invention is perpendicular to the uppermost winding 22 of the body spring 20 and is formed integrally with the first rigid support end 30a. , Perpendicular to the lowermost winding 26 of the body spring 20, and composed of a second rigid support end 30b integrally formed.

Preferably, the first rigid support end 30a is integrally formed with the upper end and the lower end at an intermediate point of the uppermost winding 22 connected to the upper spring 24 in the entire section of the body spring 20. The second rigid support end 30b is vertically erected, and the upper and lower ends of the second rigid support end 30b are integrally formed at an intermediate point of the lowermost winding 26 connected to the lower spring 28 among the entire sections of the body spring 20. At the same time it is formed to be in a vertical position.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. Multi-layer cushioning means), and withstands a small load at the first rigid support end 30a of the rigid support end 30 and compresses the spring 12 in the pocket 14 according to the small load. This will block the transfer of strength.

Therefore, when a small load acts on the mattress, the compressive strength according to the small load is prevented from being transmitted from the first rigid support end 30a to the spring 12, so that the spring 12 does not generate a large deformation. At the same time, it is in a protected state, so that the deformation of the spring 12 in the pocket 14 can be prevented and the life can be extended.

On the other hand, when a larger load (a load such as a user is sitting momentarily) is applied to the mattress, the compressive strength according to the large load is transmitted to the spring 12 in the pocket 14 through the first rigid support end 30a. At the same time, the main body spring 20 constituting the spring 12 is compressed and buffered at the same time, and at the same time, the main body spring 20 is supported by the second rigid support end 30b. Not only does the pocket spring 10 have its original function, but also the deformation of the spring is prevented and protected by the bearing force of the second rigid support end 30b.

According to the load size applied to the mattress, the shock absorbing function of the pocket spring 10 by the first rigid support end (30a) is exhibited by clearly distinguishing the shock absorbing process according to the large load and the small load, Since the pocket spring 10 is generally protected by the supporting force of the second rigid support end 30b when a large load is applied, it may provide a suitable elasticity and comfort for the mattress user while distinguishing between a large load and a small load. It is possible to obtain the effect of preventing deformation and extending the life of the spring in the pocket.

Here, with reference to Figures 4a to 4c attached to the structure and the working state of the pocket spring for the mattress according to the fourth embodiment of the present invention as follows.

The spring 12 of the pocket spring 10 according to the fourth embodiment of the present invention also has a coil shape having the same diameter in the vertical direction, or a coil shape whose diameter gradually decreases from the center portion in the vertical direction, or in the central portion. A main spring 20 having a coil shape gradually increasing in diameter in an up and down direction, an upper spring 24 extending flatly at a point where the upper end winding 22 of the main spring 20 ends, and At the end of the lower end winding 26 of the body spring 20 can be divided into a flat winding and extending bottom spring 28, in particular the rigid support end 30 is the intermediate winding 25 of the body spring 20 ) Is built vertically and is integrally formed.

Preferably, the rigid support end 30 is such that the upper end and the lower end are integrally formed at the middle winding 25 constituting the center of the entire section of the main body spring 20, and stand vertically.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. In the case of a plurality of stacked cushioning means, and in the case where a larger load (a load such as a user is sitting momentarily) is applied to the mattress, the intermediate member 16 is first buffered and at the same time the inside of the pocket 14 It is transmitted to the spring 12, and the shock is in a state where the uppermost winding 22 of the upper side of the body spring 20 constituting the spring 12 is compressed and gently cushioned.

In addition, when a large load acts on the mattress, the impact is transmitted to the main body spring 20 constituting the spring 12, but the main body spring (at the rigid support end 30 which is integral with the main body spring 20). 20) as the supporting state, the natural function of the pocket spring 10, which provides a soft buffering force can be exhibited, and eventually the spring 12 is a large deformation occurs by the bearing force of the rigid support end 30 It is also possible to prevent the deformation of the spring 12 in the pocket 14 and to extend the service life.

