A nursing cart for a sickroom
By introducing hydraulic control and multi-functional components into the nursing cart for wards, the problems of non-adjustable height and limited functionality have been solved. This has enabled convenient placement of nursing supplies, waste disposal, and intravenous infusion, thus improving the flexibility and applicability of its use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- PLA ARMY 82ND GRP MILITARY HOSPITAL
- Filing Date
- 2025-01-23
- Publication Date
- 2026-07-07
AI Technical Summary
The existing ward nursing carts have no height adjustment and limited functionality, making them poorly applicable.
A nursing trolley for wards was designed, which uses a first hydraulic cylinder and a first hydraulic rod to connect the partition. The height of the partition is controlled by a PLC controller. It is equipped with a multi-functional placement component, a waste collection component, and an adjustable height infusion component, so as to realize flexible switching of multiple functions.
It enables the classification and zoning of nursing supplies, facilitating quick retrieval and use, ensuring pollution-free waste disposal, facilitating infusion operations, and providing height adjustment to meet different needs, thereby improving the flexibility and practicality of use.
Smart Images

Figure CN224461814U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical equipment, and in particular to a nursing trolley for wards. Background Technology
[0002] Ward nursing carts are an important tool in the field of medical equipment. They can be used to transport medicines, medical devices, and daily necessities for patients, facilitating various nursing procedures performed by medical staff in the ward. They can also serve as a mobile support for patients, such as moving them to different wards or conducting examinations and treatments. Ward nursing carts play a vital role in improving medical and nursing efficiency, ensuring patient safety, and improving the hospital environment.
[0003] Existing nursing carts for wards typically have a fixed height for the shelf, making it difficult to adjust according to different usage needs. They also usually only have a storage structure, resulting in limited functionality and poor applicability.
[0004] Therefore, in response to the problems mentioned above, such as the lack of height adjustment and limited functionality of existing ward nursing carts, a ward nursing cart with adjustable height and multiple functions can be designed. This cart can adjust the placement height of nursing supplies according to different usage needs and can be flexibly switched between different usage requirements, making it more flexible and applicable. Utility Model Content
[0005] To overcome the problems of existing ward nursing carts, which are usually not height-adjustable and have limited functionality.
[0006] The technical solution of this utility model is as follows: a nursing trolley for wards, comprising a base, partitions, a first placement assembly, a second placement assembly, a waste collection assembly, a first hydraulic cylinder, a first hydraulic rod, an infusion assembly, a handrail, casters, a PLC controller, and a limit frame. Two sets of partitions for mounting the first and second placement assemblies are evenly distributed from top to bottom on the upper part of the base. A first hydraulic cylinder is fixedly mounted around the four upper corners of the base and the four upper corners of the lower partition. A first hydraulic rod for controlling the up-and-down movement of the two sets of partitions is fixedly connected to the upper end of each first hydraulic cylinder. The upper end of the first hydraulic rod is fixedly connected to the lower end of the partition. Different types of nursing care items are fixedly mounted on the upper ends of the two sets of partitions. The first and second placement components for medical supplies have an infusion assembly fixedly installed on the right side of the upper partition. The upper end of the base is used to place larger medical supplies, and a limit bracket to prevent items from falling is fixedly installed on the upper side of the base. A waste collection component for collecting medical waste is fixedly installed in the middle of the left end of the first placement component. A PLC controller for controlling the first hydraulic cylinder and the infusion assembly is fixedly installed in the middle of the right end of the first placement component. Handrails for pushing the base are fixedly installed at the front and rear ends of the first placement component in a symmetrical arrangement. Universal wheels for rolling are fixedly installed around the four corners of the lower end of the base, and brake pads for controlling the movement of the universal wheels are provided on the sides of the universal wheels.
[0007] Preferably, the first placement component includes a placement box, a baffle, a magnetic block, a guide block, a box cover, and a handle. The inner sides of the left and right ends of the placement box are provided with first magnetic slots that are arranged opposite to each other. The interior of the placement box is provided with three sets of baffles that divide the interior of the placement box into four placement areas from front to back.
