CN114176793A - Monitor mounting rack - Google Patents

Abstract

The utility model provides a monitor mounting bracket, its storing device is direct through the assembly of second butt joint portion on the outer wall and the first butt joint portion on the support lateral wall, need not to make the support run through storing device, does not have the requirement to the assembly order, both can adorn storing device earlier, also can adorn other devices such as chassis, monitor connecting seat earlier for this storing device installation is more convenient.

Description

Monitor mounting rack

Technical Field

The application relates to the field of medical equipment, in particular to a supporting structure for a monitor.

Background

A monitor is a device or system that measures and controls physiological parameters of a patient and compares them to known settings to generate an alarm if an excessive level is present. The monitor is typically equipped with a mounting frame (e.g., a cart) for placement of the monitor. In particular, the cart is a device for carrying the monitor and accessories, and since the cart can be moved, the movement and use of the monitor can be facilitated in some use scenarios, such as when a nurse makes a round to move the monitor between different wards.

The cart generally comprises a storage device (such as a storage box) and a support, wherein the storage device is generally provided with an assembly hole which is communicated up and down, and when the storage device is assembled with the support, the assembly hole of the storage device is sleeved on the support and is fixed with the support. However, the mode has requirements on the assembly sequence, and particularly when the monitor connecting seat is required to be installed on the support, the storage device must be installed firstly, and then the monitor connecting seat is installed, so that the assembly requirement is high, and the installation efficiency is low.

Disclosure of Invention

The application provides a novel monitor mounting bracket, provides a new storing device mounting means.

In view of the above, an embodiment of the present application provides a monitor mounting rack, including:

a bracket, a sidewall of the bracket having at least one first docking portion;

the storage device is used for storing articles, the outer wall of the storage device is provided with at least one second butt joint part, and the first butt joint part and the second butt joint part are detachably fixed;

and the monitor connecting seat is used for installing a monitor and is arranged on the bracket or the storage device.

In one embodiment, a space for the second docking portion to move from the non-axial direction of the bracket to the first docking portion is left outside or inside the first docking portion, so that the second docking portion moves laterally outside or inside the first docking portion.

In one embodiment, the first butt joint part comprises a first clamping block, the first clamping block is arranged on the side wall of the support in a protruding mode, the second butt joint part is provided with a first clamping cavity, the first clamping cavity is provided with a dismounting opening, the first clamping block extends into the first clamping cavity through the dismounting opening, and the cavity wall of the first clamping cavity is buckled on the first clamping block.

In one embodiment, the first clamping block has a first base and a first flange protruding from the first base, the first base is fixedly mounted on the outer wall of the bracket, and the cavity wall of the first clamping cavity is fastened on the first flange.

In one embodiment, the mounting and dismounting opening has a downward first opening and a second opening extending upward from the first opening, the first opening is communicated with the second opening, the width of the second opening is greater than the width of the first base and smaller than the width of the first flange and the width of the first opening, the first snap cavity moves downward, the first snap block is inserted into the first opening from bottom to top, the first base moves upward in the second opening, and the first flange moves upward with the first base to the inside of the first snap cavity, so that the first flange is snapped on the cavity wall of the first snap cavity.

In one embodiment, the first flange includes two first side flanges protruding from the first base body to two sides, and the cavity wall of the first fastening cavity is fastened to the first side flanges.

In one embodiment, the outer walls of the two first side flanges are distributed in a substantially splayed shape.

In one embodiment, the first block is arranged along a vertical direction, and a narrower end of the first block is arranged above and a wider end of the first block is arranged below.

In one embodiment, the first flange includes a first upper flange protruding upward from the first base, and the cavity wall of the first snap cavity is snapped on the first upper flange.

In one embodiment, the first butt joint portion comprises a second buckle cavity, the second buckle cavity is provided with a disassembly and assembly port, the second butt joint portion is provided with a second clamping block, the second clamping block is arranged on the outer wall of the storage device in a protruding mode, the second clamping block extends into the second buckle cavity through the disassembly and assembly port, and the cavity wall of the second buckle cavity is buckled on the second clamping block.

In one embodiment, the second clamping block has a second base and a second flange protruding from the second base, the second base is fixedly mounted on the outer wall of the storage device, and the cavity wall of the second clamping cavity is fastened on the second flange.

In one embodiment, the mounting/dismounting opening has a first opening facing the storage device and a second opening communicating with the first opening, the second opening extends and is distributed from top to bottom, the second fixture block is inserted into the first opening from a non-axial direction of the bracket, a width of the second opening is larger than a width of the second base and smaller than a width of the second flange and a width of the first opening, the second base is disposed in the second opening, and the second fixture block moves downward along the second opening to enable the second flange to be accommodated in the second fastening cavity, so that the second flange is fastened on a cavity wall of the second fastening cavity.

In one embodiment, the second flange includes two second side flanges protruding from the second base body to two sides, and the cavity wall of the second snap cavity is snapped on the second side flanges.

In one embodiment, the storage device has a rear sidewall facing the bracket, and the second docking portion is located on the rear sidewall.

In one embodiment, the rear sidewall has an inwardly concave groove, the bracket is located in the groove, and the second docking portion is located on a wall body of the groove.

In one embodiment, the outer wall of the bracket has a front surface facing the storage device and side surfaces located at two sides of the front surface, the first butt-joint portions are located at two of the side surfaces, and the second butt-joint portions are located at positions of the grooves corresponding to the side surfaces.

In one embodiment, the storage device is provided with a release screw, and the bracket is provided with a screw hole fixed with the release screw; and/or the bracket is provided with a release screw, and the storage device is provided with a screw hole fixed with the release screw.

In one embodiment, the release screw is located below the first and second docking portions.

According to the monitor mounting bracket of the embodiment, the storage device is directly assembled with the first butt joint part on the side wall of the bracket through the second butt joint part on the outer wall, the bracket does not need to penetrate through the storage device, no requirement is required on the assembly sequence, the storage device can be firstly installed, and other devices such as a chassis or a monitor connecting seat can be also firstly installed, so that the storage device is more convenient to install.

Drawings

FIG. 1 is a side view of a monitor mount according to one embodiment of the present application;

FIG. 2 is an exploded view of the storage compartment and the bracket according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of an assembly structure of a storage box and a bracket according to an embodiment of the present disclosure;

FIG. 4 is an axial cross-sectional view of an embodiment of the present application after the storage compartment and the bracket are assembled;

FIG. 5 is a transverse cross-sectional view of the storage compartment and bracket assembly according to one embodiment of the present disclosure;

FIG. 6 is a cross-sectional view of a non-removable screw mounting structure according to an embodiment of the present application;

FIGS. 7 and 8 are schematic views of different views of a fixture block according to an embodiment of the present disclosure;

FIG. 9 is an exploded view of the storage compartment and the bracket of another embodiment of the present application;

FIG. 10 is a schematic view of an assembly structure of a storage box and a bracket according to another embodiment of the present application;

FIG. 11 is a schematic view of a second docking portion of a storage box according to another embodiment of the present disclosure;

FIG. 12 is a transverse cross-sectional view of an alternative embodiment of the present application, shown assembled with a storage compartment and a bracket;

FIG. 13 is an exploded view of the first abutment member and the fourth abutment member of the bracket according to an embodiment of the present application;

FIG. 14 is an exploded view of the chassis of an embodiment of the present application;

FIG. 15 is a partial cross-sectional view of an exploded view of a bracket and chassis according to an embodiment of the present application;

FIG. 16 is an axial cross-sectional view of an assembled bracket and chassis according to an embodiment of the present application;

FIG. 17 is an exploded view of a bracket and chassis according to another embodiment of the present application;

FIG. 18 is an exploded view of another embodiment of the present application;

FIG. 19 is a partial cross-sectional view of the assembled bracket and chassis of another embodiment of the present application;

FIG. 20 is an axial cross-sectional view of a bracket shown in a disengaged condition from a base pan in an alternative embodiment of the present application;

FIG. 21 is an axial cross-sectional view of an assembled bracket and chassis according to another embodiment of the present application;

FIG. 22 is an axial cross-sectional view of the console shown assembled with the support in one embodiment of the present application;

FIG. 23 is an exploded view of the console and support in one embodiment of the subject application;

FIGS. 24 and 25 are schematic views of two first fittings of a monitor connector mount in different mounting holes according to an embodiment of the present invention;

FIG. 26 is an exploded view of a monitor connector mount according to an embodiment of the present application;

FIG. 27 is an exploded view of a monitor connector mount according to another embodiment of the present application;

FIG. 28 is a schematic view of two first fittings locked in the waist-shaped hole according to another embodiment of the present application;

FIG. 29 is a cross-sectional view of a monitor attachment mount mounted to a monitor according to one embodiment of the present application.

