Patent Description:
Unless otherwise described throughout the present specification, what is described in this section is not prior art against the claims in this application, and what is included in this section is not admitted as prior art.

Generally, in most cases, various foldable articles in the related art, in which frames are employed, have been developed as articles, such as chairs or beds, which are configured in such a manner that a frame is combined with one designated portion of a connecting and assembling member for connecting and assembling the frame. Thus, there is no serious inconvenience in using the foldable article in which the frame is connected and assembled.

For storage and convenient transportation, the foldable article in the related art is configured to be folded after use. However, in a case where the foldable article is actually used, a height of the foldable article cannot be adjusted. Thus, when assembled, the foldable article, like an existing fixed-type article, has to be used without any adjustment.

In addition, a mat sheet or bed sheet, which is installed on upper portions of the frames, cannot also be utilized variably, for example, in a manner that a width thereof is narrowed or widened. Thus, when assembled, the foldable article, like an existing fixed-type article, has to be used without any adjustment. Furthermore, there is no way to tighten or loosen the mat sheet or bed sheet.

A device for changing a frame angle of a foldable article comprising the features of the preamble of claim <NUM> is know from <CIT>.

An objective of the present disclosure is to provide a device for changing a frame angle of a foldable article. The device has a configuration in which a position at which a frame that is used in foldable articles that include a chair, a bed, and so on is installed is changed. Thus, the device is capable of adjusting a height of the foldable article or adjusting a sheet width in various ways for convenient use.

According to the invention, there is suggested a device for changing a frame angle of a foldable article comprising the features of claim <NUM>. Further embodiments of the invention are the subject matter or the dependent claims.

According to an embodiment of the present invention, which is disclosed below, a device for changing a frame angle of a foldable article has multiple combination grooves in such a manner that a position or angle at which a frame that is used in foldable articles that include a chair, a bed, and so on is installed is changed. Thus, the device is capable of adjusting a height of the foldable article or adjusting a sheet width in various ways for convenient use. This provides the advantage that, for all purposes, the device has applications for convenient use in various foldable articles that include a chair, a bed, and so on.

Preferable embodiments will be described in detail below with reference to the accompanying drawings.

The embodiments will be described below in such detail that a person of ordinary skill in the art to which that the present invention pertains is enabled to implement the present invention without undue experimentation. However, this does not impose any limitation to the technical idea and the scope of the present invention.

In addition, for clarity and convenience in description, sizes, shapes, and the like of constituent elements may be illustrated in an exaggerated manner in the drawings. The terms that are defined considering a configuration and an operation that are consistent with the present invention may vary according to the operator's or user's intention or current practices. These terms should be defined in light of the present specification.

According to an embodiment of the present invention, foldable articles (A) that include a chair, a bed, a tent, and so on are configured in such a manner that the respective legs or support frames of the foldable articles (A) are constructed by connecting leg frames (<NUM>) to each other using the connecting and assembling members (<NUM>) and the elastic strings (<NUM>).

According to an embodiment, a foldable article is configured to include the connecting and assembling member (<NUM>) with which one end of the elastic string (<NUM>) is combined in a manner that is fixed or passes therethrough and which has multiple combination grooves (<NUM>) each of which has a shape that corresponds to a cross-sectional shape of the leg frame (<NUM>), in such a manner that the leg frame (<NUM>) combined with the other end of the elastic string (<NUM>) is selectively combined with the connecting and assembling member (<NUM>) in an angle-changing manner at a varying installation angle; the elastic string (<NUM>), the one end of which is combined with the connecting and assembling member (<NUM>) in a manner that is combined with or passes therethrough, the other end of which is combined with the leg frame (<NUM>), and which thus enables the leg frame (<NUM>) to elastically operate; and the leg frame (<NUM>) that is combined with the one end of the elastic string (<NUM>) and is elastically insertable or separable into or from the connecting and assembling member (<NUM>).

The foldable articles (A) include various foldable products, such as a chair, a bed, and a tent, that are configured to be foldable.

The connecting and assembling member (<NUM>) is manufactured using various methods, such as forming synthetic resin into the desired shape thereof (i.e., resin molding) and pouring molten metal into a die cavity or a mold cavity therefor (i.e., die casting).