Herein, a structure and an operation state of the pocket spring for a mattress according to the fifth embodiment of the present invention will be described with reference to FIGS. 5A to 5C.

The pocket spring 10 according to the fifth embodiment of the present invention is composed of a pocket 14 made of fabric paper and a spring 12 which is internally sealed in the pocket 14, and the main body spring of the upper section of the spring. It is characterized in that the rigid support end 30 is integrally formed in the winding corresponding to the section between the middle winding 25 and the uppermost winding 22 of (20).

That is, the spring 12 according to the fifth embodiment of the present invention, which is built and sealed in the pocket 14, also has a coil shape having the same diameter along the up and down direction, or a coil whose diameter gradually decreases from the center to the up and down direction. Shape or a coil spring whose diameter gradually increases from the center portion to the vertical direction, and an upper spring extending flat and wound at the point where the uppermost winding 22 of the body spring 20 ends. 24 and the bottom spring 28 which is flattened and extended at the point where the bottom winding 26 of the body spring 20 ends, in particular, the rigid support end 30 is the body spring 20. Only the winding corresponding to the section between the middle winding 25 and the uppermost winding 22 of the vertical and is formed integrally.

Preferably, the rigid support end 30 is integrally formed between the middle winding 25 and the top winding 22 of the entire section of the body spring 20, the lower end of the intermediate winding 25 is the end point It is connected integrally with, and at the same time, the upper end thereof is connected to the point where the uppermost winding 22 starts to be in a vertical position.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. It is cushioned in the stacked cushion means), withstands a small load in the rigid support end 30 and prevents the compressive strength according to the small load from being transmitted to the spring 12 in the pocket 14.

Thus, when a small load is applied, since the compressive strength according to the small load is prevented from being transmitted from the rigid support end 30 to the spring 12, the spring 12 is protected while not causing large deformation. As a result, deformation of the spring 12 in the pocket 14 can be prevented and life can be extended.

On the other hand, when the mattress is subjected to a larger load (such as a user's instantaneous sitting), the compressive strength according to the large load is transmitted to the spring 12 in the pocket 14 through the rigid support end 30 at the same time. The shock absorbed by the main body spring 20 constituting the spring 12 is in a state of being compressed and cushioned, so that the original function of the pocket spring 10 is exerted.

Similarly, according to the fifth embodiment of the present invention, as the rigid support end 30 is integrally formed between the middle winding 25 and the uppermost winding 22 of the body spring 20 constituting the pocket spring, the pocket spring The shock absorbing function of (10) is exhibited by clearly distinguishing the shock absorption process according to the large load and the small load by the rigid support end 30, and the elasticity and comfort suitable for the mattress user while distinguishing the large load and the small load In particular, the elastic compression operation of the spring 12 in the pocket 14 by the rigid support end 30 is clearly distinguished operation according to the load size, it is possible to obtain the effect of preventing the deformation and extending the life of the spring. .

Here, with reference to Figures 6a to 6c attached to the structure and the working state of the pocket spring for the mattress according to the sixth embodiment of the present invention are as follows.

The pocket spring 10 according to the sixth embodiment of the present invention comprises a pocket 14 made of fabric paper and a spring 12 which is internally sealed in the pocket 14, and the main body spring of the upper section of the spring. It is characterized in that the rigid support end 30 is integrally formed in the winding corresponding to the section between the middle winding 25 and the lowest winding 26 of (20).

That is, the spring 12 according to the sixth embodiment of the present invention, which is internally sealed in the pocket 14, also has a coil shape having the same diameter along the up and down direction, or a coil whose diameter gradually decreases from the center to the up and down direction. Shape or a coil spring whose diameter gradually increases from the center portion to the vertical direction, and an upper spring extending flat and wound at the point where the uppermost winding 22 of the body spring 20 ends. 24 and the bottom spring 28 which is flattened and extended at the point where the bottom winding 26 of the body spring 20 ends, in particular, the rigid support end 30 is the body spring 20. Vertically standing only the winding corresponding to the section between the middle winding 25 and the lowest winding 26 of the integrally formed.

