WO2021052324A1 - 监护仪安装架及用于转接监护仪的监护仪连接座 - Google Patents
监护仪安装架及用于转接监护仪的监护仪连接座 Download PDFInfo
- Publication number
- WO2021052324A1 WO2021052324A1 PCT/CN2020/115317 CN2020115317W WO2021052324A1 WO 2021052324 A1 WO2021052324 A1 WO 2021052324A1 CN 2020115317 W CN2020115317 W CN 2020115317W WO 2021052324 A1 WO2021052324 A1 WO 2021052324A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- monitor
- abutting
- mounting frame
- bracket
- cavity
- Prior art date
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B50/00—Containers, covers, furniture or holders specially adapted for surgical or diagnostic appliances or instruments, e.g. sterile covers
- A61B50/20—Holders specially adapted for surgical or diagnostic appliances or instruments
- A61B50/22—Racks
Definitions
- This application relates to the field of medical devices, and in particular to a supporting structure for monitors.
- the monitor is a device or system that measures and controls the physiological parameters of the patient, and can compare with the known set value, and can send out an alarm if it exceeds the limit.
- the monitor will be equipped with a mounting frame (such as a cart) for placing the monitor.
- a cart is a device that carries the monitor and accessories. Since the cart can be moved, it can facilitate the movement and use of the monitor in certain usage scenarios. For example, the nurse pushes the monitor to move between different wards during the rounds. Move between.
- the monitor mounting frame only considers the placement and installation of the monitor and provides simple accessory storage.
- the blood pressure monitor cuff and the blood oxygen clip are usually placed in the same storage box.
- the sphygmomanometer cuff and the blood oxygen cable to be entangled.
- the present application provides a new type of monitor mounting frame, which is used to alleviate various cable entanglement problems.
- the present application also provides a monitor connection base for switching the monitor, so as to improve the versatility of the monitor connection base.
- An embodiment of the present application provides a monitor mounting frame, which includes:
- Storage device the storage device is installed on the bracket for storage
- the monitor connection seat is used to install the monitor, and the monitor connection seat is installed on a bracket or storage device;
- inspection head storage device is used to place the inspection head, and the inspection head storage device is installed on the bracket or the storage device.
- the inspection head accommodating device is located at the side wall of the storage device or the bracket to accommodate the inspection head.
- the inspection head accommodating device includes an inspection head accommodating seat and an inspection head wire accommodating seat, the inspection head accommodating seat is used for accommodating the inspection head, and the inspection head wire accommodating seat is used for accommodating the inspection head wire.
- the side wall of the storage device has a front side wall facing the user, a rear side wall opposite to the front side wall, and a side side wall located between the front side wall and the rear side wall.
- the inspection head receiving seat is located at the side wall.
- the lateral side wall is divided into a first lateral side wall and a second lateral side wall, the first lateral side wall and the second lateral side wall are arranged opposite to each other, and the first lateral side wall
- Both the side wall and the second side wall have a first mounting part for mounting an inspection head receiving seat, and the inspection head receiving seat is detachably mounted on the first mounting part.
- the inspection head wire receiving seat is installed on the rear side wall.
- the inspection head wire receiving seat and the inspection head receiving seat are installed on the same side wall.
- the side wall of the storage device has at least two first mounting parts for mounting the inspection head receiving seat, and the inspection head receiving seat is detachably mounted on the first mounting part on.
- it further includes a connecting piece, the connecting piece is fixed on the side wall of the storage device or the bracket, and the connecting piece has a convex clamping body, and the inspection head receiving seat has a clamping Slot, the clamping slot is clamped on the clamping body.
- the storage device includes a storage box, and the storage box has at least one storage cavity.
- the inspection head receiving seat and the inspection head wire receiving seat are located at the side wall of the storage box.
- the bottom of the storage box has at least one expansion installation opening for detachably installing the expansion component.
- the storage box has a first side and a second side opposite to the first side, and the first side and the second side are arranged in parallel and are both straight. side.
- the end of the first side and the second side close to the bracket is higher than the end of the first side and the second side far away from the bracket.
- it further includes an operating table, which is located above the storage box, and the two are arranged separately.
- the operating table has a flat area, a pen placement position, and a handle that is convenient for the user to push the monitor mounting frame, the flat area is convenient for the user to write information, and the pen placement position is used to accommodate the pen.
- the inspection head receiving seat and the inspection head line receiving seat are arranged on a storage box or an operating table; or,
- the inspection head accommodating seat is arranged on the operating table, and the inspection head line accommodating seat is arranged on the storage box.
- the bottom of the console has at least one expansion installation port for detachably installing the expansion component.
- a backup battery is installed in the console to supply power to the monitor.
- it further includes a power cord receiving member and a roller, the power cord receiving member is arranged on the bracket for receiving the power cord of the monitor, and the roller is installed under the bracket to make the monitor
- the instrument mounting frame can be moved.
- the inspection head receiving seat is used to store the blood oxygen clip and/or the scanning gun, and has a storage structure capable of placing the blood oxygen clip and/or the scanning gun.
- it further includes a chassis located under the bracket and rollers installed under the chassis.
- the size of the chassis is not greater than 425 mm.
- the chassis includes a notch, and the notch is provided on a side of the chassis facing the front of the bracket.
- the inspection head accommodating device includes a magnetic component, and the inspection head and the inspection head accommodating device are magnetically connected.
- An embodiment of the present application provides a monitor mounting frame, which includes:
- a bracket the side wall of the bracket has at least one first butting portion
- a storage device the storage device is used for storage, the outer wall of the storage device is provided with at least one second docking portion, and the first docking portion and the second docking portion are fixed in a detachable manner;
- monitor connection seat is used to install the monitor, and the monitor connection seat is installed on the bracket or storage device.
- the outside or inside of the first docking portion has a space for the second docking portion to move from the non-axial direction of the bracket to the first docking portion, so that the second docking portion Move laterally to the outside or inside of the first butting portion.
- the first docking portion includes a first clamping block, the first clamping block is protrudingly arranged on the side wall of the bracket, and the second docking portion has a first clamping cavity, so
- the first buckle cavity has a disassembly and assembly opening, the first clamping block extends into the first buckle cavity through the disassembly and assembly opening, and the cavity wall of the first buckle cavity is buckled in the first buckle cavity.
- the first docking portion includes a second buckle cavity
- the second buckle cavity has a disassembly and assembly opening
- the second docking portion has a second clamping block
- the second clamping block is convex Is arranged on the outer wall of the storage device, the second clamping block extends into the second buckle cavity through the disassembly and assembly opening, and the cavity wall of the second buckle cavity is buckled in the first On the second card block.
- An embodiment of the present application provides a monitor mounting frame, which includes:
- a bracket the bracket is used to support the monitor, and the bracket is fixedly provided with a first abutting member;
- the chassis is used to support the bracket, the chassis has a plate body, a second abutting member and a abutting member, the first abutting member is inserted downward into the second abutting member or the second abutting member
- the abutting member is inserted upwardly into the first abutting member, the abutting member is movably mounted on the second abutting member or the plate body, and the abutting member has a tight position and a release position
- the abutting member is located in the abutting position, the first abutting member and the second abutting member are pressed tightly to make the bracket and the chassis fixedly connected, and the abutting member is located in the release When in position, release the first abutting piece and the second abutting piece;
- monitor connection seat is used to install the monitor, and the monitor connection seat is installed on the bracket or storage device.
- the tightening member is a tightening screw
- the tightening screw is rotatably mounted on the second abutting member or the plate body, and one end of the tightening screw passes through the tightening screw.
- the second abutting member is screwed to the first abutting member when the tightening screw is in the tightening position, the tightening screw has an abutting portion, and the abutting portion is used for Directly or indirectly press the second abutment member against the first abutment member to make the first abutment member and the second abutment member abut against each other; when the tightening screw is in the release position At this time, the tightening screw is separated from the first abutting member.
- the tightening screw includes a screw connection part and a force applying part connected with the screw connection part, and the screw connection part is rotatably mounted on the second abutting member or the plate body, And pass through the second abutting member upward to be screwed to the first abutting member, the force applying portion is located below the plate body, and the force applying portion and the screw connecting portion form an included angle a.
- the stent has an inner cavity
- the first abutting member has a first abutting portion
- the first abutting portion is inserted upwardly into the inner cavity of the stent
- the first abutting part has a first insertion cavity
- the first abutting part has an insertion opening at one end facing the second abutting part
- the insertion opening is in communication with the first insertion cavity
- the first abutting part is away from the
- One end of the second abutting piece is provided with a threaded hole
- one end of the second abutting piece facing the first abutting piece has a second abutting portion that can be inserted upwardly into the first insertion cavity
- the two abutting parts are provided with a through hole that penetrates up and down. One end of the tension screw passes through the through hole to be screwed with the first abutting part, and the first abutting part and the second abutting part are connected
- the first insertion cavity is in the shape of a frustum
- the insertion port is located at the larger end of the first insertion cavity
- the second abutting portion is in the shape of a frustum with a small upper and a larger lower part to match Matching of the first insertion cavity.
- the second abutting part has a second abutting part, the second abutting part has a second insertion cavity, and the second abutting part faces one end of the first abutting part It has an insertion port, the insertion port communicates with the second insertion cavity, an end of the second abutment portion facing away from the first abutment part is provided with a through hole, and the first abutment part has a downward direction Inserted into the first abutting portion of the second insertion cavity, the first abutting portion is provided with a threaded hole, one end of the tension screw passes through the through hole of the second abutting piece, and is connected to the first The abutting member is screwed to press the second abutting portion and the first abutting portion tightly.
- the second insertion cavity is in the shape of an inverted frustum with a large upper and a small lower portion
- the insertion port is located at the larger end of the second insertion cavity
- the first abutting portion has a large upper and a small lower portion.
- the inverted frustum shape to match the second insertion cavity.
- the storage device includes an operating table having a second recessed cavity recessed upward and a third abutting member located in the recessed cavity, and the upper end of the bracket is inserted into the In the second recessed cavity, the bracket is provided with a fourth abutting member, and the third abutting member is inserted downward into the fourth abutting member or the fourth abutting member is inserted upward into the third abutting member.
- an operating table having a second recessed cavity recessed upward and a third abutting member located in the recessed cavity, and the upper end of the bracket is inserted into the In the second recessed cavity, the bracket is provided with a fourth abutting member, and the third abutting member is inserted downward into the fourth abutting member or the fourth abutting member is inserted upward into the third abutting member.
- the stent has an inner cavity
- the fourth abutting member has a fourth abutting portion
- the fourth abutting portion is inserted downwardly into the inner cavity of the stent
- the fourth abutting The connecting portion has a fourth insertion cavity
- one end of the fourth abutting portion facing the third abutting piece has an insertion opening
- the insertion opening communicates with the fourth insertion cavity
- the third abutting piece faces
- One end of the fourth abutting member has a third abutting portion
- the third abutting portion is inserted downward into the fourth insertion cavity, so that the operating table is installed on the bracket.
- the fourth insertion cavity is in the shape of an inverted frustum
- the insertion port is located at the larger end of the fourth insertion cavity
- the third abutting portion is in the shape of an inverted frustum with a larger upper portion and a smaller lower portion. To match the fourth insertion cavity.
- the third abutting part has a third abutting part, the third abutting part has a third insertion cavity, and the third abutting part faces one end of the fourth abutting part
- There is an insertion port the insertion port communicates with the third insertion cavity
- the fourth abutting member has a fourth abutting portion protruding upward
- the third insertion cavity is sleeved on the fourth abutment.
- the operating table is installed on the bracket.
- the third insertion cavity is in the shape of a frustum
- the insertion port is located at the larger end of the third insertion cavity
- the fourth abutting portion is in the shape of a frustum with a small upper and a large lower one to meet Matching of the third insertion cavity.
- An embodiment of the present application provides a monitor connection seat for connecting a monitor, including a seat body, a first assembly structure for connecting with the monitor, and a second assembly for connecting with the adapter component Structure, the first assembly structure includes at least two first assembly parts, and the seat body has at least two sets of first installation positions capable of adjusting the fixing positions of the first assembly parts, so that the gap between the first assembly parts The distance can be adjusted.
- each group of the first mounting positions has at least two mounting holes with different positions, and each of the first assembly parts is detachably fixed in one mounting hole of the group of first mounting positions.
- each group of the first installation positions has a waist-shaped hole, and each of the first assembling parts is locked in a corresponding waist-shaped hole by a screw.
- the first assembling structure further includes a second assembling part, the second assembling part and the first assembling part are distributed in a triangle shape, and the seat body There is an unlocking mechanism for unlocking the second assembly.
- An embodiment of the present application provides a monitor mounting frame, which includes:
- monitor connection seat according to any one of the above, which is installed on the bracket through the second installation structure, and the first installation structure is used for installing the monitor.
- the monitor mounting rack includes a storage device and an inspection head storage device.
- the storage device is used for storage, for example, a sphygmomanometer cuff can be placed on the storage device.
- the inspection head storage device is used to place the inspection heads and the cables matching these inspection heads.
- the inspection heads are the inspection ends of various equipment used to inspect patients, such as blood oxygen clamps.
- this monitor mount is specially equipped with an inspection head storage device, which can separate the inspection head from the sphygmomanometer cuff.
- the sphygmomanometer cuff can be stored in the storage device, and other inspection heads such as blood oxygen clamps can be stored. Go to the corresponding inspection head storage device to avoid entanglement between different parts.
- Figure 1 is a schematic structural diagram of a monitor mounting frame according to an embodiment of this application.
- FIG 2 is an exploded view of the mounting frame shown in Figure 1;
- FIGS 3 and 4 are schematic diagrams of the structure of the mounting frame shown in Figure 1 after the monitor is installed;
- FIG. 5 is a schematic diagram of the structure of the mounting frame shown in Figure 1 after the monitor (with blood oxygen clip) is installed;
- Fig. 6 is a schematic structural diagram of a monitor mounting frame according to another embodiment of the application.
- Figure 7 is an exploded view of the mounting frame shown in Figure 6;
- FIG. 8 and 9 are schematic diagrams of the structure of the mounting frame shown in FIG. 6 after the monitor is installed;
- FIG 10 is a schematic structural diagram of the mounting frame shown in Figure 6 after the monitor (with blood oxygen clip) is installed;
- FIG. 11 is a schematic diagram of the structure of the first mounting part on the storage box in an embodiment of the application.
- FIG. 12 is a schematic diagram of the structure of the first installation part on the console in an embodiment of the application.
- FIG. 13 is a schematic structural diagram of an expansion installation opening on a storage box in an embodiment of the application.
- FIG. 14 is a schematic structural diagram of an expansion installation port on the console in an embodiment of the application.
- Figure 15 is a side view of the monitor mounting frame in an embodiment of the application.
- Figure 17 is a schematic diagram of the assembly structure of the storage box and the bracket in an embodiment of the application.
- 19 is a transverse cross-sectional view of the storage box and the bracket in an embodiment of the application after being assembled;
- 20 is a cross-sectional view of the assembly structure of the captive screw in an embodiment of the application.
- 21 and 22 are schematic diagrams of different views of the structure of the card block in an embodiment of the application.
- Figure 23 is an exploded structural view of a storage box and a bracket in another embodiment of the application.
- 24 is a schematic diagram of the assembly structure of the storage box and the bracket in another embodiment of the application.
- 25 is a schematic structural diagram of the second docking portion on the storage box in another embodiment of the application.
- Figure 26 is a transverse cross-sectional view of the storage box and the bracket in another embodiment of the application after assembly;
- FIG. 27 is an exploded structure diagram of the first abutting member and the fourth abutting member on the bracket in an embodiment of the application;
- FIG. 28 is a schematic diagram of an exploded structure of a chassis in an embodiment of the application.
- Figure 29 is a partial cross-sectional view of an exploded structure of the bracket and the chassis in an embodiment of the application;
- Figure 30 is an axial cross-sectional view of the bracket and the chassis in an embodiment of the application after assembly
- FIG. 31 is a schematic diagram of an exploded structure of a bracket and a chassis in another embodiment of the application.
- FIG. 32 is a schematic diagram of an exploded structure of a chassis in another embodiment of the application.
- Figure 33 is a partial cross-sectional view of the bracket and the chassis in another embodiment of the application after assembly;
- Figure 34 is an axial cross-sectional view of the bracket and the chassis in a separated state in another embodiment of the application;
- 35 is an axial cross-sectional view of the bracket and the chassis in another embodiment of the application after being assembled;
- Figure 36 is an axial cross-sectional view of the console in an embodiment of the application after being assembled on the bracket;
- FIG. 37 is a schematic diagram of an exploded structure of a console and a support in an embodiment of the application.
- 38 and 39 are schematic diagrams of two first assembling parts of the monitor connecting seat located in different mounting holes in an embodiment of the application;
- FIG. 40 is a schematic diagram of an exploded structure of a monitor connection seat in an embodiment of the application.
- FIG. 41 is a schematic diagram of an exploded structure of a monitor connection base in another embodiment of the application.
- FIG. 42 is a schematic structural diagram of two first assembling parts locked in a waist-shaped hole in another embodiment of the application.
- Figure 43 is a cross-sectional view of the monitor connection base installed on the monitor in an embodiment of the application.
- Figures 44 and 45 are schematic diagrams showing the structure of the monitor connection base installed on the upper wall structure and the monitor mounting frame in an embodiment of the application.
- connection and “connection” mentioned in this application include direct and indirect connection (connection) unless otherwise specified.
- This embodiment provides a monitor mounting frame, which is used to support the monitor and assist users (such as nurses, doctors, etc.) to check and record various physiological parameters of patients.
- users such as nurses, doctors, etc.
- the monitor mount 100 includes a bracket 110, a storage device 120, a monitor connection base 130, and an inspection head storage device (such as 141, 142).
- the bracket 110 serves as a supporting structure for the entire mounting frame, and the storage device 120, the monitor connection base 130, and the inspection head storage device can be directly or indirectly mounted on the bracket 110.
- the monitor mounting frame 100 further includes a roller 150 installed under the bracket 110 to enable the monitor mounting frame 100 to move, which is convenient for the user to move the monitor , For example, the monitor is used when a nurse conducts a ward round.
- a chassis 160 can be installed under the bracket 110, and the rollers 150 are installed at various positions of the chassis 160.
- the monitor mounting frame 100 may not have mobility, and the monitor mounting frame 100 can be moved by other moving tools, or the monitor mounting frame 100 can be placed in a certain position for a long time. use.
- the side of the bracket 110 where the storage device 120 is installed is defined as the front surface of the bracket 110, and the opposite surface is defined as the back surface of the bracket 110.
- the bracket 110 is installed on the part of the chassis 160 close to the back of the monitor mounting frame 100, which makes the monitor mounting frame 100 more stable.
- At least three rollers 150 are installed on the chassis 160.
- the chassis 160 is equipped with four rollers 150. The maximum size of the chassis 160 does not exceed 425 mm, so that it can pass in the narrow corridors of the hospital.
- the chassis 160 includes at least one notch 161, which is provided on the side of the chassis 160 facing the front of the bracket 110, and its function is to ensure that when the user pushes the monitor mounting frame 100 forward, the chassis 160 will not hinder the user from moving forward. Prevent the user from kicking the chassis 160.
- a notch 161 can also be provided on the other side of the chassis 160.
- a notch 161 is provided on the side of the chassis 160 facing the back of the bracket 110. It is more convenient for the user to stand on the back and connect the wires, and reduce the monitor mounting frame 100. The situation of bumping into a person or thing while moving forward.
- the storage device 120 is installed on the bracket 110 for storage.
- the storage device 120 can be mounted on the bracket 110 in various detachable or non-detachable ways, such as screwing, clamping, welding, and bonding.
