Bedside bedding

By employing a locking structure and locking block design, the risk of unintended adjustment of bed railings is mitigated, achieving a balance between safety and convenience, and improving the stability and ease of single-person operation.

CN224420566UActive Publication Date: 2026-06-30ZHEJIANG MUYI ARTS & CRAFTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG MUYI ARTS & CRAFTS CO LTD
Filing Date
2025-06-24
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The adjustable railings of existing bedside furniture pose a risk of unintended adjustment, especially when infants operate them independently, which can easily lead to safety hazards and fail to balance safety and convenience.

Method used

The fence adopts a locking structure, which requires two unlocking actions to adjust the height of the fence through the combination of movable locking blocks and locking slots. The design of the locking components and control blocks improves the ease of operation and stability.

Benefits of technology

It improves the safety and stability of the fence during use, reduces the possibility of unintended adjustments, and enhances the convenience of single-person operation and overall safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of furniture equipment technology, and more specifically to bedside furniture with adjustable railings. The bedside furniture includes: a locking structure for positioning a railing on one side of a slidably mounted bed board, comprising: a movable locking block slidably installed in the railing; a locking groove provided in a sliding frame for one end of the movable locking block to be fitted into; an elastic member provided between the movable locking block and the railing; by inserting or removing the movable locking block into the locking groove, the railing can be in a non-slidable locked state or a slidable adjustable state; the locking structure further includes: a locking member movably installed in the railing, whose movement trajectory has a portion overlapping the sliding trajectory of the movable locking block when it is removed from the locking groove, and another portion not overlapping; by placing the locking member in the overlapping portion of the trajectory / driving the locking member away from the overlapping portion of the trajectory, the movable locking block can be in a non-removable locked state / removable movable state.
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Description

Technical Field

[0001] This utility model relates to the field of furniture and equipment technology, and more specifically to bedside furniture with adjustable railings. Background Technology

[0002] In existing families, after a newborn is born, a baby bed (bedside furniture) is usually placed next to the adult's bed for the baby to rest independently and for parents to care for. To prevent the baby from climbing out of the bed, safety railings are usually installed around the perimeter; however, fixed railings can hinder parents' direct observation and immediate care of the baby. Therefore, many existing baby beds use adjustable railing structures, such as hinges, quick-release connections, or lifting mechanisms, to adjust the position of the railing. This allows the railing to remain in a protective position when the baby is sleeping, and to be lowered or removed when care is needed, balancing safety and convenience.

[0003] However, in actual use, it has been found that this type of adjustable fence has the risk of unintended adjustment: when the fence is locked, the unlocking mechanism may be triggered by external force, infants' own grasping and pushing, or other non-human control factors, causing the fence to fall, flip, or come loose unexpectedly; especially when infants have a certain climbing ability and hand grasping ability, their own operation is more likely to cause the fence to adjust unexpectedly, which may lead to safety hazards such as infants falling or getting stuck, and there is a need for improvement. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings of existing technologies by providing a bedside bedding system that, while allowing for adjustable railings, reduces the risk of unintended adjustments to improve overall safety.

[0005] The overall technical solution of this utility model is as follows:

[0006] This utility model addresses the safety hazards associated with beds featuring adjustable railings. Existing bedside railings often use mechanisms like "one-button unlocking" to switch between locked and movable states. While convenient, this often leads to safety issues. For example, accidental contact or a baby's touch can cause the railing to move unnaturally, potentially leading to the baby falling out.

[0007] Based on this, the present invention provides a bedside bedding that can further improve safety. The bedside bedding includes a bed board and a sliding frame, wherein the sliding frame is slidably mounted with a railing that slides up and down on one side of the bed board.

[0008] The fence is positioned and connected to the sliding frame via a locking structure, which includes:

[0009] The movable locking block is slidably installed in the fence, and its sliding trajectory is arranged horizontally, with one end of the movable locking block able to slide out of the fence;

[0010] A locking slot is provided for the sliding frame and for the movable locking block to be fitted and inserted into one end;

[0011] The elastic element disposed between the movable locking block and the fence is configured to be elastically deformable and to apply an elastic force to the movable locking block to drive one end of it into the locking groove.