Preferably, the rigid support end 30 is integrally formed between the middle winding 25 and the lower winding 26 of the entire section of the body spring 20, the upper end of the intermediate winding 25 is the end point Are integrally connected to, and at the same time, the lower end thereof is integrally connected to the starting point of the lowermost winding 26 so as to stand vertically.

Therefore, when a small load (a user's torsional load) is applied to the mattress, the impact is continuously stacked on the pocket spring 10 with the intermediate members 16 including air band foam, memory foam, felt and nonwoven fabric, and the like. At the upper winding 22 of the body spring 20 of the spring 12 embedded in the pocket 14, i. It gently cushions the load.

On the other hand, when a larger load (a load such as a user sits momentarily) is applied to the mattress, the shock is softened and softly cushioned to the main body spring 20 constituting the spring 12, and at this time, a large load Shock is transmitted to the body spring 20 constituting the spring 12, but the body spring at the rigid support end 30 formed integrally between the middle winding 25 and the lowest winding 26 of the body spring 20 As it is in the state of supporting the (20), the natural function of the pocket spring 10, which provides a soft buffering force can be exerted, and the spring 12 has a large deformation due to the bearing force of the rigid support end 30 It is prevented from occurring and protected, and similarly, the deformation | transformation prevention and the life extension of the spring 12 in the pocket 14 can be aimed at.

Here, with reference to Figures 7a to 7c attached to the structure and operation state of the pocket spring for the mattress according to the seventh embodiment of the present invention are as follows.

The pocket spring 10 according to the seventh embodiment of the present invention comprises a pocket 14 made of fabric paper and a spring 12 which is internally sealed in the pocket 14, and the main body spring of the upper section of the spring. The rigid support end 30 corresponding to the section between the middle winding 25 and the uppermost winding 22 of the 20 and the section between the middle winding 25 and the lower winding 26 is integrally formed. There is this.

That is, the spring 12 according to the seventh embodiment of the present invention, which is enclosed and sealed in the pocket 14, has a coil shape having the same diameter along the vertical direction, or a coil whose diameter gradually decreases from the center portion to the vertical direction. Shape or a coil spring whose diameter gradually increases from the center portion to the vertical direction, and an upper spring extending flat and wound at the point where the uppermost winding 22 of the body spring 20 ends. 24 and the bottom spring 28 which is flattened and extended at the point where the bottom winding 26 of the body spring 20 ends, in particular, the rigid support end 30 is the body spring 20. Perpendicular to the section between the intermediate winding 25 and the uppermost winding 22 of the first and the first rigid support end (30a) and integrally formed, the section between the intermediate winding 25 and the lower winding (26) of Built in one Is composed of the rigid supporting end (30b) is formed.

Preferably, the first rigid support end 30a is integrally connected to the lower end of the upper end of the intermediate winding 25 of the entire section of the body spring 20, the upper end of the upper winding 22 It is connected integrally to the starting point so as to be in a vertical position, the second rigid support end 30b is the upper end of the end of the intermediate winding 25 of the entire section of the body spring 20, the upper end It is integrally connected, and the lower end thereof is connected integrally to the starting point of the lowest winding 26 so as to be standing vertically.

Therefore, according to the seventh embodiment of the present invention, when a small load (a user's torsional load) is applied to the mattress, the impact is laminated on the pocket spring 10, the intermediate member 16 (air band foam, Memory foam, and a plurality of cushioning means in which a felt and a nonwoven fabric are continuously stacked), and endures a small load in the first rigid support end 30a of the rigid support end 30 and in the pocket 14. It prevents the compressive strength according to the small load from being transmitted to the spring 12.

