CN214500810U - Embedded clinical vital sign monitoring devices - Google Patents

Abstract

The utility model discloses an embedded clinical vital sign monitoring device, which comprises a frame body, wherein three cylinders are fixedly arranged on the upper surface of the frame body, the surfaces of the three cylinders are respectively and vertically provided with a chute, a second screw rod is vertically and rotatably arranged in the middle chute of the three chutes, and a first screw rod is vertically and rotatably arranged in the left chute and the right chute, screw sleeves are respectively and vertically sleeved on the second screw rod and the two first screw rods, the screw directions are the same, a monitor is slidably arranged in the chute, the monitor is fixedly connected with the screw sleeves, an inner cavity is arranged on the frame body, a driving mechanism is arranged in the inner cavity, a steering mechanism is arranged on the bottom surface of the frame body, most of the existing monitor instruments are placed on a trolley for use and are fixedly arranged at a fixed position, and medical staff need to move back and forth when reading the monitor data, and medical staff have different heights, and the fixed monitor brings inconvenience for reading data.

Description

Embedded clinical vital sign monitoring devices

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to an embedded clinical vital sign monitoring devices.

Background

Clinical medicine's doctor needs to use many medical instrument in the process of carrying out the treatment to patient, including clinical vital sign monitoring instrument, and most monitoring instruments all put in medical instrument room, when needs use, by medical staff propelling movement or transport to assigned position, and most vital sign monitoring instruments all put on the shallow, can fix when using and put in a position.

Because current vital sign monitor is mostly settled and is used in a position, medical staff has different heights, and medical staff wants to acquire the data that the instrument shows, need look up or look down the display screen of monitor, and this has brought very big inconvenience for medical staff's work, has wasted certain treatment time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving prior art, most vital sign monitors are mostly settled and are used in a position, and medical personnel have different heights, read the inconvenient shortcoming of monitoring data, and the embedded clinical vital sign monitoring devices who provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an embedded clinical vital sign monitoring devices, includes the support body, fixed surface installs three cylinder on the support body, and is three the spout has all been seted up perpendicularly to the cylinder surface, three it installs the second lead screw to rotate perpendicularly in a spout that lies in the centre in the spout, and controls and all rotate perpendicularly in two spouts and install first lead screw, equal thread bush is equipped with the swivel nut on second lead screw and two first lead screws, and the screw thread direction is the same, slidable mounting has the monitor in the spout, the monitor is fixed connection with three swivel nut, the inner chamber has been seted up to the support body, the inside actuating mechanism who is used for driving the monitor and reciprocates that is equipped with of inner chamber, the support body bottom surface is equipped with steering mechanism.

Preferably, actuating mechanism includes the second band pulley, the fixed cover of second band pulley is established in the bottom of second lead screw, two the equal fixed cover in first lead screw bottom is equipped with first band pulley, second band pulley and two first band pulleys all inlay and are equipped with the drive belt, second lead screw bottom stretches out the support body and fixed cover is equipped with the regulating wheel.

Preferably, the steering mechanism comprises a base, an I-shaped placing groove is formed in the base, a boss is rotatably installed in the placing groove, and the top end of the boss is fixedly connected with the bottom surface of the frame body.

Preferably, base bottom surface fixed mounting has adjustable splint, a plurality of screw holes have been seted up on the splint, the downthehole equal thread bush of a plurality of screw holes is equipped with adjusting screw.

Preferably, the monitor is connected with the three threaded sleeves through screws, and the monitor moves up and down along with the threaded sleeves in the mounting mode.

Preferably, a plurality of springs are fixedly mounted on the inward-protruding side wall of the middle of the placing groove, a plurality of balls are fixedly mounted at the top ends of the springs, and a plurality of grooves matched with the balls are formed in the side face of the boss.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the driving mechanism is matched with the screw rod, so that the placing table can be adjusted up and down, convenience can be provided for using objects with different heights, and meanwhile, the rotating mechanism can enable the monitor to turn to different angles, and convenience is provided for reading data;

2. the adjustable clamp plate can fix the device on a sickbed or a stretcher, so that the device can work in different places, the space is saved, different instruments can be installed by connecting the monitor and the screw sleeve through screws, and the practicability of the device is improved.

