CN118044890A - Multifunctional bedside instrument support - Google Patents

Abstract

The invention discloses a multifunctional bedside instrument support which comprises a main support, wherein the main support is a vertical lifting support, a turnover arm is horizontally arranged above the top of the main support, the rear end of the turnover arm is rotationally connected with the main support, the front end of the turnover arm is provided with a monitor mounting platform for mounting an electrocardiograph monitor, and the upper section of the middle part of the main support is provided with a horizontally telescopic injection pump fixing column. Compared with the prior art, the multifunctional medical device has the advantages that the supporting mechanism with vertical lifting and horizontal telescopic adjustment is arranged, so that a monitor can be placed, the injection pump can be placed, the information screen and the multipurpose medical box are also arranged, the multifunctional medical device can be turned at multiple angles, adjusted and stored in accessories, the desktop space of the bedside cabinet is not occupied, the multipurpose medical box is not influenced to be placed on the bedside cabinet, the ward management is facilitated, the nursing observation and operation are greatly facilitated, the monitoring and treatment requirements of vital sign parameters of critical patients are fully met, the construction of a digital ward is facilitated, and the multifunctional medical device is a device worthy of popularization for an intelligent ward.

Description

Multifunctional bedside instrument support

Technical Field

The invention relates to the field of accessories of medical instruments, in particular to a multifunctional bedside instrument bracket.

Background

The bedside multiparameter monitor and the microinjection pump are medical instruments which are widely used for detection and treatment by medical institutions.

The multi-parameter monitor is a monitoring device for measuring and controlling a plurality of vital signs such as the electrocardio, respiration, blood pressure, blood oxygen saturation, pulse, body temperature, end-of-breath carbon dioxide and the like of a patient, and the change trend of data is detected through continuous monitoring of the physiological parameters of the patient, so that quantitative data is provided for doctors as clinical treatment basis of emergency treatment, reasonable medication and perioperative period (preoperative, intraoperative and postoperative period), and the multi-parameter monitor is an indispensable important technical means in modern medical diagnosis and treatment technology.

The microinjection pump has the main effects of continuously or precisely injecting therapeutic medicines into critical patients at regular time to control vital signs such as blood pressure, blood sugar and pulse of the patients, continuously easing pain, continuously calm and balancing electrolyte imbalance such as water, sodium and potassium of the patients, is an important tool for providing high-efficiency and safe drug treatment support for the patients, and is beneficial to the patients to relieve illness state and pass through dangerous period safely by using the microinjection pump, and promote illness state recovery. Besides, the microinjection pump can be used for intravenous chemotherapy, accurately delivering therapeutic drugs such as antibiotics, chemotherapeutics, analgesic drugs and the like, reducing side effects of the drugs, obtaining better clinical treatment effects, and being widely applied to clinical departments such as Intensive Care Units (ICU), neonatal care units (NICU), emergency departments, internal medicine, surgery and the like.

Along with the progress of clinical diagnosis and treatment technology, the combination of the multi-parameter monitor and the microinjection pump can continuously observe and evaluate vital signs and treatment effects of patients, and give orders and adjust treatment schemes, so that accurate treatment is implemented, thereby being beneficial to reducing medical cost, relieving economic burden of the patients and increasing satisfaction of the patients, and becoming consensus and conventional methods for clinical monitoring and treatment of critical patients.

Besides the special requirements of the clinical departments such as operating rooms, ICU and the like, the medical nursing staff has a bracket or a device which is fixed on each sickbed and is specially used for placing a monitor and an injection pump, when the multi-parameter monitor and the microinjection pump are used in a general sickbed, the medical nursing staff is placed on the table top of a bedside table beside the sickbed, or is placed in a movable trolley or is placed on a wall-mounted monitor bracket, and in the actual treatment operation, the medical nursing staff has a plurality of defects: (1) The instrument occupies limited desktop space when placed on the desktop. Not only reduces the placement of the articles and medical supplies of patients, but also influences the observation of the monitoring parameters of the equipment by medical staff due to the too low placement position. (2) The movable trolley occupies the peripheral space of the sickbed, and influences the treatment operation. The movable trolley is placed between sickbeds with narrow intervals, so that the rescue of medical staff on critical patients and more complicated nursing operation are seriously affected. (3) The wall-mounted bracket cannot be fixed on the wall body of the light keel, is limited in use and is difficult to popularize and apply generally. (4) The existing instrument support has single function and can not meet the treatment requirement of combined use of a monitor and a syringe pump. (5) Because of the nonstandard placement of instruments and equipment, the randomness is high, and the power line, the signal line and the infusion pipeline are mixed and messy, the on-site treatment operation is affected, and even the hidden danger of iatrogenic risks is formed.

In ZL 202022472827.6's solution, disclose a monitor support and hang frame fixed establishment, utilize the Z shape stores pylon to hang the frame setting in one side of support, solved the monitor annex and accomodate and deposit, but in this scheme, the instrument support still adopts the wall fixed, still fails to solve the monitor, when the syringe pump uses simultaneously, the problem of placing of syringe pump.

In the solution of ZL202022761138.7, a wall-hanging monitor bracket is disclosed, which has the characteristics of convenient disassembly, angle adjustment and short distance changing and moving bracket. However, in this solution, the problem of wall fixation, and the simultaneous use of the monitor and the syringe pump is still not solved.

Disclosure of Invention

The invention aims to provide a multifunctional bedside instrument support which is arranged on a patient bedside table, so that a multi-parameter monitor, a microinjection pump and an intelligent information screen can be placed at the same time, vertical high-low elevation, multi-angle turning and accessory storage can be realized, the placement of a multi-purpose medicine box on the bedside table is not influenced, the ward space is not occupied, and nursing operation and display observation are facilitated.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides a multi-functional bedside instrument support, includes the main support, the main support is the vertical lift type support, the top level of main support is equipped with the turning arm, the rear end and the main support rotation of turning arm are connected, the front end of turning arm is equipped with the monitor mounting platform of installation electrocardiograph monitor, the middle part upper segment of main support is equipped with the injection pump fixed column that can horizontally stretch out and draw back.