FIGS. 30 and 31 are schematic views showing the mounting of the monitor connecting mount to the upper wall structure and the monitor mounting bracket, respectively, according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The present embodiments provide a monitor mounting rack for supporting a monitor to assist a user (e.g., a nurse, a doctor, etc.) in performing an examination and recording of various physiological parameters of a patient.

Referring to fig. 1 to 10, in one embodiment, the monitor mounting bracket includes a bracket 110, a storage device 120, a monitor connecting seat 130, and an inspection head receiving device.

The bracket 110 serves as a support structure for the entire mounting rack, and the storage device 120, the monitor connecting base 130 and the inspection head receiving device can be directly or indirectly mounted on the bracket 110. Referring to fig. 1 to 10, in one embodiment, the monitor mounting frame further includes a roller 150, and the roller 150 is installed below the support frame 110 to enable the monitor mounting frame to be moved, so that a user can conveniently move the monitor, for example, to use the monitor when a nurse makes a ward round. A chassis 160 may be installed under the bracket 110, and the rollers 150 may be installed at various positions of the chassis 160. Of course, in some embodiments, the monitor mounting rack may not have mobility, and the monitor mounting rack may be moved by other moving means, or may be placed in a location for long-term use.

As shown in fig. 2, a side of the bracket 110 where the storage device 120 is mounted is defined as a front side of the bracket 110, and an opposite side is defined as a back side of the bracket 110. For stability and aesthetics, the support 110 is mounted to a portion of the chassis 160 near the back of the monitor mount, resulting in better stability of the monitor mount. At least three rollers 150 are mounted on the chassis 160, and in one embodiment, four rollers 150 are mounted on the chassis 160. The chassis 160 has a maximum dimension of no more than 425mm so that it can be passed in narrow corridors in hospitals. The chassis 160 includes at least one notch disposed on a side of the chassis 160 facing the front of the support frame 110, which is used to ensure that the chassis 160 does not obstruct the user's progress when the user pushes the monitor mounting frame forward on the front, thereby preventing the user from kicking the chassis 160. Notches may also be provided on other sides of the chassis 160, for example, on the side of the chassis 160 facing the back of the support 110, to facilitate user access when connecting wires on the back and to reduce the risk of the monitor mount hitting a person or object during advancement.

The storage device 120 is mounted on the bracket 110 for storing articles. The storage device 120 can be detachably or non-detachably mounted on the bracket 110 by screwing, clamping, welding, bonding, and the like. The storage device 120 may have a storage chamber into which larger items such as sphygmomanometer cuffs may be placed. The monitor connecting socket 130 is used for mounting a monitor, and the monitor can be mounted on the support 110 through the monitor connecting socket 130. The monitor connecting base 130 can be connected to the monitor by a detachable fixing method such as a screw, a buckle, etc., and certainly, in some specific embodiments, the monitor can also be non-detachably and fixedly connected to the monitor connecting base 130. The monitor connecting socket 130 may be directly mounted on the support frame 110 or may be mounted on the storage device 120 and then indirectly mounted on the support frame 110 through the storage device 120.

The inspection head receiving device is used for placing an inspection head, and the inspection head receiving device is installed on the bracket 110 or the storage device 120. The inspection head receiving device and the bracket 110 or the storage device 120 may be connected together in a non-detachable manner or in a detachable manner, such as a screw connection or a snap connection. The examination head is the examination end of various devices for examining a patient, which usually comes into contact with the patient to enable the detection of a certain physiological parameter, which may be, for example, a blood oxygen clip, a scanning gun. Taking the blood oxygen clip as an example, the blood oxygen clip can be received in the receiving device of the examination head. Correspondingly, larger objects, such as cuffs of a sphygmomanometer, can be placed in the storage device 120.

The monitor mounting rack is specially provided with the examination head containing device, the examination head and the sphygmomanometer cuff can be separately placed, for example, the sphygmomanometer cuff can be contained in the storage device 120, and other examination heads such as the blood oxygen clip can be contained in the corresponding examination head containing device, so that winding among different parts is avoided.

The inspection head receiving device can be arranged at any position on the bracket 110 or the storage device 120. However, in order to facilitate the use of the user, in one embodiment, the inspection head receiving device is located at the sidewall of the storage device 120 (or the bracket 110), which is more suitable for the operation habit of the user and facilitates the user to receive the inspection head. Meanwhile, 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 position of the inspection head receiving device at the sidewall of the storage device 120 or the bracket 110 means that the position of the inspection head receiving device for receiving the inspection head is at the sidewall of the storage device 120 or the bracket 110, which is not limited to the position of the inspection head receiving device mounted on the sidewall of the storage device 120 or the bracket 110, and the inspection head receiving device may be mounted on the sidewall of the storage device 120 or the bracket 110, or may be mounted at another position, and then extends to the sidewall of the storage device 120 or the bracket 110, for example, the position of the inspection head receiving device mounted at the bottom or the top of the storage device 120.

Referring to fig. 2, the sidewall of the storage device 120 has a front sidewall facing the user, a rear sidewall a2 opposite to the front sidewall, and a side sidewall between the front sidewall and the rear sidewall a 2. The inspection head housing device can be provided at any position of the front side wall, the rear side wall a2, and the side wall. However, generally, the inspection head storage device or the portion of the inspection head storage device that stores the inspection head is disposed on the side wall to be more suitable for the operation habit of the user, and the inspection head can be positioned in the left or right hand direction of the user for easy access. In the case where the storage device 120 is an integral component, the front side wall, the rear side wall a2 and the side walls may be the respective side walls of the integral component. When the magazine 120 includes two or more separate components, corresponding side walls of these components are collectively referred to as a front side wall, a rear side wall a2, and a side wall, that is, when the inspection head accommodation device or a portion of the inspection head accommodation device that accommodates the inspection head is provided on a certain side wall of the magazine 120, it may be provided on a corresponding side wall of one of the components, or may be provided on corresponding side walls of two or more components, and different portions of the inspection head accommodation device may be provided on side walls of different components, respectively.

In particular, in one embodiment, the inspection head receiving device comprises an inspection head receiving seat and an inspection head wire receiving seat, wherein the inspection head receiving seat is used for receiving an inspection head, and the inspection head wire receiving seat is used for receiving an inspection head wire. The inspection head receptacle and the inspection head line receptacle are mounted on the storage device 120. In particular, the inspection head receptacle is located on a side sidewall. Of course, the inspection head receptacle may be mounted on the bracket 110.

The inspection head wire storage holder may be attached to the rear side wall a2 or may be attached to the same side wall as the inspection head wire storage holder. When the blood oxygen clip is placed on the inspection head wire receiving seat, the cable is received on the inspection head wire receiving seat, wherein a part of the cable is suspended between the inspection head wire receiving seat and the inspection head wire receiving seat. When will using the blood oxygen to press from both sides, take off the blood oxygen and press from both sides, but this part cable that suspends in midair this moment is free activity, makes the blood oxygen press from both sides and can move about at certain extent, need not get the cable on the inspection head line storage seat again, makes the blood oxygen press from both sides and gets to put and use more conveniently. Optionally, when the inspection head wire accommodating seat and the inspection head accommodating seat are mounted on the same side wall, the inspection head wire accommodating seat and the inspection head accommodating seat are arranged in a staggered mode, so that the handheld inspection head can accommodate the cable in the inspection head wire accommodating seat without winding on the inspection head wire accommodating seat. In one embodiment, the head line receptacle is mounted to the side wall near the rear wall a2 or to the rear wall a2, and the head receptacle is mounted to the side wall near the front wall or to the front wall. Because the user generally carries out the inspection operation in the vicinity of preceding lateral wall, such setting can avoid the user to hang by mistake in inspection operation in-process or twine the cable, leads to inspection head to drop or the shallow problem such as topple over better.

Of course, the inspection head line receptacle may be provided in other areas of the side wall.

Further, the inspection head line receptacle or the entire inspection head receptacle can be fixedly disposed at a certain position of the storage device 120 or the bracket 110, for example, at a certain position of a sidewall of the storage device 120. However, in order to improve the flexibility of use, in one embodiment, the side wall is divided into a first side wall and a second side wall, the first side wall and the second side wall are oppositely arranged, the first side wall and the second side wall are respectively provided with a first mounting part for mounting the inspection head storage seat, and the inspection head storage seat is detachably mounted on the first mounting part.

Of course, in other embodiments, other side walls (front side wall, rear side wall a2 or other positions) of the storage device 120 may have at least two first mounting portions for mounting the inspection head receptacle, and the inspection head receptacle may be detachably mounted on the first mounting portions by snap-fit, plug-in, screw-fit, magnetic connection, or the like.