[0012] By inserting or removing the movable locking block from the locking slot, the fence can be made into a non-sliding locked state or a sliding adjustable state.

[0013] The locking structure also includes: a locking member movably installed in the fence, the moving trajectory of which has a portion that coincides with the sliding trajectory of the movable locking block when it is pulled out of the locking slot, and another portion that does not coincide, so that the movable locking block is in a locked state that cannot be pulled out / a movable state that can be pulled out by placing the locking member in the portion of the trajectory coincidence / driving the locking member away from the portion of the trajectory coincidence.

[0014] Furthermore, the locking element is configured to maintain the movable locking block in a locked state when positioned at the point where the trajectory coincides, without the presence of external force.

[0015] In this application, a locking component is further provided in the locking structure that switches between locked and movable states of the fence. This locking component additionally restricts the movable locking block that controls whether the fence is locked, ensuring that: only by using the locking component to make the movable locking block active can the movement of the movable locking block be controlled to unlock the fence and put it into a sliding adjustment state. That is, two unlocking actions are required to unlock the fence to its active state, thereby driving the fence to move up and down for adjustment. This greatly improves the safety of the bed during use and reduces the possibility of the fence moving up and down when it should not be active.

[0016] Of course, in some solutions, the locking structure described above can be achieved by installing the movable locking block on the sliding frame and the locking slot on the fence, making the fence either in a non-sliding locked state or a sliding adjustable state. However, in this case, when the fence needs to be disassembled or moved, the operator must place one hand on the sliding frame, which serves as the support frame, to apply force to the movable locking block to unlock it, and place the other hand on the fence to keep it stable, making the raising and lowering adjustment of the fence too difficult. Especially when two locking structures are set to fix the fence, as described below, it is even impossible for a single person to adjust the fence. In the solution described above in this application, the operator does not need to place an additional hand on the sliding frame, which serves as the support frame. Instead, one hand can apply force to the movable locking block on the fence, and the other hand can also be placed on the fence to keep it stable. That is, both hands can be used to adjust the fence, improving the stability and convenience of the adjustment. In particular, when two locking structures are set to fix the fence as described below, the operator can unlock one locking structure with one hand and the other locking structure with the other hand. Moreover, both hands apply force to the fence to drive the fence to move up and down in a synchronized manner, thus enabling a single person to adjust the fence.

[0017] In some designs, the movement trajectory of the locking element extends vertically, and the lowermost end of the movement trajectory forms a trajectory overlap portion. Under its own weight, the locking element is positioned at the lowermost end of the movement trajectory to keep the movable locking block in a locked state.

[0018] The fence is fitted with a pressure post positioned below the sliding track of the movable locking block;

[0019] The pressure post is configured to slide up and down within the fence, with its upper end connected to the locking element via a connecting post and its lower end extending downwards through the fence.

[0020] The movable locking block has a blocking portion that abuts against the locking member. The blocking portion has a moving slot with an opening facing the locking member. It is configured such that in the direction in which the movable locking block slides out, the connecting pin is allowed to be inserted but the locking member is not allowed to be inserted.

[0021] Furthermore, an obstacle space is formed above the blocking part, which allows the locking member to be accommodated when the connecting post is inserted into the moving slot;

[0022] With the ability to: push the pressing column upward to drive the locking element into the clearance space, so that the movable locking block is in a pull-out movable state.

[0023] Furthermore, in actual use, the movable locking block often gets too close to the ground due to the need for insertion, excessively compressing the pressing space of the pressure column and causing inconvenience in operation. Especially when there are two locking structures as described below, the need to press both pressure columns simultaneously with both hands places additional demands on the operator's arm span, increasing the difficulty of operation.

[0024] Based on this, in some solutions, the movable locking block includes: a plug-in block for aligning and inserting with the locking slot, and a control block located on the side of the plug-in block facing away from the locking slot;

[0025] The control block has a control part that allows external force to push and press, thereby driving the movable locking block to slide.