Preferably, the main support mainly comprises an outer pipe and an inner pipe, the outer pipe is sleeved on the inner pipe, a lifting adjusting mechanism for carrying out multi-section lifting of the inner pipe is arranged in the main support, the injection pump fixing column is arranged in the inner pipe, a notch for facilitating the inlet and outlet of the injection pump fixing column is formed in the inner pipe wall of the inner pipe, a horizontal telescopic adjusting mechanism is arranged between the injection pump fixing column and the inner pipe, a steering mechanism connected with a turning arm is arranged at the top of the inner pipe, and a rotating mechanism for installing a monitor installing platform is arranged at the front end of the turning arm.

Preferably, the lifting adjusting mechanism comprises a control deflector rod, an extension rod and a limiting seat, wherein a chute is transversely formed in the limiting seat, a left sliding block and a right sliding block are arranged in the chute, a compression spring is arranged between the left sliding block and the right sliding block, the control deflector rod is fixedly connected with the upper end of the extension rod, a group of swinging rods are arranged at the lower end of the extension rod, the swinging rods are respectively and rotatably connected with the left sliding block and the right sliding block, protruding limiting clamping columns are arranged on the outer side surfaces of the left sliding block and the right sliding block, lifting limiting holes matched with the limiting clamping columns are formed in the inner pipe and the outer pipe, ball shafts are arranged on the outer side surfaces of the limiting clamping columns, the front ends of the ball shafts are smooth hemispheres, grooves for installing the ball shafts are formed in the outer side surfaces of the limiting clamping columns, and the rear ends of the ball shafts are fixed in the grooves.

Preferably, the extension rod extends to the upper section of the middle part of the inner tube, a through hole which is convenient for the control deflector rod to move up and down is formed in the inner wall of the inner tube, and the control deflector rod passes through the through hole and is fixedly connected with the extension rod.

Preferably, the horizontal telescopic adjusting mechanism comprises an upper telescopic arm and a lower telescopic arm, the front ends of the two telescopic arms are respectively connected with the upper end and the lower end of a fixed column of the injection pump in a rotating way, the rear ends of the telescopic arms are positioned in an inner tube and are rotationally connected with the inner tube, the telescopic arms comprise a movable supporting arm and a movable telescopic arm, the movable telescopic arm is in sliding connection with the movable supporting arm, a telescopic limiter for preventing the movable telescopic arm from stretching out and drawing back is arranged on a main support, a telescopic limiting hole matched with the telescopic limiter is formed in the movable telescopic arm, a stretching spring for enabling the telescopic arm to pop out is arranged in the main support, a groove for enabling the telescopic arm to keep horizontal or vertical is formed in the inner side of the fixed column of the injection pump, and a hanging point for installing a mounting plate of the injection pump is formed in the outer side of the fixed column of the injection pump.

Preferably, the steering mechanism mainly comprises a steering head and a rotating seat, a rotating shaft is arranged at the bottom of the steering head, the rotating seat is fixed in the upper end face of the main support, a shaft hole matched with the rotating shaft is formed in the center of the rotating seat, a limiting snap ring is arranged at the lower end of the rotating shaft, the lower end of the rotating shaft penetrates through the shaft hole and is fixed on the rotating seat through the limiting snap ring, a cavity matched with the shape of the steering head is formed in the bottom face of the rear end of the turning arm, and the turning arm is connected with the steering head through 270-degree turning rotation through a hinge.

Preferably, the rotating mechanism comprises a positioning rotating shaft, a rotating shaft hole and a positioning adjusting screw, the rotating shaft hole is vertically formed in the front end of the turning arm, the upper end of the positioning rotating shaft is fixedly connected with the bottom of the monitor mounting platform, the lower end of the positioning rotating shaft is inserted into the rotating shaft hole, an annular positioning groove is formed in the outer diameter of the positioning rotating shaft, a threaded mounting hole communicated with the rotating shaft hole is transversely formed in the side surface of the turning arm, the positioning adjusting screw is mounted in the threaded mounting hole, and the front end of the positioning adjusting screw is clamped in the annular positioning groove of the positioning rotating shaft.

Preferably, the lower end of the bottom of the main support is provided with a back plate support, the main support is fixed on the back of the bedside table through the back plate support, and the balancing weight is placed in the bedside table.

Preferably, the left and right side outer walls of the turnover arm are provided with hanging nails, the hanging nails are hung with storage baskets, and the outer wall of the outer tube is fixedly provided with a multi-position patch board and a winder.

Preferably, the monitor comprises an information screen and an information screen support, wherein the information screen is fixed on a monitor mounting platform through the information screen support, and the information screen support is a horizontal multi-angle adjusting support.

Preferably, the multifunctional medical kit further comprises a multifunctional medical kit, wherein the bottom surface of the multifunctional medical kit is placed on the table top of the bedside table and is detachably connected with the outer tube of the main support.

Compared with the prior art, the invention has the advantages that: the invention has the advantages that the supporting mechanism capable of vertically lifting and horizontally stretching and adjusting is arranged, so that a monitor can be placed, an injection pump can be placed, an information screen and a multipurpose medical kit are also arranged, the multi-angle steering, adjustment and accessory storage can be realized, the wall punching and the pushing of a cart are avoided, the occupied ward space is avoided, the desktop space of a bedside cabinet is not occupied, the placement of the multipurpose medical kit on the bedside cabinet is not influenced, the ward management is facilitated, the nursing observation and operation are greatly facilitated, the vital sign parameter monitoring and treatment requirements of critical patients are fully met, the integral nursing standard of the ward is met, the construction of a digital ward is facilitated, and the intelligent ward popularization-worthy device is realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the back structure of the present invention;

FIG. 4 is a schematic view of the mounting structure of the present invention on a hospital bed;

FIG. 5 is a schematic view showing the internal structure of the main frame of the present invention;

FIG. 6 is a schematic view of a lifting adjusting mechanism according to the present invention;

FIG. 7 is a schematic view of the structure of the invert arm of the present invention after storage;

FIG. 8 is a schematic view of the internal structure of the inner tube and invert arm of the present invention;

FIG. 9 is a schematic view of the structure of the injection pump fixing column of the present invention in three telescopic states;

FIG. 10 is a schematic view of the structure of the information screen bracket of the present invention;

Fig. 11 is a schematic view of a back side junction of the information panel bracket of the present invention.