[0008] Preferably, magnetic blocks for magnetic attraction with the first magnetic slot are fixedly connected to the middle of both the left and right ends of the baffle. A guide block for easy movement of the baffle is fixedly connected to the middle of the upper end of the baffle. The upper end of the box is provided with a box cover for opening and closing. A handle for easy opening and closing of the box cover is fixedly installed at the middle of the front end of the box cover. When the box cover is closed, its upper surface is equivalent to an operating table.
[0009] Preferably, the second placement component includes a box body, placement compartments, drawers, magnetic strips, dividers, clamps, springs, dampers, and handles. Two sets of placement compartments are evenly distributed on the right end of the box body, and drawers are placed in both sets of placement compartments. The inner walls of both the left and right ends of the placement compartments are provided with second magnetic grooves. Magnetic strips for engaging and magnetically attracting each other with the second magnetic grooves are fixedly connected to the middle of both the left and right ends of the drawers.
[0010] Preferably, the interior of the left drawer is provided with three sets of clamps arranged in pairs facing each other, with the end of the clamps near the left and right inner walls of the drawer being elastically connected to the drawer by springs. The springs are equipped with dampers to assist in the rebound.
[0011] Preferably, the inside of the right drawer is equipped with a divider to separate the drawer into multiple storage areas, and a handle for pulling out the drawer is fixedly installed at the center of the front end of the drawer.
[0012] Preferably, the waste collection component includes a waste box, a first locking block, and a second locking block. The second locking block is arranged in two sets symmetrically on the left and right, and both sets of the second locking blocks are fixedly connected to the first placement component. The waste box is symmetrically arranged on the left and right sides near the second locking block and is fixedly installed with two sets of first locking blocks for engaging and connecting with the second locking block.
[0013] Preferably, the infusion assembly includes a support block, a second hydraulic cylinder, a second hydraulic rod, a mounting block, and hooks. The second hydraulic cylinder is fixedly installed at the lower end of the support block, and the second hydraulic rod is fixedly connected to the upper end of the second hydraulic cylinder. The upper end of the second hydraulic rod extends from the lower end to the upper end of the support block, and the upper end of the second hydraulic rod is fixedly connected to the mounting block. Three sets of hooks for infusion are evenly and fixedly installed around the side of the mounting block. The second hydraulic cylinder drives the hooks to move synchronously by controlling the up and down movement of the second hydraulic rod.
[0014] The beneficial effects of this utility model are:
[0015] 1. By connecting adjacent partitions and bases with a first hydraulic cylinder and a first hydraulic rod, the height of the partitions can be adjusted by controlling the movement of the first hydraulic rod through the first hydraulic cylinder, thereby meeting different usage needs. By setting up a first placement component, a second placement component, and a base with a limiting frame with different structures, nursing supplies can be classified and placed in different areas according to different categories, making it easier to quickly find and retrieve them according to the placement category, making it more flexible and applicable. By setting up a waste collection component, it is easy to collect the waste generated during the use of nursing supplies, avoiding waste pollution. By setting up an infusion component, it can be used to suspend infusion bottles for infusion. By setting the infusion component as a height-adjustable telescopic structure, it is easy to adjust according to different usage needs. The multi-functional ward nursing trolley is more convenient and practical. Attached Figure Description
[0016] Figure 1 The diagram shown is a three-dimensional structural schematic of the ward nursing cart of this utility model.
[0017] Figure 2 The diagram shown is a three-dimensional structural schematic of the ward nursing cart of this utility model from another angle.
[0018] Figure 3 The diagram shown is a three-dimensional structural schematic of the first placement component of the nursing trolley for wards according to this utility model.
[0019] Figure 4The diagram shown is a three-dimensional structural schematic of the second placement component of the ward nursing cart of this utility model;
[0020] Figure 5 The diagram shown is a three-dimensional structural schematic of the waste collection component for a nursing trolley in a ward according to this utility model.
[0021] Figure 6 The diagram shown is a three-dimensional structural schematic of the waste infusion component of the ward nursing cart of this utility model.