As illustrated in <FIG> and <FIG>, the connecting and assembling member according to one embodiment is provided with an opening portion (<NUM>) that is a lengthwise-extending hole and includes a combination block portion (<NUM>) that partitions the opening portion (<NUM>) into multiple combination grooves (<NUM>) when it is inserted into the opening portion (<NUM>).

The combination block portion (<NUM>) is configured with first and second block pieces (200a and 200b) that are inserted into the opening portion (<NUM>) and then are symmetrically combined with the connecting and assembling member (<NUM>). An opening hole (<NUM>) through which the elastic string (<NUM>) passes is formed between the first and second block pieces (200a and 200b).

An arc-shaped concave portion <NUM> is formed in both sides of each of the first and second block pieces (200a and 200b). A semi-circle concave groove <NUM> is formed in the middle thereof. An insertion protrusion <NUM> is formed on an external surface thereof.

An insertion groove <NUM> into which the insertion protrusion <NUM> is inserted is formed in an internal circumferential surface of the connecting and assembling member (<NUM>).

Thus, the first and second block pieces (200a and 200b) are removably combined into the insertion grooves <NUM>, respectively.

When the first and second block pieces (200a and 200b) are combined into the respective insertion grooves <NUM> in such a manner to face each other, an opening hole (<NUM>) which is a slit-like hole is provided between the first and second block pieces (200a and 200b), and the opening portion (<NUM>) is partitioned into the multiple combination grooves (<NUM>) which include the first combination groove 10a and the second combination groove 10b provided at the lengthwise ends of the opening hole (<NUM>), respectively, and the third combination groove 10c provided in the middle.

The first combination groove 10a to the third combination 10c may have a circular shape which has the same external diameter as a cross-sectional shape of the leg frame (<NUM>), and the leg frame (<NUM>) may be selectively combined into one of the first combination groove 10a to the third combination 10c.

On the other hand, as illustrated in <FIG> and <FIG>, in order to increase the connect ability of the leg frame (<NUM>), an engaging shoulder (<NUM>) may be formed on an external surface of the leg frame (<NUM>), and an engaging groove <NUM> may be formed on the arc-shaped portion <NUM> on both sides of each of the first and second block pieces (200a and 200b) and on the concave groove <NUM> in the middle of each thereof.

The engaging shoulder (<NUM>) or the engaging groove <NUM> is formed to be arch-shaped in the horizontal direction.

Thus, the leg frame (<NUM>) may be selectively combined into the first combination groove 10a to the third combination groove 10c. When this is done, the engaging should (<NUM>) is combined into the engaging groove <NUM>, thereby achieving the high connectability.

In the connecting and assembling member (<NUM>), a combination through-hole (<NUM>) of which a size is smaller than that of the combination groove <NUM> is formed to pass through an internal bottom of each of the multiple combination grooves (<NUM>), into which the leg frame (<NUM>) is combined in such a manner that the elastic string (<NUM>) is combined into or passes through the combination through-hole (<NUM>).

In addition, an opening hole (<NUM>) in the shape of a small slit having a width smaller than the diameter of the combination groove, is formed between each of the multiple combination grooves (<NUM>) in such a manner that the elastic string passes through the opening hole (<NUM>). Thus, although positioned in any combination groove (<NUM>) of the multiple combination grooves (<NUM>), the elastic string (<NUM>) can move through the opening hole (<NUM>).

At this point, distances among the multiple combination grooves (<NUM>) are shorter as the respective internal ends of the combination grooves are approached. Thus, fixed angles are made among the multiple combination grooves (<NUM>). Accordingly, although the distances among the combination grooves are short, the angle can be changed to a relatively-large decree, and thus, the article can be stably supported.

In addition, various configurations are employed according to the number of leg frames <NUM> and a position at which the leg frame (<NUM>) is installed, which are required in terms of characteristics of the foldable article A. If necessary, a portion at which a separate fixation frame <NUM> is fixedly installed is also prepared in advance.

As the elastic strings (<NUM>), various types of strings may be utilized such as high elastic rubber bands and springs. A configuration is employed in which the elastic string (<NUM>) is elastically combined into the combination groove (<NUM>) in the connecting and assembling member (<NUM>). With this configuration, in a case where the leg frame (<NUM>) is separated from the combination groove (<NUM>) to disassemble the leg frame (<NUM>), the elastic string <NUM>, which itself has flexibility, serves to freely disassemble the leg frame (<NUM>), and to enable the leg frame (<NUM>) to operate while maintaining a connected state without being separated completely independently of the connecting and assembling member (<NUM>).