- the storage device 120 may have a storage cavity 121, and relatively large items such as a blood pressure monitor cuff may be placed in the storage cavity 121.
- the monitor connection base 130 is used to install the monitor 200, as shown in FIGS. 3 and 4 and FIGS. 8 and 9.
- the monitor 200 can be installed on the bracket 110 through the monitor connection base 130.
- the monitor connection base 130 can be connected to the monitor 200 through detachable fixing methods such as screws and buckles. Of course, in some special embodiments, the monitor 200 may also be non-detachable from the monitor connection base 130. Type of fixed connection.
- the monitor connection base 130 can be directly mounted on the support 110 or can be mounted on the storage device 120 and then indirectly mounted on the support 110 through the storage device 120.
- the inspection head storage device is used to place the inspection head, and the inspection head storage device is installed on the bracket 110 or the storage device 120.
- the inspection head storage device and the bracket 110 or the storage device 120 may be non-detachable connection, or may be a detachable connection, such as screw connection, snap connection, and the like.
- the inspection head is the inspection end of various equipment for inspecting patients.
- the inspection head usually contacts the patient to detect a certain physiological parameter.
- the inspection head usually contacts the patient to detect a certain physiological parameter.
- it may be a blood oxygen clamp or a scanning gun. Please refer to FIGS. 5 and 10, taking the blood oxygen clip 310 as an example.
- the blood oxygen clip 310 can be stored in an inspection head storage device (such as 141).
- larger items such as a sphygmomanometer sleeve can be placed in the storage device 120.
- the monitor mounting rack 100 is specially equipped with an examination head storage device, which can separate the examination head and the sphygmomanometer cuff.
- the sphygmomanometer cuff can be stored in the storage device 120, and other examination heads such as blood oxygen clip 310 can be stored. Stored in the corresponding inspection head storage device to avoid entanglement between different parts.
- the inspection head storage device can be arranged at any position on the bracket 110 or the storage device 120.
- the inspection head storage device (such as 141, 142) is located at the side wall of the storage device 120 (or bracket 110), which is more It conforms to the user's operating habits and is convenient for the user to store the inspection head.
- the inspection head storage device does not occupy the internal space of the storage device 120, so that the storage function of the storage device 120 is maximized.
- the inspection head storage device is located at the side wall of the storage device 120 or the support 110 means that the inspection head storage device is used to store the inspection head at the side wall of the storage device 120 or the support 110, which is not It is limited that the inspection head storage device is installed on the side wall of the storage device 120 or the bracket 110, it may be installed on the side wall of the storage device 120 or the bracket 110, or may be installed in other positions, and then extends to the storage device 120 Or at the side wall of the support 110, for example, the inspection head storage device is installed at the bottom or top of the storage device 120.
- the side wall of the storage device 120 has a front side wall A1 facing the user, a rear side wall A2 opposite to the front side wall A1, and a rear side wall A2 located between the front side wall A1 and the rear side wall A2.
- the inspection head storage device can be installed in any position of the front side wall A1, the rear side wall A2, and the side side walls A3, A4. But generally speaking, arranging the inspection head storage device or the part that contains the inspection head in the inspection head storage device on the side walls A3, A4 will be more in line with the user's operating habits, and the inspection head can be positioned in the user's left or right hand direction. For easy access.
- the storage device 120 is an integral part, as shown in FIGS.
- the front side wall A1, the rear side wall A2, and the side side walls A3, A4 may be the respective side walls of the integral part.
- the storage device 120 includes two or more separate parts, as shown in FIGS. 6 to 10, the corresponding side walls of these parts are collectively referred to as the front side wall A1, the rear side wall A2, and the side side walls A3, A4. That is, when the inspection head storage device or the part that contains the inspection head in the inspection head storage device is installed on a side wall of the storage device 120, it may be installed on the corresponding side wall of one of the components, or it may be installed on both sides.
- the different parts 141, 142 of the inspection head storage device are respectively arranged on the side side walls A3, A4 of the different components.
- the inspection head storage device includes an inspection head storage seat 141 and an inspection head wire storage seat 142.
- the inspection head storage seat 141 is used to store the inspection head and the inspection head wire storage
- the seat 142 is used for accommodating the inspection head line.
- the inspection head storage seat 141 and the inspection head line storage seat 142 are installed on the storage device 120.
- the inspection head storage seat 141 is located on the side walls A3 and A4.
- the inspection head accommodating seat 141 can also be installed on the bracket 110.
- the inspection head line receiving seat 142 is installed on the rear side wall A2 or on the same lateral side walls A3 and A4 as the inspection head receiving seat 141. 5 and 10, when the blood oxygen clip 310 is placed in the inspection head receiving seat 141, its cable 320 is stored on the inspection head wire receiving seat 142, of which a part of the cable 320 will be suspended on the inspection head Between the storage seat 141 and the inspection head line storage seat 142. When using the blood oxygen clamp 310, remove the blood oxygen clamp 310. At this time, the suspended part of the cable 320 can move freely, so that the blood oxygen clamp 310 can move within a certain range, and there is no need to take the inspection head wire storage.
- the cable 320 on the seat 142 makes the blood oxygen clip 310 more convenient to take, place and use.
- the inspection head line receiving seat 142 and the inspection head receiving seat 141 are installed on the same side wall A3, A4, the inspection head line receiving seat 142 and the inspection head receiving seat 141 are placed in a misplaced position, so that the inspection head is held by hand
- the cable 320 is stored in the inspection head wire storage seat 142, it will not be wound around the inspection head wire storage seat 142.
- the inspection head line receiving seat 142 is installed on the side wall A3, A4 near the rear side wall A2 or on the rear side wall A2, and the inspection head receiving seat 141 is installed on the side side wall A3, A4 is on the front side wall A1 or on the front side wall A1. Since users generally perform inspection operations near the front side wall A1, such a setting can better prevent the user from accidentally hanging or entangled in the cable during the inspection operation, resulting in problems such as the inspection head falling or the cart tipping.
- the inspection head wire receiving seat 142 can also be arranged in other areas of the side wall.
- the inspection head line storage seat 142 or the entire inspection head storage device can be fixedly arranged at a certain position of the storage device 120 or the bracket 110, for example, a certain position of the side wall of the storage device 120.
- the side walls A3 and A4 are divided into a first side side wall A3 and a second side side wall A4.
- the first side The square side wall A3 and the second side side wall A4 are opposed to each other, and both the first side side wall A3 and the second side side wall A4 have a first mounting part for mounting the inspection head storage seat 141, and the inspection head is stored
- the seat 141 is detachably mounted on the first mounting part.
- other side walls (front side wall A1, rear side wall A2 or other positions) of the storage device 120 may have at least two first mounting parts for mounting the inspection head receiving seat 141.
- the inspection head receiving seat 141 is detachably mounted on the first mounting part in a detachable manner such as a snap connection, a plug connection, a screw connection, and a magnetic connection.
- the inspection head receiving seat 141 and the first mounting part can be detachably connected by clamping.
- the first mounting part includes a connecting piece 1225, which is fixed on the mounting hole 128 of the side wall of the storage device 120 or the bracket 110, and can be fixed by screws.
- the connecting member 1225 has a convex clamping body 1225a
- the inspection head receiving seat 141 has a clamping groove 311
- the clamping groove 311 is detachably clamped on the clamping body 1225a to realize the inspection head receiving seat 141 and the first installation Removable connection between parts.
- the connecting member 1225 can be fixed on any position of the storage device 120 by screwing, bonding, welding, or clamping.
- the storage device 120 has a grid structure or has multiple mounting holes on different side walls or bottoms, and the connector 1225 is detachably inserted into the grid or at least one mounting hole, so that the user can According to one's own operating habits and current needs, install the connecting piece 1225 on any position of the side wall of the storage device 120, so that the inspection head receiving seat 141 detachably connected with the connecting piece 1225 can be installed in a user-defined manner.
- the effect of being more suitable for the user's usage habits and convenient and easy to use is achieved.
- the assembly structure of the connecting piece 1225 and the inspection head receiving seat 141 shown in FIGS. 11 and 12 is only an example, and various other detachable connecting structures can also be used to complete the assembly between the two.
- the inspection head accommodating seat 141 for the inspection head there can also be various different structures, which are easily conceived by those skilled in the art.
- the inspection head accommodating seat 141 can be roughly of a cup structure, and the side and bottom of the cup structure are open, and the opening is used for the passage of the blood oxygen clip line 320, and the blood oxygen clip 310 can be Placed in the cup structure.
- the storage of inspection heads such as the blood oxygen clip 310 can also be completed through other structures.
- the inspection head receiving seat 141 is designed as a structure such as a clamping mechanism, a housing cavity, and a hook.
- the inspection head accommodating seat 141 can accommodate at least one type of probe.
- the inspection head receiving seat 141 can receive the blood oxygen clip 310 and the scanning gun. Since both types of probes can be placed in the inspection head storage base 141, the user does not need to distinguish the inspection head storage base 141 corresponding to different probes.
- the user can change The blood oxygen clip 310 is placed in any inspection head receiving seat 141.
- at least one inspection head receiving seat 141 is respectively installed on the first side wall A3 and the second side wall A4, the user can exchange the positions of the blood oxygen clip 310 and the scanning gun according to actual needs, so that the inspection head is placed It is more flexible and more suitable for the user's usage habits.
- the inspection head wire receiving seat 142 can also adopt various structures to realize the storage of the inspection head wire.
- the inspection head wire receiving seat 142 can be a hook or, of course, a clip. Structures such as holding mechanism, buckle, accommodating cavity, etc.
- the inspection head storage device may also be a magnetic component, and the inspection head and the inspection head storage device may also be connected by a magnetic coupling.
- the connecting piece 1225 and the inspection head receiving seat 141 are not needed, and the inspection head with magnets or metal parts can be directly adsorbed on the inspection head receiving device to complete the storage through magnetic coupling.
- the storage device 120 is a general term, which may include one or more components, as long as it can achieve the function of direct or indirect storage.
- Direct storage is defined as the structure of the storage device 120 itself.
- indirect storage is defined as the function of storage that can be realized through other structures attached to it.
- the storage device 120 includes a storage box 122, and the storage box 122 has at least one storage cavity 121.
- the storage cavity 121 can be used to place various items, such as a sphygmomanometer cuff, a clipboard clip for a nurse's bed examination (for the nurse to record various information), pens and other tools.
- the storage box 122 has a handle 123 so that the user can push the storage box 122, thereby pushing the entire monitor mounting frame 100 to move .
- the inspection head receiving seat 141 and the inspection head line receiving seat 142 are disposed on the storage box 122.
- the inspection head storage seat 141 and the inspection head line storage seat 142 are located at the side walls of the storage box 122, and may include one of the front side wall A1, the rear side wall A2, and the side side walls A3, A4 of the storage box 122. Location.
- the inspection head receiving seat 141 may be disposed on the first lateral side wall A3 and/or the second lateral side wall A4 of the storage box 122.
- the inspection head wire receiving seat 142 can be arranged on the rear side wall A2.
- the first side wall A3 of the storage box 122 includes a first side S1
- the second side wall A4 includes a second side S2.
- the side S1 is parallel to the second side S2 and both are straight sides, which are convenient to support the user's writing board and facilitate the user to write information.
- an end of the bracket 110 that is close to the first side S1 and the second side S2 is higher than an end of the bracket 110 that is far away from the first side S1 and the second side S2, which is convenient for the user to store things.
- the writing board faces the user, which is convenient for the user to view.
- the storage device 120 not only includes the storage box 122, but also includes an operating table 124, the operating table 124 is located above the storage box 122, and the two are separately arranged.
- the console 124 can be used for various operations by the user.
- the console 124 has a flat area 1241 and a pen placement position 1242.
- the flat area 1241 is convenient for the user to write information
- the pen placement position 1242 is used to store a pen.
- the user (such as a nurse) can clip the tablet in the plane area 1241 to record information.
- the pen placement position 1242 can be a cavity adapted to the shape of the pen, and the pen can be placed in the cavity when the pen is not in use.
- the operating table 124 has a handle 123 for the user to push the operating table 124, thereby pushing the entire monitor mounting frame 100 to move.
- the inspection head receiving seat 141 is provided on the operating table 124, and the inspection head line receiving seat 142 is provided On the storage box 122.
- the inspection head receiving seat 141 is located at the side wall of the operating table 124, and may include a certain position of the front side wall A1, the rear side wall A2, and the side side walls A3, A4 of the operating table 124.
- the inspection head receiving seat 141 may be disposed on the first lateral side wall A3 and/or the second lateral side wall A4 of the storage box 122.
- the inspection head line receiving seat 142 may be disposed on the first lateral side wall A3 and/or the second lateral side wall A4 of the storage box 122.
- the inspection head receiving seat 141 and the inspection head line receiving seat 142 may also be arranged on the storage box 122 or the operating table 124.
- the bottom of the storage box 122 has at least one expansion installation opening 126 for detachably installing expansion components.
- the bottom of the console 124 has at least one expansion installation opening 126 for detachably installing expansion components.
- the expansion installation opening 126 may be an installation hole, and the expansion component can be installed on the expansion installation opening 126 by means of screws or the like.
- the expansion installation port 126 can also be used to install at least one of the inspection head storage device or the inspection head storage base 141 and the inspection head wire storage base 142 described above.
- a backup power supply 127 may be provided at the bottom or inside of the console 124 (or storage box 122), so that when the monitor 200 is installed on the monitor connector 130 The monitor 200 is powered.
- the power cord accommodating member 170 is further included.
- the power cord accommodating member 170 is disposed on the bracket 110 to accommodate the power cord of the monitor 200.
- the power receiving member 170 may be a hook or other structure.
- the inspection head storage device or the inspection head cord storage seat 142 may also be used instead of the power supply storage member.
- FIGS. 3 and 4 show the structure of installing the monitor 200 on a monitor mounting frame 100.
- the monitor 200 includes a display screen 201, a power button 202, a function button 203, and a rotary code. 204, multi-function interface 205, DC interface 206, AC socket 207, grounding pole 208, blood pressure interface 209, blood oxygen interface 210 and 211, network interface and USB interface 212, and recorder 213.
- the display screen 201, the power button 202, the function buttons 203, and the rotary encoder 204 are arranged on the front of the monitor 200.
- the multifunctional interface 205, the DC interface 206, the AC socket 207, and the grounding pole 208 are arranged on the back of the monitor 200.
- the blood pressure interface 209, the blood oxygen interfaces 210 and 211, the network interface and the USB interface 212, and the recorder 213 are arranged on the side of the monitor 200.
- This setting method is sorted according to the order of the user's most frequent operations, placing the buttons/interfaces frequently operated by the user on the front of the monitor 200, that is, the side close to the user; placing the buttons/interfaces with the next most frequent operation by the user on the monitor.
- the side of the monitor 200; the buttons/interfaces with the least frequency of user operation are placed on the back of the monitor 200, making the user operation more convenient.
- the monitor 200 includes a display screen 201, a power button 202, a blood pressure interface 209, and a blood oxygen interface 210. And 211, carbon dioxide interface 216, network interface 214, USB interface 215, multi-function interface 205, DC interface 206, grounding pole 208 and AC socket 207.
- the display screen 201 is a high-definition capacitive screen. The user interacts with the monitor 200 through intuitive operations such as touch and click. Through the high-definition capacitive screen, function buttons and rotary encoders are omitted in this embodiment.
- a larger display screen 201 can be placed on the limited front area of the monitor 200, which is more convenient for users to view and use, and improves user experience.
- the display screen 201 is installed at the opening (not shown) of the rear housing 220, the power button 202, the blood pressure port 209, the blood oxygen ports 210 and 211, the carbon dioxide port 216, the network port 214, the USB port 215, and more
- the functional interface 205, the DC interface 206, the grounding pole 208 and the AC socket 207 are all arranged on the rear housing 220.
- a grasping portion 218 is also provided on the rear housing 220, and the grasping portion 218 can be constituted by grooves, protrusions and other structures on the rear housing, as long as it can enable the user to install and transfer the monitor 200 During the process, the grasping function of the monitor 200 is sufficient, and its specific structure is not limited.
- any cross-section of the rear housing 220 parallel to the display screen 201 is smaller than the display screen 201, so that when the user looks at the front of the monitor 200, only the display screen 201 is seen, and the rear housing cannot be seen.
- the other parts of the body 220 have better visual effects.
- the storage device (such as the storage box) has an assembly hole that penetrates up and down.
- the assembly hole of the storage device is sleeved on the bracket and fixed to the bracket.
- this method has requirements on the assembly sequence, especially when the storage device and the monitor connection seat are to be installed on the bracket at the same time, the storage device must be installed first, and then the protection device connection seat, which requires high assembly and installation efficiency. low.
- FIGS. 15-26 In this regard, please refer to FIGS. 15-26.
- another monitor mounting frame is also provided.
- the monitor installation frame includes a bracket 110, a storage device 120 and a monitor connection base 130.
- the side wall of the bracket 110 has at least one first butting portion.
- the storage device 120 is used for storage, and its outer wall has at least one second docking portion, and the first docking portion and the second docking portion are fixed in a detachable manner.
- the monitor connection base 130 is installed on the bracket 110 or the storage device 120 for installing the monitor 200 to support the monitor 200 on the monitor mounting frame.
- the storage device 120 is directly assembled with the first docking portion on the side wall of the bracket 110 through the second docking portion on the outer wall, and the bracket 110 does not need to penetrate the storage device 120. There is no requirement for the assembly sequence, and the storage device can be installed first 120, the console or monitor connection base 130 can also be installed first.
- the detachable fixing method of the first butting portion and the second butting portion can be realized by adopting a snap structure, a magnetic attraction structure, a detachable bonding structure, a screw connection structure, and the like.
- the outside or inside of the first docking portion is left with a space for the second docking portion to move from the non-axial direction of the bracket 110 to the first docking portion, for example, to move laterally to the first docking portion to facilitate the second docking portion.
- the two mating parts can move from the non-axial direction of the bracket 110 to the outside or inside of the first mating part, so as to help the second mating part to be assembled to the first mating part.
- the open space above the first locking block 111 allows the second docking portion to move laterally above the first locking block 111 to help the second docking portion to move downward.
- This horizontal assembly method is not necessarily limited to the installation sequence of the bracket 110 in the axial direction, such as the installation sequence of the bracket 110 and the storage device 120, the monitor connection base 130 and the chassis 160, which facilitates the assembly of the storage device 120.
- this embodiment takes the storage device 120 as the storage box 122 as an example for description.
- the storage device 120 is not limited to the storage box 122, and it may also include a console or other structures.
- the first docking portion includes a first locking block 111, the first locking block 111 is protrudingly disposed on the side wall of the bracket 110, and the second docking portion has a first buckle Cavity 129, the first buckle cavity 129 has a disassembly and assembly opening, the first clamping block 111 extends into the first clamping cavity 129 through the disassembly and assembly opening, and the cavity wall of the first clamping cavity 129 is buckled on the first clamping block 111 on.
- the first clamping block 111 is engaged with the first clamping cavity 129 to install the storage box 122 on the side wall of the bracket 110.
- the first buckle cavity 129 can be arranged on the side wall or other wall of the storage box 122.
- the position of the first buckle cavity 129 corresponds to the position of the first mating portion on the bracket 110 so as to be able to be mated.
- the first block 111 has a base 1111 and a first flange (1112, 1113) protruding from the base 1111, and the base 1111 is fixedly installed On the outer wall of the bracket 110, the cavity wall of the first buckle cavity 129 is buckled on the first flange, and under the restriction of the first flange, the storage box 122 is prevented from moving downward and horizontally relative to the bracket 110 .
- the disassembly port has a first downward opening 1291 and a second opening 1292 extending upward from the first opening 1291, the first opening 1291 and the second opening 1292 Connected.