[0022] Explanation of reference numerals in the attached drawings: 1. Base; 2. Partition; 6. First hydraulic cylinder; 7. First hydraulic rod; 9. Handrail; 10. Caster wheel; 11. PLC controller; 12. Limiting frame; 301. Placement box; 302. First magnetic suction slot; 303. Baffle; 304. Magnetic block; 305. Guide block; 306. Box lid; 307. Handle; 401. Box body; 402. Placement compartment; 403. Drawer; 404. Second magnetic suction slot; 405. Magnetic strip; 406. Divider; 407. Clamping plate; 408. Spring; 409. Damper; 410. Handle; 501. Trash box; 502. First locking block; 503. Second locking block; 801. Support block; 802. Second hydraulic cylinder; 803. Second hydraulic rod; 804. Mounting block; 805. Hook. Detailed Implementation
[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0024] A ward care cart is a multi-functional mobile device used in hospital ward environments. It is mainly used by medical staff to store and transport various nursing supplies, medical devices, medicines, and items needed by patients.
[0025] use:
[0026] Goods transportation: Facilitates medical staff to transport medical equipment such as dressing supplies, syringes, infusion sets, and medicines from the nurses' station or treatment room to various wards, reducing the burden on medical staff by carrying items and improving work efficiency.
[0027] Bedside nursing services: Nursing carts can be pushed to the patient's bedside as a temporary operating platform where medical staff can perform simple nursing procedures, such as measuring vital signs (blood pressure monitors, thermometers, etc. can be placed on the upper level of the cart), changing wound dressings, etc.
[0028] Patient item management: This is used to store patients' personal items, such as medical records, examination reports, clothing, etc., to make the ward environment cleaner and more orderly.
[0029] Structural composition
[0030] Frame and wheels:
[0031] Frame: Usually made of materials such as stainless steel or aluminum alloy, it has sufficient strength and stability to support various items on the trolley. The frame is generally rectangular or square in shape. Some trolleys have a multi-layered frame design to increase storage space.
[0032] Wheels: The wheels are the key component that allows the nursing trolley to move flexibly. They generally include four casters, at least two of which are equipped with brakes. The casters allow the trolley to turn freely between narrow ward aisles and beds, while the brakes are used to fix the trolley in place and ensure that it does not move arbitrarily during operation.
[0033] The history of the development of nursing carts in wards is an evolution from simple to complex, and from single-function to multi-function.
[0034] Early in the medical trolley industry, ward care trolleys appeared, mainly to facilitate the movement of medical equipment by medical staff. However, due to technological limitations, the trolleys at that time had limited functions and rudimentary designs, consisting mainly of a simple metal frame and wheels.
[0035] With the advancement of technology and the increasing demands of medical care, ward nursing carts have gradually been improved. In terms of materials, they have evolved from the initial metal frames to the use of more robust and lightweight materials such as stainless steel and ABS plastic. In terms of structure, the design of the carts has also become more user-friendly, such as adding handles and adjustable height, making it more convenient for medical staff to use.
[0036] Since the beginning of the 21st century, the development of ward nursing carts has entered a new stage. On the one hand, the functionality of the carts has been greatly improved. They can not only move medical equipment, but also perform operations such as infusion and blood transfusion. There are even multi-functional nursing carts that integrate treatment, nursing, and computers, which greatly improve the work efficiency of medical staff. On the other hand, the humanized design of the carts has also received more and more attention. For example, the quiet design of the wheels and the comfort of the seats have been greatly improved.
[0037] Furthermore, with the continuous advancement of medical technology and the improvement of medical services, ward nursing carts are also constantly being innovated and developed. For example, some modern carts are equipped with power supply and lighting equipment, enabling medical staff to perform surgeries or nursing procedures at night; others are equipped with GPS positioning systems, which can track the cart's location in real time, facilitating management and use by medical staff.
[0038] In general, the history of the development of ward nursing carts is a process of continuous adaptation to medical needs, innovation, and improvement.