[0026] An elastic element is placed between the plug-in block and the fence to apply an elastic force to the plug-in block, causing one end of it to insert into the locking groove;

[0027] The sliding trajectories of both the plug-in block and the control block are arranged horizontally, and the plug-in block and the control block are connected by a linkage, so that either the plug-in block or the control block can drive the other to move in the opposite direction of the linkage.

[0028] By separating the control block used for operation from the plug-in block used for plugging, the control block can be independently configured to better meet operational convenience requirements while still fulfilling the original function of the movable lock block, thereby improving the ease of use in practice.

[0029] In some schemes, the locking element is configured to, by acting on the control block, put the movable locking block into a locked state that cannot be pulled out / a movable active state.

[0030] This allows the locking mechanism and the control block to be placed in close proximity, enabling a more effective unlocking action.

[0031] In some designs, the fence is also equipped with a response component positioned between the fence and the control block;

[0032] The response component is configured to be able to undergo elastic deformation and apply an elastic force to the control block to drive it toward the plug-in block.

[0033] By setting a reset mechanism, the control block can be automatically driven to return to the position when the fence is locked without the application of external force, thereby improving the stability of the fence when it is locked.

[0034] Any position on the control block can be configured to allow operators to apply external forces.

[0035] Preferably, in some embodiments, the upper end of the control block has a portion that extends upward beyond the fence, and this portion is formed with a control part for applying external force to drive the control block to move.

[0036] By forming the control unit with an upward-extending fence and the pressing end of the pressure column extending downwards from the fence, it is convenient for the operator to perform two unlocking actions with one hand (i.e., holding part of the fence with the hand, pressing the pressure column upwards with four fingers to make the movable lock block in a pull-out movable state; then the thumb can press and push the control unit to drive the movable lock block out of the lock slot to make the fence in a sliding adjustment state).

[0037] In some solutions, in the direction from the plug-in block to the control block, the upper surface of the control unit sequentially includes: a valley surface and a peak surface connected to the valley surface;

[0038] The upward bulge of the valley surface is lower than that of the peak surface. This further improves the convenience and stability of applying force to the control unit.

[0039] In some designs, two sliding frames are provided, and each end of the fence is positioned and connected to a sliding frame via a locking structure. This further improves the positioning stability of the overall fence structure, thereby enhancing the safety of the bed during use.

[0040] In some designs, a bed end frame is provided at each end of the bed board, and each end of the bed board is connected to a bed end frame through an adjustable connection structure to achieve height adjustment of the bed board;

[0041] The adjustable connection structure includes:

[0042] The snap-fit ​​part is located at the end of the bed board;

[0043] Multiple docking parts are provided on the bed end frame, and the multiple docking parts are arranged vertically at intervals. Each docking part is configured to be detachably connected to the snap-fit ​​part.

[0044] The height of the bed board can be adjusted by selectively and detachably connecting the snap-fit ​​part to any mating part. This improves the adaptability of the bed and creates a multi-position adjustable structure.

[0045] In some designs, the bed end frame includes several columns for support, with detachable support pads at the bottom of the columns to lift them off the surface. By changing the support pads, stable support can be provided for different surfaces, and the height can be finely adjusted to better accommodate bedside furniture placed beside the main bed at different heights.

[0046] The main beneficial effects of the above technical solution are as follows:

[0047] The fence requires two unlocking actions to unlock its movement, allowing it to be raised and lowered, significantly improving safety during use and reducing the possibility of it moving unnecessarily. Furthermore, the installation of a movable locking block on the fence, with the locking slot within the sliding frame, enhances stability during adjustment and improves the ease and convenience of single-person operation.

[0048] By separating the control block used for operation from the plug-in block used for plugging, the control block can be independently configured to better meet operational convenience requirements while still fulfilling the original function of the movable lock block, thereby improving the ease of use in practice.

[0049] The locking mechanism and control block are placed in close proximity to allow for better application of the unlocking action.

[0050] By setting a reset mechanism, the control block can be automatically driven to return to the position when the fence is locked without the application of external force, thereby improving the stability of the fence when it is locked.