- the first block 111 can be inserted into the first opening 1291 from bottom to top.
- the width of the second opening 1292 is larger than the width of the base 1111 and smaller than the width of the first flange, so that the base 1111 can drive the first protrusion along the second opening 1292. The edge moves upward.
- the width of the first flange is greater than the width of the second opening 1292, the first flange will not be separated from the second opening 1292, but is always accommodated in the first buckling cavity 129 so that the first flange can be buckled
- the cavity wall of the first buckle cavity 129 can be moved from top to bottom.
- the cover is buckled on the first block 111.
- the first block 111 has first side flanges 1112 protruding from the base 1111 to two sides, respectively.
- the cavity wall of the first buckling cavity 129 is buckled on the first side flange 1112.
- the first side flange 1112 can prevent the storage box 122 from moving left and right on the support 110 and improve the stability of the storage box 122 on the support 110.
- the flange includes a first upper flange 1113 protruding upward from the base 1111, and the cavity wall of the first buckling cavity 129 is buckled in the first Upper flange 1113.
- the storage box 122 When the first buckle cavity 129 is buckled on the first blocking block 111, the storage box 122 is buckled on the upwardly protruding first upper flange 1113 under its own weight. A step structure is formed between 1113 and the base 1111 to prevent the storage box 122 from falling from the bracket 110. To remove the storage box 122, first lift the storage box 122 so that the cavity wall of the first buckle cavity 129 is separated from the first upper flange 1113 and the first side flange 1112 before removing the storage box 122.
- the opening wall of the dismounting opening on the first buckle cavity 129 may be n-shaped, so that it can be buckled more closely to the first upper flange 1113 and the first upper flange 1113 of the first clamping block 111.
- the outer wall of the first side flange 1112 is approximately distributed in a figure eight shape.
- the first locking block 111 is arranged along the vertical direction, with the narrower end on the upper side and the wider end on the lower side.
- the cavity wall in the first buckle cavity 129 that abuts the first side flange 1112 also has a corresponding figure eight shape, and the outer wall of the first side flange 1112 It can support the wall of the first buckle cavity 129 upward to a certain extent, so that the gravity of the storage box 122 is more evenly distributed to all parts of the first buckle 111; it can also support the wall of the first buckle cavity 129.
- the cavity wall has a certain level of support, which increases the stability in the horizontal direction and reduces shaking.
- the installation port is specifically the first opening 1291 of the disassembly port, and then the storage box 122 falls down from the top, and the flanges (2222, 1113) of the first block 111 are clamped into the first buckle from the first opening 1291 In the cavity 129, the base body 1111 moves in the second opening 1292, so that the cavity wall of the first buckling cavity 129 is buckled on the first clamping block 111, for example, on each flange of the first clamping block 111.
- first locking block 111 and the first locking cavity 129 are only an example of the first mating part and the second mating part.
- first docking portion and the second docking portion can also be implemented by other structures. Such as other forms of buckle structure, magnetic structure, detachable bonding structure, screw connection structure, etc.
- the first docking portion includes a second buckle cavity 113
- the second buckle cavity 113 has a disassembly and assembly opening
- the second docking portion has The second clamping block 1210 is protrudingly arranged on the outer wall of the storage box 122, the second clamping block 1210 extends into the second clamping cavity 113 through the disassembly and assembly opening, and the cavity wall of the second clamping cavity 113 It is buckled on the second block 1210. That is, the first mating portion and the second mating portion adopt a concave-convex mating structure opposite to the foregoing embodiment.
- the second block 1210 has a second base 1211 and a second flange 1212 protruding from the second base 1211.
- the second base 1211 is fixedly mounted on the storage box 122.
- the disassembly port has a first opening 1131 facing the storage box 122 and a second opening 1132 communicating with the first opening 1131, and the second opening 1132 extends from top to bottom. It is distributed so that the second clamping block 1210 can be inserted into the second clamping cavity 113 from the first opening 1131 and move from top to bottom along the second opening 1132 in the second clamping cavity 113.
- the width of the second opening 1132 is greater than the width of the second base 1211 and smaller than the width of the second flange 1212 and the width of the first opening 1131, so that the second base 1211 can be placed in the second opening 1132, and the second flange 1212 will not fall off from the second opening 1132.
- the second clamping block 1210 moves downward along the second opening 1132, so that the second flange 1212 is accommodated in the second buckle cavity 113, so that the second flange 1212 is buckled in the second buckle cavity 113 On the wall of the cavity.
- the second flange 1212 includes second side flanges 1212 protruding from the second base body 1211 to two sides, respectively.
- the cavity wall is buckled on the second side flange 1212.
- the second side flange 1212 is buckled with the two side walls of the second opening 1132, and the storage box 122 is placed to move downward and horizontally.
- the storage box 122 has a rear side wall A2 facing the bracket 110, and the second docking portion is located on the rear side wall A2. In this way, the storage box 122 can be docked with the bracket 110 conveniently.
- the second docking portion may also be provided on other side walls and the top wall (if there is a top wall) or the bottom wall (if there is a bottom wall) of the storage box 122.
- the rear side wall A2 has a groove 1213.
- the bracket 110 is located in the groove 1213, and the second docking portion Located on the wall of the groove 1213.
- the groove 1213 can be concave-convex matched with the bracket 110, which not only reduces the overall volume of the storage box 122 and the bracket 110, but also the groove 1213 can limit the storage box 122 to prevent the storage box 122 from being on the bracket 110 Shake to both sides of the storage box 122.
- the groove 1213 is not an essential feature.
- the rear side wall A2 may also have a normal flat structure or other structures without the groove 1213.
- the second butting portion may be provided on each groove wall of the groove 1213.
- the outer wall of the bracket 110 has a front 114 facing the storage box 122 and side surfaces 115 located on both sides of the front side 114.
- the first docking portion is located on the two side surfaces 115, and the second The abutting portion is located at a position corresponding to the groove 1213 and the side surface 115, that is, on the two opposite side groove walls of the groove 1213.
- the first docking portion is oppositely distributed on the two side surfaces 115 of the bracket 110, and supports the storage box 122 from two opposite points.
- the storage box 122 is not easy to shake, and at the same time, the weight of the storage box 122 is distributed to the bracket 110.
- the two sides of the bracket make the whole bracket 110 more stable and reliable.
- the storage box 122 is provided with a captive screw 1214, and the bracket 110 is fixed with the captive screw 1214.
- the captive screw 1214 can also be called captive screw, which is installed on the storage box 122.
- the bracket 110 can also be provided with captive screws, and the storage box 122 has screw holes fixed with the captive screws 1214.
- both the storage box 122 and the bracket 110 are provided with captive screws, so that both can lock each other through the captive screws to increase the fastening effect.
- the captive screw 1214 is located below the first mating part and the second mating part. In other embodiments, the captive screw 1214 can also be arranged above or flush with the first butting portion and the second butting portion.
- the bracket 110 and the chassis 160 are mainly fastened by external screws.
- external screws When assembling, first align the mounting holes of the bracket 110 and the chassis 160, and then insert the screws from the bottom of the chassis 160 into the mounting holes of the bracket 110 and the chassis 160, and then manually lock with an external tool.
- This method requires the operator to manually align the screws with the mounting holes of the chassis 160 and the mounting holes of the bracket 110, and use external tools, such as screwdrivers, etc. to install.
- the assembly process is cumbersome and the assembly workload is large. It is often necessary to connect the bracket 110 and the chassis. 160 put down, and then complete the screw installation.
- the monitor mounting frame includes a bracket 110, a chassis 160 and a monitor connection base 130.
- the chassis 160 is used to support the bracket 110.
- the monitor connection base 130 is installed on the bracket 110 or the storage device 120 for installing the monitor 200.
- the bracket 110 is provided with a first abutting member 116.
- the chassis 160 has a plate body 164, a second abutting member 162 and an abutting member 165.
- the first abutting member 116 is inserted downward into the second abutting member 162 or the second abutting member 162 is inserted upward into the first abutting member 116.
- the abutment member 165 is movably mounted on the second abutment member 162 or the plate body 164.
- the abutment member 165 has an abutment position and a release position.
- the first abutting member 116 and the second abutting member 162 are pressed tightly to make the bracket 110 and the chassis 160 fixedly connected; when the abutting member 165 is in the release position, the first abutting member is released.
- the connecting member 116 and the second abutting member 162 enable the bracket 110 and the chassis 160 to be separated.
- the abutting member 165 itself is located on the chassis 160 or the second abutting member 162
- no additional installation is required, saving operation steps.
- the operator can directly lock and release the bracket 110 and the chassis 160 by moving the abutment member 165 in the abutment position and the release position.
- the whole assembly process is simpler and faster, and the workload is smaller.
- the first abutting member 116 and the second abutting member 162 are inserted and locked to each other, which not only can lock the bracket 110 and the chassis 160, but also can form a horizontal limit for the bracket 110 to improve the bracket 110. Relative to the stability of the chassis 160.
- the abutting member 165 is a tension screw 1651, and the tension screw 1651 is rotatably mounted on the second abutting member 162 or the plate body 164 , Such as forming a non-detachable screw structure.
- the first abutting member 116 has a threaded hole, and one end of the tightening screw 1651 passes through the second abutting member 162, and the tightening screw 1651 can be directly screwed to lock it to the first abutting member 116 of the bracket 110 .
- the tightening screw 1651 is in the abutting position, it is screwed to the first abutting member 116.
- the tightening screw 1651 has an abutting portion, which is used to directly or indirectly press the second abutting member 162 toward the first abutting member.
- the abutting member 116 is used to make the first abutting member 116 and the second abutting member 162 abut; when the tightening screw 1651 is in the release position, the tightening screw 1651 is separated from the first abutting member 116.
- the tray 164 has a first recessed cavity 163, and the second abutting member 162 is located in the first recessed cavity 163.
- One end of the bracket 110 has a first recessed cavity 163 and is fixed to the second abutting member 162.
- the tightening screw 1651 is rotatably mounted on the second abutting member 162 or the plate body 164, for example, forming a non-detachable screw structure (or called a non-detachable screw structure).
- a non-detachable screw structure or called a non-detachable screw structure.
- the first recessed cavity 163 of the chassis 160 can further limit the bracket 110 in a horizontal direction, and further reduce the shaking of the bracket 110 relative to the chassis 160 in the horizontal direction.
- the chassis 160 is provided with rollers 150. Therefore, the chassis 160 has a certain height from the ground and can be reached by hands (the space is too small to meet the existing assembly methods. The way must put the chassis 160 down). At this time, it is not even possible to overturn the chassis 160, and just tighten the tightening screw 1651 when the bracket 110 and the chassis 160 are in a vertical state.
- the tension screw 1651 includes a threaded portion 1652 and a force applying portion 1653 connected to the threaded portion 1652.
- the threaded portion 1652 has a threaded structure.
- the threaded portion 1652 is rotatably mounted on the second abutting member 162 or the plate body 164 and passes upward through the second abutting member 162 to be screwed with the first abutting member 116.
- the force applying portion 1653 is located below the plate body 164 to facilitate the operator to apply external force to the force applying portion 1653 to drive the screw connection portion 1652 to rotate.
- the force applying portion 1653 and the screw connection portion 1652 form an included angle a.
- the included angle a is not 0° and 180°, so that the force application portion 1653 forms a force arm of a certain length in the radial direction of the screw connection portion 1652, so that the operator saves effort when rotating the screw connection portion 1652.
- the value range of the included angle a is: 30° ⁇ a ⁇ 150°, for example, 90°.
- This included angle not only makes it easier to form a longer force arm in the radial direction of the screw connection portion 1652, but also prevents the force application portion 1653 from protruding too much downward, resulting in a greater requirement for the chassis 160 to leave the ground when the screw connection portion 1652 is rotated. high. This angle makes it easier to rotate the screw connection 1652 without changing the height of the chassis 160 from the ground.
- the value range of the ratio b of the length of the threaded portion 1652 to the length of the force applying portion 1653 is: 1/6 ⁇ b ⁇ 1. Within the above range, the operator can use the force applying portion 1653 to rotate the screw connection portion 1652 to save effort. In one embodiment, the value range of the ratio range b of the two lengths is: 1/4 ⁇ b ⁇ 1/2.
- the force applying portion 1653 is arranged in a horizontal direction. This arrangement facilitates driving the rotation of the force applying portion 1653 and the screw connection portion 1652, while separating the chassis 160 from the The ground height requirement is lower.
- the plug-in locking fit between the first abutting member 116 and the second abutting member 162 can be realized by, but not limited to, the following embodiments.
- the bracket 110 has an inner cavity 117.
- the first abutting member 116 has a first abutting portion 1161, and the first abutting portion 1161 is inserted upwardly into the inner cavity 117 of the stent 110.
- the first abutting portion 1161 has a first insertion cavity 1163, and an end of the first abutting portion 1161 facing the second abutting member 162 has an insertion opening, and the insertion opening is communicated with the first insertion cavity 1163.
- a threaded hole is provided at one end of the first abutting portion 1161 facing away from the second abutting member 162.
- the end of the second abutting member 162 facing the first abutting member 116 has a second abutting portion 1621 that can be inserted upwardly into the first insertion cavity 1163.
- the second abutting portion 1621 is provided with a through hole penetrating vertically.
- One end of the tightening screw 1651 passes through the through hole to be screwed with the first abutting member 116 to abut the first abutting portion 1161 and the second abutting portion 1621 tightly.
- the first abutting portion 1161 and the second abutting portion 1621 can be pushed to abut, so as to increase the fastening effect of the bracket 110 and the chassis 160, and reduce the radial (horizontal direction) of the bracket 110. ) The shaking of the upper relative to the chassis 160.
- the first insertion cavity 1163 and the second abutting portion 1621 may adopt a cylindrical shape, a square column shape, or other conventional special-shaped structures.
- the first insertion cavity 1163 is frustum-shaped, and the insertion port is located at the larger end of the first insertion cavity 1163, that is, at the lower end of the first insertion cavity 1163.
- the second abutting portion 1621 has a frustum shape with a small upper portion and a larger lower portion to match the first insertion cavity 1163.
- the chassis 160 includes an upper disc body 1641 and a lower disc body 1642.
- the upper disc body 1641 has An opening 1643, and the opening 1643 and the bottom plate 1642 enclose a first recessed cavity 163.
- the second abutting portion 1621 is disposed in the first recessed cavity 163.
- one end of the tightening screw 1651 extends upwards into the disc body 164, and the abutment portion of the tightening screw 1651 includes a chuck 1654 located below the disc 164, the chuck 1654 and An elastic member is provided between the disk body 164, and the elastic force of the elastic member urges the disk body 164 to abut against the second abutting member 162, thereby urging the second abutting member 162 and the first abutting member 116 to abut.
- the elastic member may be a structure such as an elastic washer 166 or a spring.
- the second abutting member 162 is installed on the lower disk body 1642, and the upper disk body 1641 and the lower disk body 1642 respectively press the second abutting member 162 from the upper and lower directions.
- the lower plate body 1642 may have a through hole, and the threaded portion 1652 of the tightening screw 1651 passes through the lower plate body 1642 from the through hole.
- the through hole may be a threaded hole.
- the threaded portion 1652 of the tension screw 1651 is screwed into the space between the lower disk body 1642 and the upper disk body 1641 from the threaded hole, wherein the rear end of the threaded portion 1652 has a polished rod
- the threaded structure of the threaded portion 1652 completely enters the upper part of the lower plate body 1642, the polished rod is accommodated in the through hole of the lower plate body 1642.
- the tightening screw 1651 cannot fall off from the lower plate body 1642, resulting in looseness. Take off the screws 1214. Unless the screw connection portion 1652 is rotated in the reverse direction, the tension screw 1651 can be removed from the lower plate 1642.
- the second abutting member 162 may have a second assembling part 1622, the second assembling part 1622 is fixedly mounted on the plate body 164, the second abutting part 1621 and the second assembling part 1622 are connected or integrally formed.
- the second assembling part 1622 may have some mounting holes, so as to be locked by passing screws through the mounting holes.
- the second abutting member 162 can also be fixedly installed in the tray 164 through other structures.
- the second assembly portion 1622 may include a wall 1623 disposed vertically.
- the wall 1623 is arranged around the opening 1643 of the upper plate body 1641 and is enclosed with the opening 1643.
- the first abutting member 116 has a first assembling portion 1162, and a first assembling portion 1162. It can be fixedly connected to the bracket 110, and the first abutting portion 1161 and the first assembling portion 1162 are connected or integrally formed.
- the first assembling part 1162 may have a mounting hole, and a screw is passed through the mounting hole for locking.
- the first abutting member 116 can also be fixedly installed in the bracket 110 through other structures.
- the first abutting member 116 and the second abutting member 162 may also be connected by other solutions.
- the second abutting portion 1621 of the second abutting member 162 has a second insertion cavity 1624, and the end of the second abutting portion 1621 facing the first abutting member 116 has an insertion opening, and the insertion opening and The second insertion cavity 1624 communicates with each other.
- An end of the second abutting portion 1621 facing away from the first abutting member 116 is provided with a through hole.
- the first abutting member 116 has a first abutting portion 1161 that can be inserted downward into the second insertion cavity 1624.
- the first abutting portion 1161 is provided with a threaded hole.
- One end of the tightening screw 1651 passes through the through hole of the second abutting member 162 and is screwed to the first abutting member 116 to connect the second abutting portion 1621 with the first abutting member 116.
- the part 1161 tightens.
- the first abutting portion 1161 and the second abutting portion 1621 can be pushed to abut, so as to increase the fastening effect of the bracket 110 and the chassis 160, and reduce the radial (horizontal direction) of the bracket 110. ) The shaking of the upper relative to the chassis 160.
- the second insertion cavity 1624 and the first abutting portion 1161 may adopt a cylindrical shape, a square column shape, or other conventional special-shaped structures.
- the second insertion cavity 1624 is in the shape of an inverted frustum with a large upper and a small lower, the insertion port is located at the larger end of the second insertion cavity 1624, and the first abutting portion 1161 is an inverted upper and lower one. Frustum shape to match the second insertion cavity 1624.
- the bottom plate 160 includes an upper plate body 1641 and a lower plate body 1642.
- the upper plate body 1641 has an opening 1643, and the opening 1643 is connected to the lower plate body 1642 or the second abutting member 162 surrounds the first recessed cavity 163 and is arranged.
- the second abutting portion 1621 is disposed in the first recessed cavity 163. One end of the second abutting portion 1621 penetrates the plate body 164 downward.
- the tightening screw 1651 is located below the second abutting portion 1621.
- the second abutting member 162 may have a through hole, and the threaded portion 1652 of the tightening screw 1651 passes through the second abutting member 162 from the through hole.
- the through hole can be a threaded hole
- the threaded portion 1652 of the tension screw 1651 is screwed into the second insertion cavity 1624 of the second abutting portion 1621 from the threaded hole, wherein the rear end of the threaded portion 1652 has a polished rod
- the tightening screw 1651 cannot fall off from the second abutting member 162, Form a captive screw 1214.
- the tightening screw 1651 can be removed from the second abutting member 162 unless the screw connection portion 1652 is rotated in the reverse direction.
- the abutting portion of the tightening screw 1651 includes a chucking table 1654 located below the second abutting portion 1621, an elastic member is provided between the chucking table 1654 and the second abutting portion 1621, and the elastic second abutting member 162 of the elastic member Move to the first abutting member 116.
- the elastic member may be a structure such as an elastic washer 166 or a spring.
- the second abutting member 162 may adopt a second assembling portion 1622 as shown in FIGS. 27 to 30, the second assembling portion 1622 is fixedly installed on the plate body 164, and the second abutting portion 1621 is connected to the second assembling portion 1622. 1622 connection.