In one embodiment, the inspection head receiving seat and the first mounting part can be detachably connected through clamping. The first mounting portion includes a connector fixed to a mounting hole of a sidewall of the storage device 120 or the bracket 110, and may be fixed by a screw. This connecting piece has the bellied joint body, and the inspection head storage seat has the joint groove, and joint groove detachably card is on the joint body to realize the detachable connection between inspection head storage seat and the first installation department.

The connector can be fixed at any position of the storage device 120 by means of screwing, bonding, welding or clamping and the like. In an embodiment, the storage device 120 is a grid structure or has a plurality of mounting holes located on different side walls or bottoms, and the connecting member is detachably inserted into the grid or at least one mounting hole, so that a user can install the connecting member at any position of the side wall of the storage device 120 according to own operation habits and current requirements, and an inspection head accommodating seat detachably connected with the connecting member can be installed at any position of the storage device 120 by the user in a self-defined manner, thereby achieving the effects of more fitting the use habits of the user and being convenient and easy to use.

The assembling structure of the connector and the inspection head receiving seat is only an example, and other various detachable connecting structures can be adopted between the connector and the inspection head receiving seat to complete assembling.

As to the manner of receiving the test head (e.g., blood oxygen clip) by the test head receptacle, various configurations are possible, as will be apparent to those skilled in the art. For example, the tip receptacle may be generally a cup structure with openings in the sides and bottom for the passage of blood oxygen clip wires, which may be placed in the cup structure. Of course, the blood oxygen clip and other inspection heads can be accommodated through other structures, for example, the inspection head accommodating seat is designed into a clamping mechanism, an accommodating cavity, a hook and other structures. The inspection head receptacle may receive at least one probe. In one embodiment, the tip receptacle may receive a blood oxygen clip or a scanning gun. Because two kinds of probes all can be placed in the inspection head storage seat, the user need not to distinguish the inspection head storage seat that the different probe corresponds, when there are two at least inspection head storage seats, the user can press from both sides the blood oxygen and place into any one inspection head storage seat according to operation habit and demand. When installing at least one inspection head storage seat respectively on first side lateral wall and the second side lateral wall, the user can exchange the position that blood oxygen pressed from both sides and scanning rifle according to actual need for placing of inspection head is more nimble, laminates user's use habit more.

Similarly, the inspection head line storage seat can also adopt various structures to store the inspection head line, for example, the inspection head line storage seat can be a hook, and of course, the inspection head line storage seat can also be a clamping mechanism, a buckle, an accommodating cavity and other structures.

It is understood that the inspection head receiving device may also be a magnetic component, and the inspection head receiving device may be connected by means of magnetic coupling. In this way, the inspection head with the magnet or the metal component can be directly adsorbed on the inspection head accommodating device without a connecting piece and an inspection head accommodating seat, and the inspection head can be accommodated through magnetic coupling.

Further, the storage device 120 is a general term, and may include one or more components as long as it can achieve the function of direct or indirect storage, where direct storage is defined as the function of storage achieved by the structure of the storage device 120 itself, and indirect storage is defined as the function of storage achieved by other structures attached thereto. In one embodiment, the storage device 120 includes a storage box 122, and the storage box 122 has at least one storage cavity. The storage cavity can be used for placing various articles, such as sphygmomanometer cuffs, writing board clips (used for nurses to record various information) for nurses to check beds, pens and other tools.

To facilitate pushing the monitor mounting rack, in one embodiment, the storage box 122 has a handle, so that the user can push the storage box 122 to move the monitor mounting rack.

In one embodiment of the storage box 122 as the storage device 120, the inspection head and inspection head line receptacles are disposed on the storage box 122. For example, the head and line receptacles may be located at the side walls of the magazine 122, and may include a front side wall, a rear side wall a2, and side walls of the magazine 122. Specifically, in one embodiment, the inspection head receptacle may be disposed on the first lateral sidewall and/or the second lateral sidewall of the storage box 122. The inspection head line receptacle may be provided on the rear side wall a 2. In order to facilitate writing of a record by a user, in an embodiment, the first lateral side wall of the storage box 122 includes a first lateral side, and the second lateral side wall includes a second lateral side, where the first lateral side and the second lateral side are parallel and are straight sides, so as to facilitate supporting a writing board of the user, and facilitate writing of information by the user. Optionally, the end of the bracket 110 close to the first side and the second side is higher than the end of the bracket 110 far away from the first side and the second side, so that the user can take out articles from the storage cavity conveniently, and the writing board faces the user when supported on the first side and the second side, thereby facilitating the user to check.

Referring to fig. 1, in one embodiment, the storage device 120 includes a console 124 in addition to a storage box 122, and the console 124 is located above the storage box 122 and is separated from the storage box 122. The console 124 can be used for various operations by the user. To facilitate writing of a record by a user, the console 124 has a flat area for facilitating writing of information by the user and a pen placement location for receiving a pen, in one embodiment. The user (such as a nurse) can place the writing board in the flat area for recording information. The pen placing position can be a cavity matched with the pen shape, and when the pen is not used, the pen can be placed in the cavity.

To facilitate pushing the monitor mounting frame, the console 124 has a handle in one embodiment so that the user can push the console 124 and thus the entire monitor mounting frame.

With continued reference to fig. 1, in an embodiment where the storage box 122 and the console 124 together form the storage device 120, the inspection head receiving seat is disposed on the console 124, and the inspection head line receiving seat is disposed on the storage box 122. For example, the inspection head receptacle is located at a side wall of the console 124, and may include a front side wall, a rear side wall a2, and a side wall of the console 124. Specifically, in one embodiment, the inspection head receptacle may be disposed on the first lateral sidewall and/or the second lateral sidewall of the storage box 122. The first and/or second side walls of the storage box 122 may be provided with the first and/or second wire receptacle.

In other embodiments, the inspection head receptacle and the inspection head line receptacle may also be disposed on the storage box 122 or the console 124.

Further, in one embodiment, the bottom of the storage box 122 has at least one expansion slot for removably receiving an expansion member. In another embodiment, the bottom of the console 124 has at least one expansion mounting opening for removably mounting an expansion component. The expansion mounting opening may be a mounting hole to which the expansion member is mounted by means of a screw or the like. Of course, the extended mounting opening may be used to mount at least one of the inspection head housing device, the inspection head housing, and the inspection head wire housing.

Further, in one embodiment, a backup power source can be provided at the bottom or inside of the console 124 (or the storage box 122) to provide power to the monitor when the monitor is mounted on the monitor connecting seat 130.

Further, in one embodiment, the monitor further comprises a power cord storage device disposed on the bracket 110 for storing the power cord of the monitor. The power receiving member may be a hook or other structure. Of course, in some embodiments, the power source receiving member may be replaced with an inspection head receiving device or an inspection head wire receiving base.

Further, this monitor includes display screen, power key, function button, rotary encoder, multi-functional interface, DC interface, AC socket, ground post, blood pressure interface, blood oxygen interface, net gape and USB interface and record appearance. In one embodiment, the display screen, the power key, the function keys and the rotary encoder are arranged on the front surface of the monitor. The multifunctional interface, the DC interface, the AC socket and the grounding column are arranged on the back of the monitor. The blood pressure interface, the blood oxygen interface, the net mouth, the USB interface and the recorder are arranged on the side surface of the monitor. The setting mode is arranged according to the most frequently operated sequence of the user, and the keys/interfaces frequently operated by the user are placed on the front side of the monitor, namely the side close to the user; the key/interface with the second operation frequency of the user is placed on the side surface of the monitor; the keys/interfaces with the least frequency of user operation are arranged on the back of the monitor, so that the user operation is more convenient.

In one embodiment, the monitor comprises a display screen, a power key, a blood pressure interface, a blood oxygen interface, a carbon dioxide interface, a network port, a USB interface, a multifunctional interface, a DC interface, a grounding column and an AC socket. In an embodiment, the display screen is high definition electric capacity screen, and the user interacts with the monitor through touch, click etc. directly perceivedly, through high definition electric capacity screen, has saved entity operating parts such as function button and rotary encoder in this embodiment, on the positive area of limited monitor, can place bigger display screen, and more convenience of customers looks over and uses, improves user experience and feels. Optionally, a display screen is mounted at an opening (not shown) of the rear case, and a power key, a blood pressure interface, a blood oxygen interface, a carbon dioxide interface, a net port, a USB interface, a multifunctional interface, a DC interface, a ground post, and an AC socket are all provided on the rear case. Optionally, a holding part is further disposed on the rear housing, the holding part may be formed by a groove, a protrusion, and other structures on the rear housing, as long as the holding function of the monitor during the installation and transfer of the monitor by the user can be achieved, and the specific structure is not limited.

In one embodiment, any cross section of the rear shell parallel to the display screen is smaller than the display screen, so that a user only sees the display screen when looking from the front of the monitor, and cannot see other parts of the rear shell, and the visual effect is better.