[0051] By forming the control unit with an upward-extending fence and the pressing end of the pressure column extending downwards from the fence, it is convenient for the operator to perform two unlocking actions with one hand.

[0052] By forming stepped valley and peak surfaces on the control unit, the convenience and stability of applying force to the control unit are further improved.

[0053] By using a locking structure to position and connect each end of the fence to a sliding frame, the positioning stability of the overall fence structure can be further improved, thereby enhancing the safety of the bed.

[0054] The bed board is height-adjustable to improve the adaptability of the bed and create a multi-position adjustable structure.

[0055] The support pads provide better support for different surfaces and allow for more precise height adjustments, enabling bedside bedding to be placed alongside the main bed at different heights.

[0056] Further or more detailed beneficial effects will be described in conjunction with specific embodiments in the detailed implementation. Attached Figure Description

[0057] The present invention will be further described below with reference to the accompanying drawings:

[0058] Figure 1 This is a schematic diagram of the overall structure of bedside furniture.

[0059] Figure 2This is a schematic diagram of the locking mechanism installed in the bed.

[0060] Figure 3 This is a schematic diagram of the overall locking structure.

[0061] Figure 4 This is a structural schematic diagram of the plug-in block.

[0062] Figure 5 This is a structural schematic diagram of the control block.

[0063] Figure 6 This is a schematic diagram of the locking structure when the fence is in the locked position.

[0064] Figure 7 A schematic diagram illustrating a state where the device remains in a locked position but not in a locked state.

[0065] Figure 8 This is a schematic diagram of the locking structure when the fence is in the adjusted position. Detailed Implementation

[0066] The present invention will be illustrated with specific examples below: Example

[0067] Bedding provided by the bedside, as attached Figure 1 and attached Figure 2 As shown, this is a small bed placed to the side of the main bed to extend the usable space of the bed, usually used for infants to rest.

[0068] As attached Figure 1 As shown, the bedside furniture includes a bed board 1 for placing an infant, with a bed end frame 8 at each end of the bed board 1, namely a first bed end frame 8.1 and a second bed end frame 8.2. One end of the bed board 1 is connected to the first bed end frame 8.1, and the other end is connected to the second bed end frame 8.2.

[0069] As attached Figure 2 As shown, the bedside furniture also includes a sliding frame 2, which can be fixedly connected to the bed board 1 or to any of the bed end frames 8.

[0070] Additionally, the bedside furniture also includes a guardrail 3 to form a protective barrier on one side to prevent the infant from falling off the bed board 1. The guardrail 3 is slidably connected to the sliding frame 2 via a sliding connection structure (such as a slide rail) and can slide up and down on one side of the bed board 1.

[0071] Furthermore, the fence 3 is positioned and connected to the sliding frame 2 via a locking structure. This allows the fence 3 to be regularly positioned and fixed on the sliding frame 2, and to be raised and lowered as needed.

[0072] In this embodiment, as shown in the appendix Figure 2and attached Figure 3 As shown, the locking structure includes: a movable locking block 4, a locking groove 2.1, an elastic element 5, and a locking element 6.

[0073] The movable locking block 4 is slidably installed in the fence 3, and the sliding trajectory of the movable locking block 4 (in this embodiment, the trajectory refers to the area formed by the connection of spaces through which the physical parts of the object move during its movement) is arranged horizontally so that it can slide in the horizontal direction. At the same time, the fence 3 makes room for the movable locking block 4 so that one end of the movable locking block 4 can slide out of the fence 3.

[0074] The locking groove 2.1 is a groove provided on the sliding frame 2. The groove extends horizontally and the groove opening is adapted to the movable locking block 4 so that one end of the movable locking block 4 (the end extending out of the fence 3) can be fitted and inserted into the locking groove 2.1.

[0075] The elastic element 5 is an elastic structure, such as a spring, that is disposed between the movable locking block 4 and the fence 3 and can undergo elastic deformation; and the elastic element 5 applies an elastic force to the movable locking block 4 to drive one end of it into the locking groove 2.1.