The leg frame (<NUM>) is manufactured from a hollow metal pipe or a synthetic resin pipe, which is excellent in hardness. Preferably, a configuration is employed in which a finishing member (<NUM>) having an engaging shoulder (<NUM>) into which the elastic string (<NUM>) is to be inserted for convenient combination is fixedly combined with one end portion of the leg frame (<NUM>).

At this point, in a case where a foldable chair, as the foldable article A, is configured, without the fixation frame (<NUM>) in the center, which will be described below, the leg frame (<NUM>) may be employed as a portion that is positioned on a lower portion of the connecting and assembling member (<NUM>) and serves as a leg, and may be employed as a portion that is positioned on an upper portion of the connecting and assembling member (<NUM>) for combination with a seat and supports and fixes the seat.

In addition, in a case where a foldable bed, as the foldable article A, is configured, the leg frame (<NUM>) is assembled, in the upward position, to each of the connecting and assembling members (<NUM>) that are fixedly installed on both sides of the fixation frame (<NUM>) and thus can serve as both a leg and a support.

On the other hand, a finishing member (<NUM>) is combined with an end portion of the leg frame (<NUM>) that is used as a leg. Thus, when supported on the ground, the leg frame (<NUM>) can be prevented from sliding.

As illustrated in <FIG>, the finishing member (<NUM>) is configured to include a main body <NUM>, with whose one end an end portion of the leg frame (<NUM>) is combined, a tip member (<NUM>) that is combined with the other end of the main body (<NUM>), and a string (<NUM>) that is mounted within the main body (<NUM>) in such a manner as to elastically support the tip member (<NUM>).

A stopper <NUM> is removably combined with a lower portion of the main body (<NUM>).

An upper portion of the spring (<NUM>) is supported within the main body (<NUM>). A partition wall <NUM> that supports an end portion of the leg frame (<NUM>) is formed within the main body (<NUM>). A water drain hole <NUM> is formed in the partition wall <NUM>, and thus rainwater is discharged through the water drain hole <NUM>.

The tip member (<NUM>) is formed in such a manner that an end portion thereof has an inclination surface <NUM> considering an inclination angle at which the tip member (<NUM>) is supported on the ground.

Thus, when the tip member (<NUM>) is supported on the ground, the tip member (<NUM>) can elastically move forward and backward due to the elasticity of the spring (<NUM>). The tip member (<NUM>) is firmly stuck in the ground in a state where due to the weight of the tip member (<NUM>), a portion thereof moves backward into the finishing member <NUM>. Thus, the sliding can be prevented.

On the other hand, as illustrated in <FIG> and <FIG>, in a case where a foldable chair, as the foldable article A, is configured, the fixation frame (<NUM>) refers to a frame that is positioned in the center and is fixedly connected to multiple connecting and assembling members (<NUM>). In a case where a foldable bed, as the foldable article A, is configured, the fixation frame (<NUM>) refers to a frame that is fixedly installed between the connecting and assembling members (<NUM>) positioned on both sides thereof.

Reference numerals <NUM> and <NUM> refer to a chair sheet and a bed sheet that is combined with a support bar (<NUM>), respectively, which are not described.

The operation of the present invention that is configured as described above is as follows.

First, a case where the leg frame (<NUM>) is used as a leg in a lower portion of a foldable chair as the foldable article A is assumed. When the leg frame (<NUM>) is combined into the front most combination groove (<NUM>) of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), a leg of the foldable chair that uses the leg frame (<NUM>) is at its greatest height. When the leg frame (<NUM>) is combined into the rearmost combination groove (<NUM>) of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), a leg of the foldable chair that uses the leg frame (<NUM>) is at its smallest height. This provides the advantage that, although a user sits on the chair sheet (<NUM>) and fully leans backward, the user can use the foldable chair, maintaining a properly-balanced posture.

A case where the leg frame (<NUM>) is used in a structure for supporting the chair sheet (<NUM>) in an upper portion of the foldable chair as the foldable article A is described.

