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JP-2026075233-A - IV stand

JP2026075233AJP 2026075233 AJP2026075233 AJP 2026075233AJP-2026075233-A

Abstract

[Problem] To provide an IV stand that can suppress the shaking of the IV bag without compressing it. [Solution] The intravenous drip stand 100 comprises a leg body installed on the floor, a support body 2 provided on the leg body, and an intravenous fluid suspension device supported by the support body 2 for suspending and supporting an intravenous fluid bag P. The intravenous fluid suspension device is formed in a planar shape extending in the vertical direction and has sway-restricting surface portions 35a and 52a that abut against the upper part P12 of the intravenous fluid bag P to restrict the swaying of the intravenous fluid bag P, and a locking portion 53 that extends upward from the height of the lower ends of the sway-restricting surface portions 35a and 52a and is positioned opposite the sway-restricting surface portions 35a and 52a, and is capable of locking the intravenous fluid bag P. A placement space S11 is formed directly below the lower end of the locking portion 53, where the intravenous fluid bag P suspended by the intravenous fluid suspension device 3 can be placed. [Selection Diagram] Figure 4

Inventors

  • 横山 遼
  • 小倉 裕生

Assignees

  • 株式会社オカムラ

Dates

Publication Date
20260508
Application Date
20241022

Claims (6)

  1. Legs that are placed on the floor surface, A support provided on the leg body, The system comprises an infusion suspension device supported by the aforementioned support and for suspending and supporting an infusion bag, The aforementioned intravenous fluid suspension device is, A surface portion formed in the shape of a plane extending in the vertical direction, which contacts the upper part of the infusion bag to restrict the shaking of the infusion bag, It has a locking portion that extends upward from the height of the lower end of the aforementioned vibration-restricting surface portion and is positioned opposite to the aforementioned vibration-restricting surface portion, and is capable of locking the infusion bag, An intravenous drip stand having a placement space formed directly below the lower end of the locking portion, where the intravenous fluid bag suspended by the intravenous fluid suspension device can be placed.
  2. The aforementioned intravenous fluid suspension device is, The suspension body portion is supported by the aforementioned support, It comprises a hook having the aforementioned locking portion and attached so as to protrude outward from the suspension body portion, The aforementioned hook, The suspension support wall portion is arranged along the outer circumferential surface of the suspension body portion and extends downward, The locking portion is provided at the lower part of the suspension support wall portion, The drip stand according to claim 1, wherein the sway-regulating surface portion is the surface of the suspension body portion facing the locking portion side and the surface of the suspension support wall portion facing the locking portion side.
  3. The drip stand according to claim 1 or 2, wherein the lower part of the locking portion has an inclined portion that extends in a direction that gradually moves away from the swing-restricting surface portion as it moves upward from the lower end of the swing-restricting surface portion.
  4. Having multiple hooks, The IV stand according to claim 2, wherein at least two of the hooks have different heights at the lower ends of the locking portion.
  5. The drip stand according to claim 4, wherein the plurality of hooks, each with a different height at the lower end of the locking portion, are arranged alternately along the outer edge of the suspension body.
  6. The IV stand according to claim 2, wherein, in a plan view, the hooks are provided on opposite sides of the outer circumferential surface of the suspension body, with the lower ends of the locking portions being at the same height.

Description

This invention relates to an intravenous drip stand. Conventional IV stands that allow for the suspension of IV fluid bags during transport are known. Such IV stands are known to have structures that reduce the shaking of the IV fluid bag during transport. Patent Document 1 below proposes an infusion bag fixing device that secures the lower end of an infusion bag suspended from a suspension part with a bag locking part. Japanese Utility Model Publication No. 3-53244 This is a perspective view showing an intravenous drip stand according to the first embodiment of the present invention.This is a perspective view showing the upper part of an IV stand according to the first embodiment of the present invention.This is a top view of an intravenous drip stand according to the first embodiment of the present invention.This is a side view showing the upper part of an intravenous drip stand according to the first embodiment of the present invention.This is a cross-sectional view showing the upper part of an IV stand according to the first embodiment of the present invention.This is a side view showing the upper part of an intravenous drip stand according to a second embodiment of the present invention.This is a side view showing the upper part of an intravenous drip stand according to a third embodiment of the present invention.This is a side view showing the upper part of an intravenous drip stand according to the fourth embodiment of the present invention. (First Embodiment) The embodiments of the IV stand of the present invention will be described below with reference to Figures 1 to 5. The following embodiments represent one aspect of the present invention and are not limiting, and can be modified at will within the scope of the technical idea of the present invention. In addition, in the following drawings, the scale of each structure differs from the actual structure in order to make each structure easier to understand. Figure 1 is a perspective view showing an intravenous drip stand 100 according to the first embodiment of the present invention. As shown in Figure 1, the IV stand 100 is used in hospitals, nursing homes, homes, etc. The IV stand 100 comprises a leg body 1, a support body 2, and an IV fluid suspension device 3. (legs) The leg body 1 is installed on the floor surface F. The leg body 1 has a base 10 and a plurality of leg parts 11. The lower end of the support 2 is connected to the upper part of the base 10. The base 10 supports the support 2. The base 10 is positioned spaced apart above the floor surface F. Multiple legs 11 extend from the base 10 toward the floor surface F. In the illustrated example, five legs 11 are provided. Note that two or more legs 11 are sufficient, and the number can be set as appropriate. The five legs 11 extend radially from the base 10. The lengths of the five legs 11 are approximately the same. In a plan view, the five legs 11 are arranged at equal intervals in the circumferential direction with respect to the base 10. However, the lengths of the five legs 11 do not necessarily have to be approximately the same. The five legs 11 do not necessarily have to be arranged at equal intervals in the circumferential direction with respect to the base 10. A caster 12 is provided at the lower part of the tip of the leg portion 11. The caster 12 is placed on the floor surface F. The caster 12 is rotatable and can move along the floor surface F. Note that the lower part of the leg portion 11 does not necessarily need to have a caster 12. (Support) The support 2 is provided on the base 10 of the leg body 1. The support 2 has an outer support 21 and an inner support 22. The outer support column 21 extends upward from the base 10. The outer support column 21 is hollow. The lower end of the inner support column 22 is slidably fitted into the upper part of the outer support column 21. Inside the support body 2, there is a locking mechanism (not shown) for fixing the relative position of the outer support column 21 and the inner support column 22. By releasing the locking mechanism, the relative position of the outer support column 21 and the inner support column 22 (the extension/retraction length of the support body 2) can be adjusted as needed. Note that the support body 2 may be composed of a single component, and its vertical length may be immutable. A release operation sleeve 23 for releasing the locking mechanism is provided approximately midway along the vertical axis of the inner support column 22. This release operation sleeve 23 is connected to the locking mechanism's release piece inside the inner support column 22. When slid upward by an operator such as a nurse, it releases the locking mechanism, and when slid downward, it re-locks the mechanism. The outer support column 21 may be fitted with a handle attachment (not shown) and a tray or the like capable of holding items, which can be adjusted for height. (IV fluid holder) The IV fluid hanger 3 is attached to the upper e