JP3008280U - bottom - Google Patents

Abstract

(57) [Abstract] [Purpose] With regard to the bed bottom 11 on which the mattress is placed and supported, the coil spring 19 is appropriately hardened in cushioning property, and the coil spring 1
9 provides a structure that is hard to roll. [Structure] A large number of coil springs 19 arranged in a forest
A core rod 21 made of an elastic material or wood is inserted inside some or all of the coil springs 19.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a bottom, and more particularly, to a bottom for a bed on which a mattress is placed and which supports the mattress.

[0002]

[Prior art]

 As shown in FIG. 6, the bottom bed 1 has a mattress 2 having a large number of coil springs (not shown) arranged in a forest, and a bottom 3 on which the mattress 2 is placed and which supports the mattress 2. A large number of coil springs (not shown) are arranged in a forest in the bottom 3 as well.

However, in this conventional bottom 3, there is a dislike that the cushioning properties of the coil springs arranged inside the forest are too soft. For example, when a person sits on the edge (edge) of the mattress 2, There is an inconvenience that the bottom 3 and the mattress 2 largely sink and they roll greatly.

[0004]

[Problems to be solved by the device]

 In view of the above points, the present invention has an object to provide a bottom having a structure in which the coil spring has appropriate cushioning properties and the coil spring does not easily roll sideways.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, a bottom according to claim 1 of the present invention is a bottom for a bed on which a mattress is mounted and which supports the mattress. I decided to insert a core rod made of elastic material inside all the coil springs. In the bottom according to claim 2 of the present invention, in the bottom according to claim 1, the height of the core rod is set lower than the height of the coil spring. The bottom according to claim 3 of the present invention is the bottom according to claim 1, wherein the core rod is a prism, and the corner of the peripheral surface of the core rod is brought into contact with or engaged with the inner surface of the coil spring. Further, the bottom according to claim 4 of the present invention is a bottom for a bed on which a mattress is placed and supported, and has a plurality of coil springs arranged in a forest, and the inside of a part or all of the coil springs. I decided to insert a core rod made of wood, which is lower in height than the coil spring. In the bottom according to claim 5 of the present invention, in the bottom according to claim 4, the height of the core rod is set to approximately half the height of the coil spring.

[0006]

[Action]

 When a load is applied from above to the bottom according to the first aspect of the present invention having the above-described structure, the coil spring is compressed, and the core rod made of an elastic material is also compressed and elastically deformed. Therefore, since the spring formed by the core rod is added to the spring formed by the coil spring, the cushioning property of the coil spring can be increased accordingly. Also, with the core rod, it is possible to suppress the coil spring from rolling to a certain extent. In the bottom according to the second aspect, the height of the core rod made of an elastic material is set lower than the height of the coil spring. Therefore, since the time difference is set according to the height difference between the coil spring starting to compress and the core rod starting to compress, it is possible to soften the so-called initial contact of the coil spring. is there.

In the bottom according to claim 3, the core rod made of an elastic material is a prism, and the corners of the peripheral surface of the core rod come into contact with or engage with the inner surface of the coil spring. Is for reducing the cost by simplifying the shape of the core rod. That is, when inserting the core rod inside the coil spring, there should be no large gap between the core rod and the coil spring in order to prevent lateral displacement between the core rod and the coil spring after insertion. On the other hand, there are two contradictory requirements that the core rod must be able to be easily inserted inside the coil spring in the assembly process. In order to meet these two requirements at the same time, it is conceivable to make the core rod cylindrical or cylindrical and to provide a plurality of engaging ribs on its outer surface, but this makes the core rod complicated in shape. Therefore, the manufacturing cost becomes high. On the other hand, if the core rod is a simple prism, it has substantially the same effects as a ribbed cylinder or a ribbed cylinder, and in addition, the cost is low because the shape is simple.

When a load is applied to the bottom according to the fourth aspect from above, the coil spring is compressed, and the compression is stopped when the compression reaches the height of the core rod made of wood. Therefore, it is possible to prevent the bottom from largely sinking when a large load is applied, and in this sense, it is possible to make the cushioning property of the coil spring hard. However, unlike a core rod made of an elastic material, the core rod made of wood does not elastically deform itself, so care must be taken to ensure that the core rod made of wood does not excessively eliminate the cushioning properties of the coil spring. In this respect, it is preferable to set the height of the core rod to approximately half the height of the coil spring (claim 5). Also, if there is a core rod, it is possible to suppress rolling of the coil spring to some extent.

[0009]

【Example】

 Next, an embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 1, a cone 11 is formed inside a bottom 11 including a wooden frame 12, an underbar 13, a corner bracket 14, a wooden frame packing 15, a felt 16, a mirror cloth 17 and a surface cloth 18. A large number of coil springs 19 are arranged in a forest and connected by a helical wire 20. Of the many coil springs 19 arranged in a vertical and horizontal order in plan view, the outermost coil springs 19 on each of the four sides are arranged. Only, the core rod 21 is inserted inside. The core rod 21 is as follows.

First Embodiment As shown in FIGS. 2 and 3, the core rod 21 is formed of an elastic material such as expanded polystyrene, urethane, or rubber, and its height h ₁ is equal to that of the coil spring 19. It is set lower than the height h ₂ . For example, when the height h ₂ of the coil spring 19 is 13 cm, the height h ₁ of the core rod 21 is about 12 cm. Further, the core rod 21 is formed into a quadrangular prism, and the corners 21a of the peripheral surface of the core rod 21 are respectively changed from the initial state after insertion or when the core rod 21 is compressed to some extent. The inner surface of the coil spring 19 is contacted or engaged.