In some embodiments, the storage device (e.g., storage box) has a through-hole, and when the storage device is assembled with the bracket, the through-hole of the storage device is sleeved on the bracket and fixed with the bracket. However, the method has requirements on the assembly sequence, and particularly, when the storage device and the monitor connecting seat are to be installed on the bracket at the same time, the storage device must be installed firstly, and then the monitor connecting seat is installed, so that the assembly requirement is high, and the installation efficiency is low.

Referring now to fig. 1-31, in one embodiment of the present application, another monitor mount is provided.

The monitor mounting rack includes a bracket 110, a storage device 120 and a monitor connecting seat 130. The side wall of the bracket 110 has at least one first butting part. The storage device 120 is used for storing articles, and the outer wall of the storage device is provided with at least one second butt joint part, and the first butt joint part and the second butt joint part are detachably fixed. The monitor connecting seat 130 is mounted on the support frame 110 or the storage device 120 for mounting the monitor to support the monitor on the monitor mounting frame.

This storing device 120 directly assembles through the first butt joint portion on second butt joint portion on the outer wall and the support 110 lateral wall, need not to make support 110 run through storing device 120, does not have the requirement to the assembly order, both can adorn storing device 120 earlier, also can adorn operation panel or monitor connecting seat 130 earlier. This first butt joint portion and second butt joint portion can dismantle fixed mode and can adopt buckle structure, magnetism to inhale structure, can dismantle bonding structure, spiro union structure etc. and realize.

In one embodiment, the outside or inside of the first docking portion leaves 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, so that the second docking portion can move from the non-axial direction of the bracket 110 to the outside or inside of the first docking portion to facilitate the second docking portion to be assembled to the first docking portion. For example, when the first mating portion is the first latch 111, the open space at the upper portion of the first latch 111 allows the second mating portion to move laterally above the first latch 111 to facilitate the second mating portion to be assembled downward onto the first latch 111, or when the first mating portion is the second latch cavity 113, the first mating portion has a mounting/dismounting opening, which serves as an open space for the second mating portion to move laterally into the second latch cavity 113, so that the second mating portion is assembled into the second latch cavity 113. This lateral assembly is not necessarily limited to the axial assembly sequence of the bracket 110, such as the assembly sequence of the bracket 110 with the storage device 120, the monitor connection base 130 and the chassis 160, and facilitates the assembly of the storage device 120.

For convenience of description, the storage device 120 is taken as the storage box 122 in the embodiment as an example. Of course, in other embodiments, the storage device 120 is not limited to the storage box 122, and may include a console or other structure.

Referring to fig. 2 to 8, in an embodiment, the first mating portion includes a first fastening block 111, the first fastening block 111 is convexly disposed on a sidewall of the bracket 110, the second mating portion has a first fastening cavity 129, the first fastening cavity 129 has an assembling and disassembling opening, the first fastening block 111 extends into the first fastening cavity 129 through the assembling and disassembling opening, and a cavity wall of the first fastening cavity 129 is fastened on the first fastening block 111. The first latch 111 is engaged with the first latch cavity 129 to mount the storage box 122 on the sidewall of the bracket 110.

The first snap cavity 129 may be disposed on a side wall or other wall of the storage box 122. The first snap cavity 129 is positioned to correspond to the position of the first mating portion on the bracket 110 to enable mating.

Further, in an embodiment, referring to fig. 4, 5, 7 and 8, the first latching block 111 has a base 1111 and first flanges (1112, 1113) protruding from the base 1111, the base 1111 is fixedly installed on the outer wall of the bracket 110, and the wall of the first latching cavity 129 is latched on the first flanges, so as to prevent the storage box 122 from moving downward and horizontally relative to the bracket 110 under the limit of the first flanges.

Further, in an embodiment, referring to fig. 2 to 5, the dismounting opening has a first opening 1291 downward and a second opening 1292 extending upward from the first opening 1291, and the first opening 1291 is communicated with the second opening 1292. The first block 111 can be inserted into the first opening 1291 from bottom to top, and the width of the second opening 1292 is greater than the width of the base 1111 and less than the width of the first flange, so that the base 1111 can move upward along the second opening 1292. Since the width of the first flange is greater than that of the second opening 1292, the first flange is not separated from the second opening 1292 but is always accommodated in the first latching cavity 129, so that the first flange is latched on the cavity wall of the first latching cavity 129, and the cavity wall of the first latching cavity 129 can be latched on the first latching block 111 from top to bottom when the storage box 122 moves from top to bottom through the first opening 1291 and the second opening 1292.

Further, referring to fig. 5, 7 and 8, in an embodiment, the first latch 111 has first side flanges 1112 protruding from the base 1111 toward two sides, respectively. The wall of the first snap cavity 129 snaps over the first side flange 1112. The first side flange 1112 can prevent the storage box 122 from moving left and right on the bracket 110, and improve the stability of the storage box 122 on the bracket 110.

Further, as shown in fig. 4 and 7, in one embodiment, the flange includes a first upper flange 1113 protruding upward from the base 1111, and the wall of the first latching chamber 129 is latched to the first upper flange 1113.

When the first latching cavity 129 is latched to the first latching block 111, the storage box 122 is latched to the upwardly protruding first upper flange 1113 under the action of its own weight, and a step structure is formed between the first upper flange 1113 and the base 1111, so as to prevent the storage box 122 from falling off the bracket 110. To remove the storage box 122, the storage box 122 is lifted up to separate the cavity wall of the first latching cavity 129 from the first upper flange 1113 and the first side flange 1112, so that the storage box 122 can be removed.

Specifically, in one embodiment, the opening wall of the mounting opening of the first latching cavity 129 may be n-shaped, so as to be able to be more snugly buckled to the first upper flange 1113 and the first side flange 1112 of the first latch 111.

Referring to FIG. 8, in one embodiment, the outer wall of the first side flange 1112 is substantially splayed. The first latch 111 is disposed along a vertical direction, and has a narrower end located at the top and a wider end located at the bottom. When the storage box 122 is mounted on the first fixture block 111, the cavity wall of the first fastening cavity 129 abutted to the first side flange 1112 is also in a corresponding splayed shape, and the outer wall of the first side flange 1112 can play a certain upward supporting role for the cavity wall of the first fastening cavity 129, so that the gravity of the storage box 122 is more uniformly distributed on each part of the first fixture block 111; the cavity wall of the first buckling cavity 129 can be supported horizontally to a certain extent, so that the stability in the horizontal direction is improved, and the shaking is reduced.

In the above embodiment, as shown in fig. 2 and 3, during assembly, the storage box 122 is moved laterally above the first latch 111 to align the first latch 111 with the mounting/dismounting opening of the first latching cavity 129, specifically, the first opening 1291 of the mounting/dismounting opening, then the storage box 122 falls down from the top, the flanges (2222, 1113) of the first latch 111 are snapped into the first latching cavity 129 from the first opening 1291, and the base 1111 moves in the second opening 1292, so that the cavity wall of the first latching cavity 129 is snapped onto the first latch 111, for example, onto the flanges of the first latch 111.

Of course, the first latch 111 and the first latch cavity 129 described above are only examples of a first mating portion and a second mating portion. In other embodiments, the first docking portion and the second docking portion may be implemented by other structures. Such as other forms of snap structures, magnetic attraction structures, detachable adhesive structures, screw connection structures, etc.

In another embodiment, referring to fig. 9 to 12, in an embodiment, the first mating portion includes a second fastening cavity 113, the second fastening cavity 113 has a mounting opening, the second mating portion has a second latch 1210, the second latch 1210 is convexly disposed on an outer wall of the storage box 122, the second latch 1210 extends into the second fastening cavity 113 through the mounting opening, and a cavity wall of the second fastening cavity 113 is fastened to the second latch 1210. That is, the first and second butting portions adopt a concavo-convex engagement structure opposite to the above-described embodiment.

During assembly, the second latch 1210 of the storage box 122 is transversely inserted into the second latching cavity 113 of the bracket 110, and then the second latch 1210 is moved downward to be latched and fixed in the second latching cavity 113, so that the storage box 122 is assembled.

Similar to the previous embodiment, referring to fig. 11, the second latch 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 outer wall of the storage box 122, and the cavity wall of the second latch cavity 113 is fastened on the second flange 1212.

Referring to fig. 9 and 12, in an embodiment, the mounting/dismounting opening has a first opening 1131 disposed toward the storage box 122 and a second opening 1132 communicated with the first opening 1131, and the second opening 1132 extends from top to bottom so that the second latch 1210 can be inserted into the second latch cavity 113 from the first opening 1131 and move along the second opening 1132 from top to bottom in the second latch cavity 113. The width of the second opening 1132 is greater than the width of the second substrate 1211 and less than the width of the second flange 1212 and the width of the first opening 1131, so that the second substrate 1211 can be placed in the second opening 1132 without the second flange 1212 falling out of the second opening 1132. The second latch 1210 moves downward along the second opening 1132, so that the second flange 1212 is received in the second latching cavity 113, so that the second flange 1212 is latched to the cavity wall of the second latching cavity 113.