- the second abutting member 162 can also be fixedly installed in the tray 164 through other structures.
- the first abutting member 116 has a first assembling portion 1162, and the first assembling portion 1162 is fixed to the bracket 110. Connected, the first abutting portion 1161 and the first assembling portion 1162 are connected.
- the first assembling part 1162 may have a mounting hole, and a screw is passed through the mounting hole for locking.
- the first abutting member 116 can also be fixedly installed in the bracket 110 through other structures.
- the monitor mount may also have a storage device 120 for storage.
- the storage device 120 is installed on the bracket 110.
- the present application also improves the upper mounting structure of the bracket 110.
- the storage device 120 includes a storage box 122 and a console 124.
- the storage box 122 is installed on the bracket 110, and is assembled with the bracket 110, for example, by the structure shown in the above-mentioned embodiment or other assembling structures.
- the operating table 124 has a second recessed cavity 1244 recessed upward and a third abutting member 1243 located in the second recessed cavity 1244. The upper end of the bracket 110 is inserted into the second recessed cavity 1244.
- the bracket 110 is provided with a fourth abutting member 118, and the third abutting member 1243 is inserted downwardly into the fourth abutting member 118 or the fourth abutting member 118 is inserted upwardly into the third abutting member 1243.
- the mating structure of the third abutting member 1243 and the fourth abutting member 118 may refer to the mating structure of the first abutting member 116 and the second abutting member 162, for example, the first abutting member 116 and the second abutting member 162.
- the third abutting member 1243 adopts a structure similar to that of the first abutting member 116
- the fourth abutting member 118 adopts a structure similar to that of the second abutting member 162.
- the console 124 since the console 124 is installed from above to the upper end of the bracket 110, the monitor connection base 130 is also locked above the console 124, and the monitor connection base 130 is locked with the bracket 110.
- the console 124 can be fixed. Therefore, in some embodiments, the tension screw 1651 can be omitted between the third abutting member 1243 and the fourth abutting member 118.
- the plug-in mating structure of the third abutment member 1243 and the fourth abutment member 118 can also be realized by other forms of structure, and is not limited to the above-mentioned first abutment member 116 and the second abutment member 162. Plug and match structure.
- the bracket 110 has an inner cavity 117
- the fourth abutting member 118 has a fourth abutting portion 1181
- the fourth abutting portion 1181 is inserted downwardly into the bracket 110 Inner cavity 117.
- the fourth abutment portion 1181 has a fourth insertion cavity 1182
- the end of the fourth abutment portion 1181 facing the third abutment member 1243 has an insertion port.
- the insertion port communicates with the fourth insertion cavity 1182, and the third abutment member 1243 faces the One end of the four abutting member 118 has a third abutting portion 1243 a, and the third abutting portion 1243 a is inserted downward into the fourth insertion cavity 1182, so that the operating table 124 is installed on the bracket 110.
- the first abutting portion 1161 and the second abutting portion 1621 can be brought into contact with each other, thereby reducing the shaking of the operating table 124 relative to the bracket 110 in the radial direction (horizontal direction).
- the fourth insertion cavity 1182 and the third abutting portion 1243a may adopt a cylindrical shape, a square column shape, or other conventional special-shaped structures.
- the fourth insertion cavity 1182 is in the shape of an inverted frustum
- the insertion port is located at the larger end of the fourth insertion cavity 1182
- the third abutment portion 1243a is in the shape of an inverted frustum (can Refer to the first abutment portion 1161 in FIG. 34) to match the fourth insertion cavity 1182.
- the mating structures of the third abutting member 1243 and the fourth abutting member 118 are interchangeable.
- the third abutting member 1243 has a third abutting portion
- the third abutting member 1243 has a third abutting portion.
- the abutting portion has a third insertion cavity
- the end of the third abutting portion facing the fourth abutting member 118 has an insertion opening, and the insertion opening is communicated with the third insertion cavity.
- the fourth abutting member 118 has a fourth abutting portion protruding upward, and the third insertion cavity is sleeved on the fourth abutting portion 1181 so that the operating table 124 is installed on the bracket 110.
- the third insertion cavity is frustum-shaped, and the insertion port is located at the larger end of the third insertion cavity, that is, the lower end of the third insertion cavity.
- the fourth abutting portion 1181 has a frustum shape with a small upper portion and a larger lower portion to match the third insertion cavity.
- the fourth abutting member 118 has a fourth assembling part 1183, the fourth assembling part 1183 can be fixedly connected to the bracket 110, and the fourth abutting part 1181 and the fourth assembling part 1183 are connected or integrally formed .
- the fourth assembling part 1183 is fixedly connected to the bracket 110 through screws, snap connections, detachable bonding, or magnetic attraction structures.
- the third abutting member 1243 has a third assembling portion 1243b, and the third assembling portion 1243b is fixedly installed on the console 124 or integrally formed with the housing of the console 124, and the third abutting portion 1243a It is connected to or integrally formed with the third assembling part 1243b.
- the third assembling part 1183 is fixedly connected to the operating table 124 through screws, snap connections, detachable bonding or magnetic attraction structures.
- the operating table 124 is provided with captive screws 1242, and the bracket 110 has screw holes fixed with the captive screws 1242.
- the captive screws 1242 are fixed to the bracket 110 to increase the fastening effect of the console 124 and the bracket 110.
- the bracket 110 may also be provided with a captive screw 1242, the operating table 124 has a screw hole fixed with the captive screw 1242, and the captive screw 1242 is locked on the operating table 124.
- the monitor connection base 130 is mainly used to connect the monitor 200, and the monitor connection base 130 and the monitor 200 are both provided with mounting structures to complete the fixed connection.
- different monitors 200 may have different installation structures, and it is difficult to complete the assembly with the same monitor connection base 130. Therefore, it is often necessary to configure different monitor connection bases 130 for different monitors 200.
- an embodiment of the present application provides a monitor connection base 130 for switching the monitor 200.
- the monitor connection base 130 includes a base body 131, a first assembly structure for connecting with the monitor 200 and a second assembly structure for connecting with the adapter component.
- the first assembly structure includes at least two first assembly parts 1321, and the base body 131 has at least two sets of first installation positions capable of adjusting the fixing positions of the first assembly parts 1321, so that the distance between the first assembly parts 1321 can be adjusted.
- the first installation position has a structure capable of adjusting the position of the first assembly 1321.
- the position of the first assembly 1321 can be flexibly adjusted according to the position of the installation structure on the monitor 200 For example, adjust the position of one or more of the first assembly parts 1321, so that the monitor connection base 130 can adapt to a variety of monitors 200, and the versatility of the monitor connection base 130 is improved.
- the first installation position can adopt various structures capable of adjusting the position of the first assembly 1321.
- each group of first mounting positions has at least two mounting holes 1341 with different positions, and each first assembly 1321 is detachably fixed to one of the group of first mounting positions.
- Fig. 38 and Fig. 39 respectively show the structure when the first assembly 1321 is located in different mounting holes 1341.
- FIGS. 38 to 40 there are two first assembling parts 1321, so the mounting holes 1341 are provided in two groups.
- the number of first assembly parts 1321 is larger, more groups of first installation positions can be set.
- each group of first mounting positions has a waist-shaped hole 1342, and each first assembly 1321 is locked in the corresponding waist-shaped hole 1342 by screws. By rotating the screw, the tightness of the first assembly 1321 can be adjusted, so that the position of the first assembly 1321 can be adjusted.
- the base 131 has a receiving groove 135 for receiving the first assembly 1321.
- the waist-shaped hole 1342 is provided on the groove wall of the accommodating groove 135. The first assembly 1321 is placed in the accommodating groove 135, and in a relaxed state, the first assembly 1321 can move in the accommodating groove 135. When it needs to be locked, the screw passes through the waist-shaped hole 1342 to lock the first assembly 1321 in the accommodating groove 135.