[0076] Thus, as attached Figure 3 When the locking slot 2.1 and the movable locking block 4 are opposite each other, the elastic element 5 pushes one end of the movable locking block 4 into the locking slot 2.1 to make it in a non-sliding locking state. However, by pushing the movable locking block 4 with external force to pull it out of the locking slot 2.1 and causing the elastic element 5 to deform under force, the fence 3 is in a sliding adjustment state.

[0077] Furthermore, the locking structure in this embodiment also includes a locking element 6.

[0078] The locking element 6 is a movable element that is movably installed (e.g., slidably or rotatably) in the fence 3. The movement trajectory of the locking element 6 has a portion that coincides with the sliding trajectory of the movable locking block 4 when it is pulled out of the locking groove 2.1, and another portion that does not coincide.

[0079] By applying external force to place the locking element 6 in the overlapping part of the trajectory, the movable locking block 4 can be locked in an irremovable state, thereby making the fence 3 locked in an irremovable state.

[0080] When an external force is applied to drive the locking member 6 away from the overlapping part of the trajectory, the locking member 6 will not block the pulling action of the movable locking block 4, so that the movable locking block 4 can be pulled out and the fence 3 can be slidably adjusted.

[0081] The locking element 6 is also configured to keep the movable locking block 4 locked when positioned at the point where the trajectory coincides, without the presence of external force.

[0082] Specifically, in this embodiment, as shown in the appendix Figure 3 As shown, the locking component 6 is a block that is slidably installed in the internal cavity of the fence 3. Its movement trajectory extends vertically, and the lowest end of this movement trajectory forms a trajectory overlap portion. Under its own weight, the locking component 6 is positioned at the lowest end of this movement trajectory, keeping the movable locking block 4 in a locked state (as shown in the attached diagram). Figure 5 and attached Figure 6 (As shown).

[0083] A pressure post 7 is also slidably inserted into the fence 3. The pressure post 7 is located in the area below the sliding track of the movable locking block 4. The pressure post 7 is inserted into a vertically extending channel in the fence 3 so as to slide up and down in the fence 3. The upper end of the pressure post 7 is connected to the locking member 6 through the connecting post 7.1, and the lower end extends downward out of the fence 3.

[0084] When the locking member 6 is placed at the bottom of the moving trajectory, the movable locking block 4 is opposite to the locking member 6 in the horizontal direction. The movable locking block 4 has a blocking portion 4.1 that forms an abutment collision with the locking member 6. The blocking portion 4.1 has a horizontally extending moving slot 4.2 with its opening facing the locking member 6. The diameter of the moving slot 4.2 is configured such that in the direction in which the movable locking block 4 slides out, only the connecting post 7.1 is allowed to be inserted, while the locking member 6 is not allowed to be inserted.

[0085] Above the blocking portion 4.1, there is also a clearance space 4.3 that allows the locking member 6 to be accommodated when the connecting post 7.1 is inserted into the moving slot 4.2.

[0086] Thus, when fence 3 is normally in the locked position:

[0087] The locking element 6 is located at the lowest point of its movement trajectory and prevents the blocking part 4.1 of the movable locking block 4 from moving away from the locking groove 2.1. The movable locking block 4 cannot be pulled out of the locking groove 2.1, and the movable locking block 4 is in a locked state. The fence 3 is in a non-sliding locked state (as shown in the attached figure). Figure 6 (As shown).

[0088] When it is necessary to raise, lower, or move fence 3:

[0089] Pushing the pressure post 7 upwards causes the locking element 6 to move upwards until it aligns with the clearance space 4.3, and simultaneously the moving slot 4.2 aligns with the connecting post 7.1 (as shown in the attached diagram). Figure 7 (As shown). At this time, the movable locking block 4 is in an movable state where it can be pulled out of the locking slot 2.1, while the fence 3 is still in a non-sliding locked state.