Accordingly, when a small load is applied to the mattress, the shock is softly cushioned at the uppermost winding 22 portion above the first rigid support end 30a and at the bottom of the first rigid support end 30a according to the small load. Since the compressive strength is prevented from being transmitted, the spring 12 is in a protected state at the same time without large deformation occurring, and thus, the deformation of the spring 12 in the pocket 14 can be prevented and the life can be extended.

On the other hand, when a larger load (a load such as a user is sitting momentarily) is applied to the mattress, the compressive strength according to the large load is transmitted to the spring 12 in the pocket 14 through the first rigid support end 30a. At the same time, the main body spring 20 constituting the spring 12 is compressed and buffered at the same time, and at the same time, the main body spring 20 is supported by the second rigid support end 30b. Not only does the pocket spring 10 have its original function, but also the deformation of the spring is prevented and protected by the bearing force of the second rigid support end 30b.

According to the load size applied to the mattress, the shock absorbing function of the pocket spring 10 by the first rigid support end (30a) is exhibited by clearly distinguishing the shock absorbing process according to the large load and the small load, Since the pocket spring 10 is generally protected by the supporting force of the second rigid support end 30b when a large load is applied, it may provide a suitable elasticity and comfort for the mattress user while distinguishing between a large load and a small load. It is possible to obtain the effect of preventing deformation and extending the life of the spring in the pocket.

Here, with reference to Figures 8a to 14c attached to the structure and operation state of the pocket spring for mattress according to the eighth to fourteenth embodiment of the present invention as follows.

The pocket spring 10 according to the eighth to fourteenth embodiments of the present invention also includes a pocket 14 made of woven paper and a spring 12 which is internally sealed in the pocket 14 and constitutes a spring 12. The main body spring 20 is characterized in that the rigid support end 30 bent at an obtuse angle or acute angle is formed integrally.

In the eighth embodiment of the present invention, the rigid support end 30 is formed at the same position (the uppermost winding) as the first embodiment, and the upper and lower ends of the rigid support end 30 as shown in Figs. 8A to 8C. The connecting portion is bent at an obtuse angle and formed to be inclined, and of course, although not shown, the upper and lower ends of the rigid support end 30 may be bent at an acute angle with the connecting portion to be inclined.

In the ninth embodiment of the present invention, the rigid support end 30 is formed at the same position (lower winding) as the second embodiment, and the upper and lower ends of the rigid support end 30 are shown in FIGS. 9A to 9C. The connecting portion is bent at an obtuse angle and formed to be inclined, and of course, although not shown, the upper and lower ends of the rigid support end 30 may be bent at an acute angle with the connecting portion to be inclined.

In the tenth embodiment of the present invention, the rigid support end 30 is formed at the same position as the third embodiment (the uppermost winding and the lowermost winding), and as shown in FIGS. 10A to 10C, the first and second rigid supports are shown. The upper and lower ends of the ends 30a and 30b are bent at an obtuse angle with the connecting portion, and are formed to be inclined, and of course, although not shown, the upper and lower ends of the first and second rigid support ends 30a and 30b are acute from the connecting portion. It may be bent to be formed to be inclined.

In the eleventh embodiment of the present invention, the rigid support end 30 is formed at the same position as the fourth embodiment (intermediate winding of the body spring), and as shown in FIGS. 11A to 11C, The top and bottom are bent at an obtuse angle with the connecting portion, and of course, although not shown, the top and bottom of the rigid support end 30 may be bent at an acute angle with the connecting portion and may be inclined.

In the twelfth embodiment of the present invention, the rigid support end 30 is formed at the same position as the fifth embodiment (the winding corresponding to the section between the uppermost winding and the intermediate winding), and as shown in FIGS. 12A to 12C. The top and bottom of the support end 30 is bent at an obtuse angle with the connection portion is formed obliquely, of course, although not shown, the top and bottom of the rigid support end 30 may be bent at an acute angle with the connection portion may be formed obliquely. .