- the monitor connection base 130 can be fixed to the monitor 200 only through the first assembly 1321.
- the first assembly structure may also have other assembly parts. Please refer to FIGS. 38 to 43.
- the second assembling parts 1322 and the first assembling parts 1321 are distributed in a triangle shape.
- the base 131 has an unlocking mechanism for unlocking the second assembly 1322.
- the first assembly 1321 and the second assembly 1322 are both snap structures, and the hooks of the first assembly 1321 and the hooks of the second assembly 1322 are arranged opposite to each other.
- the second assembly 1322 has an unlocking position and a locking position. In the unlocking position, the unlocking mechanism drives the second assembly 1322 to move away from the first assembly 1321.
- the unlocking mechanism includes an unlocking member 136 and a locking elastic member 137.
- the locking elastic member 137 drives the second assembly 1322 to move to the locked position, and the unlocking member 136 is used to overcome The elastic force of the locking elastic member 137 drives the second assembly 1322 to move to the unlocked position.
- the unlocking member 136 is rotatably or slidably disposed on the base 131, and the operator can trigger the unlocking member 136 to drive the second assembly 1322 to move to the unlocked position.
- the unlocking member 136 can also be used to drive the second assembly 1322 to unlock through other structures, such as unlocking through an electrical signal.
- the unlocking member 136 can be integrally formed with the second assembly 1322, fixedly connected or drivingly connected.
- the second assembly structure on the monitor connection base 130 is used for assembling with the adapter component.
- the adapter component includes, but is not limited to, a bracket 110 for supporting the monitor 200 and a In order to fix the monitor 200 to the wall mounting device 300 on the wall, the monitor 200 is fixedly connected with these adapter components.
- the second assembly structure includes at least one of a buckle structure, a mounting hole 1341, a detachable adhesive structure, and a magnetic attraction structure.
- the second assembly structure of the monitor connector 130 includes a plurality of mounting holes 133. These mounting holes 133 can be fitted with screws to connect the monitor connector 130 with the corresponding bracket 110 or The wall mounting device 300 is fixed.
- the monitor connection base 130 can be used as a connection structure alone, or can be used as a part of the bracket 110 or the wall mounting device 300.
- a monitor mounting frame is also provided.
- the monitor mounting frame includes a bracket 110, a storage device 120 (which may be omitted), and a monitor connection base 130.
- the bracket 110 plays a supporting role, and the storage device 120 is used for storage and is installed on the bracket 110.
- the monitor connection base 130 can adopt the structure of the monitor connection base 130 shown in the above embodiments, which is installed on the bracket 110 or the storage device 120 through the second installation structure, and the first installation structure is used to install the monitor 200 .
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Abstract
一种监护仪安装架及用于转接监护仪的监护仪连接座,该监护仪安装架包括储物装置以及检查头收纳装置。该储物装置用以储物,例如可将血压计袖带放置到储物装置上。该检查头收纳装置用以放置检查头以及这些检查头匹配的线缆,检查头为各种用于对患者进行检查的设备的检查端,例如可以为血氧夹。其中,本监护仪安装架专门设置检查头收纳装置,可以将检查头与血压计袖带分开放置,例如可将血压计袖带收纳到储物装置内,而将血氧夹等其他检查头收纳到对应的检查头收纳装置内,避免不同部件之间缠绕。
Description
本申请涉及医疗器械领域,具体涉及一种用于监护仪的支撑结构。
监护仪是一种以测量和控制病人生理参数,并可与已知设定值进行比较,如果出现超标可发出警报的装置或系统。通常该监护仪都会配置安装架(例如推车),以便放置监护仪。具体地,推车是一种承载监护仪及附件的设备,由于推车可以移动,可在某些使用场景下,方便监护仪的移动及使用,例如护士查房期间推动监护仪在不同病房之间移动。
但,监护仪安装架只考虑了监护仪的放置、安装及提供简单的附件收纳,存在线缆缠绕的问题,例如,通常将血压计袖带和血氧夹放置在同一个储物盒内,导致血压计袖带和血氧夹线缠绕。
本申请提供一种新型的监护仪安装架,该监护仪安装架用以减轻各种线缆缠绕的问题。本申请还提供了一种用于转接监护仪的监护仪连接座,用以提高监护仪连接座的通用性。
本申请一种实施例中提供了一种监护仪安装架,包括:
支架;
储物装置,所述储物装置安装在支架上,用以储物;
监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上;
以及检查头收纳装置,用以放置检查头,所述检查头收纳装置安装在支架或储物装置上。
一种实施例中,所述检查头收纳装置位于储物装置或支架的侧壁处,以便收纳检查头。
一种实施例中,所述检查头收纳装置包括检查头收纳座和检查头线收纳座,所述检查头收纳座用于收纳检查头,所述检查头线收纳座用于收纳检查头线。
一种实施例中,所述储物装置的侧壁具有面向用户的前侧壁、与前侧壁相对的后侧壁和位于前侧壁和后侧壁之间的侧方侧壁,所述检查头收纳座位于所述侧方侧壁处。
一种实施例中,所述侧方侧壁分为第一侧方侧壁和第二侧方侧壁,所述第一侧方侧壁和第二侧方侧壁相对设置,且所述第一侧方侧壁和第二侧方侧壁均具有用于安装检查头收纳座的第一安装部,所述检查头收纳座以可拆卸的方式安装在所述第一安装部上。
一种实施例中,所述检查头线收纳座安装在后侧壁上。
一种实施例中,所述检查头线收纳座与检查头收纳座安装在同一个侧方侧壁上。
一种实施例中,所述储物装置的侧壁具有至少两个用于安装检查头收纳座的第一安装部,所述检查头收纳座以可拆卸的方式安装在所述第一安装部上。
一种实施例中,还包括连接件,所述连接件固定在所述储物装置或支架侧壁上,且所述连接件具有凸起的卡接体,所述检查头收纳座具有卡接槽,所述卡接槽卡在所述卡接体上。
一种实施例中,所述储物装置包括储物盒,所述储物盒具有至少一个储物腔。
一种实施例中,所述检查头收纳座和检查头线收纳座位于储物盒的侧壁处。
一种实施例中,所述储物盒的底部具有至少一个扩展安装口,用以可拆卸地安装扩展部件。
一种实施例中,所述储物盒具有第一侧边和与所述第一侧边相对的第二侧边,所述第一侧边与所述第二侧边平行设置且均为直边。
一种实施例中,所述第一侧边与所述第二侧边靠近所述支架的一端高于所述第一侧边与所述第二侧边远离所述支架的一端。
一种实施例中,还包括操作台,所述操作台位于储物盒的上方,两者分离设置。
一种实施例中,所述操作台具有平面区、笔放置位以及便于用户推动所述监护仪安装架的把手,所述平面区便于用户书写信息,所述笔放置位用于收纳笔。
一种实施例中,所述检查头收纳座和检查头线收纳座设置在储物盒或操作台上;或,
所述检查头收纳座设置在操作台上,所述检查头线收纳座设置在储物盒上。
一种实施例中,所述操作台的底部具有至少一个扩展安装口,用以可拆卸地安装扩展部件。
一种实施例中,所述操作台内装有备用电池,用以对监护仪进行供电。
一种实施例中,还包括电源线收纳件和滚轮,所述电源线收纳件设置在支架上,用以收纳监护仪的电源线,所述滚轮安装在支架的下方,用以使所述监护仪安装架能够移动。
一种实施例中,所述检查头收纳座用于收纳血氧夹和/或扫描枪,其具有能够放置血氧夹和/或扫描枪的收纳结构。
一种实施例中,还包括位于支架下方的底盘和安装在底盘下的滚轮。
一种实施例中,所述底盘的尺寸不大于425mm。
一种实施例中,所述底盘包括缺口,所述缺口设置于所述底盘朝向所述支架正面的一侧上。
一种实施例中,所述检查头收纳装置包括磁性部件,所述检查头和所述检查头收纳装置磁性连接。
本申请一种实施例中提供了一种监护仪安装架,包括:
支架,所述支架的侧壁具有至少一个第一对接部;
储物装置,所述储物装置用于储物,其外壁具有至少一个第二对接部,所述第一对接部和第二对接部以可拆卸的方式的固定;
以及监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上。
一种实施例中,所述第一对接部的外侧或内部留有供所述第二对接部从所述支架的非轴向方向向第一对接部移动的空间,以便所述第二对接部横向移动到所述第一对接部外侧或内部。
一种实施例中,所述第一对接部包括第一卡块,所述第一卡块凸起设置在所述支架的侧壁上,所述第二对接部具有第一卡扣腔,所述第一卡扣腔具有拆装口,所述第一卡块经所述拆装口伸入所述第一卡扣腔内,所述第一卡扣腔的腔壁扣合在所述第一卡块上。
一种实施例中,所述第一对接部包括第二卡扣腔,所述第二卡扣腔具有拆装口,所述第二对接部具有第二卡块,所述第二卡块凸起设置在所述储物装置的外壁,所述第二卡块经所述拆装口伸入所述第二卡扣腔内,所述第二卡扣腔的腔壁扣合在所述第二卡块上。
本申请一种实施例中提供了一种监护仪安装架,包括:
支架,所述支架用于支撑监护仪,所述支架固设有第一抵接件;
底盘,其用于支撑所述支架,所述底盘具有盘体、第二抵接件和抵紧件,所述第一抵接件向下插入所述第二抵接件中或所述第二抵接件向上插入所述第一抵接件中,所述抵紧件以可活动的方式安装在所述第二抵接件或盘体上,所述抵紧件具有抵紧位和释放位,所述抵紧件位于所述抵紧位时,将所述第一抵接件和第二抵接件抵紧,以使所述支架与底盘固定连接,所述抵紧件位于所述释放位时,释放所述第一抵接件和第二抵接件;
以及监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上。
一种实施例中,所述抵紧件为拉紧螺钉,所述拉紧螺钉以可转动的方式安装在所述第二抵接件或盘体上,所述拉紧螺钉的一端穿过所述第二抵接件,在所述拉紧螺钉位于所述抵紧位时,其与所述第一抵接件螺接,所述拉紧螺钉具有抵紧部,所述抵紧部用于直接或间接将所述第二抵接件压向所述第一抵接件,以使所述第一抵接件和第二抵接件抵紧;在所述拉紧螺钉位于所述释放位时,所述拉紧螺钉与所述第一抵接件脱离。
一种实施例中,所述拉紧螺钉包括螺接部和与螺接部连接的施力部,所述螺接部以可转动的方式安装在所述第二抵接件或盘体上,并向上穿过所述第二抵接件,用以与第一抵接件螺接,所述施力部位于盘体的下方,所述施力部与螺接部形成夹角a。
一种实施例中,所述支架具有内腔,所述第一抵接件具有第一抵接部,所述第一抵接部向上插入所述支架的内腔中,所述第一抵接部具有第一插入腔,所述第一抵接部朝向所述第二抵接件的一端具有插入口,所述插入口与所述第一插入腔相通,所述第一抵接部背离所述第二抵接件的一端设有螺纹孔,所述第二抵接件朝向所述第一抵接件的一端具有能够向上插入所述第一插入腔的第二抵接部,所述第二抵接部设有上下贯通的通孔,所述拉紧螺钉一端穿过所述通孔,以与所述第一抵接件螺接,将所述第一抵接部和第二抵接部抵紧。
一种实施例中,所述第一插入腔为锥台形,所述插入口位于所述第一插入腔较大的一端,所述第二抵接部为上小下大的锥台形,以与所述第一插入腔的匹配。
一种实施例中,所述第二抵接件具有第二抵接部,所述第二抵接部具有第二插入腔,所述第二抵接部朝向所述第一抵接件的一端具有插入口,所述插入口与所述第二插入腔相通,所述第二抵接部背离所述第一抵接件的一端设有通孔,所述第一抵接件具有能够向下插入所述第二插入腔的第一抵接部,所述第一抵接部设有螺纹孔,所述拉紧螺钉一端穿过所述第二抵接件的通孔,与所述第一抵接件螺接,将所述第二抵接部和第一抵接部抵紧。
一种实施例中,所述第二插入腔为上大下小的倒锥台形,所述插入口位于所述第二插入腔较大的一端,所述第一抵接部为上大下小的倒锥台形,以与所述第二插入腔的匹配。
一种实施例中,所述储物装置包括操作台,所述操作台具有向上凹陷设置的第二凹陷腔和位于所述凹陷腔内的第三抵接件,所述支架的上端插入所述第二凹陷腔内,所述支架设有第四抵接件,所述第三抵接件向下插入所述第四抵接件中或所述第四抵接件向上插入所述第三抵接件中。
一种实施例中,所述支架具有内腔,所述第四抵接件具有第四抵接部,所述第四抵接部向下插入所述支架的内腔中,所述第四抵接部具有第四插入腔,所述第四抵接部朝向所述第三抵接件的一端具有插入口,所述插入口与所述第四插入腔相通,所述第三抵接件朝向所述第四抵接件的一端具有第三抵接部,所述第三抵接部向下插入所述第四插入腔,使所述操作台安装在所述支架上。
一种实施例中,所述第四插入腔为倒锥台形,所述插入口位于所述第四插入腔较大的一端,所述第三抵接部为上大下小的倒锥台形,以与所述第四插入腔的匹配。
一种实施例中,所述第三抵接件具有第三抵接部,所述第三抵接部具有第三插入腔,所述第三抵接部朝向所述第四抵接件的一端具有插入口,所述插入口与所述第三插入腔相通,所述第四抵接件具有向上凸起设置的第四抵接部,所述第三插入腔套设在所述第四抵接部上,使所述操作台安装在所述支架上。
一种实施例中,所述第三插入腔为锥台形,所述插入口位于所述第三插入腔较大的一端,所述第四抵接部为上小下大的锥台形,以与所述第三插入腔的匹配。
本申请一种实施例中提供了一种用于转接监护仪的监护仪连接座,包括座体、用于与监护仪连接的第一装配结构和用于与转接部件连接的第二装配结构,所述第一装配结构包括至少两个第一装配件,所述座体具有至少两组能够调整第一装配件固定位置的第一安装位,以使所述第一装配件之间的距离能够调整。
一种实施例中,每组所述第一安装位具有至少两个位置不同的安装孔,每个所述第一装配件可拆卸的固定在一组第一安装位的一个安装孔内。
一种实施例中,每组所述第一安装位具有腰型孔,每个所述第一装配件通过螺钉锁紧在对应腰型孔内。
一种实施例中,所述第一装配件为两个,所述第一装配结构还包括第二装配件,所述第二装配件与所述第一装配件呈三角形分布,所述座体具有用于解锁第二装配件的解锁机构。
本申请一种实施例中提供了一种监护仪安装架,包括:
支架,其起支撑作用;
以及如上述任一项所述的监护仪连接座,其通过第二安装结构安装在所述支架上,其第一安装结构用于安装监护仪。
依据上述实施例的监护仪安装架,其包括储物装置以及检查头收纳装置。该储物装置用以储物,例如可将血压计袖带放置到储物装置上。该检查头收纳装置用以放置检查头以及这些检查头匹配的线缆,检查头为各种用于对患者进行检查的设备的检查端,例如可以为血氧夹。其中,本监护仪安装架专门设置检查头收纳装置,可以将检查头与血压计袖带分开放置,例如可将血压计袖带收纳到储物装置内,而将血氧夹等其他检查头收纳到对应的检查头收纳装置内,避免不同部件之间缠绕。
图1为本申请一种实施例监护仪安装架的结构示意图;
图2为图1所示安装架的分解图;
图3和4为图1所示安装架装上监护仪后的结构示意图;
图5为图1所示安装架装上监护仪(带血氧夹)后的结构示意图;
图6为本申请另一种实施例监护仪安装架的结构示意图;
图7为图6所示安装架的分解图;
图8和9为图6所示安装架装上监护仪后的结构示意图;
图10为图6所示安装架装上监护仪(带血氧夹)后的结构示意图;
图11为本申请一种实施例中储物盒上第一安装部的结构示意图;
图12为本申请一种实施例中操作台上第一安装部的结构示意图;
图13为本申请一种实施例中储物盒上扩展安装口的结构示意图;
图14为本申请一种实施例中操作台上扩展安装口的结构示意图;
图15为本申请一种实施例中监护仪安装架的侧视图;
图16为本申请一种实施例中储物盒与支架的分解结构图;
图17为本申请一种实施例中储物盒与支架的装配结构示意图;
图18为本申请一种实施例中储物盒与支架装配后的轴向剖视图;
图19为本申请一种实施例中储物盒与支架装配后的横向剖视图;
图20为本申请一种实施例中松不脱螺钉装配结构的剖视图;
图21和22为本申请一种实施例中卡块不同视角的结构示意图;
图23为本申请另一种实施例中储物盒与支架的分解结构图;
图24为本申请另一种实施例中储物盒与支架的装配结构示意图;
图25为本申请另一种实施例中储物盒上第二对接部的结构示意图;
图26为本申请另一种实施例中储物盒与支架装配后的横向剖视图;
图27为本申请一种实施例中支架上第一抵接件和第四抵接件的分解结构示意图;
图28为本申请一种实施例中底盘分解结构示意图;
图29为本申请一种实施例中支架和底盘分解结构的局部剖视图;
图30为本申请一种实施例中支架和底盘装配后的轴向剖视图;
图31为本申请另一种实施例中支架和底盘分解结构示意图;
图32为本申请另一种实施例中底盘分解结构示意图;
图33为本申请另一种实施例中支架和底盘装配后的局部剖视图;
图34为本申请另一种实施例中支架与底盘分离状态下的轴向剖视图;
图35为本申请另一种实施例中支架和底盘装配后的轴向剖视图;
图36为本申请一种实施例中操作台装配在支架后的轴向剖视图;
图37为本申请一种实施例中操作台和支架的分解结构示意图;
图38和39为本申请一种实施例中监护仪连接座两个第一装配件位于不同安装孔的示意图;
图40为本申请一种实施例中监护仪连接座的分解结构示意图;
图41为本申请另一种实施例中监护仪连接座的分解结构示意图;
图42为本申请另一种实施例中两个第一装配件锁紧在腰型孔内的结构示意图;
图43为本申请一种实施例中监护仪连接座安装到监护仪上的剖视图。
图44和45为本申请一种实施例中监护仪连接座分别安装到上墙结构和监护仪安装架上的结构示意图。
下面通过具体实施方式结合附图对本发明作进一步详细说明。其中不同实施方式中类似元件采用了相关联的类似的元件标号。在以下的实施方式中,很多细节描述是为了使得本申请能被更好的理解。然而,本领域技术人员可以毫不费力的认识到,其中部分特征在不同情况下是可以省略的,或者可以由其他元件、材料、方法所替代。在某些情况下,本申请相关的一些操作并没有在说明书中显示或者描述,这是为了避免本申请的核心部分被过多的描述所淹没,而对于本领域技术人员而言,详细描述这些相关操作并不是必要的,他们根据说明书中的描述以及本领域的一般技术知识即可完整了解相关操作。
另外,说明书中所描述的特点、操作或者特征可以以任意适当的方式结合形成各种实施方式。同时,方法描述中的各步骤或者动作也可以按照本领域技术人员所能显而易见的方式进行顺序调换或调整。因此,说明书和附图中的各种顺序只是为了清楚描述某一个实施例,并不意味着是必须的顺序,除非另有说明其中某个顺序是必须遵循的。