When the leg frame (<NUM>) is combined into the innermost combination groove (<NUM>) of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), the leg frames (<NUM>) on both sides are positioned at points where a distance therebetween is shortest. Thus, in a case where the chair sheet (<NUM>) is combined with an end portion of the leg frame (<NUM>), although the chair sheet (<NUM>) is not spread into a tightened state, the body of the user is wrapped at a small height, thereby providing the comfortability. When the leg frame (<NUM>) is combined into the outermost combination groove <NUM> of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), the leg frames (<NUM>) on both sides are positioned at points where a distance therebetween is greatest. Thus, the chair sheet (<NUM>) is spread into the tightened state. The user can use the foldable chair in which the elasticity of the chair sheet (<NUM>) can be maintained at a great height.

On the other hand, a case where the leg frame (<NUM>) is used for adjusting a height of a leg of a foldable bed while supporting the bed sheet (<NUM>) in an upper portion of the foldable bed as the foldable article A is described (refer to <FIG>).

When the leg frame (<NUM>) is combined into the innermost combination groove <NUM> of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), the leg frames (<NUM>) on both sides are positioned at points where a distance therebetween is shortest. Thus, in a case where the support bar (<NUM>) is combined with an end portion of the leg frame (<NUM>) and the bed sheet (<NUM>) is spread, although the bed sheet (<NUM>) is not spread into a very tightened state, the user can use the foldable bed of which the comfortability can be maintained in a state where the height of the leg is relatively great. When the leg frame (<NUM>) is combined into the outermost combination groove <NUM> of the multiple combination grooves (<NUM>) formed in the connecting and assembling member (<NUM>), the leg frames (<NUM>) on both sides are positioned at points where a distance therebetween is greatest. Thus, the bed sheet (<NUM>) is spread into a more-tightened state. The user can use the foldable bed in which the elasticity of a bed sheet can be maintained in a state where the height of the leg is relatively small.

As described above, according to an embodiment of the present invention, which is described above, the device for changing a frame angle of a foldable article has multiple combination grooves (<NUM>) in such a manner that a position or angle at which the leg frame (<NUM>) that is used in foldable articles (A) that include a chair, a bed, and so on is installed is changed. Thus, the device is capable of adjusting a height of the foldable article A or adjusting a sheet width in various ways for convenient use. For all purposes, the device can also have applications for convenient use in various foldable articles (A) that include a chair, a bed, and so on.

Claim 1:
A device for changing a frame angle of foldable articles (A) including chairs, beds, and tents, the device combining leg frames (<NUM>) using a connecting and assembling member (<NUM>) and an elastic string (<NUM>) and thus makes up a leg or a support frame of the fordable article (A), the device comprising:
the connecting and assembling member (<NUM>) with which a first end of the elastic string (<NUM>) is combined in a manner to be fixed or to pass through and which has multiple combination grooves (<NUM>) each of which has a shape that corresponds to a cross-sectional shape of the leg frame (<NUM>) such that the leg frame (<NUM>) combined with a second end of the elastic string (<NUM>) is selectively combined with the connecting and assembling member (<NUM>) in an angle-changing manner at a varying installation angle;
the elastic string (<NUM>) having the first end that is fixed to or that passes through the connecting and assembling member (<NUM>) and the second end that is combined with the leg frame (<NUM>) such that the leg frame (<NUM>) is elastically operable; and
the leg frame (<NUM>) that is combined with the first end of the elastic string (<NUM>) and that is elastically insertable into or separable from the connecting and assembling member (<NUM>), wherein an opening portion (<NUM>) that is a lengthwise-extending hole is formed in the connecting and assembling member (<NUM>), and the connecting and assembling member (<NUM>) includes a combination block portion (<NUM>) that forms multiple combination grooves (10a, 10b, 10c) by partitioning the opening portion (<NUM>); characterized in that the combination block portion (<NUM>) is configured with first and second block pieces (200a, 200b) that are inserted into the opening portion and then are symmetrically combined with the connecting and assembling member,
an opening hole (<NUM>) through which the elastic string (<NUM>) passes is formed between the first and second block pieces (200a, 200b), and
multiple combination grooves (10a , 10b, 10c) are formed in both sides of the combination block portion (<NUM>) or in the middle thereof.