In the thirteenth embodiment of the present invention, the rigid support end 30 is formed at the same position as the sixth embodiment (the winding corresponding to the section between the lower winding and the middle winding), and as shown in FIGS. 13A to 13C. The top and bottom of the support end 30 is bent at an obtuse angle with the connection portion is formed obliquely, of course, although not shown, the top and bottom of the rigid support end 30 may be bent at an acute angle with the connection portion may be formed obliquely. .

In the fourteenth embodiment of the present invention, the rigid support end 30 is formed at the same position as the seventh embodiment (the section between the uppermost winding and the intermediate winding, and the section between the lowermost winding and the intermediate winding), as shown in FIGS. 14A to 14C. As shown, the upper and lower ends of the first and second rigid support ends 30a and 30b are bent at an obtuse angle with the connecting portion to be inclined, and of course, the first and second rigid support ends 30a and 30b are not shown. The top and bottom of the) may be bent at an acute angle with the connection portion may be formed to be inclined.

According to the pocket spring according to the eighth to fourteenth embodiments, the rigid support end 30 has an inclined shape in which the upper and lower ends thereof are bent at an obtuse angle or an acute angle, and according to the first to seventh embodiments. Compared to the vertical rigid support, the rigidity in the vertical direction is slightly weaker, and the shock absorbing process according to the magnitude of the load applied to the mattress is clearly distinguished, and at the same time, the softer shock absorbing can be achieved.

That is, since the rigid support end 30 of the pocket spring according to the eighth to fourteenth embodiments is inclined state, the rigid support end 30 itself is also partially compressed by the load, which is applied to the mattress. It clearly distinguishes the shock absorbing process according to the load size and performs a softer shock absorbing function.

Similarly, according to the eighth to fourteenth embodiments, the rigid support end 30 having an inclined shape can provide a feeling of elasticity and comfort suitable for a mattress user while distinguishing between a large load and a small load, in particular, the rigid support end ( By 30), the elastic compression operation of the spring 12 in the pocket 14 can be clearly operated according to the load size, thereby obtaining the effect of preventing the deformation and extending the life of the spring.

On the other hand, the respective embodiments for forming the rigid support end 30 integrally to the body spring 20 constituting the pocket spring of the present invention as described above, as another embodiment the middle winding of the body spring 20 A total of three rigid support ends 30 can be formed simultaneously with the top winding 22, the bottom winding 26, and the like. In another embodiment, the middle winding 25 of the body spring 20 can be formed. And, at the same time, a total of three rigid support ends 30 may be simultaneously formed in the winding corresponding to the section between the intermediate winding 25 and the uppermost winding 22 and the winding corresponding to the section between the intermediate winding and the lower winding 26. Can be.

In this way, the rigid support end 30 applied to the pocket spring of the present invention described above, the top winding 22, the bottom winding 26, the top and bottom windings 22, 26, the intermediate winding of the body spring 20 Although described with reference to (25) and the like, it will be understood that it can be formed at any position of the body spring 20 constituting the spring of the pocket spring.

10: pocket spring 12: spring
14 pocket 16 intermediate member
18: cover member 20: body spring
22: top winding 24: top spring
25: middle winding 26: bottom winding
28: lower spring 30: rigid support end
30a: first rigid support end 30b: second rigid support end

Claims (15)