Further, referring to fig. 11, in an embodiment, the second flange 1212 includes second side flanges 1212 protruding from the second base 1211 toward two sides, respectively, and the cavity wall of the second fastening cavity 113 is fastened on the second side flanges 1212. Specifically, the second side flange 1212 is engaged with the two side opening walls of the second opening 1132, so that the storage box 122 is moved downward and horizontally.

Further, referring to fig. 9 and 11, in an embodiment, the storage box 122 has a rear sidewall a2 facing the bracket 110, and the second docking portion is located on the rear sidewall a 2. This facilitates docking of the storage compartment 122 with the bracket 110. In some embodiments, the second docking portion may also be disposed on the other side walls and the top wall (if the top wall is present) or the bottom wall (if the bottom wall is present) of the storage box 122.

Referring to fig. 2, 3, 9 and 11, in one embodiment, the rear wall a2 has a groove 1213, and after the storage box 122 is mounted on the bracket 110, the bracket 110 is located in the groove 1213, and the second docking portion is located on a wall of the groove 1213. This recess 1213 can with support 110 unsmooth cooperation, not only reduces the whole volume of storing box 122 and support 110, and this recess 1213 can also form spacingly to storing box 122 moreover, prevents that storing box 122 from rocking to the both sides of storing box 122 on support 110.

Of course, the groove 1213 is not a necessary feature, and in some embodiments, the rear wall a2 can be a normal flat plate structure or other structures without the groove 1213.

The second docking portions may be disposed on respective slot walls of the groove 1213. Referring to fig. 9 to 12, in an embodiment, the outer wall of the bracket 110 has a front surface 114 facing the storage box 122 and side surfaces 115 located at two sides of the front surface 114, the first docking portion is located on the two side surfaces 115, and the second docking portion is located at a position of the groove 1213 corresponding to the side surfaces 115, i.e. located on two opposite side groove walls of the groove 1213. The first butt joint portion is distributed on two side faces 115 of the support 110 oppositely, the storage box 122 is supported from two opposite points, the storage box 122 is not prone to shaking, meanwhile, the weight of the storage box 122 is distributed on two sides of the support 110, and the whole support 110 is stable and reliable.

Further, to limit the upward movement of the storage box 122 relative to the bracket 110, referring to fig. 2 and 6, in one embodiment, the storage box 122 is provided with a release screw 1214, and the bracket 110 has a screw hole for fixing the release screw 1214. The release screw 1214, which may also be referred to as a release screw, is mounted to the storage box 122. During assembly, the storage box 122 is assembled in place, and then the release screw 1214 is screwed to lock the threaded portion of the release screw to the threaded hole of the bracket 110, so that the storage box 122 and the bracket 110 can be fixed.

Of course, in some embodiments, the bracket 110 may also be provided with a release screw, and the storage box 122 may have a threaded hole for securing the release screw 1214. Or, the storage box 122 and the bracket 110 are both provided with the release screw, so that each other can be locked with the release screw to increase the fastening effect.

Referring to fig. 2 and 6, in one embodiment, a release screw 1214 is located below the first and second docking portions. In other embodiments, the release screw 1214 may also be disposed above or flush with the first and second mating portions.

On the other hand, in some embodiments, the bracket 110 and the chassis 160 are primarily secured by means of external screws. During assembly, the bracket 110 is aligned with the mounting holes of the base plate 160, and then the screws are inserted into the mounting holes of the bracket 110 and the base plate 160 from the bottom of the base plate 160, and then the locking is performed manually by 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 the mounting is performed by an external tool such as a screwdriver, which is troublesome in the assembly process and heavy in the assembly work, and often requires the bracket 110 and the chassis 160 to be laid down and then the screws are mounted.

To address this issue, an embodiment of the present invention provides a monitor mounting rack. Referring to fig. 1, in one embodiment, the monitor mounting frame includes a support frame 110, a bottom plate 160 and a monitor connecting seat 130. The chassis 160 serves to support the bracket 110. The monitor connecting seat 130 is mounted on the bracket 110 or the storage device 120 for mounting the monitor.

Referring to fig. 13 to 21, in an embodiment, the bracket 110 is provided with a first abutting member 116. The chassis 160 has a disk body 164, a second abutting member 162 and a tightening member 165. The first abutment member 116 is inserted downward into the second abutment member 162 or the second abutment member 162 is inserted upward into the first abutment member 116. The abutment member 165 is movably mounted on the second abutment member 162 or the disc 164. The abutment member 165 has an abutment position and a release position. When the abutting member 165 is located at the abutting position, the first abutting member 116 and the second abutting member 162 are abutted, so that the bracket 110 is fixedly connected with the chassis 160; when the abutment member 165 is in the release position, the first abutment member 116 and the second abutment member 162 are released to allow the bracket 110 and the chassis 160 to be disengaged.

In this embodiment, during assembly, since the abutment member 165 is itself located on the chassis 160 or the second abutment member 162, no additional installation is required, saving operating steps. The operator can lock and release the bracket 110 and the chassis 160 directly by moving the tightening member 165 between the tightening position and the release position. The whole assembly process is simpler and quicker, and the workload is smaller. The first abutting part 116 and the second abutting part 162 are mutually inserted, locked and matched, so that the locking effect of the support 110 and the chassis 160 can be achieved, the support 110 can be limited in the horizontal direction, and the stability of the support 110 relative to the chassis 160 is improved.

Further, referring to fig. 13 to 21, in an embodiment, the fastening member 165 is a tensioning screw 1651, and the tensioning screw 1651 is rotatably mounted on the second fastening member 162 or the disc 164, for example, forming a loose screw structure. The first abutment member 116 has a threaded bore and one end of the tensioning screw 1651 passes through the second abutment member 162 and can be tightened to the first abutment member 116 of the bracket 110 by directly screwing the tensioning screw 1651. When the tensioning screw 1651 is in the abutting position, it is screwed with the first abutting piece 116, and the tensioning screw 1651 has an abutting portion for directly or indirectly pressing the second abutting piece 162 toward the first abutting piece 116 so as to abut the first abutting piece 116 and the second abutting piece 162; when the tensioning screw 1651 is in the release position, the tensioning screw 1651 is disengaged from the first abutment member 116.

Further, referring to fig. 14, 15, 17 and 18, in one embodiment, the disk 164 has a first concave cavity 163, and the second abutting member 162 is located in the first concave cavity 163. One end of the bracket 110 is a first concave cavity 163 and is fixed with the second abutting piece 162.

In this embodiment, the tensioning screw 1651 is rotatably mounted on the second abutment member 162 or the plate 164, for example, to form a screw-free structure (or a loose screw structure), and when assembling, since the tensioning screw 1651 itself is located in the chassis 160, and is not required to be screwed in again in alignment, an operator can directly screw the tensioning screw 1651 to lock the first abutment member 116 of the bracket 110 without an external tool (such as a screwdriver, etc.), thereby locking the bracket 110 and the chassis 160. The whole assembly process is simpler and quicker, and the workload is smaller.

The first concave cavity 163 of the chassis 160 can further limit the horizontal position of the bracket 110, and further reduce the horizontal shake of the bracket 110 relative to the chassis 160.

Referring to fig. 15 and 19, in some embodiments, the rollers 150 are disposed on the chassis 160, so that the chassis 160 is at a certain height from the ground for the hand to reach (the space is too small to satisfy the conventional assembly method, and the chassis 160 must be laid down in the conventional method). At this time, even without turning over the chassis 160, the tightening screw 1651 may be tightened with the bracket 110 and the chassis 160 in the vertical state.

Referring to fig. 14, 16, 18 and 21, in one embodiment, the tensioning screw 1651 includes a threaded portion 1652 and a force application portion 1653 coupled to the threaded portion 1652. The screw portion 1652 has a threaded structure. The screw portion 1652 is rotatably mounted on the second abutting member 162 or the disc 164 and upwardly passes through the second abutting member 162 to be screw-coupled with the first abutting member 116. The force application portion 1653 is located below the tray 164 so that an operator can apply an external force to the force application portion 1653 to drive the screw portion 1652 to rotate. In order to facilitate the rotation of the screw portion 1652, in one embodiment, the force applying portion 1653 forms an included angle a with the screw portion 1652. The included angle a is different from 0 ° and 180 °, so that the force applying portion 1653 forms a force arm with a certain length in the radial direction of the screw portion 1652, and an operator can save more labor when rotating the screw portion 1652.