In the figure 1, a main support; 11. an outer tube; 12. an inner tube; 121. a notch; 13. a lifting limiter; 14. lifting limiting holes; 15. a lifting adjusting mechanism; 151. a limit seat; 152. a left and right slider; 153. a compression spring; 154. limiting clamping columns; 155. a ball shaft; 156. a swinging rod; 157. an extension rod; 158. a control deflector rod; 2. a syringe pump fixing column; 21. a syringe pump; 22. a syringe pump mounting plate; 23. a horizontal telescopic adjusting mechanism; 231. a movable support arm; 232. a movable telescopic arm; 233. a guide groove; 234. a limit nut; 235. a telescopic limit hole; 236. a tension spring; 24. hanging points; 25. rotating the limiter; 26. a telescopic limiter; 3. a flip arm; 31. a steering mechanism; 311. a steering head; 312. a rotating shaft; 313. a rotating seat; 314. a limiting snap ring; 32. a hinge; 33. a rotation mechanism; 331. positioning a rotating shaft; 332. positioning an adjusting screw; 4. a monitor mounting platform; 41. a monitor; 42. a clamping groove; 43. a fastening screw; 5. an information screen bracket; 51. an information screen; 52. a first strut; 53. a second strut; 54. a third strut; 55. a mounting bracket; 551. a connecting rod; 552. a clamping plate; 553. a universal joint; 56. a locking screw; 6. bedside table; 7. a multi-position patch board; 8. a winder; 9. a backboard support; 91. a fixing plate; 92. a width adjusting plate; 93. an adjustment tank; 10. a storage basket; 101. hanging nails; 16. multipurpose medicine chest.

Detailed Description

The invention will be further described below, and a multifunctional bedside instrument support, see fig. 1 to 3, comprises a main support 1, wherein the main support 1 is a vertical lifting support, the vertical lifting support can lift and adjust the use height of the instrument and equipment to meet the actual needs, a turning arm 3 is horizontally arranged above the top of the main support 1, the rear end of the turning arm 3 is rotatably connected with the main support 1, the front end of the turning arm 3 is provided with a monitor mounting platform 4 for mounting a monitor 41, the turning arm 3 is used for mounting the monitor 41 and realizing large-angle swing in the horizontal direction, the upper middle section of the main support 1 is provided with a horizontally retractable injection pump fixing column 2, and the injection pump fixing column 2 is mainly used for mounting an injection pump 21.

From the overall structure of the invention:

The application is different from the existing bracket, because the application is a medical bracket installed on the bedside table 6, for the safety of patients, the conventional pipe can only be used for a ground movable bracket due to the material and the stable structure, the monitor 41 can not be installed above a sickbed and the bedside table 6, while the main bracket 1 is of a hollow square pipe structure, the square pipe structure can facilitate the mold opening processing design of aluminum alloy sections, and the formed aluminum alloy bracket has better structural support, stronger stability and longer service life compared with the conventional pipe bracket, can be used for installing and hanging the high-altitude monitor 41, and can meet the needs of hospitals in safety. Therefore, the lifting bracket of the application is composed of the square outer tube 11 and the inner tube 12, the square tubular structure can enable the lifting bracket to be better fixed on the back of the bedside table 6, the main bracket 1 can not rotate with the bedside table 6, the installation stability of the main bracket 1 is affected, the square outer tube 11 and the inner tube 12 can ensure that the outer tube 11 and the inner tube 12 can not rotate relatively, the monitor 41 and the injection pump 21 mounted on the inner tube 12 can be prevented from rotating randomly, the outer tube 11 is sleeved on the inner tube 12, the main bracket 1 is internally provided with a lifting adjusting mechanism 15 for lifting the inner tube 12 in a multi-stage manner, the inner tube 12 can be lifted through the lifting adjusting mechanism 15, the lifting adjusting mechanism 15 is fixed in the inner tube 12, the injection pump fixing column 2 is mounted in the inner tube 12, the inner tube wall of the inner tube 12 is provided with a notch 121 which is convenient for the injection pump fixing column 2 to enter and exit, the injection pump fixing column 2 and the inner tube 12 are provided with a horizontal telescopic adjusting mechanism 23, the hidden storage design which can realize the fixing of the injection pump 21 through the inner tube 12 by matching with the telescopic adjusting mechanism, the top of the inner tube 12 is provided with a turnover arm 3, and the turning mechanism 3 is provided with a turnover arm 31, and the front end of the rotation platform 3 is provided with a rotation platform 33. The application has the advantages that the supporting mechanism capable of being adjusted in a telescopic way is arranged, so that the monitor 41 can be placed, the injection pump 21 can be placed, the information screen is also arranged, the wall punching and the pushing of the cart to occupy the ward space are avoided, the multi-angle steering and adjustment are greatly convenient for nursing observation and operation, the requirements of monitoring and treating vital sign parameters of critical patients are fully met, the integrated nursing standard of the ward is met, and the digital ward construction is promoted.

In the invention, the main structure design and material selection are mainly based on aluminum alloy parts, and the main structures of the outer tube 11, the inner tube 12 lifting support, the lifting adjusting mechanism 15, the steering mechanism 31 and the rotating mechanism 33 are all aluminum alloy sections, so that the aluminum alloy sections have the characteristics of good thickness, high structural strength, high stability, easy cleaning and difficult rust, are stronger and more durable than the tubes, and can meet the requirements of hanging and installing instruments in hospitals.