[0090] Then, apply force to push the movable locking block 4, causing it to slide away from the locking groove 2.1. The movable locking block 4 then disengages from the locking groove 2.1, allowing the fence 3 to be in a slidable, adjustable position (as shown in the attached diagram). Figure 8 (As shown). At this point, the fence 3 can be raised or lowered as needed.

[0091] When it is necessary to restore the locked state of the fence 3, simply move the fence 3 up and down until the locking groove 2.1 is opposite to the movable locking block 4. Under the elastic pushing action of the elastic element 5, the movable locking block 4 automatically inserts into the locking groove 2.1, so that the fence 3 is in a non-slip locked state. At the same time, under the action of its own weight, the locking element 6 is placed at the lowest point of its movement trajectory, keeping the movable locking block 4 in a locked state (as shown in the attached figure). Figure 5 and attached Figure 6 (As shown). Complete a full unlock and lock process.

[0092] In this embodiment, the sliding frame 2 may include a positioning rod 2.2 fixed to the bed end frame 8 or the bed board 1, and a guide rod 2.3 fixed to the positioning rod 2.1. The positioning rod 2.2 is provided with a protruding locking block 2.2a, and a locking groove 2.1 is provided on the locking block 2.2a; multiple locking blocks 2.2a are provided on the positioning rod 2.2 according to the height adjustment requirements of the fence 3. The multiple locking blocks 2.2a are arranged at intervals in the vertical direction. By inserting the movable locking block 4 of the fence 3 into the locking groove 2.1 of any locking block 2.2a, the fence 3 can be adjusted in height in the vertical direction.

[0093] Furthermore, the fence 3 is inserted into the guide rod 2.3 so that the fence 3 can slide vertically along the guide rod 2.3.

[0094] Among them, the movable locking block 4 can be a single integral component or composed of separate components.

[0095] In this embodiment, as a preferred embodiment, as shown in the appendix Figure 3 Appendix Figure 4 and attached Figure 5 As shown, the movable locking block 4 includes: a plug-in block 4a for aligning and inserting with the locking slot 2.1, and a control block 4b located on the side of the plug-in block 4a facing away from the locking slot 2.1.

[0096] Among them, the control block 4b has a control part that is pushed by external force to drive the movable locking block 4 to slide; the elastic member 5 is placed between the plug-in block 4a and the fence 3 to apply an elastic force to the plug-in block 4a to drive one end of it to insert into the locking groove 2.1.

[0097] The sliding trajectories of both the plug-in block 4a and the control block 4b are arranged horizontally, and they are connected by a linkage 4c (which is a flexible rope or a rigid rod), so that either the plug-in block 4a or the control block 4b can drive the other to move in the opposite direction to the linkage 4c. That is, as shown in the attached diagram. Figure 3 As shown, the plug-in block 4a is driven to move to the left, which is synchronously driven to move to the left by the linkage 4c; while the control block 4b is driven to move to the right, which is synchronously driven to move the plug-in block 4a to the right.

[0098] Furthermore, in this embodiment, the locking member 6 is configured to, by acting on the control block 4b, cause the movable locking block 4 to be in a locked state that cannot be pulled out / a movable state that can be pulled out. That is, as shown in the attached... Figure 3 and attached Figure 5 As shown, the movement trajectory of the locking component 6 is matched with the sliding trajectory of the control block 4b. When there is no other external force, its obstruction drives the plug-in block 4a to be pulled out of the locking groove 2.1 by pushing the control block 4b to slide.

[0099] Furthermore, the fence 3 may also be provided with a return member 10 positioned between the fence 3 and the control block 4b. This return member 10 is configured to elastically deform and apply an elastic force to the control block 4b, driving it toward the insertion block 4a. For example, see attached... Figure 5 As shown, the response component 10 is a spring that is compressed and positioned between the control block 4b and the fence 3.

[0100] Furthermore, when the control block 4b has a control portion, the upper end of the control block 4b has a portion that extends upward from the fence 3, and this portion is formed with a control part 4b.1 for applying external force to drive the control block 4b to move.