本文中为部件所编序号本身,例如“第一”、“第二”等,仅用于区分所描述的对象,不具有任何顺序或技术含义。而本申请所说“连接”、“联接”,如无特别说明,均包括直接和间接连接(联接)。
本实施例提供一种监护仪安装架,其用于支撑监护仪,辅助用户(如护士、医生等)完成对患者的各种生理参数的检查和记录。
请参考图1至10,一种实施例中,该监护仪安装架100包括支架110、储物装置120、监护仪连接座130以及检查头收纳装置(如141、142)。
该支架110作为整个安装架的支撑结构,该储物装置120、监护仪连接座130以及检查头收纳装置可直接或间接的安装在该支架110上。请参考图1至10,一种实施例中,该监护仪安装架100还包括滚轮150,滚轮150安装在支架110的下方,用以使监护仪安装架100能够移动,这样便于用户移动监护仪,例如在护士进行查房时使用该监护仪。该支架110下方可安装一个底盘160,滚轮150安装在底盘160的各个位置。当然,某些实施例中,该监护仪安装架100也可不具有移动性,其可通过其他移动工具使该监护仪安装架100移动,也可以将该监护仪安装架100放置在某一位置长期使用。
如图2所示,将支架110安装有储物装置120的一侧定义为支架110的正面,与之相对的面定义为支架110的背面。考虑到稳定性和美观性,支架110安装在底盘160靠近监护仪安装架100的背面的部分,使得监护仪安装架100的稳定性更好。底盘160上安装有至少三个滚轮150,在一实施例中,底盘160安装有四个滚轮150。底盘160的最大尺寸不超过425mm,使得其可以在医院中狭窄的楼道中通行。底盘160包括至少一个缺口161,其设置于底盘160朝向支架110的正面的一侧上,其作用为保证用户在正面推着监护仪安装架100前进的时候,底盘160不会阻碍用户的前进,避免用户踢到底盘160。在底盘160的其他侧也可以设置缺口161,例如,在底盘160朝向支架110的背面的一侧上设置缺口161,用户站在背面连接电线的时候更为方便,且减少监护仪安装架100在前进过程中撞到人或物的情况。
该储物装置120安装在支架110上,用以储物。储物装置120可通过螺接、卡接、焊接、粘接等各种可拆卸式或不可拆卸式方式安装在支架110上。该储物装置120可具有储物腔121,血压计袖带之类较大的物品可放置在该储物腔121内。该监护仪连接座130则用来安装监护仪200,如图3和4以及图8和9,该监护仪200可通过监护仪连接座130安装在支架110上。该监护仪连接座130可通过螺钉、卡扣等可拆卸式固定方式实现与监护仪200连接,当然,某些特别的实施例中,该监护仪200也可与该监护仪连接座130不可拆卸式的固定连接。该监护仪连接座130可直接安装在支架110上,也可安装在储物装置120上,然后通过储物装置120间接安装到支架110上。
该检查头收纳装置用以放置检查头,检查头收纳装置安装在支架110或储物装置120上。其中,该检查头收纳装置与支架110或储物装置120之间可以为不可拆卸式连接,也可以为可拆卸式连接,例如螺接、卡接等。该检查头为各种用于对患者进行检查的设备的检查端,该检查头通常与患者接触,以实现某个生理参数的检测,例如可以为血氧夹、扫描枪。请参考图5和10,以血氧夹310为例,该血氧夹310可被收纳在检查头收纳装置(如141)内。对应的,如血压计袖套等较大的物品,可放置在储物装置120内。
本监护仪安装架100专门设置检查头收纳装置,可以将检查头与血压计袖带分开放置,例如可将血压计袖带收纳到储物装置120内,而将血氧夹310等其他检查头收纳到对应的检查头收纳装置内,避免不同部件之间缠绕。
该检查头收纳装置可被设置在支架110或储物装置120上任意位置。但,为了更便于用户的使用,一种实施例中,请参考图1和6,该检查头收纳装置(如141、142)位于储物装置120(或支架110)的侧壁处,这样更符合用户的操作习惯,便于用户收纳检查头。同时,该检查头收纳装置也不占据储物装置120内部空间,使储物装置120收纳功能发挥到最大化。其中,该检查头收纳装置位于储物装置120或支架110的侧壁处是指,该检查头收纳装置用于收纳检查头的位置位于储物装置120或支架110的侧壁处,这并不限定该检查头收纳装置安装在储物装置120或支架110的侧壁上,其可能安装在储物装置120或支架110的侧壁上,也可能安装在其他位置,然后延伸至储物装置120或支架110的侧壁处,例如将检查头收纳装置安装在储物装置120的底部或顶部。
其中,请参考图1至10,该储物装置120的侧壁具有面向用户的前侧壁A1、与前侧壁A1相对的后侧壁A2和位于前侧壁A1和后侧壁A2之间的侧方侧壁A3、A4。该检查头收纳装置可设置在前侧壁A1、后侧壁A2和侧方侧壁A3、A4的任意位置。但通常来说,将检查头收纳装置或检查头收纳装置中收纳检查头的部分设置在侧方侧壁A3、A4将会更符合用户的操作习惯,可使检查头位于用户的左手或右手方向,以便取放。其中,当储物装置120为一个整体部件,如图1至5所示,该前侧壁A1、后侧壁A2以及侧方侧壁A3、A4可以为该整体部件的各个侧壁。当储物装置120包括两个以上分离的部件时,如图6至10所示,将这些部件的对应侧壁都统称为前侧壁A1、后侧壁A2以及侧方侧壁A3、A4,即,将检查头收纳装置或检查头收纳装置中收纳检查头的部分设置在储物装置120某一侧壁时,其可以是设置在其中一个部件的对应侧壁上,也可以是设置在两个以上部件的对应侧壁上,如图6至10所示,将检查头收纳装置的不同部分141、142分别设置在不同部件的侧方侧壁A3、A4上。
具体地,请参考图1至10,一种实施例中,该检查头收纳装置包括检查头收纳座141和检查头线收纳座142,检查头收纳座141用于收纳检查头,检查头线收纳座142用于收纳检查头线。检查头收纳座141和检查头线收纳座142安装在储物装置120上。尤其是,检查头收纳座141位于侧方侧壁A3、A4上。当然,该检查头收纳座141也可安装在支架110上。
而,对于检查头线收纳座142来说,较好的,其既可以安装在后侧壁A2上,也可以与检查头收纳座141安装在同一个侧方侧壁A3、A4上。请参考图5和10,当将血氧夹310放置到检查头收纳座141时,其线缆320被收纳在检查头线收纳座142上,其中,有一部分线缆320会悬吊在检查头收纳座141和检查头线收纳座142之间。当要使用血氧夹310时,取下血氧夹310,此时悬吊的这部分线缆320可自由活动,使血氧夹310能够在一定范围内活动,不用再去取检查头线收纳座142上的线缆320,使血氧夹310取放和使用更加便利。可选地,当检查头线收纳座142与检查头收纳座141安装在同一个侧方侧壁A3、A4上时,检查头线收纳座142与检查头收纳座141错位放置,使得手持检查头将线缆320收纳在检查头线收纳座142时,不会缠绕在检查头线收纳座142上。在一实施例中,检查头线收纳座142安装于侧方侧壁A3、A4靠后侧壁A2的位置或安装于后侧壁A2上,检查头收纳座141安装于侧方侧壁A3、A4靠前侧壁A1的位置或者前侧壁A1上。由于用户一般在前侧壁A1的附近进行检查操作,这样的设置可以更好地避免用户在检查操作过程中误挂蹭或缠绕到线缆,导致检查头掉落或者推车倾倒等问题。
当然,检查头线收纳座142也可设置在侧壁的其他区域内。
进一步地,检查头线收纳座142或整个检查头收纳装置能够被固定设置在储物装置120或支架110的某个位置,例如储物装置120的侧壁的某个位置。但为了提高使用的灵活性,请参考图1至10,一种实施例中,该侧方侧壁A3、A4分为第一侧方侧壁A3和第二侧方侧壁A4,第一侧方侧壁A3和第二侧方侧壁A4相对设置,且第一侧方侧壁A3和第二侧方侧壁A4均具有用于安装检查头收纳座141的第一安装部,检查头收纳座141以可拆卸的方式安装在第一安装部上。
当然,在其他实施例中,也可以是储物装置120其他侧壁(前侧壁A1、后侧壁A2或其他位置)具有至少两个用于安装检查头收纳座141的第一安装部,检查头收纳座141以卡接、插接、螺纹连接、磁性连接等可拆卸的方式安装在第一安装部上。
一种实施例中,该检查头收纳座141与第一安装部之间可通过卡接来实现可拆卸式连接。请参考图11和12,第一安装部包括连接件1225,连接件1225固定在储物装置120或支架110的侧壁的安装孔128上,可通过螺钉固定。该连接件1225具有凸起的卡接体1225a,检查头收纳座141具有卡接槽311,卡接槽311可拆卸地卡在卡接体1225a上,以实现检查头收纳座141与第一安装部之间的可拆卸式连接。
该连接件1225可通过螺接、粘接、焊接或卡接等方式固定在储物装置120的任一位置上。在一实施例中,储物装置120为网格结构或具有位于不同侧壁或底部上多个安装孔,连接件1225可拆卸地插设在网格或至少一个安装孔中,从而实现用户可以按照自己的操作习惯和当前需求,将连接件1225安装在储物装置120侧壁的任一位置上,从而使得与连接件1225可拆卸连接的检查头收纳座141可以被用户自定义地安装在储物装置120的任一位置上,达到更加贴合用户使用习惯,方便易用的效果。
其中,该图11和12所示连接件1225和检查头收纳座141的装配结构仅为一种示例,这两者之间还可采用其他各种可拆卸式连接结构完成装配。
至于检查头收纳座141对检查头(例如血氧夹310)的收纳方式,也能够有各种不同的结构,这对于本领域技术人员来说是容易想到的。例如,请参考图5和10,该检查头收纳座141可以大致为杯体结构,该杯体结构的侧部和底部开口,该开口用于血氧夹线320的通过,血氧夹310可放置在该杯体结构中。当然,通过其他结构同样可以完成对血氧夹310等检查头的收纳,例如检查头收纳座141被设计为夹持机构、容置腔、挂钩等结构。检查头收纳座141可以收纳至少一种探头。在一实施例中,检查头收纳座141可以收纳血氧夹310、扫描枪。由于两种探头均可以放置在检查头收纳座141中,用户无需区分不同的探头对应的检查头收纳座141,在存在至少两个检查头收纳座141时,用户可以根据操作习惯和需求,将血氧夹310放置入任何一个检查头收纳座141中。当第一侧方侧壁A3和第二侧方侧壁A4上分别安装有至少一个检查头收纳座141时,用户可以根据实际需要交换血氧夹310和扫描枪的位置,使得检查头的放置更加灵活,更加贴合用户的使用习惯。
同样的,检查头线收纳座142同样可采用各类结构来实现对检查头线的收纳,例如,请参考图5和10,该检查头线收纳座142可以为挂钩,当然,也可以为夹持机构、卡扣、容置腔等结构。
可以理解地,检查头收纳装置还可以为磁性部件,检查头和检查头收纳装置之间还可以通过磁性耦合的方式连接。这种方式可以不需要连接件1225和检查头收纳座141,直接将具有磁铁或金属部件的检查头吸附在检查头收纳装置上即可通过磁性耦合完成收纳。
进一步地,该储物装置120为一个统称,其可以包括一个或一个以上的部件,只要其可以达到直接或间接储物的功能即可,直接储物定义为通过储物装置120本身的结构可以实现储物的功能,间接储物定义为通过附加在其上的其他结构可以实现储物的功能。请参考图1至5,一种实施例中,该储物装置120包括储物盒122,储物盒122具有至少一个储物腔121。储物腔121内可用于放置各种物品,例如血压计袖带、护士查床的写字板夹(用于护士记录各种信息)、笔等工具。
为了便于推动该监护仪安装架100,请参考图1至5,一种实施例中,该储物盒122具有把手123,以便用户推动该储物盒122,进而推动整个监护仪安装架100移动。
请继续参考图1至5,在储物盒122作为储物装置120的一种实施例中,该检查头收纳座141和检查头线收纳座142设置在储物盒122上。例如检查头收纳座141和检查头线收纳座142位于储物盒122的侧壁处,可包括储物盒122的前侧壁A1、后侧壁A2和侧方侧壁A3、A4的某一位置上。具体地,一种实施例中,该检查头收纳座141可设置在储物盒122的第一侧方侧壁A3和/或第二侧方侧壁A4。该检查头线收纳座142可设置在后侧壁A2上。为了便于用户书写记录,一种实施例中,该储物盒122的第一侧方侧壁A3包括第一侧边S1,第二侧方侧壁A4包括第二侧边S2,该第一侧边S1与该第二侧边S2平行且均为直边,便于支撑用户的书写板,方便用户书写信息。可选地,该第一侧边S1与该第二侧边S2靠近的支架110的一端高于该第一侧边S1与该第二侧边S2远离的支架110的一端,方便用户从储物腔中拿去物品,同时使得书写板支撑在该第一侧边S1与该第二侧边S2时,书写板朝向用户,方便用户查看。
请参考图6至10,一种实施例中,该储物装置120除了包括储物盒122,还包括操作台124,操作台124位于储物盒122的上方,两者分离设置。该操作台124可用于用户各种操作。为了便于用户书写记录,一种实施例中,该操作台124具有平面区1241以及笔放置位1242,平面区1241便于用户书写信息,笔放置位1242用于收纳笔。用户(如护士)可将写字板夹放在该平面区1241内,进行信息记录。笔放置位1242可以为一个与笔外形适配的腔体,在不使用笔的时候,可将笔放置到该腔体内。
为了便于推动该监护仪安装架100,请参考图6至10,一种实施例中,该操作台124具有把手123,以便用户推动该操作台124,进而推动整个监护仪安装架100移动。
请继续参考图6至10,在储物盒122和操作台124共同构成储物装置120的一种实施例中,该检查头收纳座141设置在操作台124上,检查头线收纳座142设置在储物盒122上。例如检查头收纳座141位于操作台124的侧壁处,可包括操作台124的前侧壁A1、后侧壁A2和侧方侧壁A3、A4的某一位置上。具体地,一种实施例中,该检查头收纳座141可设置在储物盒122的第一侧方侧壁A3和/或第二侧方侧壁A4。该检查头线收纳座142可设置在储物盒122的第一侧方侧壁A3和/或第二侧方侧壁A4。
在其他实施例中,该检查头收纳座141和检查头线收纳座142也可设置在储物盒122或操作台124上。
进一步地,请参考图13,一种实施例中,该储物盒122的底部具有至少一个扩展安装口126,用以可拆卸地安装扩展部件。请参考图14,另一种实施例中,操作台124的底部具有至少一个扩展安装口126,用以可拆卸地安装扩展部件。该扩展安装口126可以是安装孔,可通过螺钉等方式将扩展部件安装到该扩展安装口126上。当然,该扩展安装口126也可以用来安装上述的检查头收纳装置或检查头收纳座141和检查头线收纳座142中至少一个。
进一步地,请参考图14,一种实施例中,该操作台124(或储物盒122)的底部或内部还可设置备用电源127,以便在监护仪200安装在监护仪连接座130上时对监护仪200进行供电。
进一步地,请参考图6至10,一种实施例中,还包括电源线收纳件170,电源线收纳件170设置在支架110上,用以收纳监护仪200的电源线。该电源收纳件170可以为挂钩或其他结构。当然,在某些实施例中,也可以用检查头收纳装置或检查头线收纳座142来代替电源收纳件。
进一步地,请参考图3和4,其示出了将监护仪200安装到一种监护仪安装架100上的结构,该监护仪200包括显示屏201,电源键202,功能按键203,旋转编码器204,多功能接口205,DC接口206,AC插座207,接地柱208,血压接口209,血氧接口210和211,网口和USB接口212以及记录仪213。在一实施例中,显示屏201,电源键202,功能按键203,旋转编码器204设置在监护仪200的正面。多功能接口205,DC接口206,AC插座207,接地柱208设置在监护仪200的背面。血压接口209,血氧接口210和211,网口和USB接口212以及记录仪213设置在监护仪200的侧面。这种设置方式按照用户最常操作的顺序进行排序,将用户会频繁操作的按键/接口放在监护仪200的正面,即靠近用户的一面;将用户操作频率次之的按键/接口放在监护仪200的侧面;用户操作频率最少的按键/接口放在监护仪200的背面,使得用户操作更加方便。
请参考图9和10,其示出了将监护仪200安装到另一种监护仪安装架100上的结构,该监护仪200包括显示屏201,电源键202,血压接口209,血氧接口210和211,二氧化碳接口216,网口214,USB接口215,多功能接口205,DC接口206,接地柱208和AC插座207。在一实施例中,显示屏201为高清电容屏,用户通过触摸、点击等直观地操作与监护仪200进行交互,通过高清电容屏,在本实施例中省去了功能按键和旋转编码器等实体操作件,在有限的监护仪200正面的面积上,可以放置更大的显示屏201,更方便用户查看和使用,提高用户体验感。可选地,显示屏201安装在后壳体220的开口(未示出)处,电源键202,血压接口209,血氧接口210和211,二氧化碳接口216,网口214,USB接口215,多功能接口205,DC接口206,接地柱208和AC插座207均设置在后壳体220上。可选地,在后壳体220上还设置有抓持部218,抓持部218可以有后壳体上的凹槽、凸起等结构构成,只要其可以实现用户在安装、转移监护仪200的过程中对监护仪200的抓持功能即可,对其具体结构不做限定。
在一实施例中,后壳体220平行于显示屏201的任一横截面均小于显示屏201,使得用户从监护仪200的正面看过去的时候只看到显示屏201,看不到后壳体220的其他部位,视觉效果更佳。
在某些实施例中,储物装置(如储物盒)具有一个上下贯通的装配孔,储物装置与支架装配时,储物装置的装配孔套设在支架上,并与支架固定。但,这种方式对装配顺序有要求,尤其是在支架上同时要安装储物装置和监护仪连接座时,必须先安装储物装置,再安装护仪连接座,对装配要求高,安装效率低。
对此,请参考图15-26,本申请一种实施例中还提供了另一种监护仪安装架。
该监护仪安装架包括支架110、储物装置120以及监护仪连接座130。该支架110的侧壁具有至少一个第一对接部。该储物装置120用于储物,其外壁具有至少一个第二对接部,第一对接部和第二对接部以可拆卸的方式的固定。该监护仪连接座130安装在支架110或储物装置120上,用以安装监护仪200,以将监护仪200支撑在监护仪安装架上。
该储物装置120直接通过外壁上的第二对接部与支架110侧壁上的第一对接部装配,无需使支架110贯穿储物装置120,对装配顺序没有要求,既可以先装储物装置120,也可以先装操作台或监护仪连接座130。该第一对接部和第二对接部可拆卸固定方式可采用卡扣结构、磁吸结构、可拆卸粘接结构、螺接结构等实现。
一种实施例中,该第一对接部的外侧或内部留有供第二对接部从支架110的非轴向方向向第一对接部移动的空间,例如向第一对接部横向移动,以便第二对接部能够从支架110的非轴向方向移动到第一对接部外侧或内部,以帮助第二对接部装配到第一对接部上。例如,下文中第一对接部为第一卡块111时,该第一卡块111上部的开放空间可供第二对接部横向移动到第一卡块111上方,以帮助第二对接部向下装配到第一卡块111上,或者,当第一对接部为第二卡扣腔113时,其具有拆装口,该拆装口作为第二对接部横向移动至第二卡扣腔113的开放空间,使第二对接部装配到第二卡扣腔113内。这种横向装配的方式不必受限于支架110轴向上的安装顺序,例如支架110与储物装置120、监护仪连接座130和底盘160的安装顺序,方便了储物装置120的装配。
为了便于表述,本实施例以储物装置120为储物盒122为例进行说明。当然,在其他实施例中,该储物装置120也不限于储物盒122,其还可以包括操作台或其他结构。
请参考图16至19,一种实施例中,该第一对接部包括第一卡块111,第一卡块111凸起设置在支架110的侧壁上,第二对接部具有第一卡扣腔129,第一卡扣腔129具有拆装口,第一卡块111经拆装口伸入第一卡扣腔129内,第一卡扣腔129的腔壁扣合在第一卡块111上。该第一卡块111与第一卡扣腔129卡接配合,以将储物盒122安装在支架110的侧壁上。
该第一卡扣腔129可设置在储物盒122的侧壁或其他壁体上。第一卡扣腔129的位置与支架110上第一对接部的位置对应,以便能够对接。
进一步地,一种实施例中,请参考图18、19、21和22,第一卡块111具有基体1111和自基体1111凸起设置的第一凸缘(1112、1113),基体1111固定安装在支架110的外壁上,第一卡扣腔129的腔壁扣合在第一凸缘上,在第一凸缘的限位下,防止储物盒122相对支架110向下和向水平方向移动。
进一步地,一种实施例中,请参考图16至19,拆装口具有向下的第一开口1291和自第一开口1291向上延伸的第二开口1292,第一开口1291和第二开口1292连通。第一卡块111能够自下而上插入第一开口1291,第二开口1292的宽度大于基体1111的宽度且小于第一凸缘的宽度,使基体1111能够沿着第二开口1292带动第一凸缘向上移动。由于第一凸缘的宽度大于第二开口1292的宽度,因此第一凸缘不会从第二开口1292中脱离,而始终容置于第一卡扣腔129内,以便第一凸缘扣合在第一卡扣腔129的腔壁上,通过该第一开口1291和第二开口1292,使得储物盒122自上向下移动时,第一卡扣腔129的腔壁能够自上向下罩扣在第一卡块111上。
进一步地,请参考图19、21和22,一种实施例中,第一卡块111具有自基体1111分别向两个侧方凸起设置的第一侧凸缘1112。该第一卡扣腔129的腔壁扣合在该第一侧凸缘1112上。该第一侧凸缘1112可避免储物盒122在支架110上左右运动,提高储物盒122在支架110上的稳定性。
进一步地,如图18和21所示,一种实施例中,凸缘包括自基体1111向上方凸起设置的第一上凸缘1113,第一卡扣腔129的腔壁扣合在第一上凸缘1113。
当第一卡扣腔129扣合到第一卡块111上时,储物盒122在自重的作用下,扣合在该向上凸起的第一上凸缘1113上,该第一上凸缘1113和基体1111之间形成台阶结构,可防止储物盒122从支架110上掉落。要取下储物盒122时,先将储物盒122上抬,使第一卡扣腔129的腔壁先脱离第一上凸缘1113和第一侧凸缘1112,方可取下储物盒122。
具体地,一种实施例中,该第一卡扣腔129上拆装口的口壁可以为n形,以便能够更加贴合的扣合到第一卡块111的第一上凸缘1113、第一侧凸缘1112。
请参考图22,一种实施例中,该第一侧凸缘1112的外壁大致呈八字形分布。其中,第一卡块111沿竖直方向设置,其较窄的一端在上,较宽一端在下。当储物盒122安装到第一卡块111上时,第一卡扣腔129中与第一侧凸缘1112抵接的腔壁也呈对应的八字形,该第一侧凸缘1112的外壁能对第一卡扣腔129的腔壁起到一定的向上支撑作用,使储物盒122的重力更均匀的分布到第一卡块111的各处;也可以对第一卡扣腔129的腔壁起到一定的水平支撑作用,增加水平方向上的稳定性,减少晃动。