In one embodiment, the range of the included angle a is: 30 DEG-a-150 DEG, for example 90 deg. This angle not only facilitates the formation of a longer arm in the radial direction of the screw portion 1652, but also prevents the force application portion 1653 from protruding downward too much, which may result in a higher requirement for the chassis 160 to lift off the ground when the screw portion 1652 is rotated. This angle makes it easier to rotate the screw portion 1652 without changing the height of the chassis 160 from the ground.

In one embodiment, the length of the screw portion 1652 and the length ratio b of the force application portion 1653 have a range of: 1/6 is less than or equal to b is less than or equal to 1. Within the above range, the operator can rotate the screw portion 1652 by the urging portion 1653 more easily. In one embodiment, the range of the ratio b between the two lengths is: 1/4 is less than or equal to b is less than or equal to 1/2.

In one embodiment, referring to fig. 15 and 19, the force application portion 1653 is disposed along the horizontal direction, which facilitates the rotation of the force application portion 1653 and the screw portion 1652, and requires a lower height of the chassis 160 from the ground.

Further, the plug-in locking engagement between the first abutment member 116 and the second abutment member 162 can be achieved by, but is not limited to, the following embodiments.

Referring to fig. 13-16, in one embodiment, the support 110 has an interior 117. The first abutment member 116 has a first abutment portion 1161, and the first abutment portion 1161 is inserted upward into the cavity 117 of the bracket 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 piece 162 has an insertion opening, and the insertion opening communicates with the first insertion cavity 1163. One end of the first abutting portion 1161 away from the second abutting portion 162 is provided with a threaded hole. The end of the second abutment 162 facing the first abutment 116 has a second abutment 1621 insertable upwards into the first insertion cavity 1163. The second abutting portion 1621 has a through hole penetrating vertically. One end of the tensioning screw 1651 passes through the through hole to be screwed with the first abutting piece 116, and abuts against the first abutting portion 1161 and the second abutting portion 1621.

Under compression of the tensioning screw 1651, the first abutment 1161 and the second abutment 1621 may be urged into abutment to increase the fastening effect of the bracket 110 and the chassis 160 and reduce the wobbling of the bracket 110 relative to the chassis 160 in the radial direction (horizontal direction).

The first insertion cavity 1163 and the second abutment 1621 may take the form of a cylinder, a square cylinder, or other conventional contoured structure. Of course, in order to further increase the locking effect between the first abutting portion 1161 and the second abutting portion 1621, and especially to further reduce the radial (horizontal) wobbling of the bracket 110 relative to the chassis 160, referring to fig. 15 and 16, in one embodiment, the first insertion cavity 1163 is frustum-shaped, and the insertion opening is located at the larger end of the first insertion cavity 1163, i.e., at the lower end of the first insertion cavity 1163. The second abutment 1621 has a frustum shape with a small top and a large bottom to match the first insertion cavity 1163.

As shown in fig. 16, when the second abutting portion 1621 is inserted into the first insertion cavity 1163, under the pressing action of the tensioning screw 1651, the frustum-shaped outer wall of the second abutting portion 1621 will be attached to the frustum-shaped inner cavity wall of the first insertion cavity 1163, and as the second abutting portion 1621 goes deeper into the first insertion cavity 1163, the two portions are in closer contact with each other, so that the radial gap between the first abutting portion 1161 and the second abutting portion 1621 is reduced, and the relative shake in the radial direction (horizontal direction) between the two portions is avoided.

Further, the second abutting portion 1621 is disposed in the tray 164, as shown in fig. 13 to 16, in one embodiment, the bottom plate 160 includes an upper tray body 1641 and a lower tray body 1642, the upper tray body 1641 has an opening 1643, and the opening 1643 and the lower tray body 1642 enclose the first concave cavity 163. The second abutment 1621 is disposed within the first recessed cavity 163.

Referring to fig. 15 and 16, in an embodiment, one end of the tensioning screw 1651 extends upward into the tray 164, the abutting portion of the tensioning screw 1651 includes a block 1654 located below the tray 164, and an elastic member is disposed between the block 1654 and the tray 164, and an elastic force of the elastic member urges the tray 164 to abut against the second abutting member 162, so as to urge the second abutting member 162 and the first abutting member 116 to abut against each other. The resilient member may be a resilient washer 166 or a spring or the like.

Specifically, the second abutment 162 is mounted on the lower tray 1642, and the upper tray 1641 and the lower tray 1642 press the second abutment 162 from two directions up and down, respectively. The lower plate 1642 may have a through hole through which the threaded portion 1652 of the tensioning screw 1651 passes through the lower plate 1642. The through hole may be a threaded hole, and the threaded portion 1652 of the tightening screw 1651 is screwed into a space between the lower disc 1642 and the upper disc 1641 from the threaded hole, wherein the rear end of the threaded portion 1652 has a polished rod, and when the threaded structure of the threaded portion 1652 completely enters above the lower disc 1642, the polished rod is accommodated in the through hole of the lower disc 1642, and at this time, the tightening screw 1651 cannot fall off from the lower disc 1642, so as to form the loose screw 1214. The tensioning screw 1651 cannot be removed from the lower plate 1642 unless the threaded portion 1652 is rotated in the reverse direction.

Further, the second abutting member 162 may have a second fitting portion 1622, the second fitting portion 1622 is fixedly mounted on the tray body 164, the second abutting portion 1621 is connected with or integrally formed with the second fitting portion 1622, and the second fitting portion 1622 may have mounting holes so that locking is performed by screws passing through the mounting holes. Of course, the second abutting member 162 may be fixedly installed in the tray 164 by other structures.

As shown in fig. 15 and 16, in an embodiment, the second fitting portion 1622 may include a vertically disposed wall 1623, the wall 1623 being disposed around an opening 1643 of the upper tray 1641, and the opening 1643 defining a first concave cavity 163 for inserting the first abutting member 116.

Similarly, in order to fix the first abutting part 116 to the bracket 110, please refer to fig. 13, in an embodiment, the first abutting part 116 has a first assembling portion 1162, the first assembling portion 1162 can be fixedly connected to the bracket 110, and the first abutting part 1161 and the first assembling portion 1162 are connected or integrally formed. The first mounting portion 1162 may have a mounting hole through which a screw is passed to be locked. Of course, the first abutting part 116 may be fixedly installed in the bracket 110 by other structures.

In one embodiment, the first abutting part 116 and the second abutting part 162 can be abutted by other solutions. Referring to fig. 17 to 21, the second abutting portion 1621 of the second abutting member 162 has a second insertion cavity 1624, and an end of the second abutting portion 1621 facing the first abutting member 116 has an insertion port, which is communicated with the second insertion cavity 1624. An end of the second abutting portion 1621 facing away from the first abutting portion 116 is provided with a through hole. The first abutment 116 has a first abutment 1161 insertable downwards into the second insertion cavity 1624. The first abutting portion 1161 is provided with a threaded hole, and one end of the tightening screw 1651 penetrates through the through hole of the second abutting portion 162 to be screwed with the first abutting portion 116, so that the second abutting portion 1621 and the first abutting portion 1161 are abutted.

Under compression of the tensioning screw 1651, the first abutment 1161 and the second abutment 1621 may be urged into abutment to increase the fastening effect of the bracket 110 and the chassis 160 and reduce the wobbling of the bracket 110 relative to the chassis 160 in the radial direction (horizontal direction).

The second insertion cavity 1624 and the first abutment 1161 may take the form of a cylinder, a square cylinder, or other conventional contoured structure. Of course, in order to further increase the locking effect between the first abutting portion 1161 and the second abutting portion 1621, and in particular to further reduce the shaking of the bracket 110 relative to the chassis 160 in the radial direction (horizontal direction), referring to fig. 20 and 21, in one embodiment, the second insertion cavity 1624 is in an inverted frustum shape with a large top and a small bottom, the insertion opening is located at the larger end of the second insertion cavity 1624, and the first abutting portion 1161 is in an inverted frustum shape with a large top and a small bottom to match with the second insertion cavity 1624.

As shown in fig. 21, when the first abutting portion 1161 is inserted into the second insertion cavity 1624, under the pressing action of the tightening screw 1651, the outer wall of the frustum shape of the first abutting portion 1161 will be attached to the inner cavity wall of the frustum shape of the second insertion cavity 1624, and as the first abutting portion 1161 goes deep into the second insertion cavity 1624, the two contact portions are closer and closer, so that the radial gap between the first abutting portion 1161 and the second abutting portion 1621 is reduced, and the radial (horizontal) shaking of the two abutting portions is avoided.