Drawings

Fig. 1 is a schematic front structural view of an embedded clinical vital sign monitoring device provided by the present invention;

fig. 2 is a schematic top view of an embedded clinical vital sign monitoring device according to the present invention;

fig. 3 is a schematic view of the bottom view of the embedded clinical vital sign monitoring device according to the present invention;

fig. 4 is a schematic top view of a frame of an embedded clinical vital sign monitoring device according to the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1;

fig. 6 is a partially enlarged view of B in fig. 2.

In the figure: the device comprises a frame body 1, a boss 2, an inner cavity 3, a sliding groove 4, a first lead screw 5, a threaded sleeve 6, a placement groove 7, a second belt wheel 8, a transmission belt 9, a monitor 10, an adjusting wheel 11, a clamping plate 12, an adjusting screw 13, a ball 14, a first belt wheel 15, a second lead screw 16, a base 17, a spring 18, a cylinder 19 and a groove 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the present invention, the terms "upper", "lower", "left", "right", "middle" and "one" are used for clarity of description, but not for limiting the range of the present invention, and the relative relationship changes or adjustments without substantial technical changes should be regarded as the scope of the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1-6, an embedded clinical vital sign monitoring device, comprising a frame body 1, fixed surface installs three cylinder 19 on 1 of support body, spout 4 has all been seted up perpendicularly to three cylinder 19 surface, it installs second lead screw 16 to rotate perpendicularly in a spout 4 that is located the centre in three spout 4, and control and all rotate perpendicularly in two spouts 4 and install first lead screw 5, equal thread bush is equipped with swivel nut 6 on second lead screw 16 and two first lead screws 5, and the screw direction is the same, slidable mounting has monitor 10 in the spout 4, monitor 10 is fixed connection with three swivel nut 6, inner chamber 3 has been seted up to support body 1, the inside actuating mechanism that reciprocates that is used for driving monitor 10 that is equipped with of inner chamber 3, 1 bottom surface of support body is equipped with steering mechanism.

In the embodiment applying the technical scheme, a medical worker firstly connects the monitor 10 with the three screw sleeves 6 through screws, then places the embedded device in a workplace needing to be used, uses the driving mechanism to adjust the monitor 10 according to working needs, when the medical worker adjusts the driving device, the two first lead screws 5 and the second lead screw 16 can simultaneously rotate and turn the same, at the moment, the three screw sleeves 6 can drive the monitor 10 to move up and down in the three sliding grooves 4, when the medical worker rotates the frame body 1, the monitor 10 can rotate along with the cylinder 19 and the frame body 1 in the rotating mechanism, so that multi-angle adjustment is realized, angle selection can be adjusted according to the standing position of the medical worker, the situation that the worker walks around to check instrument data is avoided, and time is saved.

In the preferred technical scheme of the embodiment, the driving mechanism comprises a second belt wheel 8, the second belt wheel 8 is fixedly sleeved at the bottom end of a second lead screw 16, the bottom ends of two first lead screws 5 are both fixedly sleeved with a first belt wheel 15, the second belt wheel 8 and the two first belt wheels 15 are both embedded with a transmission belt 9, the bottom end of the second lead screw 16 extends out of the frame body 1 and is fixedly sleeved with an adjusting wheel 11, when the medical staff rotates the adjusting wheel 11, the adjusting wheel 11 will drive the second lead screw 16 and the second belt wheel 8 to rotate, meanwhile, the second belt wheel 8 drives the two first belt wheels 15 to rotate through the transmission belt 9, the two first belt wheels 15 drive the two first lead screws 5 to rotate, the two first lead screws 5 and the one second lead screw 16 have the same rotation direction, the design can lead the transmission to be more stable, meanwhile, the first lead screw 5 and the second lead screw 16 limit the position of the monitor 10, so that the equipment is more reliable.