When the bottom 11 having such a core rod 21 is used, when a load F is applied from above, the coil spring 19 is compressed and the core rod 21 made of an elastic material is compressed. It is elastically deformed by being forced. Therefore, the spring of the core rod 21 is added to the spring of the coil spring 19, so that the cushioning property of the coil spring 19 can be made harder. Further, if the core rod 21 is provided, the coil spring 19 can be prevented from rolling laterally to some extent by using the core rod 21 as a core. Further, since the height h _{1 of the} core rod 21 is set to be lower than the height h ₂ of the coil spring 19, when the coil spring 19 starts to compress and the core rod 21 starts to compress, The time difference will be set according to the difference. Therefore, the so-called initial contact of the coil spring 19 can be softened. Further, since the core rod 21 is a quadrangular prism, and the corners 21a of the peripheral surface of the core rod 21 come into contact with or engage with the inner surface of the coil spring 19, respectively. It is possible to prevent lateral displacement of the coil spring 19, and to easily insert the core rod 21 into the coil spring 19 in the assembly process. Moreover, since the core rod 21 has a simple shape, The rod 21 can be manufactured at low cost.

Second Embodiment: As shown in FIGS. 4 and 5, the core rod 21 is made of wood such as lauan, and its height h ₃ is the height h of the coil spring 19. It is set to about half of ₂ . For example, when the height h ₂ of the coil spring 19 is 13 cm, the height h ₃ of the core rod 21 is about 6 to 7 cm. Further, the core rod 21 is formed in a quadrangular prism, and the coil spring 19 slides on the corner 21a of the peripheral surface thereof.

When the bottom 11 provided with such a core rod 21 is used, when a load F is applied from above, the coil spring 19 is compressed, and this compression causes the height of the core rod 21 made of wood to rise. It will be stopped when it reaches. Therefore, it is possible to prevent the bottom 11 from largely sinking when a large load is applied, and in this sense, the cushioning property of the coil spring 19 can be made hard. The point at which the compression of the coil spring 19 is stopped can be easily adjusted by changing the height h ₃ of the core rod 21. Further, if the core rod 21 is provided, it is possible to suppress the coil spring 19 from rolling laterally to a certain extent by using the core rod 21 as a core.

[0015]

[Effect of device]

 The present invention has the following effects.

That is, first, in the bottom according to the first aspect, when the bottom having the core rod made of the elastic material is used and a load acts from above, the coil spring is compressed, and A core rod made of an elastic material is compressed and elastically deformed. Therefore, the spring formed by the core rod is added to the spring formed by the coil spring, so that the cushioning property of the coil spring can be hardened accordingly. Moreover, if there is a core rod, the coil spring can be suppressed to a certain extent by using the core rod as a core. In the bottom according to claim 2, since the height of the core rod made of the elastic material is set lower than the height of the coil spring, the coil spring starts to compress and the core rod starts to compress. A time difference is set according to the height difference. Therefore, the so-called initial contact of the coil spring can be softened. Further, in the bottom according to claim 3, since the core rod made of the elastic material is a prism and the corners of the peripheral surface of the core bar come into contact with or engage with the inner surface of the coil spring, the core rod is not inserted after insertion. It is possible to prevent lateral displacement between the core rod and the coil spring in the, and it is possible to easily insert the core rod inside the coil spring in the assembly process. Moreover, since the shape of the core rod is simple, This core rod can be manufactured at low cost.

Further, in the bottom according to claim 4 or 5, when a bottom having a core rod made of wood is used, a coil spring is compressed when a load is applied from above, and the compression is made of wood. It will be stopped when it reaches the height of the core rod. Therefore, it is possible to prevent the bottom from largely sinking when a large load is applied, and in this sense, the cushioning property of the coil spring can be made hard. The point at which the compression of the coil spring is stopped can be easily adjusted by changing the height of the core rod. Further, if there is a core rod, the coil spring can be restrained from rolling to a certain extent by using the core rod as a core.

[Brief description of drawings]

FIG. 1 is a perspective view showing an internal structure of a bottom according to an embodiment of the present invention.

FIG. 2 is a vertical sectional view of a coil spring and a core rod.

3 is a sectional view taken along line AA in FIG.

FIG. 4 is a vertical sectional view showing another example of a coil spring and a core rod.

5 is a sectional view taken along line BB in FIG.

FIG. 6 is a perspective view showing the structure of a bottom bed.

[Explanation of symbols]

 1 Bottom Bed 2 Mattress 3,11 Bottom 12 Wooden Frame 13 Underbar 14 Corner Bracket 15 Wooden Frame Packing 16 Felt 17 Mirror Fabric 18 Surface Fabric 19 Coil Spring 20 Helical Wire 21 Core Rod 21a Square

Claims (5)

[Scope of utility model registration request] 1. A bottom (11) for a bed on which a mattress is placed and which supports the mattress, comprising a plurality of coil springs (19) arranged in a forest, and a part or all of the coil springs (19). ) Inside the core rod made of elastic material (2
1) Inserted bottom. 2. The bottom (11) according to claim 1, wherein the height (h ₁ ) of the core rod (21) is set to the coil spring (19).
The bottom is characterized by being set lower than the height (h ₂ ). 3. The bottom (11) according to claim 1, wherein the core rod (21) is a prism, and a corner (21a) of a peripheral surface of the core rod (21) abuts an inner surface of the coil spring (19). A bottom characterized by engaging. 4. A bed bottom (11) for mounting and supporting a mattress, comprising a plurality of coil springs (19) arranged in a forest, and part or all of the coil springs (19). ) Inside the bottom, a core rod (21) made of wood having a height lower than that of the coil spring (19) is inserted. 5. The bottom (11) according to claim 4, wherein the height (h ₃ ) of the core rod (21) is set to the coil spring (19).
The bottom characterized by being set to approximately half the height (h ₂ ) of the.