[0101] As attached Figure 5 As shown, in the direction from the insertion block 4a to the control block 4b (i.e., attached) Figure 5 (From left to right) The upper surface of the control part 4b.1 includes, in sequence, a valley surface 4b.2 and a peak surface 4b.3 connected to the valley surface 4b.2; the upward protrusion height of the valley surface 4b.2 is lower than the upward protrusion height of the peak surface 4b.3, so as to form a stepped structure for the finger to press and apply force.

[0102] In one of the above schemes, two sliding frames 2 are provided, for example, one is fixed to the first bed end frame 8.1, and the other is fixed to the second bed end frame 8.2; and each end of the fence 3 is positioned and connected to a sliding frame 2 by a locking structure. At this time, the movable locking blocks 4 at both ends of the fence 3 need to be pulled out from the corresponding locking groove 2.1 at the same time for the fence 3 to be in a sliding adjustment state for vertical adjustment.

[0103] Furthermore, based on any of the above solutions, both ends of the bed board 1 can be connected to a bed end frame 8 through an adjustable connection structure to achieve height adjustment of the bed board 1.

[0104] Specifically, the adjustable connection structure includes: a snap-fit ​​portion (e.g., a protruding snap-fit ​​block) disposed at the end of the bed board 1, and multiple mating portions (e.g., several slots for snap-fitting the snap-fit ​​block) disposed on the bed end frame 8. The multiple mating portions are arranged vertically at intervals, and each mating portion is configured to be detachably connected to the snap-fit ​​portion.

[0105] The height position of the bed board 1 can be adjusted by selectively and detachably connecting the snap-fit ​​part to any mating part.

[0106] Furthermore, each bed end frame 8 may also include several columns 8.1 for forming a support, the bottom of which is detachably connected by a support pad 9 for lifting the column 8.1 from the placement plane via a structure such as a plug-in connection. By installing different support pads 9, the height of the bed end frame 8 can be changed, thereby changing the corresponding height of the bed board 1.

[0107] The above are merely preferred embodiments of this utility model and are not intended to limit the scope of this utility model. Furthermore, the terms "vertical," "horizontal," "front," and "rear," etc., mentioned in the embodiments of this utility model indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the product is in use. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. It should be further noted that, unless otherwise explicitly specified and limited, terms such as "install," "connect," "join," and "fix" in the description should be interpreted broadly. For example, "connect" can be a fixed connection, a detachable connection, or an integral connection; it can be a direct connection, an indirect connection through an intermediate medium, or a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.

[0108] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims

1. Bedside bedding, including: The bed board (1) and the sliding frame (2) are slidably mounted with a railing (3) that slides up and down on one side of the bed board (1); The feature is that the fence (3) is positioned and connected to the sliding frame (2) by a locking structure, the locking structure comprising: The movable locking block (4) is slidably installed in the fence (3), and its sliding trajectory is arranged in a horizontally extended manner. One end of the movable locking block (4) can slide out of the fence (3). A locking groove (2.1) is provided on the sliding frame (2) and for one end of the movable locking block (4) to be adapted and inserted. The elastic element (5) disposed between the movable locking block (4) and the fence (3) is configured to be elastically deformable and to apply an elastic force to the movable locking block (4) to drive one end of it into the locking groove (2.1); By inserting the movable locking block (4) into the locking slot (2.1) or pulling it out of the locking slot (2.1), the fence (3) can be made to be in a non-sliding locked state or in a sliding adjustable state. The locking structure further includes: a locking member (6) movably installed in the fence (3), whose movement trajectory has a portion that coincides with the sliding trajectory of the movable locking block (4) when it is pulled out of the locking groove (2.1), and another portion that does not coincide, so that the movable locking block (4) is in a locked state that cannot be pulled out / a movable state that can be pulled out by placing the locking member (6) in the portion of the trajectory coincidence / driving the locking member (6) away from the portion of the trajectory coincidence; Furthermore, the locking element (6) is configured to, when not subjected to external force, position itself at the point where the trajectory overlaps to keep the movable locking block (4) locked.