[0039] Ward nursing trolleys have become an indispensable piece of medical equipment in hospitals, providing great convenience for medical staff and offering patients higher-quality and more efficient medical services. However, ward nursing trolleys often encounter some problems during actual use. Below are some common issues and their causes: 1. Inappropriate size and uneven weight distribution: The size of the trolley may not be suitable for all scenarios, making it difficult to transport patients in narrow spaces or stairwells; uneven weight distribution may cause the trolley to wobble or even tip over during transport. Reason: The trolley design did not fully consider the needs of different usage scenarios or the reasonable distribution of the center of gravity. 2. Lack of personalized configuration space: The trolley cannot be configured with equipment and medications according to the specific needs of medical institutions, limiting its flexibility of use. Reason: The trolley design is standardized and does not fully consider the differentiated needs of different medical institutions. 3. Inconvenient operation: Some trolleys have poor human-computer interaction design, leading to inconvenience for medical staff during use and affecting work efficiency. Reason: The trolley design did not fully consider the usage habits and convenience needs of medical staff. 4. Disorganized Item Placement: Inconsistent placement of items within the emergency cart makes it difficult for medical staff to quickly locate needed items in emergencies. Reason: Item placement within emergency carts varies across different specialties or departments, and there is a lack of effective management. 5. Poor Management of Medications and Supplies: A large variety of outdated and expired medications and supplies are present, leading to waste or the use of expired medications. Reason: The layout of medications and supplies is not adjusted according to the specific needs of the ward's patients, and medication management is lax, with no timely inventory or replenishment. 6. Trolley Malfunctions and Delayed Maintenance: Trolleys may malfunction during use, such as stuck wheels or brake failure, affecting normal operation. Reason: Improper maintenance, failure to promptly troubleshoot and repair malfunctions, and potential design flaws in some trolleys contribute to a high failure rate.
[0040] Currently, various types of ward care carts are available on the market, designed to improve work efficiency, optimize workflows, maintain a clean medical environment, enhance nursing quality, and provide patients with more timely and high-quality nursing services. For example: 1. Ward Mobile Carts (or Medical Carts): These carts are equipped with multiple storage compartments for storing medications, medical equipment, and nursing supplies. Medical staff can move the cart between wards to easily access needed items, improving work efficiency. Problems: Design or material issues may cause the cart to wobble, become noisy, or break during use, affecting the user experience. 2. Infusion Carts: Infusion carts are portable carts specifically designed for intravenous infusions. They feature adjustable IV stands and supports to meet the infusion needs of different patients. Medical staff can move the cart within the ward to provide infusion services. Problems: The height and angle adjustments of the infusion cart may not be flexible enough, or the stability may be insufficient, leading to safety hazards during use. 3. Preoperative Preparation Cart: Preoperative preparation carts are used in the operating room to store and organize instruments, medications, and sterilization supplies needed before surgery. They typically have multiple levels and drawers for easy classification and management of surgery-related items. Problem: Poor design or mismanagement of the preoperative preparation cart can lead to disorganized placement of items, affecting surgical efficiency or creating safety hazards. 4. Medication Delivery Cart: Medication delivery carts can be categorized by their drive mechanism: manually pushed, electric, and guided. Manually pushed carts are pushed by medical staff and are suitable for smaller medical institutions. Electric carts are equipped with batteries and electric drives, and their direction can be controlled via buttons or a remote control. Guided carts have navigation functions and can automatically navigate to a preset route for medication delivery. Problem: Manually pushed carts may be physically demanding; electric carts may malfunction due to battery life issues or improper operation; guided carts may deviate from their intended path due to navigation accuracy problems or environmental interference. 5. Treatment Cart: Treatment carts are typically equipped with multiple drawers and storage compartments for storing medical supplies and medications. They can be moved to various corners of the hospital as needed, providing a mobile work platform for medical staff. Electric versions are also available, suitable for locations requiring extended work hours, such as operating rooms and emergency rooms. Problems: Poor design or mismanagement can lead to disorganized storage and inconvenient access to items; electric treatment carts may experience operational issues due to battery life or motor malfunctions.
[0041] There are various types of nursing carts used in wards, each with its own unique working method and potential problems. When selecting and using them, reasonable selection and management should be made according to actual needs and scenarios.