Referring to fig. 18 to 21, in an embodiment, the bottom plate 160 includes an upper plate 1641 and a lower plate 1642, the upper plate 1641 has an opening 1643, and the opening 1643 and the lower plate 1642 or the second abutting member 162 are disposed to enclose the first concave cavity 163. The second abutment 1621 is disposed within the first recessed cavity 163. One end of the second abutting portion 1621 passes downward through the disk 164. The tensioning screw 1651 is located below the second abutment 1621.

The second abutment member 162 may have a through hole through which the threaded portion 1652 of the tensioning screw 1651 passes through the second abutment member 162. The through hole may be a threaded hole, and the threaded portion 1652 of the tensioning screw 1651 is threaded 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, and when the threaded structure of the threaded portion 1652 completely enters the second insertion cavity 1624, the polished rod is received in the through hole of the second abutting member 162, and at this time, the tensioning screw 1651 cannot fall off from the second abutting member 162, so as to form the loose screw 1214. The tensioning screw 1651 cannot be removed from the second abutment member 162 unless the threaded portion 1652 is rotated in the opposite direction.

The abutting portion of the tension screw 1651 includes a boss 1654 located below the second abutting portion 1621, an elastic member is provided between the boss 1654 and the second abutting portion 1621, and the elastic force of the elastic member causes the second abutting portion 162 to move toward the first abutting portion 116. The resilient member may be a resilient washer 166 or a spring or the like.

Further, the second abutting piece 162 may employ a second fitting portion 1622 as shown in fig. 14 to 16, the second fitting portion 1622 being fixedly mounted on the tray body 164, and the second abutting portion 1621 being connected to the second fitting portion 1622. Of course, the second abutting member 162 may be fixedly installed in the tray 164 by other structures.

Similarly, in order to fix the first abutting part 116 to the bracket 110, please refer to fig. 13, 16 and 20, in an embodiment, the first abutting part 116 has a first assembling portion 1162, the first assembling portion 1162 is fixedly connected to the bracket 110, and the first abutting part 1161 is connected to the first assembling portion 1162. The first mounting portion 1162 may have a mounting hole through which a screw is passed to be locked. Of course, the first abutting part 116 may be fixedly installed in the bracket 110 by other structures.

Referring to fig. 1, in some embodiments, the monitor mounting rack may further include a storage device 120 for storing objects. The storage device 120 is mounted on the bracket 110.

In another embodiment, the present application also provides an improvement in the upper mounting structure of the bracket 110. Referring to fig. 1, 22 and 23, the storage device 120 includes a storage box 122 and an operation table 124. The storage box 122 is mounted on the bracket 110, and is assembled with the bracket 110, for example, by the structure shown in the above-described embodiment or other assembly structure. The console 124 has a second recessed cavity 1244 recessed upward and a third abutment 1243 located within the second recessed cavity 1244. The upper end of the bracket 110 is inserted into the second recess cavity 1244. The bracket 110 is provided with a fourth abutment 118, the third abutment 1243 being inserted downwards into the fourth abutment 118 or the fourth abutment 118 being inserted upwards into the third abutment 1243.

In other embodiments, the plug-fit structure of the third abutting part 1243 and the fourth abutting part 118 can refer to the plug-fit structure of the first abutting part 116 and the second abutting part 162, for example, the third abutting part 1243 is similar to the first abutting part 116, and the fourth abutting part 118 is similar to the second abutting part 162. Of course, in some embodiments, since the console 124 is mounted to the upper end of the support frame 110 from above, and the monitor connecting socket 130 is also locked above the console 124, the console 124 can be fixed by locking the monitor connecting socket 130 to the support frame 110. Thus, in some embodiments, the tensioning screw 1651 may be omitted between the third abutment 1243 and the fourth abutment 118. Of course, the insertion-fitting structure of the third abutting part 1243 and the fourth abutting part 118 may be realized by other structures, and is not limited to the insertion-fitting structure of the first abutting part 116 and the second abutting part 162.

Specifically, referring to fig. 22 and 23, in one embodiment, the bracket 110 has an inner cavity 117, the fourth abutting member 118 has a fourth abutting portion 1181, and the fourth abutting portion 1181 is inserted downward into the inner cavity 117 of the bracket 110. The fourth abutting portion 1181 has a fourth insertion cavity 1182, an insertion opening is formed at one end of the fourth abutting portion 1181 facing the third abutting piece 1243, the insertion opening is communicated with the fourth insertion cavity 1182, a third abutting portion 1243a is formed at one end of the third abutting piece 1243 facing the fourth abutting piece 118, and the third abutting portion 1243a is inserted downward into the fourth insertion cavity 1182, so that the console 124 is mounted on the bracket 110.

Under the self-weight of the console 124, the first abutting portion 1161 and the second abutting portion 1621 are urged to abut against each other, and the movement of the console 124 in the radial direction (horizontal direction) with respect to the bracket 110 is reduced.

The fourth insertion cavity 1182 and the third abutment 1243a may take the form of a cylinder, a square cylinder or other conventional profile. Of course, in order to further increase the locking effect between the third abutting portion 1243a and the fourth abutting portion 1181, and in particular to further reduce the radial (horizontal) shake of the console 124 relative to the bracket 110, referring to fig. 22 and 23, in an embodiment, the fourth insertion cavity 1182 is an inverted frustum shape, the insertion opening is located at one larger end of the fourth insertion cavity 1182, and the third abutting portion 1243a is an inverted frustum shape with a larger upper portion and a smaller lower portion (referring to the first abutting portion 1161 in fig. 20) to match with the fourth insertion cavity 1182.

In another embodiment, the insertion fitting structures of the third abutting part 1243 and the fourth abutting part 118 are interchangeable, and specifically, the third abutting part 1243 has a third abutting part, the third abutting part has a third insertion cavity, and one end of the third abutting part facing the fourth abutting part 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 console 124 is mounted on the bracket 110.

Further, in one embodiment, the third insertion cavity is frustum-shaped, and the insertion opening is located at a larger end of the third insertion cavity, i.e., a lower end of the third insertion cavity. The fourth abutting portion 1181 has a truncated cone shape with a small top and a large bottom to match the third insertion cavity.

Further, in an embodiment, the fourth abutting member 118 has a fourth assembling portion 1183, the fourth assembling portion 1183 may be fixedly connected to the bracket 110, and the fourth abutting portion 1181 and the fourth assembling portion 1183 are connected or integrally formed. The fourth assembling portion 1183 is fixedly connected to the bracket 110 through a screw, a snap, a detachable adhesive, or a magnetic structure.

Further, in an embodiment, the third abutting piece 1243 has a third assembling portion 1243b, the third assembling portion 1243b is fixedly mounted on the console 124 or integrally formed with the housing of the console 124, and the third abutting portion 1243a is connected to or integrally formed with the third assembling portion 1243 b. The third assembling portion 1183 is fixedly connected to the console 124 through a screw, a snap, a detachable adhesive, or a magnetic structure.

Referring to fig. 1, in an embodiment, the console 124 is provided with a release screw 1242, the bracket 110 is provided with a screw hole for fixing the release screw 1242, and after the console 124 is mounted on the bracket 110, the console 124 can be fixed to the bracket 110 by the release screw 1242, so as to increase the fastening effect between the console 124 and the bracket 110.

Of course, in other embodiments, the bracket 110 may be provided with a release screw 1242, and the console 124 may have a screw hole fixed with the release screw 1242, and the release screw 1242 is locked on the console 124.

On the other hand, the monitor connecting seat 130 is mainly used for connecting a monitor, and the monitor connecting seat 130 and the monitor are provided with mounting structures to complete fixed connection. However, different monitors may have different mounting structures and are difficult to assemble with the same monitor connector base 130, so that different monitor connector bases 130 are often required to be configured for different monitors.

To address this problem, an embodiment of the present application provides a monitor connection socket 130 for switching a monitor.

Referring to fig. 24 to 28, in one embodiment, the monitor connecting base 130 includes a base body 131, a first mounting structure for connecting with a monitor, and a second mounting structure for connecting with an adapter component. The first assembling structure includes at least two first assembling members 1321, and the housing 131 has at least two sets of first mounting positions capable of adjusting the fixing positions of the first assembling members 1321, so that the distance between the first assembling members 1321 can be adjusted.

The first mounting position has a structure capable of adjusting the position of the first assembly component 1321, and when facing monitors with different mounting structures, the position of the first assembly component 1321 can be flexibly adjusted according to the position of the mounting structure on the monitor, for example, the position of one or more first assembly components 1321 can be adjusted, so that the monitor connecting seat 130 can adapt to various monitors, and the universality of the monitor connecting seat 130 is improved.

The first mounting position may adopt various structures capable of adjusting the position of the first assembly member 1321. Referring to fig. 24-26, in one embodiment, each set of first mounting locations has at least two mounting holes 1341 with different positions, and each first assembly member 1321 is detachably fixed in one mounting hole 1341 of the set of first mounting locations. Fig. 24 and 25 show the first fitting 1321 in different mounting holes 1341.