2. The bedside bedding according to claim 1, characterized in that: The movement trajectory of the locking member (6) extends vertically, and the lowest end of the movement trajectory forms a trajectory overlap portion. Under its own weight, the locking member (6) is placed at the lowest end of the movement trajectory to keep the movable locking block (4) locked. The fence (3) is fitted with a pressure post (7) located in the area below the sliding track of the movable locking block (4); The pressure post (7) is configured to slide up and down in the fence (3), and the upper end of the pressure post (7) is connected to the locking member (6) through the connecting post (7.1), and the lower end extends downward through the fence (3). The movable locking block (4) has a blocking portion (4.1) that abuts against the locking member (6). The blocking portion (4.1) has a moving slot (4.2) with an opening facing the locking member (6). It is configured to allow the connecting post (7.1) to be inserted but not the locking member (6) to be inserted in the direction in which the movable locking block (4) slides out. Furthermore, an obstacle space (4.3) is formed above the blocking portion (4.1) to allow the locking member (6) to be accommodated when the connecting post (7.1) is inserted into the moving slot (4.2). The locking element (6) can be driven into the clearance space (4.3) by pushing the pressure column (7) upward, so that the movable locking block (4) is in a pull-out movable state.

3. The bedside bedding according to claim 1, characterized in that: The movable locking block (4) includes: a plug-in block (4a) for aligning and plugging into the locking slot (2.1), and a control block (4b) placed on the side of the plug-in block (4a) facing away from the locking slot (2.1). The control block (4b) has a control part that is pushed by an external force to drive the movable locking block (4) to slide; The elastic element (5) is placed between the plug-in block (4a) and the fence (3) to apply an elastic force to the plug-in block (4a) to drive one end of it into the locking groove (2.1); The sliding trajectories of the plug-in block (4a) and the control block (4b) are both arranged horizontally, and the plug-in block (4a) and the control block (4b) are connected by a linkage (4c) so that either the plug-in block (4a) or the control block (4b) can drive the other to move toward the side opposite to the linkage (4c).

4. The bedside bedding according to claim 3, characterized in that: The locking element (6) is configured to, by acting on the control block (4b), cause the movable locking block (4) to be in a locked state that cannot be pulled out / a movable state that can be pulled out.

5. The bedside bedding according to claim 4, characterized in that: The fence (3) is also provided with a response component (10) placed between the fence (3) and the control block (4b); The response component (10) is configured to be elastically deformable and to apply an elastic force to the control block (4b) to move toward the plug-in block (4a).

6. The bedside bedding according to claim 4, characterized in that: The upper end of the control block (4b) has a portion that extends upward from the fence (3), and this portion is formed with a control part (4b.1) for applying external force to drive the control block (4b) to move.

7. The bedside bedding according to claim 6, characterized in that: In the direction from the plug-in block (4a) to the control block (4b), the upper surface of the control part (4b.1) includes, in sequence, a valley surface (4b.2) and a peak surface (4b.3) connected to the valley surface (4b.2). The upward convexity of the valley surface (4b.2) is lower than the upward convexity of the peak surface (4b.3).

8. The bedside bedding according to any one of claims 1 to 7, characterized in that: Two sliding frames (2) are provided, and the two ends of the fence (3) are respectively positioned and connected to one of the sliding frames (2) by a locking structure.

9. The bedside bedding according to claim 1, characterized in that: The bed board (1) has a bed end frame (8) at each end. The two ends of the bed board (1) are connected to the bed end frame (8) through an adjustable connection structure to realize the height adjustment of the bed board (1). The adjustable connection structure includes: A snap-fit ​​part is provided at the end of the bed board (1); Multiple docking portions are provided on the bed end frame (8), the multiple docking portions are arranged at intervals in the vertical direction, and each docking portion is configured to be detachably connected to the snap-fit ​​portion; The height position of the bed board (1) can be adjusted by selectively and detachably connecting the snap-fit ​​part to any of the mating parts.

10. The bedside bedding according to claim 9, characterized in that: The bed end frame (8) includes a plurality of columns (8.1) for forming a support, the bottom of which is detachably connected to a support pad (9) for lifting the column (8.1) from the placement plane.