[0042] Please see Figures 1-2This utility model provides an embodiment: a ward nursing cart, including a base 1, partitions 2, a first placement assembly, a second placement assembly, a waste collection assembly, a first hydraulic cylinder 6, a first hydraulic rod 7, an infusion assembly, a handrail 9, casters 10, a PLC controller 11, and a limit frame 12. Two sets of partitions 2 for mounting the first and second placement assemblies are evenly distributed from top to bottom on the upper part of the base 1. A first hydraulic cylinder 6 is fixedly installed around the four upper corners of the base 1 and the four upper corners of the lower partition 2. A first hydraulic rod 7 for controlling the up-and-down movement of the two sets of partitions 2 is fixedly connected to the upper end of the first hydraulic cylinder 6. The upper end of the first hydraulic rod 7 is fixedly connected to the lower end of the partition 2. A waste collection assembly is fixedly installed on the upper end of each of the two sets of partitions 2. The first and second placement components of the same type of nursing supplies have an infusion assembly for infusion fixedly installed on the right side of the upper partition 2. The upper end of the base 1 is used to place larger nursing supplies. A limit bracket 12 to prevent items from falling is fixedly installed on the upper side of the base 1. A waste collection component for collecting nursing waste is fixedly installed in the middle of the left end of the first placement component. A PLC controller 11 for controlling the first hydraulic cylinder 6 and the infusion assembly is fixedly installed in the middle of the right end of the first placement component. Handrails 9 for pushing the base 1 are fixedly installed at the front and rear ends of the first placement component in a relatively opposite manner. Universal wheels 10 for rolling are fixedly installed around the four corners of the lower end of the base 1. Brake pads for controlling the movement of the universal wheels 10 are provided on the sides of the universal wheels 10.
[0043] Please see Figure 3 In this embodiment, the first placement component includes a placement box 301, a baffle 303, a magnetic block 304, a guide block 305, a box cover 306, and a handle 307. The inner sides of the left and right ends of the placement box 301 are provided with first magnetic grooves 302 facing each other. The interior of the placement box 301 is provided with three sets of baffles 303 that divide the interior of the placement box 301 into four placement areas. The middle of the left and right ends of the baffles 303 are fixedly connected with magnetic blocks 304 for magnetic attraction with the first magnetic grooves 302. The middle of the upper end of the baffles 303 is fixedly connected with a guide block 305 to facilitate the movement of the baffles 303. The upper end of the placement box 301 is provided with a box cover 306 for opening and closing. The middle of the front end of the box cover 306 is fixedly installed with a handle 307 to facilitate opening and closing the box cover 306. When the box cover 306 is in the closed state, its upper surface is equivalent to an operating table.
[0044] Please see Figure 4In this embodiment, the second placement component includes a box body 401, a placement compartment 402, a drawer 403, a magnetic strip 405, a divider 406, a clamping plate 407, a spring 408, a damper 409, and a handle 410. Two sets of placement compartments 402 are evenly distributed on the right end of the box body 401. Each set of placement compartments 402 contains a drawer 403. The inner walls of both the left and right ends of the placement compartments 402 are provided with second magnetic grooves 404. The middle of both the left and right ends of the drawers 403 are fixedly connected to a mechanism for engaging with the second magnetic grooves 404. The magnetic strip 405 is magnetically attached. Inside the left drawer 403, three sets of clamps 407 are evenly distributed from front to back and arranged in pairs opposite each other. The end of the clamp 407 near the left and right inner walls of the drawer 403 is elastically connected to the drawer 403 by a spring 408. The spring 408 has a damper 409 inside to assist in the rebound. Inside the right drawer 403, there is a divider 406 for dividing the drawer 403 into multiple storage areas. A handle 410 for pulling out the drawer 403 is fixedly installed in the middle of the front end of the drawer 403.
[0045] Please see Figure 5 In this embodiment, the garbage collection component includes a garbage box 501, a first locking block 502 and a second locking block 503. The second locking block 503 is arranged in two sets symmetrically on the left and right. Both sets of the second locking blocks 503 are fixedly connected to the first placement component. The garbage box 501 is symmetrically arranged on the left and right sides near the second locking block 503 and has two sets of first locking blocks 502 fixedly installed for engaging with the second locking block 503.
[0046] Please see Figure 6 In this embodiment, the infusion assembly includes a support block 801, a second hydraulic cylinder 802, a second hydraulic rod 803, a mounting block 804, and hooks 805. The second hydraulic cylinder 802 is fixedly mounted on the lower end of the support block 801, and the second hydraulic rod 803 is fixedly connected to the upper end of the second hydraulic cylinder 802. The upper end of the second hydraulic rod 803 extends from the lower end of the support block 801 to the upper end, and the mounting block 804 is fixedly connected to the upper end of the second hydraulic rod 803. Three sets of hooks 805 for infusion are evenly and fixedly mounted around the side of the mounting block 804. The second hydraulic cylinder 802 drives the hooks 805 to move synchronously by controlling the second hydraulic rod 803 to move up and down.