In fig. 24 to 26, the first fitting member 1321 is two, and thus the mounting holes 1341 are provided in two sets. When the number of the first assembling members 1321 is more, more sets of the first mounting positions may be provided.

Of course, the first mounting location may have other configurations and is not limited to the mounting hole 1341. Referring to fig. 27 and 28, in one embodiment, each set of first mounting locations has a kidney-shaped hole 1342, and each first fitting 1321 is locked in the corresponding kidney-shaped hole 1342 by a screw. By rotating the screw, the tightness of the first fitting member 1321 can be adjusted, thereby adjusting the position of the first fitting member 1321.

Further, referring to fig. 27 and 28, in order to limit the first assembly member 1321 to move in the set direction, in one embodiment, the seat body 131 has a receiving groove 135 for receiving the first assembly member 1321, and the waist-shaped hole 1342 is disposed on a wall of the receiving groove 135. The first assembly 1321 is disposed in the receiving groove 135, and in a relaxed state, the first assembly 1321 can move in the receiving groove 135. When locking is desired, the screw passes through the kidney-shaped hole 1342 to lock the first fitting 1321 in the receiving slot 135.

The monitor connection outlet 130 may be secured to the monitor only by the first mounting member 1321, although in some embodiments, the first mounting structure may have other mounting members. Referring to fig. 24 to 29, in an embodiment, the number of the first assembling members 1321 is two, the first assembling structure further includes a second assembling member 1322, the second assembling member 1322 and the first assembling member 1321 are distributed in a triangular shape, and the base 131 has an unlocking mechanism for unlocking the second assembling member 1322.

In one embodiment, referring to fig. 24 to 29, the first assembly component 1321 and the second assembly component 1322 are both snap structures, the snap hook of the first assembly component 1321 is disposed opposite to the snap hook of the second assembly component 1322, the second assembly component 1322 has an unlocking position and a locking position, and when the unlocking position is reached, the unlocking mechanism drives the second assembly component 1322 to move away from the first assembly component 1321.

As shown in fig. 29, in an exemplary structure, the unlocking mechanism includes an unlocking member 136 and a locking elastic member 137, the locking elastic member 137 drives the second assembly member 1322 to move toward the locking position, and the unlocking member 136 is configured to drive the second assembly member 1322 to move toward the unlocking position against the elastic force of the locking elastic member 137. The unlocking member 136 is rotatably or slidably disposed on the seat body 131, and an operator can actuate the unlocking member 136 to drive the second assembly 1322 to move toward the unlocking position. Of course, the unlocking member 136 may be configured to actuate the second assembly 1322 to unlock via other mechanisms, such as by electrical signals. The unlocking member 136 may be integrally formed, fixedly attached, or drivingly connected to the second fitting 1322.

Further, the second mounting structure of the monitor connecting base 130 is used to mount with the adapter components, referring to fig. 30 and 31, including but not limited to the bracket 110 for supporting the monitor and the wall mounting device 300 for fixing the monitor to the wall, thereby fixedly connecting the monitor to the adapter components.

In one embodiment, the second mounting structure includes at least one of a snap structure, a mounting hole 1341, a detachable adhesive structure, and a magnetic attraction structure.

Specifically, referring to fig. 30 and 31, the second mounting structure of the monitor connecting socket 130 includes a plurality of mounting holes 133, and the mounting holes 133 can be engaged with screws to fix the monitor connecting socket 130 to the corresponding bracket 110 or the upper wall device 300.

In the above embodiments, the monitor connection base 130 can be used alone as a connection structure, or can be used as a part of the support frame 110 or the wall-mounting device 300.

Referring to fig. 1, in one embodiment, a monitor mounting rack is further provided, and the monitor mounting rack includes a support frame 110, a storage device 120 (which may be omitted), and a monitor connecting seat 130. The bracket 110 is used for supporting, and the storage device 120 is used for storing articles and is installed on the bracket 110. The monitor connecting seat 130 can adopt the structure of the monitor connecting seat 130 shown in the above embodiments, and is mounted on the bracket 110 or the storage device 120 through a second mounting structure, and the first mounting structure is used for mounting the monitor.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (18)

1. A monitor mounting bracket, comprising:

a bracket, a sidewall of the bracket having at least one first docking portion;

the storage device is used for storing articles, the outer wall of the storage device is provided with at least one second butt joint part, and the first butt joint part and the second butt joint part are detachably fixed;

and the monitor connecting seat is used for installing a monitor and is arranged on the bracket or the storage device.

2. The monitor mounting bracket of claim 1, wherein a space is left outside or inside the first docking portion for the second docking portion to move from the non-axial direction of the bracket to the first docking portion, such that the second docking portion moves laterally outside or inside the first docking portion.

3. The monitor mounting rack according to claim 1, wherein the first docking portion includes a first clamping block, the first clamping block is convexly disposed on the sidewall of the support, the second docking portion has a first clamping cavity, the first clamping cavity has a mounting/dismounting opening, the first clamping block extends into the first clamping cavity through the mounting/dismounting opening, and a cavity wall of the first clamping cavity is fastened on the first clamping block.

4. The monitor mounting rack according to claim 3, wherein the first latch has a first base and a first flange protruding from the first base, the first base is fixedly mounted on the outer wall of the support, and the wall of the first latch cavity is engaged with the first flange.

5. The monitor mounting rack according to claim 4, wherein the mounting/dismounting opening has a downward first opening and a second opening extending upward from the first opening, the first opening and the second opening are communicated, the width of the second opening is larger than the width of the first base and smaller than the width of the first flange and the width of the first opening, the first latching cavity moves downward, the first latching block is inserted into the first opening from bottom to top, the first base moves upward in the second opening, and the first flange moves upward with the first base to the inside of the first latching cavity, so that the first flange is latched on the wall of the first latching cavity.

6. The monitor mounting bracket of claim 5, wherein the first flange comprises two first side flanges protruding from the first base toward two sides, respectively, and the cavity wall of the first snap cavity is snapped onto the first side flanges.

7. The monitor mounting bracket of claim 6, wherein the outer walls of the two first side flanges are generally splayed.

8. The monitor mounting bracket of claim 7, wherein the first latch is vertically oriented with a narrower end at an upper portion and a wider end at a lower portion.

9. The monitor mounting rack of claim 4, wherein the first flange comprises a first upper flange protruding upward from the first base, and the cavity wall of the first snap cavity is snapped onto the first upper flange.

10. The monitor mounting rack according to claim 1, wherein the first docking portion includes a second latching cavity, the second latching cavity has a mounting/dismounting opening, the second docking portion has a second latching block, the second latching block is protrudingly disposed on the outer wall of the storage device, the second latching block extends into the second latching cavity through the mounting/dismounting opening, and a cavity wall of the second latching cavity is fastened to the second latching block.

11. The monitor mounting rack of claim 10, wherein the second latch has a second base and a second flange protruding from the second base, the second base is fixedly mounted on an outer wall of the storage device, and a cavity wall of the second latch cavity is fastened to the second flange.

12. The monitor mounting rack according to claim 11, wherein the mounting/dismounting opening has a first opening disposed toward the storage device and a second opening communicating with the first opening, the second opening extends downward from above, the second latch is inserted into the first opening from a non-axial direction of the bracket, a width of the second opening is larger than a width of the second base and smaller than a width of the second flange and a width of the first opening, the second base is disposed in the second opening, and the second latch moves downward along the second opening to allow the second flange to be received in the second latch cavity, so that the second flange is latched on a cavity wall of the second latch cavity.

13. The monitor mounting bracket of claim 11, wherein the second flange comprises two second side flanges protruding from the second base toward two sides, respectively, and the cavity wall of the second snap cavity is snapped onto the second side flanges.

14. The monitor mount of any one of claims 1-13, wherein the storage device has a rear sidewall facing the support frame, the second docking portion being located on the rear sidewall.

15. The monitor mount of claim 14, wherein the rear sidewall has a recessed groove, the bracket being positioned in the groove, the second docking portion being positioned on a wall of the groove.

16. The monitor mounting bracket of claim 15, wherein the outer wall of the bracket has a front surface facing the storage device and side surfaces on opposite sides of the front surface, the first docking portion being located on both of the side surfaces, and the second docking portion being located in the recess at a position corresponding to the side surfaces.

17. The monitor mounting rack according to any one of claims 1-16, wherein the storage device is provided with a release screw, the bracket having a threaded hole for securing the release screw; and/or the bracket is provided with a release screw, and the storage device is provided with a screw hole fixed with the release screw.

18. The monitor mount of claim 17, wherein the release screws are located below the first docking portion and the second docking portion.

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