在上述实施例中,如图16和17所示,在装配时,先将储物盒122横向移动到第一卡块111的上方,使第一卡块111对齐第一卡扣腔129的拆装口,具体为拆装口的第一开口1291,然后储物盒122自上向下落下,第一卡块111的凸缘(2222、1113)从第一开口1291处卡入第一卡扣腔129内,基体1111在第二开口1292内移动,从而使第一卡扣腔129的腔壁卡扣到第一卡块111上,例如卡扣到第一卡块111的各个凸缘上。
当然,上述第一卡块111和第一卡扣腔129只是一种第一对接部和第二对接部的示例。在其他实施例中,该第一对接部和第二对接部还可采用其他结构来实现。如其他形式的卡扣结构、磁吸结构、可拆卸粘接结构、螺接结构等。
在另一种实施例中,请参考图23至26,一种实施例中,该第一对接部包括第二卡扣腔113,第二卡扣腔113具有拆装口,第二对接部具有第二卡块1210,第二卡块1210凸起设置在储物盒122的外壁,第二卡块1210经拆装口伸入第二卡扣腔113内,第二卡扣腔113的腔壁扣合在第二卡块1210上。即,该第一对接部和第二对接部采用与上述实施例相反的凹凸配合结构。
装配时,先将储物盒122的第二卡块1210横向插入支架110的第二卡扣腔113内,然后,将第二卡块1210向下移动,使第二卡块1210卡扣固定在第二卡扣腔113内,以完成储物盒122的装配。
与前一实施例类似的,请参考图25,第二卡块1210具有第二基体1211和自第二基体1211凸起设置的第二凸缘1212,第二基体1211固定安装在储物盒122的外壁上,第二卡扣腔113的腔壁扣合在第二凸缘1212上。
请参考图23和26,一种实施例中,拆装口具有朝向储物盒122设置的第一开口1131和与第一开口1131连通的第二开口1132,第二开口1132自上向下延伸分布,以便第二卡块1210能够自第一开口1131插入第二卡扣腔113,并在第二卡扣腔113内沿第二开口1132自上向下移动。第二开口1132的宽度大于第二基体1211的宽度且小于第二凸缘1212的宽度和第一开口1131的宽度,从而使第二基体1211能够置于第二开口1132内,而第二凸缘1212不会从第二开口1132中脱落。第二卡块1210沿着第二开口1132向下运动,使第二凸缘1212容置于第二卡扣腔113的内部,以便第二凸缘1212扣合在所述第二卡扣腔113的腔壁上。
进一步地,请参考图25,一种实施例中,该第二凸缘1212包括自第二基体1211分别向两个侧方凸起设置的第二侧凸缘1212,第二卡扣腔113的腔壁扣合在第二侧凸缘1212上。具体地,该第二侧凸缘1212与第二开口1132的两侧口壁扣合,放置储物盒122向下和向水平方向移动。
进一步地,请参考图23和25,一种实施例中,储物盒122具有面向支架110的后侧壁A2,第二对接部位于后侧壁A2上。这样可方便地将储物盒122与支架110对接。某些实施例中,该第二对接部也可能设置在其他侧壁以及储物盒122的顶壁(如有顶壁的情况)或底壁(如有底壁的情况)上。
请参考图16、17、23至25,一种实施例中,后侧壁A2具有凹槽1213,将储物盒122安装到支架110上后,支架110位于凹槽1213内,第二对接部位于凹槽1213的壁体上。该凹槽1213可以与支架110凹凸配合,不仅减小储物盒122和支架110的整体体积,而且该凹槽1213还能对储物盒122形成限位,防止储物盒122在支架110上向储物盒122的两侧晃动。
当然,该凹槽1213并非必要特征,某些实施例中,该后侧壁A2也可以为正常的平板结构或者其他不具有该凹槽1213的结构。
该第二对接部可以设置在凹槽1213的各个槽壁上。请参考图23至26,一种实施例中,该支架110的外壁具有朝向储物盒122的正面114和位于正面114两侧的侧面115,第一对接部位于两个侧面115上,第二对接部位于凹槽1213与侧面115对应的部位,即位于凹槽1213上相对的两个侧槽壁上。该第一对接部相对的分布在支架110的两个侧面115上,从两个相对的点来支撑储物盒122,储物盒122不易晃动,同时使储物盒122的重量分布到支架110的两侧,使整个支架110更加稳定和可靠。
进一步地,为了限制储物盒122相对支架110向上运动,请参考图16和20,一种实施例中,该储物盒122设有松不脱螺钉1214,支架110具有与松不脱螺钉1214固定的螺孔。该松不脱螺钉1214又可称为不脱螺钉,其安装在储物盒122上。在装配时,先将储物盒122装配到位,然后,拧动该松不脱螺钉1214,使其螺纹部锁紧到支架110的螺孔中,即可将储物盒122与支架110固定住。
当然,在某些实施例中,也可以支架110设有松不脱螺钉,储物盒122具有与松不脱螺钉1214固定的螺孔。或者,储物盒122和支架110均设有松不脱螺钉,从而彼此均能够通过松不脱螺钉锁紧对方,以增加紧固效果。
请参考图16和20,一种实施例中,松不脱螺钉1214位于第一对接部和第二对接部的下方。在其他实施例中,该松不脱螺钉1214也可以设置在第一对接部和第二对接部的上方或与之齐平。
另一方面,某些实施例中,该支架110与底盘160主要依靠外部螺钉紧固。装配时,先将支架110和底盘160安装孔对齐,然后利用螺钉从底盘160底部插入支架110和底盘160的安装孔中,然后靠外部工具手动锁紧。这种方式需要操作者手动将螺钉与底盘160的安装孔以及支架110安装孔对齐,通过外部工具,例如螺丝刀等工具进行安装,装配过程比较麻烦,装配工作量大,常常需要将支架110和底盘160放倒,然后才能完成螺钉的安装。
针对此问题,本实施例一种实施例中提供了一种监护仪安装架。请参考图15,一种实施例中,该监护仪安装架包括支架110、底盘160以及监护仪连接座130。底盘160用于支撑支架110。监护仪连接座130安装在支架110或储物装置120上,用以安装监护仪200。
请参考图27至35,一种实施例中,该支架110设有第一抵接件116。该底盘160具有盘体164、第二抵接件162和抵紧件165。第一抵接件116向下插入第二抵接件162中或第二抵接件162向上插入第一抵接件116中。抵紧件165以可活动的方式安装在第二抵接件162或盘体164上。抵紧件165具有抵紧位和释放位。抵紧件165位于抵紧位时,将第一抵接件116和第二抵接件162抵紧,以使支架110与底盘160固定连接;抵紧件165位于释放位时,释放第一抵接件116和第二抵接件162,使支架110和底盘160能够脱离开。
在该实施例中,装配时,由于抵紧件165本身位于底盘160或第二抵接件162上,无需另外安装,节省操作步骤。操作者可直接通过将抵紧件165在抵紧位和释放位移动,从而将支架110与底盘160锁紧和释放。整个装配过程更加简单和快速,工作量更小。该第一抵接件116和第二抵接件162相互插接锁紧配合,不仅能够起到支架110和底盘160的锁紧作用,还能够对支架110形成水平方向的限位,提高支架110相对底盘160的稳定性。
进一步地,请参考图27至35,一种实施例中,该抵紧件165为拉紧螺钉1651,该拉紧螺钉1651以可转动的方式安装在第二抵接件162或盘体164上,例如形成松不脱螺钉结构。第一抵接件116具有螺纹孔,拉紧螺钉1651的一端穿过第二抵接件162,直接旋拧该拉紧螺钉1651即可将其锁紧到支架110的第一抵接件116上。在拉紧螺钉1651位于抵紧位时,其与第一抵接件116螺接,拉紧螺钉1651具有抵紧部,抵紧部用于直接或间接将第二抵接件162压向第一抵接件116,以使第一抵接件116和第二抵接件162抵紧;在拉紧螺钉1651位于释放位时,拉紧螺钉1651与第一抵接件116脱离。
进一步地,请参考图28、29、31和32,一种实施例中,该盘体164具有第一凹陷腔163,第二抵接件162位于第一凹陷腔163内。支架110的一端第一凹陷腔163,并与第二抵接件162固定。
在该实施例中,该拉紧螺钉1651以可转动的方式安装在第二抵接件162或盘体164上,例如形成不脱螺钉结构(或称为松不脱螺钉结构),装配时,由于拉紧螺钉1651本身以位于底盘160内,无需重新对齐旋入,操作者无需外部工具(如螺丝刀等),直接旋拧该拉紧螺钉1651即可将其锁紧到支架110的第一抵接件116上,从而将支架110与底盘160锁紧。整个装配过程更加简单和快速,工作量更小。
该底盘160的第一凹陷腔163能够进一步地对支架110形成水平方向的限位,进一步减少支架110在水平方向上相对底盘160的晃动。
请参考图29和33,某些实施例中,底盘160上设有滚轮150,因此底盘160与地面有一定高度,可供手伸入(该空间过小,无法满足现有装配方式,现有方式必须将底盘160放倒)。此时,甚至可以不翻倒底盘160,直接在支架110和底盘160处于竖直状态的情况下旋紧拉紧螺钉1651即可。
请参考图28、29、32和35,一种实施例中,该拉紧螺钉1651包括螺接部1652和与螺接部1652连接的施力部1653。螺接部1652具有螺纹结构。该螺接部1652以可转动的方式安装在第二抵接件162或盘体164上,并向上穿过第二抵接件162,以与第一抵接件116螺接。该施力部1653位于盘体164的下方,以方便操作者向施力部1653施加外力,驱动螺接部1652转动。为了方便旋转螺接部1652,一种实施例中,该施力部1653与螺接部1652形成夹角a。该夹角a为非0°和180°,从而使施力部1653在螺接部1652的径向上形成一定长度的力臂,使操作者旋转螺接部1652时更加省力。
一种实施例中,该夹角a取值范围为:30°≤a≤150°,例如90°。该夹角不仅更容易在螺接部1652的径向上形成更长的力臂,也可以避免施力部1653向下凸起过多,从而导致旋转螺接部1652时对底盘160离地要求更高。该角度能够在不改变底盘160离地高度的情况下,更容易旋转螺接部1652。
一种实施例中,螺接部1652的长度和施力部1653的长度比例b的取值范围为:1/6≤b≤1。在上述范围内,操作者通过施力部1653旋转螺接部1652更加省力。在一实施例中,二者长度的比例范围b的取值范围为:1/4≤b≤1/2。
一种实施例中,请参考图29和33,一种实施例中,该施力部1653沿水平方向设置,该设置方便驱动施力部1653和螺接部1652的旋转,同时对底盘160离地高度要求更低。
进一步地,该第一抵接件116和第二抵接件162之间的插接锁紧配合可通过但不限于以下几种实施例实现。
请参考图27至30,一种实施例中,该支架110具有内腔117。第一抵接件116具有第一抵接部1161,第一抵接部1161向上插入支架110的内腔117中。第一抵接部1161具有第一插入腔1163,第一抵接部1161朝向第二抵接件162的一端具有插入口,插入口与第一插入腔1163相通。第一抵接部1161背离第二抵接件162的一端设有螺纹孔。第二抵接件162朝向第一抵接件116的一端具有能够向上插入第一插入腔1163的第二抵接部1621。第二抵接部1621设有上下贯通的通孔。拉紧螺钉1651一端穿过通孔,以与第一抵接件116螺接,将第一抵接部1161和第二抵接部1621抵紧。
在拉紧螺钉1651的压紧下,可促使第一抵接部1161和第二抵接部1621抵接,以增加支架110和底盘160的紧固效果,并减少支架110在径向(水平方向)上相对底盘160的晃动。
该第一插入腔1163和第二抵接部1621可以采用圆柱形、方柱形或其他常规的异形结构。当然,为了进一步地增加第一抵接部1161和第二抵接部1621之间的锁紧效果,尤其是进一步减少支架110在径向(水平方向)上相对底盘160的晃动,请参考图29和30,一种实施例中,第一插入腔1163为锥台形,插入口位于第一插入腔1163较大的一端,即位于第一插入腔1163的下端。该第二抵接部1621为上小下大的锥台形,以与第一插入腔1163的匹配。
如图30所示,当第二抵接部1621插入到第一插入腔1163时,在拉紧螺钉1651的压紧作用下,第二抵接部1621的锥台形外壁将与第一插入腔1163的锥台形内腔壁贴合,且随着第二抵接部1621向第一插入腔1163的深入,两者接触越来越紧密,减少第一抵接部1161与第二抵接部1621在径向上的间隙,很好的杜绝了两者在径向(水平方向)的相对晃动。
进一步地,该第二抵接部1621位于盘体164内,如图27至30所示,一种实施例中,该底盘160包括上盘体1641和下盘体1642,该上盘体1641具有开口1643,该开口1643与下盘体1642围成第一凹陷腔163。该第二抵接部1621设置在该第一凹陷腔163内。
请参考图29和30,一种实施例中,该拉紧螺钉1651一端向上伸入盘体164内,拉紧螺钉1651的抵接部包括位于盘体164下方的卡台1654,卡台1654与盘体164之间设有弹性件,弹性件的弹力促使盘体164抵紧第二抵接件162,从而促使第二抵接件162和第一抵接件116抵紧。该弹性件可以为弹性垫片166或者弹簧等结构。
具体地,第二抵接件162安装在下盘体1642上,且上盘体1641和下盘体1642分别从上下两个方向压紧第二抵接件162。该下盘体1642可具有一个通孔,拉紧螺钉1651的螺接部1652从通孔穿过下盘体1642。其中,该通孔可为螺纹孔,拉紧螺钉1651的螺接部1652从螺纹孔旋入下盘体1642和上盘体1641之间的空间,其中,螺接部1652的后端具有一端光杆,当螺接部1652的螺纹结构完全进入到下盘体1642上方时,该光杆容置于下盘体1642的通孔内,此时拉紧螺钉1651无法从下盘体1642脱落,形成松不脱螺钉1214。除非通过反向旋转螺接部1652的方式,才能将拉紧螺钉1651从下盘体1642上拆下。
进一步地,该第二抵接件162可具有第二装配部1622,第二装配部1622固定安装在盘体164上,第二抵接部1621与第二装配部1622连接或一体成型,该第二装配部1622可具有一些安装孔,从而通过螺钉穿过这些安装孔来进行锁定。当然,该第二抵接件162也可通过其他结构固定安装在盘体164中。
如图29和30所示,一种实施例中,该第二装配部1622可包括竖向设置的壁体1623,该壁体1623围绕上盘体1641的开口1643设置,与该开口1643围成一个第一凹陷腔163,以供第一抵接件116插入。
同样地,为了将第一抵接件116与支架110固定,请参考图27、30和34,一种实施例中,该第一抵接件116具有第一装配部1162,第一装配部1162可以与支架110固定连接,第一抵接部1161和第一装配部1162连接或一体成型。该第一装配部1162可以具有安装孔,通过螺钉穿过该安装孔进行锁紧。当然,该第一抵接件116也可通过其他结构固定安装在支架110中。
一种实施例中,第一抵接件116与第二抵接件162还可通过其他方案对接。请参考图31至35,该第二抵接件162的第二抵接部1621具有第二插入腔1624,第二抵接部1621朝向第一抵接件116的一端具有插入口,插入口与第二插入腔1624相通。第二抵接部1621背离第一抵接件116的一端设有通孔。第一抵接件116具有能够向下插入第二插入腔1624的第一抵接部1161。第一抵接部1161设有螺纹孔,拉紧螺钉1651一端穿过第二抵接件162的通孔,与第一抵接件116螺接,将第二抵接部1621和第一抵接部1161抵紧。
在拉紧螺钉1651的压紧下,可促使第一抵接部1161和第二抵接部1621抵接,以增加支架110和底盘160的紧固效果,并减少支架110在径向(水平方向)上相对底盘160的晃动。
该第二插入腔1624和第一抵接部1161可以采用圆柱形、方柱形或其他常规的异形结构。当然,为了进一步地增加第一抵接部1161和第二抵接部1621之间的锁紧效果,尤其是进一步减少支架110在径向(水平方向)上相对底盘160的晃动,请参考图34和35,一种实施例中,第二插入腔1624为上大下小的倒锥台形,插入口位于第二插入腔1624较大的一端,第一抵接部1161为上大下小的倒锥台形,以与第二插入腔1624的匹配。
如图35所示,当第一抵接部1161插入到第二插入腔1624时,在拉紧螺钉1651的压紧作用下,第一抵接部1161的锥台形外壁将与第二插入腔1624的锥台形内腔壁贴合,且随着第一抵接部1161向第二插入腔1624的深入,两者接触越来越紧密,减少第一抵接部1161与第二抵接部1621在径向上的间隙,很好的杜绝了两者在径向(水平方向)的晃动。
请参考图32至35,一种实施例中,该底盘160包括上盘体1641和下盘体1642,该上盘体1641具有开口1643,该开口1643与下盘体1642或第二抵接件162围成第一凹陷腔163设置。该第二抵接部1621设置在该第一凹陷腔163内。该第二抵接部1621一端向下穿出盘体164。拉紧螺钉1651位于第二抵接部1621的下方。
该第二抵接件162可具有一个通孔,拉紧螺钉1651的螺接部1652从通孔穿过第二抵接件162。其中,该通孔可为螺纹孔,拉紧螺钉1651的螺接部1652从螺纹孔旋入第二抵接部1621的第二插入腔1624内,其中,螺接部1652的后端具有一端光杆,当螺接部1652的螺纹结构完全进入第二插入腔1624时,该光杆容置于第二抵接件162的通孔内,此时拉紧螺钉1651无法从第二抵接件162脱落,形成松不脱螺钉1214。除非通过反向旋转螺接部1652的方式,才能将拉紧螺钉1651从第二抵接件162上拆下。
该拉紧螺钉1651的抵接部包括位于第二抵接部1621下方的卡台1654,卡台1654与第二抵接部1621之间设有弹性件,弹性件的弹力第二抵接件162向第一抵接件116运动。该弹性件可以为弹性垫片166或者弹簧等结构。
进一步地,该第二抵接件162可采用如图27至30所示的第二装配部1622,第二装配部1622固定安装在盘体164上,第二抵接部1621与第二装配部1622连接。当然,该第二抵接件162也可通过其他结构固定安装在盘体164中。
同样地,为了将第一抵接件116与支架110固定,请参考图34,一种实施例中,该第一抵接件116具有第一装配部1162,第一装配部1162与支架110固定连接,第一抵接部1161和第一装配部1162连接。该第一装配部1162可以具有安装孔,通过螺钉穿过该安装孔进行锁紧。当然,该第一抵接件116也可通过其他结构固定安装在支架110中。
请参考图15,在某些实施例中,该监护仪安装架还可具有储物装置120,其用于储物。该储物装置120安装在支架110上。
在另一种实施例中,本申请还对支架110上部安装结构进行了改进。请参考图36和37,储物装置120包括储物盒122和操作台124。储物盒122安装在支架110上,例如通过上述实施例所示结构或者其他装配结构与支架110装配。操作台124具有向上凹陷设置的第二凹陷腔1244和位于第二凹陷腔1244内的第三抵接件1243。支架110的上端插入第二凹陷腔1244内。支架110设有第四抵接件118,第三抵接件1243向下插入第四抵接件118中或第四抵接件118向上插入第三抵接件1243中。
在其他实施例中,该第三抵接件1243与第四抵接件118的插接配合结构可参考上述第一抵接件116和第二抵接件162的插接配合结构,例如,第三抵接件1243采用与第一抵接件116类似的结构,第四抵接件118采用如第二抵接件162类似的结构。当然,某些实施例中,由于操作台124从上方安装到支架110的上端,同时还将监护仪连接座130锁紧在操作台124的上方,通过监护仪连接座130与支架110的锁紧,已可固定住操作台124。因此,某些实施例中,第三抵接件1243和第四抵接件118之间可省略拉紧螺钉1651。当然,该第三抵接件1243与第四抵接件118的插接配合结构也可采用其他形式的结构来实现,并不限定于上述第一抵接件116和第二抵接件162的插接配合结构。
具体地,请参考图36和37,一种实施例中,该支架110具有内腔117,第四抵接件118具有第四抵接部1181,第四抵接部1181向下插入支架110的内腔117中。第四抵接部1181具有第四插入腔1182,第四抵接部1181朝向第三抵接件1243的一端具有插入口,插入口与第四插入腔1182相通,第三抵接件1243朝向第四抵接件118的一端具有第三抵接部1243a,第三抵接部1243a向下插入第四插入腔1182,使操作台124安装在支架110上。
在操作台124的自重下,可促使第一抵接部1161和第二抵接部1621抵接,减少操作台124在径向(水平方向)上相对支架110的晃动。
该第四插入腔1182和第三抵接部1243a可以采用圆柱形、方柱形或其他常规的异形结构。当然,为了进一步地增加第三抵接部1243a和第四抵接部1181之间的锁紧效果,尤其是进一步减少操作台124在径向(水平方向)上相对支架110的晃动,请参考图36和37,一种实施例中,第四插入腔1182为倒锥台形,插入口位于第四插入腔1182较大的一端,第三抵接部1243a为上大下小的倒锥台形(可参考图34中的第一抵接部1161),以与第四插入腔1182的匹配。
而在另一种实施例中,该第三抵接件1243和第四抵接件118的插接配合结构可互换,具体地,第三抵接件1243具有第三抵接部,第三抵接部具有第三插入腔,第三抵接部朝向第四抵接件118的一端具有插入口,插入口与第三插入腔相通。第四抵接件118具有向上凸起设置的第四抵接部,第三插入腔套设在第四抵接部1181上,使操作台124安装在支架110上。
进一步地,一种实施例中,第三插入腔为锥台形,插入口位于第三插入腔较大的一端,即第三插入腔的下端。第四抵接部1181为上小下大的锥台形,以与第三插入腔的匹配。
进一步地,一种实施例中,第四抵接件118具有第四装配部1183,第四装配部1183可以与支架110固定连接,第四抵接部1181和第四装配部1183连接或一体成型。第四装配部1183通过螺钉、卡接、可拆式粘接或磁吸结构等实现与支架110的固定连接。
进一步地,一种实施例中,第三抵接件1243具有第三装配部1243b,第三装配部1243b固定安装在操作台124或与操作台124的壳体一体成型,第三抵接部1243a与第三装配部1243b连接或一体成型。第三装配部1183通过螺钉、卡接、可拆式粘接或磁吸结构等实现与操作台124的固定连接。
请参考图15,一种实施例中,操作台124设有松不脱螺钉1242,支架110具有与松不脱螺钉1242固定的螺孔,当操作台124安装到支架110上后,可再通过该松不脱螺钉1242与支架110固定,以增加操作台124与支架110的紧固效果。
当然,在其他实施例中,还可以在支架110设有松不脱螺钉1242,操作台124具有与松不脱螺钉1242固定的螺孔,该松不脱螺钉1242锁紧在操作台124上。