[0047] When working, first push the trolley to the corresponding position using the handle 9, and use the brake pads to brake the casters 10 so that the base 1 remains stable;
[0048] Then, according to the category of nursing tools, the nursing tools are placed in separate areas. Medium-sized nursing tools are placed on the first storage component. The box cover 306 is opened by the handle 307. The baffle 303 is moved by the guide block 305, so that the magnetic block 304 slides along the first magnetic groove 302. The spacing between the baffles 303 is adjusted to a suitable size, and the corresponding nursing tools are placed in each placement area in sequence.
[0049] Next, place bottle-type care products and smaller care products on the second placement component. Open the two sets of drawers 403 using the handle 410. Place the bottle-type care products between the two sets of clamps 407 that are arranged opposite each other. Use the elastic force of the spring 408 to hold the bottles in place. Place the smaller care products in the various placement areas of the divider 406. Then close the drawers 403 using the handle 410, so that the magnetic strip 405 and the second magnetic groove 404 are magnetically attracted to each other.
[0050] Then place the larger nursing tools on the base 1, and use the limiting frame 12 to limit the nursing tools to prevent them from falling.
[0051] Finally, open the brake pads of the universal wheel 10, push the trolley to the corresponding usage position through the handle 9, close the brake pads, and according to the actual usage needs, control the first hydraulic rod 7 through the first hydraulic cylinder 6 to drive the partition 2 to move up and down, adjust the first placement component and the second placement component to the appropriate height, and then take out the nursing tools that need to be used in sequence.
[0052] When intravenous infusion is required, the second hydraulic cylinder 802 controls the second hydraulic rod 803 to move up and down, thereby driving the hook 805 to move synchronously. The hook 805 is adjusted to a suitable height, and then the infusion bottle is suspended on the hook 805 to administer intravenous infusion to the patient.
[0053] Nursing waste generated during the use of nursing tools is collected using a waste collection component. Once the waste collection is full, remove the waste box 501 to separate the first latch 502 and the second latch 503, and then empty the waste. Alternatively, the lid 306 can be closed, and the upper surface of the lid 306 can be used as a work surface.
[0054] Through the above steps, by setting the first hydraulic cylinder 6 and the first hydraulic rod 7 to connect the adjacent partition 2 and base 1, the height of the partition 2 can be adjusted by controlling the movement of the first hydraulic rod 7 through the first hydraulic cylinder 6, thereby meeting different usage needs. By setting the first placement component, the second placement component and the base 1 with the limiting frame 12 with different structures, nursing supplies can be classified and placed in different areas according to different categories, which facilitates quick retrieval according to the placement category and is more flexible and applicable. By setting the waste collection component, it is convenient to collect the waste generated during the use of nursing supplies and avoid waste pollution. By setting the infusion component, it can be used to suspend infusion bottles for infusion. By setting the infusion component as a height-adjustable telescopic structure, it is convenient to adjust according to different usage needs. This solves the problem that the height of the placement frame of the existing ward nursing cart is usually fixed, which is not convenient to adjust according to different usage needs, and usually only has a storage structure, with relatively simple functions and poor applicability.
Claims
1. A nursing trolley for use in a ward, comprising a base (1); characterized in that: It also includes partitions (2), a first placement component, a second placement component, a waste collection component, a first hydraulic cylinder (6), a first hydraulic rod (7), an infusion component, a handrail (9), casters (10), a PLC controller (11), and a limit frame (12). Two sets of partitions (2) for installing the first placement component and the second placement component are evenly distributed from top to bottom on the upper part of the base (1). The four upper corners of the base (1) and the four upper corners of the lower partitions (2) are all fixedly installed with the first hydraulic cylinder (6). The upper end of the first hydraulic cylinder (6) is fixedly connected with the first hydraulic rod (7) for controlling the up and down movement of the two sets of partitions (2). The upper end of the first hydraulic rod (7) is fixedly connected to the lower end of the partition (2). The upper ends of the two sets of partitions (2) are respectively fixedly installed with different types of nursing care. The first and second placement components of the equipment, the upper partition (2) is fixedly installed with an infusion component for infusion, the upper end of the base (1) is used to place nursing equipment, the upper end of the base (1) is fixedly installed with a limit frame (12) to prevent items from falling, the middle of the left end of the first placement component is fixedly installed with a waste collection component for collecting nursing waste, the middle of the right end of the first placement component is fixedly installed with a PLC controller (11) for controlling the first hydraulic cylinder (6) and the infusion component, the front and rear ends of the first placement component are fixedly installed with handles (9) to facilitate pushing the base (1), the lower end of the base (1) is fixedly installed with casters (10) for rolling around the four corners, and the sides of the casters (10) are provided with brake pads for controlling the movement of the casters (10).