When the invention is used, the main support 1 can be installed on the bedside table 6, and also can be fixed on a patient bed through the fastening screw 43, and compared with the case of being placed on the bedside table 6, the installation position of the monitor 41 is higher, so that the monitor is convenient for a caretaker to check. The inner tube 12 can be lifted up and down in multiple stages through the lifting adjusting mechanism 15, the inner tube 12 can be lifted up by one stage only when the monitor 41 is used, when the injection pump 21 is required to be installed, the inner tube 12 is lifted up by one stage to expose the injection pump fixing column 2, if a plurality of devices are required to be installed on the injection pump fixing column 2, the inner tube 12 can be lifted up by one stage again, the lower end of the injection pump fixing column 2 is far away from the desktop, and the injection pump 21 is installed at the lowest hanging point 24. And through steering mechanism 31 and rotary mechanism 33, can carry out the multi-angle to monitor 41 and adjust the orientation of a central point with the monitor 41 in the ward totally, the caretaker only need stand the central point at the tail of the bed, just can see the data of many monitors 41, need not to walk to between the sick bed and look over, very big convenience has nursed the work. The monitor 41 can be matched with the intelligent information screen 51 for use together with the intelligent information screen 51, and a doctor can check the condition of a patient and related diagnostic information through the intelligent information screen 51 while checking the data on the monitor 41, so that the operation is very convenient.

Because the support structure of the invention is different from the existing tubular support, not only the main structure needs to be redesigned, but also the lifting adjusting mechanism 15, the steering mechanism 31, the rotating mechanism 33, the horizontal telescopic adjusting mechanism 23 of the fixed column 2 of the injection pump and the like are completely designed in consideration of the aspects of structural stability, structural connection relation among parts, cooperation convenience and the like, so that the problems in the prior art are solved.

Because the main support 1 is a lifting support and is a movable structure for the inner tube 12 and the outer tube 11, the requirements for the structural stability of the main support are very high, the existing lifting adjusting mechanism 15 on the market cannot meet the requirements for safety used in hospitals, and the lifting adjusting mechanism 15 is designed completely, see fig. 5 and 6, and has the following structure:

The lifting adjusting mechanism 15 is composed of a control deflector 158, an extension rod 157 and a limiting seat 151, wherein a chute is transversely formed in the limiting seat 151, left and right sliding blocks 152 are arranged in the chute, the left and right sliding blocks 152 are in sliding connection with the limiting seat 151, a compression spring 23 is arranged between the left and right sliding blocks 152, the left and right sliding blocks 152 are kept in a state of being respectively opened to two sides through the compression spring 23, so that limiting clamping columns 154 of the left and right sliding blocks 152 are popped out from lifting limiting holes 14 of an outer tube 11 to carry out locking limiting, the control deflector 158 is fixedly connected with the upper end of the extension rod 157, a group of swinging rods 156 are arranged at the lower end of the extension rod 157, the swinging rods 156 are respectively connected with the left and right sliding blocks 152 in a rotating mode, protruding limiting clamping columns 154 are arranged on the outer side surfaces of the left and right sliding blocks 152, lifting limiting holes 14 matched with the limiting clamping columns 154 are formed in the inner tube 12 and the outer tube 11, the lifting limiting clamping columns 154 on the lifting limiting columns 14 on the inner tube 12 are only used for stretching out the limiting clamping columns 154 of the left and right sliding blocks 152, and the outer tube 14 are switched on the lifting limiting columns 11 to carry out limiting adjustment in the lifting limiting height adjusting mode.

According to the invention, the inner pipe 12 and the outer pipe 11 are limited by adopting the extending limiting clamping column 154, when the inner pipe 12 is pressed down under the force, the limiting clamping column 154 is transversely arranged between the inner pipe 12 and the outer pipe 11, and even if the force is large, the inner pipe 12 and the outer pipe 11 cannot be separated from each other, so that the structural stability of the inner pipe 12 during lifting adjustment is ensured, and the conditions of sudden separation and sliding of the inner pipe 12 are avoided. When the height of the inner tube 12 is required to be adjusted, the control deflector rod 158 is only required to be lifted slightly, so that the extension rods are lifted, the lower end phases of the two swinging rods 156 are folded, the left and right sliding blocks 152 are folded towards the middle, the left and right sliding blocks 152 and the outer tube 11 are released, the inner tube 12 can be lifted after the releasing, the whole lifting process is realized by one hand, and the operation is very convenient and quick. Compared with the existing lifting rod structure, the lifting rod structure is better in structural stability and simpler and more convenient to operate.

In order to realize the lifting process, the limit clamping column 154 is better matched with the lifting limit hole 14 on the outer tube 11, the outer side surface of the limit clamping column 154 is provided with the ball shaft 155, the front end of the ball shaft 155 is in a smooth hemispherical shape, the outer side surface of the limit clamping column 154 is provided with the groove for installing the ball shaft 155, and the rear end of the ball shaft 155 is fixed in the groove. The hemispherical structure at the front end of the ball shaft 155 plays a role in positioning and guiding, and when the limit clamping column 154 moves to the vicinity of the lifting limit hole 14 of the outer tube 11, the limit clamping column 154 can be better inserted into the lifting limit hole 14; after the limiting clamping column 154 is released, the front end of the ball shaft 155 is propped against the inner wall of the outer tube 11 due to the action of the compression spring 23, and the contact surface is small, so that the lifting process of the inner tube 12 is smoother, and the direct friction between the limiting clamping column 154 and the inner wall of the outer tube 11 is avoided.

The lifting limiting holes 14 on the outer tube 11 are provided with a plurality of groups, the lifting limiting holes 14 are sequentially distributed at intervals along the length direction of the outer tube 11, the multi-stage lifting of the inner tube 12 is realized according to the number of the groups of the lifting limiting holes 14 on the outer tube 11, and the three-stage lifting adjustment is taken as an example for the implementation example, so that the high-low lifting adjustment of the monitor 41 and the syringe pump 21 mounted on the inner tube 12 is realized.

The two ends of the swinging rod 156 are respectively connected with the left and right sliding blocks 152 and the extension rod 157 in a rotating way through connecting shafts, and the swinging rod 156 and the left and right sliding blocks 152 and the extension rod 157 are rotated through the connecting shafts. The left and right sliders 152 are moved closer to each other when the extension bar 157 is lifted by the dial-up control lever 158; when the hand is released, the compression spring 23 is reset, and the left and right sliders 152 are separated from each other to separate the extension bars 157 to return.

