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KR-20260063076-A - a rescue convenient bed

KR20260063076AKR 20260063076 AKR20260063076 AKR 20260063076AKR-20260063076-A

Abstract

The present invention relates to a structurally adjustable bed, and more specifically, to a structurally adjustable bed that creates a floor portion in a hole and allows for the rapid and easy transport of patients. The structural bed of the present invention is characterized by comprising: a support portion having a shape longer than the length of the body and a hole larger than the size of the body in the central part, which supports and carries the body; a bottom portion connected to one side of the internal central hole of the support portion and capable of lifting the body; and an operating portion attached to one side of the support portion and capable of creating and removing the bottom portion.

Inventors

  • 김보경

Assignees

  • 김보경

Dates

Publication Date
20260507
Application Date
20241030

Claims (4)

  1. It is longer than the length of the body, with a hole larger than the body size in the center, and a support part that can support and carry the body; A bottom part connected to one side of the internal central hole of the above-mentioned support member, capable of lifting the body; A structurally flexible bed characterized by including an operating part attached to one side of the support part and capable of creating and removing the floor part.
  2. In Article 1, A structurally flexible bed characterized by including a pair of protective parts that are coupled to the upper end of the support member and can protect the body.
  3. In Paragraph 1 or 2, A pair of connecting parts coupled to the lower end of the support member, which connect another protective member and can be removed or created as needed; A structurally flexible bed comprising multiple pairs of fixing members attached in a linear position at the top of the protective member and the bottom of the connecting member to combine and fix the protective member and the connecting member.
  4. In Article 1, Several pairs of joints attached to the back of the bottom portion to fix or release the bottom portion; Several pairs of magnets attached to one end of the joint and one side of the inner hole of the support to connect the joint and the support; A structurally adjustable bed characterized by including a sensor coupled to the end of the above-mentioned operating part and changing the electrode of the magnet when the above-mentioned operating part is pressed.

Description

rescue convenient bed The present invention relates to a structural bed. As the frequency of emergency situations increases, the number of ambulance dispatches also rises, highlighting the importance of time in quickly carrying a patient to the ambulance. However, in the case of lifts, rescue beds have been associated with very inefficient problems, such as a lack of speed to quickly lift and carry the patient, and a structure that does not allow for easy transfer of the patient. Accordingly, there have been proposals for emergency portable beds such as Registered Patent Publication No. 20-0370114, but the prior art, including the above prior art document, focuses only on transporting the rescue bed to the ambulance and does not consider other conveniences, so it can be said that there are structural defects and low efficiency and balance. For example, when a patient's weight is heavier than average, it is difficult to assume that they can be transported to the hospital quickly because it takes a long time and many people have to work to move them. In addition, it is lacking in terms of safety, as there are no side guards, which could cause passengers to slip or fall and suffer more severe injuries. FIG. 1 is a perspective view of a structurally flexible bed according to an embodiment of the present invention, FIG. 2 is a plan view of a structurally flexible bed according to an embodiment of the present invention, FIG. 3 is a rear view of a structurally adjustable bed according to an embodiment of the present invention, FIG. 4 is a front view of a structurally adjustable bed according to an embodiment of the present invention, FIG. 5 is a left side view of a structurally flexible bed according to an embodiment of the present invention, FIG. 6 is a right side view of a structurally adjustable bed according to an embodiment of the present invention, FIG. 7 is a bottom view of a structurally adjustable bed according to an embodiment of the present invention. As shown in FIGS. 1 to 7, the structural bed of the present invention comprises a bottom part (100), a support part (110), a connecting part (120), a fixing part (130), a protective part (140), an operating part (150), a magnet (160), a joint part (170), a sensor (180), etc. The above support member (110) is longer than the length of the body and has a hole larger than the body size in the central part, and can support the body and carry it. The above support member (110) can be made of a material that is hard and does not easily soften. The above bottom part (100) is connected to one side of the internal central hole of the above support part (110) so that the body can be lifted. The above bottom part (100) is easily created and removed, so it does not weigh much and is sufficient if it is made of an elastic material. The above operating part (150) is attached to one side of the above support part (110) and can create and remove the above bottom part (100). A pair of protective parts (140) capable of protecting the body are attached to the upper end of the support part (110). A pair of connecting parts (120) that can be removed or created depending on the case are connected to another protective part (140) at the lower end of the support part (110). It would be better if the above connecting part (120) had wheels so that it could be moved more easily. At this time, the protective part (140) and the connecting part (120) can be made of a hard and light material. Several pairs of the above-mentioned fixing parts (130) are attached in the same position on the top of the protective part (140) and the bottom of the connecting part (120) to combine and fix the protective part (140) and the connecting part (120). At this time, the fixed part (150) can be a magnet or something that can stick to each other. Several pairs of the above joints (170) are attached to the back of the bottom part (100) and function to fix or release the bottom part (100). Several pairs of the magnets (160) are attached to one end of the joint (170) and one side of the inner hole of the support (110) to connect the joint (170) and the support (110). The sensor (180) is coupled to the end of the operating part (150) and changes the electrode of the magnet (160) when the operating part (150) is pressed. Below, we will examine the operation process of the present invention composed of the above-described configuration. A pair of magnets (160) attached to one side of the hole of the support member (110) have different electrodes from another pair of magnets (160) attached to the end of the joint member (170). The support portion (110) and the joint portion (170) are maintained in a state where the bottom portion (100) is removed using the electrode of the magnet (160). The sensor (180) detects when the operating part (150) is pressed and changes the electrode of the magnet (160) to release or implement the connection with the joint part (170). The structurally flexible bed of the present inve