2. The ward nursing trolley according to claim 1, characterized in that: The first placement component includes a placement box (301), a baffle (303), a magnetic block (304), a guide block (305), a box cover (306), and a handle (307). The inner sides of the left and right ends of the placement box (301) are provided with first magnetic grooves (302) facing each other. The interior of the placement box (301) is provided with three sets of baffles (303) evenly distributed from front to back to divide the interior of the placement box (301) into four placement areas.
3. A nursing trolley for wards according to claim 2, characterized in that: The middle of both ends of the baffle (303) is fixedly connected with magnetic blocks (304) for magnetic attraction with the first magnetic slot (302). The middle of the upper end of the baffle (303) is fixedly connected with a guide block (305) to facilitate the movement of the baffle (303). The upper end of the placement box (301) is provided with a box cover (306) for opening and closing. The middle of the front end of the box cover (306) is fixedly installed with a handle (307) to facilitate opening and closing the box cover (306). When the box cover (306) is in the closed state, its upper surface is equivalent to an operating table.
4. A nursing trolley for use in a ward according to claim 1, characterized in that: The second placement component includes a box (401), a placement compartment (402), a drawer (403), a magnetic strip (405), a divider (406), a clamp (407), a spring (408), a damper (409), and a handle (410). Two sets of placement compartments (402) are evenly distributed on the right end of the box (401). Each set of placement compartments (402) contains a drawer (403). The inner walls of the left and right ends of the placement compartments (402) are provided with second magnetic grooves (404). The middle of the left and right ends of the drawers (403) are fixedly connected with magnetic strips (405) for engaging with the second magnetic grooves (404).
5. A nursing trolley for use in a ward according to claim 4, characterized in that: The interior of the left drawer (403) is provided with three sets of clamps (407) arranged in pairs facing each other. The end of the clamp (407) near the left and right inner walls of the drawer (403) is elastically connected to the drawer (403) by a spring (408). The spring (408) is provided with a damper (409) to assist in the rebound.
6. A nursing trolley for wards according to claim 4, characterized in that: The inside of the right drawer (403) is equipped with a divider (406) for dividing the drawer (403) into multiple storage areas, and a handle (410) for pulling out the drawer (403) is fixedly installed in the middle of the front end of the drawer (403).
7. A nursing trolley for use in a ward according to claim 1, characterized in that: The garbage collection component includes a garbage box (501), a first locking block (502), and a second locking block (503). The second locking blocks (503) are arranged in two sets symmetrically on the left and right. Both sets of second locking blocks (503) are fixedly connected to the first placement component. The garbage box (501) is symmetrically arranged on the left and right side near the end of the second locking block (503) and fixedly installed with two sets of first locking blocks (502) for engaging and connecting with the second locking block (503).
8. A nursing trolley for use in a ward according to claim 1, characterized in that: The infusion assembly includes a support block (801), a second hydraulic cylinder (802), a second hydraulic rod (803), a mounting block (804), and hooks (805). The second hydraulic cylinder (802) is fixedly installed at the lower end of the support block (801), and the second hydraulic rod (803) is fixedly connected to the upper end of the second hydraulic cylinder (802). The upper end of the second hydraulic rod (803) extends from the lower end of the support block (801) to the upper end. The upper end of the second hydraulic rod (803) is fixedly connected to the mounting block (804). Three sets of hooks (805) for infusion are evenly and fixedly installed around the side of the mounting block (804). The second hydraulic cylinder (802) drives the hooks (805) to move synchronously by controlling the second hydraulic rod (803) to move up and down.