According to the technical scheme, the steering mechanism comprises the base 17, the I-shaped placing groove 7 is formed in the base 17, the boss 2 is installed in the placing groove 7 in a rotating mode, the top end of the boss 2 is fixedly connected with the bottom surface of the frame body 1, the design is to provide the device with selection of left and right angles, and the monitoring data of the instrument can be conveniently read by workers.

The preferred technical scheme in this embodiment, base 17 bottom surface fixed mounting has adjustable splint 12, has seted up a plurality of screw holes on splint 12, and the downthehole equal thread bush of a plurality of screw threads is equipped with adjusting screw 13, and this design is that can fix on sick bed or stretcher for making the instrument, and adjusting screw 13 can cooperate splint 12 to press from both sides tightly, can settle according to the work occasion of difference, compares with the shallow, more saves space.

According to the preferable technical scheme in the embodiment, the monitor 10 is connected with the three threaded sleeves 6 through screws, the monitor 10 moves up and down along with the threaded sleeves 6 in the installation mode, the monitor 10 can be detached through the screws, or a plurality of instruments can be installed simultaneously, and the practicability of the device is improved.

According to the technical scheme, the inward protruding side wall of the middle of the placing groove 7 is fixedly provided with the plurality of springs 18, the top ends of the plurality of springs 18 are fixedly provided with the round balls 14, the side face of the boss 2 is provided with the plurality of grooves 20 matched with the round balls 14, the design is to limit the position of the rack body 1, the plurality of springs 18 are compressed when the boss 2 rotates, the friction force of the round balls 14 can be reduced, and the rotation is smoother.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An embedded clinical vital sign monitoring device comprises a frame body (1) and is characterized in that three cylinders (19) are fixedly mounted on the surface of the frame body (1), sliding grooves (4) are vertically formed in the surfaces of the three cylinders (19), a second lead screw (16) is vertically and rotatably mounted in a middle sliding groove (4) in the three sliding grooves (4), a first lead screw (5) is vertically and rotatably mounted in a left sliding groove (4) and a right sliding groove (4), thread sleeves (6) are respectively arranged on the second lead screw (16) and the two first lead screws (5) in a threaded manner, the thread directions are the same, a monitor (10) is slidably mounted in the sliding grooves (4), the monitor (10) and the three thread sleeves (6) are fixedly connected, an inner cavity (3) is formed in the frame body (1), and a driving mechanism for driving the monitor (10) to move up and down is arranged in the inner cavity (3), the bottom surface of the frame body (1) is provided with a steering mechanism.

2. An embedded clinical vital signs monitoring device according to claim 1, wherein the driving mechanism comprises a second belt wheel (8), the second belt wheel (8) is fixedly sleeved on the bottom end of a second lead screw (16), the bottom ends of the two first lead screws (5) are fixedly sleeved with a first belt wheel (15), the second belt wheel (8) and the two first belt wheels (15) are respectively embedded with a transmission belt (9), and the bottom end of the second lead screw (16) extends out of the frame body (1) and is fixedly sleeved with an adjusting wheel (11).

3. The embedded clinical vital sign monitoring device according to claim 1, wherein the steering mechanism comprises a base (17), an i-shaped installation groove (7) is formed in the base (17), the boss (2) is rotatably installed in the installation groove (7), and the top end of the boss (2) is fixedly connected with the bottom surface of the frame body (1).

4. An embedded clinical vital signs monitoring device according to claim 3, wherein the bottom surface of the base (17) is fixedly provided with an adjustable clamping plate (12), the clamping plate (12) is provided with a plurality of threaded holes, and the plurality of threaded holes are all threaded with an adjusting screw (13).

5. Embedded clinical vital signs monitoring device according to claim 1, wherein the monitor (10) is screwed to three threaded sleeves (6) in such a way that the monitor (10) moves up and down with the threaded sleeves (6).

6. An embedded clinical vital sign monitoring device according to claim 3, wherein a plurality of springs (18) are fixedly mounted on the inwardly protruding side wall of the middle of the placement groove (7), round balls (14) are fixedly mounted on the top ends of the springs (18), and a plurality of grooves (20) matched with the round balls (14) are formed in the side surface of the boss (2).

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