The limiting seat 151 is of a square structure and is located in the inner tube 12, the limiting seat 151 is fixed at the lower end of the inner tube 12 through the fastening screw 43, and the shape of the square limiting seat 151 is the same as the shape of the inner diameter of the inner tube 12, so that the limiting seat 151 can be stably fixed in the inner tube 12 and does not rotate quite. The limiting seat 151 is provided with a through groove which is convenient for the swinging rod 156 to extend out, so that the swinging rod 156 and the extension rod can move in the releasing process.

In order to realize the hidden design of the lifting support, the lifting support is recommended to be installed on the back of the bedside table 6, when the lifting support is not used, only a small part of the lifting support is exposed on the tabletop after the inner tube 12 stretches out and draws back, so that the ward is tidy, but as the lifting support is installed on the back of the bedside table 6, the connection part of the lifting limiting hole 14 of the lifting adjusting mechanism 15 and the outer tube 11 is shielded by the bedside table 6, the releasing and locking operation of the lifting adjusting mechanism 15 is inconvenient, the extension rod 157 is designed, the extension rod 157 extends to the upper middle section of the inner tube 12, the inner wall of the inner tube 12 is provided with a through hole which is convenient for the control deflector 158 to move up and down, and the control deflector 158 passes through the through hole and is fixedly connected with the extension rod 157, and when the lifting is carried out, the control deflector 158 is only buckled from the upper part of the bedside table 6, the inner tube 12 is grabbed to be pulled up by a single hand, and the lifting operation is very convenient and fast.

In order to realize the hidden design of the injection pump fixing column 2, the hidden design is carried out on the injection pump fixing column 2, when only the monitor 41 is used and the injection pump 21 is not used, the injection pump fixing column 2 can be completely hidden in the main support 1, and the hidden structure ensures that the main support 1 is more neat and attractive, and the lifting adjustment of the main support 1 is not influenced. When the injection pump fixing column 2 is needed to be used, the injection pump fixing column 2 is pulled out to a horizontal position, and is retracted into the main support 1 after being used, so that the injection pump fixing column 2 is very convenient and quick to use, and the lifting adjustment of the inner tube 12 cannot be affected after the injection pump fixing column 2 is stored. In order to realize the storage of the syringe pump fixing column 2 for telescopic use, the structural design of the horizontal telescopic adjusting mechanism 23 is as follows, see fig. 8 and 9:

For realizing the flexible location of syringe pump fixed column 2, designed horizontal flexible adjustment mechanism 23, horizontal flexible adjustment mechanism 23 comprises two sets of flexible arms from top to bottom, and the front end of two sets of flexible arms rotates with the upper and lower both ends of syringe pump fixed column 2 respectively to be connected, the rear end of flexible arm is located inner tube 12, and rotates with inner tube 12 to be connected. The telescopic boom both ends rotate with inner tube 12 and syringe pump fixed column 2 respectively and are connected, can make syringe pump fixed column 2 stretch and carry out 90 degrees rotations, and when the telescopic boom rotated to the level, syringe pump fixed column 2 is the state of stretching out, can be used for installing syringe pump 21, and when the telescopic boom rotated to the perpendicular, syringe pump fixed column 2 is the state of accomodating, realizes the hidden accomodating of syringe pump 21. The inside of syringe pump fixed column 2 has seted up and has flexible arm assorted slot, and when flexible arm rotated to perpendicular, flexible arm can imbed in the slot of syringe pump fixed column 2 to avoid flexible arm to stop syringe pump fixed column 2 and accomodate.

In the actual use process of the syringe pump 21, the horizontal extending position of the syringe pump 21 may need to be adjusted so as to be better observed and installed, therefore, the telescopic structure of the telescopic arm is designed, the telescopic arm consists of a movable supporting arm 231 and a movable telescopic arm 232, the rear end of the movable telescopic arm 232 is sleeved at the front end of the movable supporting arm 231 and is in sliding connection with the movable supporting arm 231, a guide slot 233 which is convenient for the horizontal extension of the movable telescopic arm 232 is formed in the movable telescopic arm 232, a limit nut 234 is arranged in the guide slot 233, the limit nut 234 is fixed at the front end of the movable supporting arm 231 in a threaded manner, the movable supporting arm 231 and the movable telescopic arm 232 are sleeved in a sleeved manner so as to pull the syringe pump fixing column 2 according to the requirement to adjust the horizontal installation position of the syringe pump 21, the guide slot 233 and the limit nut 234 cooperate to play a positioning guiding role, and after the syringe pump 21 is adjusted to a proper horizontal position, the limit nut 234 can be screwed to lock and fix the movable supporting arm 231 and the movable telescopic arm 232.

For cost and weight considerations, the inner tube 12 of the main bracket 1 of the present embodiment is of an empty tubular structure, which has the disadvantage that the movable support arm 231 may slide down below the notch 121 when the limit nut 234 is not tightened, so that the main bracket 1 is provided with a telescopic limiter 26 for preventing the movable telescopic arm 232 from telescoping, the movable telescopic arm 232 is provided with a telescopic limit hole 235 matched with the telescopic limiter 26, the telescopic limiter 26 is fixed on the outer side of the main bracket 1, and when the telescopic arm rotates to a vertical state, a limit rod on the limiter is inserted into the telescopic limit hole 235 through the main bracket 1 to lock the movable telescopic arm 232. If the inner tube 12 is replaced by a solid inner tube 12, a groove for installing the injection pump fixing column 2 is formed in the inner tube 12, and the expansion limiter 26 is not required to be designed.

The main support 1 is provided with a rotation limiter 25 for enabling the telescopic arm to be horizontal or vertical, the telescopic limiter 26 and the rotation limiter 25 can both limit by adopting button bolts, an extension spring 236 for enabling the telescopic arm to pop out is arranged in the main support 1, when the telescopic arm rotates to a vertical state, a limiting rod of the rotation limiter 25 stretches out and stops at the upper edge of the telescopic arm to stop the telescopic arm from rotating out, when the injection pump fixing column 2 is needed to be used, the rotation limiter 25 is opened and pressed, the limiting rod retracts, the extension spring 236 pulls the telescopic arm to rotate so as to enable the injection pump fixing column 2 to pop out, so that grabbing is conducted, when the telescopic arm rotates to a horizontal state, the rotation limiter 25 is pressed again, and the limiting rod stretches out and stops at the lower edge of the telescopic arm to provide support for the telescopic arm, so that the injection pump fixing column 2 is kept in the horizontal state. The lower end of the outer tube 11 is provided with a lifting limiter 13, and the lifting limiter 13 can prevent the inner tube 12 from continuously descending.