A spring 12 composed of a body spring 20 wound by a predetermined number of turns, and an upper spring 24 and a lower spring 28 integrally connected to upper and lower portions of the body spring 20, respectively;
A pocket (14) which internally seals the spring (12);
But with
Mattress pocket spring, characterized in that formed by integrally forming a separate rigid support end 30 to withstand the compressive strength when a load acts on a portion of the body spring (20) of the spring (12).
The method according to claim 1,
The rigid support end (30) is a vertical pocket spring mattress, characterized in that it is vertically erected only in the uppermost winding 22 of the body spring (20) connected to the upper spring (24).
The method according to claim 1,
The rigid support end 30 is formed integrally only with the upper end winding 22 of the body spring 20 connected to the upper spring 24, the upper and lower ends are bent at an obtuse or acute angle, characterized in that formed inclined Pocket spring for mattress.
The method according to claim 1,
The rigid support end 30 is vertically erected vertically only on the lowermost winding 26 of the body spring 20 connected to the bottom spring 28, characterized in that the pocket spring for mattress.
The method according to claim 1,
The rigid support end 30 is integrally formed only at the lower end winding 26 of the body spring 20 connected to the lower spring 28, the upper and lower ends are bent at an obtuse or acute angle to be inclined. Pocket spring for mattress.
The method according to claim 1,
The rigid support end 30 is perpendicular to the uppermost winding 22 of the body spring 20 connected to the upper spring 24, and formed integrally with the first rigid support end 30a and the lower spring ( A pocket spring for a mattress, characterized in that it consists of a second rigid support end (30b) which is vertically erected and formed integrally with the lowermost winding (26) of the body spring (20) connected with the body (28).
The method according to claim 1,
The rigid support end 30 is the first rigid support end (30a) is bent at an obtuse angle or an acute angle at the upper end and the lower end of the main winding (22) of the body spring 20 connected to the upper end spring (24) ), And a second rigid support end 30b formed at an upper end and a lower end of the main body spring 20 connected to the lower spring 28 and bent at an obtuse or acute angle to be inclined. Pocket springs for mattresses.
The method according to claim 1,
The rigid support end 30 is perpendicular to the middle winding 25 of the main body spring (20) perpendicular to the pocket spring for the mattress, characterized in that formed integrally.
The method according to claim 1,
The rigid support end 30 is formed integrally only in the middle winding 25 of the body spring 20, the upper and lower ends of the pocket spring for mattresses, characterized in that formed inclined at an obtuse or acute angle.
The method according to claim 1,
The rigid support end 30 is a vertical pocket spring mattress, characterized in that the vertical standing only in the section in which the middle winding 25 and the top winding 22 of the main body spring 20 is formed integrally.
The method according to claim 1,
The rigid support end 30 is integrally formed only in the section in which the intermediate winding 25 and the uppermost winding 22 of the body spring 20 are connected, and the upper and lower ends thereof are bent at an obtuse angle or an acute angle to be inclined. Pocket spring for mattresses.
The method according to claim 1,
The rigid support end (30) is a pocket spring for the mattress, characterized in that it is vertically erected vertically only in the section in which the middle winding 25 and the lowest winding 26 of the body spring 20 is connected.
The method according to claim 1,
The rigid support end 30 is integrally formed only in the section in which the intermediate winding 25 and the lower winding 26 of the body spring 20 are connected, and the upper and lower ends thereof are bent at an obtuse angle or an acute angle to be inclined. Pocket spring for mattresses.
The method according to claim 1,
The rigid support end 30 is perpendicular to the section in which the middle winding 25 and the uppermost winding 22 of the body spring 20 are connected, and is formed integrally with the first rigid support end 30a and the main body. Pocket spring for the mattress, characterized in that it consists of a second rigid support end (30b) which is vertically erected and formed vertically in the section in which the middle winding 25 and the lowest winding 26 of the spring 20 are connected.
The method according to claim 1,
The rigid support end 30, the first rigid support is formed to be bent inclined at an obtuse angle or an acute angle in the section in which the intermediate winding 25 and the uppermost winding 22 of the body spring 20 is connected to be inclined Second rigid support end 30b which is bent to form an obtuse angle or an acute angle at the lower end of the upper end 30a and the middle winding 25 of the main body spring 20 and the lower end winding 26 to be inclined. Pocket spring for mattress, characterized in that consisting of.

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