另一方面,监护仪连接座130主要用于连接监护仪200,监护仪连接座130和监护仪200上彼此都设置有安装结构,以完成固定连接。但,不同的监护仪200可能安装结构不同,难以与同一个监护仪连接座130完成装配,因此常常需要针对不同的监护仪200,配置不同的监护仪连接座130。
针对此问题,本申请的一种实施例提供了一种用于转接监护仪200的监护仪连接座130。
请参考图38至42,一种实施例中,该监护仪连接座130包括座体131、用于与监护仪200连接的第一装配结构和用于与转接部件连接的第二装配结构。第一装配结构包括至少两个第一装配件1321,座体131具有至少两组能够调整第一装配件1321固定位置的第一安装位,以使第一装配件1321之间的距离能够调整。
该第一安装位具有能够调整第一装配件1321位置的结构,当面对不同安装结构的监护仪200时,可针对该监护仪200上安装结构的位置来灵活调整第一装配件1321的位置,例如调整其中一个或多个第一装配件1321的位置,从而使该监护仪连接座130能够适应多种监护仪200,提高监护仪连接座130的通用性。
其中,该第一安装位可采用各种能够调整第一装配件1321位置的结构。请参考图38至40,一种实施例中,每组第一安装位具有至少两个位置不同的安装孔1341,每个第一装配件1321可拆卸的固定在一组第一安装位的一个安装孔1341内。如图38和图39分别示出了第一装配件1321位于不同安装孔1341时的结构。
在图38至40中,该第一装配件1321为两个,因此该安装孔1341设置为两组。当第一装配件1321数量更多时,可设置更多组的第一安装位。
当然,该第一安装位可以具有其他结构,并不限于安装孔1341。请参考图41和42,一种实施例中,每组第一安装位具有腰型孔1342,每个第一装配件1321通过螺钉锁紧在对应腰型孔1342内。通过旋转螺钉,可调整第一装配件1321的松紧,从而调整第一装配件1321的位置。
进一步地,为了将第一装配件1321限定在设定的方向移动,请参考图41和42,一种实施例中,该座体131具有用于容置第一装配件1321的容置槽135,腰型孔1342设于容置槽135的槽壁上。第一装配件1321置于容置槽135内,在松弛状态下,第一装配件1321能够在容置槽135内移动。当需要锁紧时,该螺钉穿过腰型孔1342将第一装配件1321锁定在容置槽135内。
该监护仪连接座130可只通过第一装配件1321实现与监护仪200固定,当然,在某些实施例中,该第一装配结构还可以具有其他装配件。请参考图38至43,一种实施例中,该第一装配件1321为两个,第一装配结构还包括第二装配件1322,第二装配件1322与第一装配件1321呈三角形分布,座体131具有用于解锁第二装配件1322的解锁机构。
一种实施例中,请参考图38至43,第一装配件1321和第二装配件1322均为卡扣结构,第一装配件1321的卡勾与第二装配件1322的卡勾相对设置,第二装配件1322具有解锁位和锁紧位,在解锁位时,解锁机构带动第二装配件1322向远离第一装配件1321的方向移动。
如图43所示,一种示例性结构中,该解锁机构包括解锁件136和锁紧弹性件137,锁紧弹性件137驱动第二装配件1322向锁紧位移动,解锁件136用于克服锁紧弹性件137的弹力,驱动第二装配件1322向解锁位移动。该解锁件136可转动或滑动的设置在座体131上,操作者可通过触发解锁件136,从而驱动第二装配件1322向解锁位移动。当然,该解锁件136也可通过其他结构来驱动第二装配件1322解锁,如通过电信号来解锁等。该解锁件136可与第二装配件1322一体成型、固定连接或传动连接。
进一步地,该监护仪连接座130上的第二装配结构用于与转接部件进行装配,请参考图44和45,该转接部件包括但不限于用于支撑监护仪200的支架110和用于将监护仪200固定到墙体上的上墙装置300,从而实现将监护仪200与这些转接部件固定连接。
一种实施例中,该第二装配结构包括卡扣结构、安装孔1341、可拆卸粘接结构和磁吸结构中的至少一种。
具体地,请参考图44和45,该监护仪连接座130的第二装配结构包括多个安装孔133,这些安装孔133可与螺钉配合,从而将监护仪连接座130与对应的支架110或上墙装置300固定。
在上述实施例中,该监护仪连接座130可作为一个连接结构单独使用,也可以作为支架110或上墙装置300的一部分来使用。
请参考图15,一种实施例中,还提供了一种监护仪安装架,该监护仪安装架包括支架110、储物装置120(可省略)以及监护仪连接座130。该支架110起支撑作用,该储物装置120用于储物,其安装在支架110上。该监护仪连接座130可采用上述各实施例所示的监护仪连接座130结构,其通过第二安装结构安装在支架110或储物装置120上,其第一安装结构用于安装监护仪200。
以上应用了具体个例对本发明进行阐述,只是用于帮助理解本发明,并不用以限制本发明。对于本发明所属技术领域的技术人员,依据本发明的思想,还可以做出若干简单推演、变形或替换。
Claims (76)
- 一种监护仪安装架,其特征在于,包括:支架;储物装置,所述储物装置安装在支架上,用以储物;监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上;以及检查头收纳装置,用以放置检查头,所述检查头收纳装置安装在支架或储物装置上。
- 如权利要求1所述的监护仪安装架,其特征在于,所述检查头收纳装置位于储物装置或支架的侧壁处,以便收纳检查头。
- 如权利要求2所述的监护仪安装架,其特征在于,所述检查头收纳装置包括检查头收纳座和检查头线收纳座,所述检查头收纳座用于收纳检查头,所述检查头线收纳座用于收纳检查头线。
- 如权利要求3所述的监护仪安装架,其特征在于,所述储物装置的侧壁具有面向用户的前侧壁、与前侧壁相对的后侧壁和位于前侧壁和后侧壁之间的侧方侧壁,所述检查头收纳座位于所述侧方侧壁处。
- 如权利要求4所述的监护仪安装架,其特征在于,所述侧方侧壁分为第一侧方侧壁和第二侧方侧壁,所述第一侧方侧壁和第二侧方侧壁相对设置,且所述第一侧方侧壁和第二侧方侧壁均具有用于安装检查头收纳座的第一安装部,所述检查头收纳座以可拆卸的方式安装在所述第一安装部上。
- 如权利要求4所述的监护仪安装架,其特征在于,所述检查头线收纳座安装在后侧壁上。
- 如权利要求4所述的监护仪安装架,其特征在于,所述检查头线收纳座与检查头收纳座安装在同一个侧方侧壁上。
- 如权利要求3所述的监护仪安装架,其特征在于,所述储物装置的侧壁具有至少两个用于安装检查头收纳座的第一安装部,所述检查头收纳座以可拆卸的方式安装在所述第一安装部上。
- 如权利要求8所述的监护仪安装架,其特征在于,还包括连接件,所述连接件固定在所述储物装置或支架侧壁上,且所述连接件具有凸起的卡接体,所述检查头收纳座具有卡接槽,所述卡接槽卡在所述卡接体上。
- 如权利要求3所述的监护仪安装架,其特征在于,所述储物装置包括储物盒,所述储物盒具有至少一个储物腔。
- 如权利要求10所述的监护仪安装架,其特征在于,所述检查头收纳座和检查头线收纳座位于储物盒的侧壁处。
- 如权利要求11所述的监护仪安装架,其特征在于,所述储物盒的底部具有至少一个扩展安装口,用以可拆卸地安装扩展部件。
- 如权利要求10所述的监护仪安装架,其特征在于,所述储物盒具有第一侧边和与所述第一侧边相对的第二侧边,所述第一侧边与所述第二侧边平行设置且为直边。
- 如权利要求13所述的监护仪安装架,其特征在于,所述第一侧边与所述第二侧边靠近所述支架的一端高于所述第一侧边与所述第二侧边远离所述支架的一端。
- 如权利要求10所述的监护仪安装架,其特征在于,还包括操作台,所述操作台位于储物盒的上方,两者分离设置。
- 如权利要求15所述的监护仪安装架,其特征在于,所述操作台具有平面区、笔放置位以及便于用户推动所述监护仪安装架的把手,所述平面区便于用户书写信息,所述笔放置位用于收纳笔。
- 如权利要求15所述的监护仪安装架,其特征在于,所述检查头收纳座和检查头线收纳座设置在储物盒或操作台上;或,所述检查头收纳座设置在操作台上,所述检查头线收纳座设置在储物盒上。
- 如权利要求15所述的监护仪安装架,其特征在于,所述操作台的底部具有至少一个扩展安装口,用以可拆卸地安装扩展部件。
- 如权利要求15所述的监护仪安装架,其特征在于,所述操作台内装有备用电池,用以对监护仪进行供电。
- 如权利要求1-19任一项所述的监护仪安装架,其特征在于,还包括电源线收纳件和滚轮,所述电源线收纳件设置在支架上,用以收纳监护仪的电源线,所述滚轮安装在支架的下方,用以使所述监护仪安装架能够移动。
- 如权利要求3-19任一项所述的监护仪安装架,其特征在于,所述检查头收纳座用于收纳血氧夹和/或扫描枪,其具有能够放置血氧夹和/或扫描枪的收纳结构。
- 如权利要求1-19任一项所述的监护仪安装架,其特征在于,还包括位于支架下方的底盘和安装在底盘下的滚轮。
- 如权利要求22所述的监护仪安装架,其特征在于,所述底盘的尺寸不大于425mm。
- 如权利要求22所述的监护仪安装架,其特征在于,所述底盘包括缺口,所述缺口设置于所述底盘朝向所述支架正面的一侧上。
- 如权利要求1所述的监护仪安装架,其特征在于,所述检查头收纳装置包括磁性部件,所述检查头和所述检查头收纳装置磁性连接。
- 一种监护仪安装架,其特征在于,包括:支架,所述支架的侧壁具有至少一个第一对接部;储物装置,所述储物装置用于储物,其外壁具有至少一个第二对接部,所述第一对接部和第二对接部以可拆卸的方式的固定;以及监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上。
- 如权利要求26所述的监护仪安装架,其特征在于,所述第一对接部的外侧或内部留有供所述第二对接部从所述支架的非轴向方向向第一对接部移动的空间,以便所述第二对接部横向移动到所述第一对接部外侧或内部。
- 如权利要求27所述的监护仪安装架,其特征在于,所述第一对接部包括第一卡块,所述第一卡块凸起设置在所述支架的侧壁上,所述第二对接部具有第一卡扣腔,所述第一卡扣腔具有拆装口,所述第一卡块经所述拆装口伸入所述第一卡扣腔内,所述第一卡扣腔的腔壁扣合在所述第一卡块上。
- 如权利要求28所述的监护仪安装架,其特征在于,所述第一卡块具有第一基体和自所述第一基体凸起设置的第一凸缘,所述第一基体固定安装在所述支架的外壁上,所述第一卡扣腔的腔壁扣合在所述第一凸缘上。
- 如权利要求29所述的监护仪安装架,其特征在于,所述拆装口具有向下的第一开口和自所述第一开口向上延伸的第二开口,所述第一开口和第二开口连通,所述第二开口的宽度大于所述第一基体的宽度且小于所述第一凸缘的宽度和第一开口的宽度,所述第一卡扣腔向下运动,所述第一卡块自下而上插入所述第一开口,所述第一基体在所述第二开口内向上运动,所述第一凸缘随所述第一基体向上运动至所述第一卡扣腔的内部,以便所述第一凸缘扣合在所述第一卡扣腔的腔壁上。
- 如权利要求29所述的监护仪安装架,其特征在于,所述第一凸缘包括自所述第一基体分别向两个侧方凸起设置的两个第一侧凸缘,所述第一卡扣腔的腔壁扣合在所述第一侧凸缘上。
- 如权利要求31所述的监护仪安装架,其特征在于,两个所述第一侧凸缘的外壁大致呈八字形分布。
- 如权利要求32所述的监护仪安装架,其特征在于,所述第一卡块沿竖直方向设置,其较窄的一端在上,较宽一端在下。
- 如权利要求29所述的监护仪安装架,其特征在于,所述第一凸缘包括自所述第一基体向上方凸起设置的第一上凸缘,所述第一卡扣腔的腔壁扣合在所述第一上凸缘。
- 如权利要求27所述的监护仪安装架,其特征在于,所述第一对接部包括第二卡扣腔,所述第二卡扣腔具有拆装口,所述第二对接部具有第二卡块,所述第二卡块凸起设置在所述储物装置的外壁,所述第二卡块经所述拆装口伸入所述第二卡扣腔内,所述第二卡扣腔的腔壁扣合在所述第二卡块上。
- 如权利要求35所述的监护仪安装架,其特征在于,所述第二卡块具有第二基体和自所述第二基体凸起设置的第二凸缘,所述第二基体固定安装在所述储物装置的外壁上,所述第二卡扣腔的腔壁扣合在所述第二凸缘上。
- 如权利要求36所述的监护仪安装架,其特征在于,所述拆装口具有朝向所述储物装置设置的第一开口和与所述第一开口连通的第二开口,所述第二开口自上向下延伸分布,所述第二卡块从所述支架的非轴向方向插入所述第一开口,所述第二开口的宽度大于所述第二基体的宽度且小于所述第二凸缘的宽度和第一开口的宽度,所述第二基体置于所述第二开口内,所述第二卡块沿着所述第二开口向下运动,使所述第二凸缘容置于所述第二卡扣腔的内部,以便所述第二凸缘扣合在所述第二卡扣腔的腔壁上。
- 如权利要求37所述的监护仪安装架,其特征在于,所述第二凸缘包括自所述第二基体分别向两个侧方凸起设置的两个第二侧凸缘,所述第二卡扣腔的腔壁扣合在所述第二侧凸缘上。
- 如权利要求26-38任一项所述的监护仪安装架,其特征在于,所述储物装置具有面向所述支架的后侧壁,所述第二对接部位于所述后侧壁上。
- 如权利要求39所述的监护仪安装架,其特征在于,所述后侧壁具有内凹的凹槽,所述支架位于所述凹槽内,所述第二对接部位于所述凹槽的壁体上。
- 如权利要求40所述的监护仪安装架,其特征在于,所述支架的外壁具有朝向所述储物装置的正面和位于所述正面两侧的侧面,所述第一对接部位于两个所述侧面,所述第二对接部位于所述凹槽与所述侧面对应的部位。
- 如权利要求26-41任一项所述的监护仪安装架,其特征在于,所述储物装置设有松不脱螺钉,所述支架具有与所述松不脱螺钉固定的螺孔;和/或,所述支架设有松不脱螺钉,所述储物装置具有与所述松不脱螺钉固定的螺孔。
- 如权利要求42所述的监护仪安装架,其特征在于,所述松不脱螺钉位于第一对接部和第二对接部的下方。
- 一种监护仪安装架,其特征在于,包括:支架,所述支架用于支撑监护仪,所述支架固设有第一抵接件;底盘,其用于支撑所述支架,所述底盘具有盘体、第二抵接件和抵紧件,所述第一抵接件向下插入所述第二抵接件中或所述第二抵接件向上插入所述第一抵接件中,所述抵紧件以可活动的方式安装在所述第二抵接件或盘体上,所述抵紧件具有抵紧位和释放位,所述抵紧件位于所述抵紧位时,将所述第一抵接件和第二抵接件抵紧,以使所述支架与底盘固定连接,所述抵紧件位于所述释放位时,释放所述第一抵接件和第二抵接件;以及监护仪连接座,用以安装监护仪,所述监护仪连接座安装在支架或储物装置上。
- 如权利要求44所述的监护仪安装架,其特征在于,所述抵紧件为拉紧螺钉,所述拉紧螺钉以可转动的方式安装在所述第二抵接件或盘体上,所述拉紧螺钉的一端穿过所述第二抵接件,在所述拉紧螺钉位于所述抵紧位时,其与所述第一抵接件螺接,所述拉紧螺钉具有抵紧部,所述抵紧部用于直接或间接将所述第二抵接件压向所述第一抵接件,以使所述第一抵接件和第二抵接件抵紧;在所述拉紧螺钉位于所述释放位时,所述拉紧螺钉与所述第一抵接件脱离。
- 如权利要求44所述的监护仪安装架,其特征在于,所述盘体具有第一凹陷腔,所述第二抵接件固设于所述第一凹陷腔内,所述支架的一端插入所述第一凹陷腔内。
- 如权利要求45所述的监护仪安装架,其特征在于,所述拉紧螺钉包括螺接部和与螺接部连接的施力部,所述螺接部以可转动的方式安装在所述第二抵接件或盘体上,并向上穿过所述第二抵接件,用以与第一抵接件螺接,所述施力部位于盘体的下方,所述施力部与螺接部形成夹角a。
- 如权利要求47所述的监护仪安装架,其特征在于,所述夹角a取值范围为:30°≤a≤150°。
- 如权利要求47所述的监护仪安装架,其特征在于,所述施力部沿水平方向设置。
- 如权利要求47所述的监护仪安装架,其特征在于,所述螺接部的长度和施力部的长度比例b的取值范围为:1/6≤b≤1。
- 如权利要求44-50任一项所述的监护仪安装架,其特征在于,所述支架具有内腔,所述第一抵接件具有第一抵接部,所述第一抵接部向上插入所述支架的内腔中,所述第一抵接部具有第一插入腔,所述第一抵接部朝向所述第二抵接件的一端具有插入口,所述插入口与所述第一插入腔相通,所述第一抵接部背离所述第二抵接件的一端设有螺纹孔,所述第二抵接件朝向所述第一抵接件的一端具有能够向上插入所述第一插入腔的第二抵接部,所述第二抵接部设有上下贯通的通孔,所述拉紧螺钉一端穿过所述通孔,以与所述第一抵接件螺接,将所述第一抵接部和第二抵接部抵紧。
- 如权利要求51所述的监护仪安装架,其特征在于,所述第一插入腔为锥台形,所述插入口位于所述第一插入腔较大的一端,所述第二抵接部为上小下大的锥台形,以与所述第一插入腔的匹配。
- 如权利要求51所述的监护仪安装架,其特征在于,所述第二抵接部位于所述盘体内,所述拉紧螺钉一端向上伸入所述盘体内,所述拉紧螺钉的抵接部包括位于所述盘体下方的卡台,所述卡台与盘体之间设有弹性件,所述弹性件的弹力促使所述盘体抵紧所述第二抵接件。
- 如权利要求44-50任一项所述的监护仪安装架,其特征在于,所述第二抵接件具有第二抵接部,所述第二抵接部具有第二插入腔,所述第二抵接部朝向所述第一抵接件的一端具有插入口,所述插入口与所述第二插入腔相通,所述第二抵接部背离所述第一抵接件的一端设有通孔,所述第一抵接件具有能够向下插入所述第二插入腔的第一抵接部,所述第一抵接部设有螺纹孔,所述拉紧螺钉一端穿过所述第二抵接件的通孔,与所述第一抵接件螺接,将所述第二抵接部和第一抵接部抵紧。
- 如权利要求54所述的监护仪安装架,其特征在于,所述第二插入腔为上大下小的倒锥台形,所述插入口位于所述第二插入腔较大的一端,所述第一抵接部为上大下小的倒锥台形,以与所述第二插入腔的匹配。
- 如权利要求54所述的监护仪安装架,其特征在于,所述第二抵接部一端向下穿出所述盘体;所述拉紧螺钉位于所述第二抵接部的下方。
- 如权利要求56所述的监护仪安装架,其特征在于,所述拉紧螺钉的抵接部包括位于所述第二抵接部下方的卡台,所述卡台与第二抵接部之间设有弹性件,所述弹性件的弹力所述第二抵接件向第一抵接件运动。
- 如权利要求44-57任一项所述的监护仪安装架,其特征在于,所述第一抵接件具有第一装配部,所述第一装配部与支架固定连接,所述第一抵接部和第一装配部连接。
- 如权利要求44-58任一项所述的监护仪安装架,其特征在于,所述第二抵接件具有第二装配部,所述第二装配部固定安装在盘体上,所述第二抵接部与所述第二装配部连接。
- 如权利要求44-59任一项所述的监护仪安装架,其特征在于,所述储物装置包括操作台,所述操作台具有向上凹陷设置的第二凹陷腔和位于所述凹陷腔内的第三抵接件,所述支架的上端插入所述第二凹陷腔内,所述支架设有第四抵接件,所述第三抵接件向下插入所述第四抵接件中或所述第四抵接件向上插入所述第三抵接件中。
- 如权利要求60所述的监护仪安装架,其特征在于,所述支架具有内腔,所述第四抵接件具有第四抵接部,所述第四抵接部向下插入所述支架的内腔中,所述第四抵接部具有第四插入腔,所述第四抵接部朝向所述第三抵接件的一端具有插入口,所述插入口与所述第四插入腔相通,所述第三抵接件朝向所述第四抵接件的一端具有第三抵接部,所述第三抵接部向下插入所述第四插入腔,使所述操作台安装在所述支架上。
- 如权利要求61所述的监护仪安装架,其特征在于,所述第四插入腔为倒锥台形,所述插入口位于所述第四插入腔较大的一端,所述第三抵接部为上大下小的倒锥台形,以与所述第四插入腔的匹配。
- 如权利要求61所述的监护仪安装架,其特征在于,所述第三抵接件具有第三抵接部,所述第三抵接部具有第三插入腔,所述第三抵接部朝向所述第四抵接件的一端具有插入口,所述插入口与所述第三插入腔相通,所述第四抵接件具有向上凸起设置的第四抵接部,所述第三插入腔套设在所述第四抵接部上,使所述操作台安装在所述支架上。
- 如权利要求63所述的监护仪安装架,其特征在于,所述第三插入腔为锥台形,所述插入口位于所述第三插入腔较大的一端,所述第四抵接部为上小下大的锥台形,以与所述第三插入腔的匹配。
- 如权利要求61-64任一项所述的监护仪安装架,其特征在于,所述第四抵接件具有第四装配部,所述第四装配部与支架固定连接,所述第四抵接部和第四装配部连接。
- 如权利要求61-65任一项所述的监护仪安装架,其特征在于,所述第三抵接件具有第三装配部,所述第三装配部固定安装在操作台上,所述第三抵接部与所述第三装配部连接。
- 如权利要求60-66任一项所述的监护仪安装架,其特征在于,所述操作台设有松不脱螺钉,所述支架具有与所述松不脱螺钉固定的螺孔;和/或,所述支架设有松不脱螺钉,所述操作台具有与所述松不脱螺钉固定的螺孔。
- 一种用于转接监护仪的监护仪连接座,其特征在于,包括座体、用于与监护仪连接的第一装配结构和用于与转接部件连接的第二装配结构,所述第一装配结构包括至少两个第一装配件,所述座体具有至少两组能够调整第一装配件固定位置的第一安装位,以使所述第一装配件之间的距离能够调整。
- 如权利要求68所述的监护仪连接座,其特征在于,每组所述第一安装位具有至少两个位置不同的安装孔,每个所述第一装配件可拆卸的固定在一组第一安装位的一个安装孔内。
- 如权利要求68所述的监护仪连接座,其特征在于,每组所述第一安装位具有腰型孔,每个所述第一装配件通过螺钉锁紧在对应腰型孔内。
- 如权利要求70所述的监护仪连接座,其特征在于,所述座体具有用于容置所述第一装配件的容置槽,所述腰型孔设于所述容置槽的槽壁上,所述第一装配件置于所述容置槽内,所述螺钉穿过所述腰型孔将所述第一装配件锁定在所述容置槽内。
- 如权利要求68-71任一项所述的监护仪连接座,其特征在于,所述第一装配件为两个,所述第一装配结构还包括第二装配件,所述第二装配件与所述第一装配件呈三角形分布,所述座体具有用于解锁第二装配件的解锁机构。
- 如权利要求72所述的监护仪连接座,其特征在于,所述第一装配件和第二装配件均为卡扣结构,所述第一装配件的卡勾与第二装配件的卡勾相对设置,所述第二装配件具有解锁位和锁紧位,在所述解锁位时,所述解锁机构带动所述第二装配件向远离所述第一装配件的方向移动。
- 如权利要求73所述的监护仪连接座,其特征在于,所述解锁机构包括解锁件和锁紧弹性件,所述锁紧弹性件驱动所述第二装配件向所述锁紧位移动,所述解锁件用于克服所述锁紧弹性件的弹力,驱动所述第二装配件向所述解锁位移动。
- 如权利要求68-74任一项所述的监护仪连接座,其特征在于,所述第二装配结构包括卡扣结构、安装孔、可拆卸粘接结构和磁吸结构中的至少一种。
- 一种监护仪安装架,其特征在于,包括:支架,其起支撑作用;以及如权利要求68-75任一项所述的监护仪连接座,其通过第二安装结构安装在所述支架上,其第一安装结构用于安装监护仪。
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