The outside of the injection pump fixed column 2 is provided with hanging points 24 for installing the injection pump installing plate 22, the number of the hanging points 24 is 1-5, the hanging points 24 are sequentially distributed at intervals along the length direction of the injection pump fixed column 2, and the hanging points 24 are used for hanging the injection pump installing plate 22 for installing and placing the injection pump 21.

The structural design of the tilting arm 3 according to the invention, see fig. 7 and 8, is as follows:

The invention designs the turnover arm 3 on the top of the inner tube 12, and the turnover arm 3 can extend the monitor mounting platform 4 so as to mount and care the monitor 41. When the monitor 41 is not used, the extending turnover arm 3 may prevent the sickbed from taking articles on the bedside table 6, and is not attractive, so that the turnover arm 3 is rotated, folded and stored, the rear end of the turnover arm 3 is rotationally connected with the steering mechanism 31 through the hinge 32, the turnover arm 3 is rotationally connected with the steering head 311270 degrees through the hinge 32, when the monitor 41 is not used, the turnover arm 3 can be turned over to be folded, the upper top surface of the turnover arm 3 is attached to the side surface of the main support 1 after the turnover, the vertical state is kept, and when the monitor 41 needs to be installed, the monitor 41 is turned up, and the monitor is quite convenient. The design of the turning arm 3 is matched with the steering mechanism 31, so that the large-angle swing adjustment of the monitor 41 can be performed, the direction of the monitor 41 can be adjusted through swinging, the monitor 41 can be conveniently checked by a nurse and medical staff at the bedside, the monitor 41 can be switched between adjacent sickbeds through the swinging of the turning arm 3, one bracket can be used for two sickbeds, after the corresponding sickbed monitor 41 is used, the monitor can be used towards the other sickbed only through swinging the turning arm 3, the disassembly is not needed, and the convenience is realized.

The structural design of the steering mechanism 31 of the present invention is as follows:

For realizing the wide-angle swing of monitor 41 on turning arm 3, designed steering mechanism 31 at square inner tube 12 top, steering mechanism 31 mainly comprises steering head 311 and rotation seat 313, the bottom of steering head 311 is equipped with pivot 312, rotation seat 313 is fixed in the up end of inner tube 12, rotation seat 313 center department has seted up with pivot 312 assorted shaft hole, the pivot 312 lower extreme is equipped with spacing snap ring 314, set up the annular draw-in groove of installation spacing snap ring 314 on the external diameter of pivot 312, pivot 312 lower extreme passes the shaft hole and is fixed in rotation seat 313 through spacing snap ring 314, and steering head 311 passes through pivot 312 and spacing snap ring 314 of bottom and installs in rotation seat 313, and rotates with rotation seat 313 to be connected, realizes the wide-angle swing of turning arm 3.

The cavity matched with the turning head 311 in shape is formed in the bottom surface of the rear end of the turning arm 3, when the turning arm 3 rotates to the horizontal position, the turning head 311 is just clamped into the cavity, and the turning head 311 provides a supporting function for the turning arm 3, so that the monitor 41 is more stably installed and kept in a stable horizontal state.

The steering mechanism 31 is matched with the main support 1 in shape, the rotating seat 313 and the steering head 311 are square, the rotating seat 313 is matched with the inner diameter of the main support 1 in shape, the rotating seat 313 is embedded into the main support 1 and cannot rotate relatively, the steering mechanism can be stably fixed in the main support 1 through the fastening screw 43, and the steering head 311 is identical to the main support 1 in outer diameter shape, so that the steering head 311 and the main support 1 are integrated into a whole, and the steering mechanism is more neat and attractive.

The front end of the turnover arm 3 is provided with a rotating mechanism 33 for installing the monitor installation platform 4, and the structural design of the rotating mechanism 33 is as follows:

For realizing the quick installation dismantlement of monitor 41, can carry out 360 rotation towards simultaneously, designed rotary mechanism 33, rotary mechanism 33 comprises location pivot 331, pivot hole and positioning adjustment screw 332, the pivot hole vertically sets up in turnover arm 3 front end, the upper end and the monitor mounting platform 4 bottom fixed connection of location pivot 331, and the lower extreme of location pivot 331 is pegged graft in the pivot downthehole, annular constant head tank has been seted up on the external diameter of location pivot 331, the screw thread mounting hole with pivot hole intercommunication has transversely been seted up to the side of turnover arm 3, positioning adjustment screw 332 installs in the screw thread mounting hole, and the front end joint is in the annular constant head tank of location pivot 331. Due to lamplight or light, the screen of the monitor 41 may reflect light, so that the data above are inconvenient to view, and the rotation mechanism 33 is designed, so that 360-degree rotation adjustment of the monitor 41 and the monitor mounting platform 4 thereof can be realized through the rotation mechanism 33, and a caretaker can conveniently adjust the direction according to the requirement. The mounting and dismounting are very convenient, the monitor mounting platform 4 and the monitor 41 can be taken down together by loosening the positioning adjusting screw 332, and the mounting is carried out by only inserting the positioning rotating shaft 331 into the rotating shaft hole and screwing the positioning adjusting screw 332.

Due to the structural design, the invention leaves enough object placing space between the bedside table 6 and the injection pump fixing column 2, the multipurpose medical kit 16 can be placed on the bedside table 6, the bottom surface of the multipurpose medical kit 16 is placed on the table top of the bedside table 6, the multipurpose medical kit 16 is beneficial to ward management, the multipurpose medical kit 16 is detachably connected with the outer tube 12 of the main support 1, and the installation and fixation of the multipurpose medical kit 16 can be realized.

But the prior ward still adopts the mode of characters and cards to record the information of the sickbed of the patient, the information of the main doctor and the on-duty medical staff, and when the patient and the on-duty medical staff are replaced, the information cards of the staff are manually replaced so as to ensure that the patient corresponds to the sickbed information. And medical staff need to confirm patient information with patient repeatedly when taking medicine each time, avoid misuse to take medicine, if there is an information screen to be used for showing patient information and information such as photo, disease information and relevant medical staff in real time, will be very big convenience in medical staff. The ward of the hospital is always puzzled and cannot be intelligently popularized, and the main reason is that no proper place is provided with an information screen in the ward.

The invention therefore also comprises an information screen 51 and an information screen bracket 5, see fig. 10, wherein the information screen 51 is fixed on the monitor mounting platform 4 through the information screen bracket 5, and the information screen bracket 5 is a horizontal multi-angle adjusting bracket. According to the invention, the information screen 51 can be adjusted at multiple angles through the information screen bracket 5 in combination with the actual condition of a hospital ward, so that the use of the bedside table 6 is not affected, the space above the bedside table 6 is reasonably utilized, an effective installation position is provided for the information screen 51, the problem that the information screen 51 cannot be additionally arranged in the existing ward is solved, and the hospital ward can be further propelled to an intelligent ward. Patient information, photos and medical staff information can be displayed through the information screen 51, the problem that the medical staff information is manually replaced by repeatedly confirming the patient identity information in the medical process is solved, more intelligent functions can be realized along with development of corresponding software in the information screen 51, and intelligent development of hospitals is promoted.

The patient information on the equipment belt is verified by the prior sickbed because of indoor light, if the position of the information screen 51 can be adjusted randomly according to actual conditions, the information screen support 5 which is convenient for the medical personnel to check is designed, and the information screen support 5 which is adjusted at multiple angles is seen in fig. 11, the information screen support 5 is transversely fixed at the bottom of the monitor mounting platform 4 by a first support rod 52, a second support rod 53 and a third support rod 54, two ends of the second support rod 53 are respectively connected with the first support rod 52 and the third support rod 54 in a rotating mode, one end of the third support rod 54 far away from the second support rod 53 is provided with a mounting support 55 for mounting the information screen 51, and the position of the intelligent information screen 51 can be adjusted randomly in a horizontal square mode through the information screen support 5 so that the position of the intelligent information screen 51 is adjusted to a proper position in the horizontal direction.

For the installation of the information screen 51 of being convenient for, designed the installing support 55, the installing support 55 comprises grip block 552 and connecting rod 551, the information screen 51 centre gripping is on grip block 552, the back of grip block 552 is equipped with universal joint head 553, the upper end and the universal joint head 553 of connecting rod 551 rotate to be connected, the lower extreme of connecting rod 551 is fixed in on the third branch 54, can carry out the centre gripping fixedly to the information screen 51 through grip block 552, can carry out the inclination adjustment of information screen 51 through the universal adjustment head at grip block 552 back to medical personnel looks over relevant information.

The second support rod 53 both ends are equipped with locking screw 56, second support rod 53 passes through locking screw 56 and first support rod 52 and third support rod 54 fastening connection, and locking screw 56 is between first support rod 52 and second support rod 53 to and between second support rod 53 and third support rod 54 the effect of pivot, but simultaneously through the elasticity between the adjustable support rod of screw-on locking screw 56, avoid information screen 51 to turn to at will.

The main support 1 is a lifting support, and the height of the information screen 51 and the monitor 41 can be adjusted by lifting the main support. Because the equipment band-pass is 1.5 meters high, as a preferred scheme, the main support 1 is recommended to be not higher than the equipment band, and medical staff can rotate the information screen 51 to the bedside by rotating the second supporting rod 53 and the third supporting rod 54, so that the height of the information screen is just suitable for the medical staff to perform related operation on the information screen 51, and the operation is very convenient.

In order to achieve better structural stability of the information screen support 5 after being installed, the bottom of the monitor installation platform 4 is provided with the clamping groove 42 for installing the first support rod 52, the first support rod 52 is inserted into the clamping groove 42 of the monitor installation platform 4, the first support rod 52 and the monitor installation platform 4 are correspondingly provided with threaded holes, the first support rod 52 is fixed at the bottom of the monitor installation platform 4 through the fastening screw 43 matched with the threaded holes, and the first support rod 52 can be stably clamped at the bottom of the installation platform after being inserted into the clamping groove 42 and then fixed through the fastening screw 43.

The invention can be installed and used on a bedside table 6, and can also be directly fixed on a sickbed support through fastening screws 43, see fig. 1 and 4, and in order to realize stable installation of a main support 1 and the bedside table 6, a backboard support 9 is additionally arranged, and the structure of the invention is as follows, see fig. 2:

The bottom lower extreme of main support 1 is equipped with backplate support 9, main support 1 is fixed in the back of bedside cupboard 6 through backplate support 9, backplate support 9 comprises two sets of installation regulating plates, and two sets of installation regulating plates transversely are fixed in the upper portion and the lower part of bedside cupboard 6 respectively, the installation regulating plate comprises two fixed plates 91 and two width regulating plates 92 respectively, fixed plate 91 is L shape, and is formed by horizontal plate and perpendicular board welding, the perpendicular board passes through fastening screw 43 to be fixed in the left and right sides of outer tube 11, the horizontal plate coincides on fixed plate 91, transversely set up by adjustment tank 93 on the horizontal plate, be equipped with fastening screw 43 in the adjustment tank 93, fastening screw 43 is fixed in on the fixed plate 91. The loading of the whole main support 1 can be dispersed to the backboard of the whole bedside table 6 through the backboard support 9, so that the installation of the main support 1 is more stable and reliable. Through the design of adjusting slot 93 on fixed plate 91 and the width adjustment board 92, can adjust the length of installation regulating plate according to cabinet body backplate size to satisfy the needs of the different size cabinets body. Meanwhile, in order to avoid overlarge bearing at the upper end of the main support 1, the bedside table 6 is inclined, and a balancing weight is placed in the bedside table 6, so that the gravity center of the bedside table is stabilized at the bottom of the bedside table body.

As the preferred scheme, be equipped with peg 101 on the left and right sides outer wall of upset arm 3, peg 101 is gone up and is hung the storing basket 10, and accessories such as the power cord of medical personnel placing instrument and equipment can be made things convenient for to the storing basket 10, as the preferred scheme, fixed multi-bit wiring board 7 and the spooler 8 of being equipped with on the outer wall of outer tube 11, make things convenient for the connection and the wiring of monitor 41 and intelligent information screen 51 power cord.

The foregoing has outlined rather broadly the principles and embodiments of the present invention in order that the detailed description of the invention may be better understood, and in order that the present invention may be better understood, in order that the present invention may be better suited for use in conjunction with the present invention; also, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A multifunctional bedside instrument support, characterized in that: the device comprises a main support, wherein the main support is a vertical lifting support, a turnover arm is horizontally arranged above the top of the main support, the rear end of the turnover arm is rotationally connected with the main support, the front end of the turnover arm is provided with a mounting platform for mounting an electrocardiograph monitor, and the upper section of the middle part of the main support is provided with a horizontally telescopic injection pump fixing column.

2. The multi-function bedside instrument holder of claim 1, wherein: the main support mainly comprises an outer pipe and an inner pipe, the outer pipe is sleeved on the inner pipe, a lifting adjusting mechanism for carrying out multi-section lifting of the inner pipe is arranged in the main support, a syringe pump fixing column is arranged in the inner pipe, a notch for facilitating the inlet and outlet of the syringe pump fixing column is formed in the inner pipe wall of the inner pipe, a horizontal telescopic adjusting mechanism is arranged between the syringe pump fixing column and the inner pipe, a steering mechanism connected with a turning arm is arranged at the top of the inner pipe, and a rotating mechanism for installing a monitor installing platform is arranged at the front end of the turning arm.

3. The multi-function bedside instrument holder of claim 2, wherein: the lifting adjusting mechanism consists of a control deflector rod, an extension rod and a limiting seat, wherein a chute is transversely formed in the limiting seat, a left sliding block and a right sliding block are arranged in the chute, a compression spring is arranged between the left sliding block and the right sliding block, the control deflector rod is fixedly connected with the upper end of the extension rod, a group of swinging rods are arranged at the lower end of the extension rod, the swinging rods are respectively and rotatably connected with the left sliding block and the right sliding block, protruding limiting clamping columns are arranged on the outer side surfaces of the left sliding block and the right sliding block, lifting limiting holes matched with the limiting clamping columns are formed in the inner pipe and the outer pipe, ball shafts are arranged on the outer side surfaces of the limiting clamping columns, the front ends of the ball shafts are smooth hemispheres, grooves for installing the ball shafts are formed in the outer side surfaces of the limiting clamping columns, and the rear ends of the ball shafts are fixed in the grooves.

4. A multi-function bedside instrument holder according to claim 3, wherein: the extension rod extends to the upper section of the middle part of the inner tube, a through hole which is convenient for the control deflector rod to move up and down is formed in the inner wall of the inner tube, and the control deflector rod passes through the through hole and is fixedly connected with the extension rod.

5. The multi-function bedside instrument holder of claim 2, wherein: the horizontal telescopic adjusting mechanism consists of an upper telescopic arm and a lower telescopic arm, the front ends of the two telescopic arms are respectively connected with the upper end and the lower end of a fixed column of the injection pump in a rotating way, the rear ends of the telescopic arms are positioned in an inner tube and are rotationally connected with the inner tube, the telescopic arms consist of a movable supporting arm and a movable telescopic arm, the movable telescopic arm is in sliding connection with the movable supporting arm, a telescopic limiter for preventing the movable telescopic arm from stretching out and drawing back is arranged on a main support, a telescopic limiting hole matched with the telescopic limiter is formed in the movable telescopic arm, an extension spring for enabling the telescopic arm to pop out is arranged in the main support, a groove matched with the telescopic arm is formed in the inner side of the fixed column of the injection pump, and a hanging point for installing a mounting plate of the injection pump is formed in the outer side of the fixed column of the injection pump.

6. The multi-function bedside instrument holder of claim 2, wherein: the steering mechanism mainly comprises a steering head and a rotating seat, a rotating shaft is arranged at the bottom of the steering head, the rotating seat is fixed in the upper end face of the main support, a shaft hole matched with the rotating shaft is formed in the center of the rotating seat, a limiting snap ring is arranged at the lower end of the rotating shaft, the lower end of the rotating shaft penetrates through the shaft hole and is fixed on the rotating seat through the limiting snap ring, a cavity matched with the shape of the steering head is formed in the bottom face of the rear end of the turning arm, and the turning arm is rotationally connected with the steering head through a hinge and a 270-degree turning.

7. The multi-function bedside instrument holder of claim 2, wherein: the rotary mechanism consists of a positioning rotating shaft, a rotating shaft hole and a positioning adjusting screw, wherein the rotating shaft hole is vertically formed in the front end of the turning arm, the upper end of the positioning rotating shaft is fixedly connected with the bottom of the monitor mounting platform, the lower end of the positioning rotating shaft is inserted into the rotating shaft hole, an annular positioning groove is formed in the outer diameter of the positioning rotating shaft, a threaded mounting hole communicated with the rotating shaft hole is transversely formed in the side surface of the turning arm, the positioning adjusting screw is mounted in the threaded mounting hole, and the front end of the positioning adjusting screw is clamped in the annular positioning groove of the positioning rotating shaft.

8. The multi-function bedside instrument holder of claim 1, wherein: the bottom lower extreme of main support is equipped with the backplate support, the main support passes through the backplate support to be fixed in the back of bedside cupboard, the balancing weight has been placed in the bedside cupboard.

9. The multi-function bedside instrument holder of claim 1, wherein: the left and right sides outer wall of upset arm is equipped with the peg, hang on the peg and have the storing basket, fixed multi-position wiring board and the spooler of being equipped with on the outer wall of outer tube.

10. The multifunctional bedside instrument holder of any one of claims 1 to 9, wherein: the information screen is fixed on the monitor mounting platform through the information screen support, and the information screen support is a horizontal multi-angle adjusting support.