A type of conservation equipment

By introducing shielding strips and limiting groove structures into the conservation equipment to shield the sliding tracks, the problem of cleaning difficulties caused by exposed tracks is solved, enabling convenient disinfection and improved appearance of the equipment, while also simplifying cable management.

CN122297252APending Publication Date: 2026-06-30SHENZHEN MINDRAY BIO MEDICAL ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHENZHEN MINDRAY BIO MEDICAL ELECTRONICS CO LTD
Filing Date
2024-12-30
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing conservation equipment has exposed grooves on its support structure, which easily trap dirt and grime, making it difficult to clean and disinfect, and also affecting the appearance of the equipment.

Method used

A conservation device was designed, which uses a shielding strip to shield the sliding groove and the slot of the connecting structure. The shielding strip always shields the sliding groove during the lifting and lowering of the connecting structure. The shielding effect is ensured by the combination of the limiting groove and the tensioning structure, and the connecting cable is hidden by the guide structure and the winding and unwinding parts.

Benefits of technology

It effectively shields the chute, simplifies the cleaning and disinfection process, enhances the simplicity and aesthetics of the equipment's appearance, and reduces the complexity of managing connecting cables.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN122297252A_ABST
    Figure CN122297252A_ABST
Patent Text Reader

Abstract

This application provides a conservation device, including a housing, a support structure, a connecting structure, a drive mechanism, a housing assembly, and a shielding strip. The housing has an opening at the top. The support structure is disposed on one side of the housing and has a groove extending between opposite ends of the support structure along its height direction, with the groove having an opening facing a connecting arm. The connecting structure is vertically and flexibly inserted into the groove. The drive mechanism drives the connecting structure to move up and down along the groove. The housing assembly includes a housing and a connecting arm, which is connected to the connecting structure. The connecting structure, by lifting and lowering, drives the connecting arm to move up and down, thereby causing the housing to move between an open position with the opening open and a closed position with the opening covered. The shielding strip is connected to the support structure at both ends and blocks at least a portion of the opening along the extension direction of the groove. During the lifting and lowering of the connecting structure, the shielding strip always blocks at least a portion of the connecting structure. The conservation device of this application embodiment can effectively shield the groove.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of medical device technology, and more particularly to a childcare device. Background Technology

[0002] An incubator is a medical device that provides suitable temperature, humidity, and oxygen concentration within an incubator, with the aim of providing a womb-like growth environment for premature or sick infants.

[0003] The infant care equipment is equipped with an openable and closable cover assembly. When the cover assembly is closed, a relatively enclosed space is formed inside the infant care equipment. When the cover assembly is opened, the infant can be taken out of the infant care equipment.

[0004] In related technologies, one type of enclosure assembly opens and closes by moving up and down along a support structure driven by a motor. To enable the enclosure assembly to move up and down, the support structure usually needs to be equipped with a sliding groove for the enclosure assembly to move up and down. However, the sliding groove is usually exposed, making it easy for dirt and grime to accumulate and difficult to clean and disinfect. Summary of the Invention

[0005] In view of this, the present application aims to provide a conservation device that can effectively shield the grooves on the support structure.

[0006] To achieve the above objectives, one embodiment of this application provides a childcare device, comprising:

[0007] A box with an opening at the top;

[0008] A support structure is provided on one side of the housing, the support structure having a groove that extends between opposite ends of the support structure along the height direction;

[0009] A connecting structure, wherein the connecting structure is vertically and retractably inserted into the slide groove;

[0010] A drive mechanism drives the connecting structure to move up and down along the slide rail;

[0011] A box cover assembly includes a box cover and a connecting arm connected to the box cover. The slide has a slot facing the connecting arm. The connecting arm is connected to a connecting structure. The connecting structure drives the connecting arm to rise and fall by lifting, thereby moving the box cover between an open position with the opening open and a closed position with the opening covered.

[0012] A shielding strip, the two ends of which are connected to the support structure and shield at least a portion of the groove opening along the extension direction of the slide, wherein the shielding strip always shields at least a portion of the connecting structure during the lifting and lowering process of the connecting structure.

[0013] This application provides a childcare device with a support structure having a chute and a connecting structure that is vertically and flexibly inserted into the chute. A shielding strip is provided at the chute, shielding at least a portion of the chute's opening towards the connecting arm along the chute's extension direction. Furthermore, the shielding strip continuously shields at least a portion of the connecting structure during its lifting and lowering process. Therefore, the shielding strip in this embodiment effectively shields the chute, facilitating cleaning and disinfection of the childcare device. Additionally, by using the shielding strip to shield the chute, the childcare device's appearance becomes simpler and more aesthetically pleasing. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of a conservation device according to an embodiment of this application. Electronic devices are also shown in the figure.

[0015] Figure 2 for Figure 1 The diagram shows a partial structural schematic of the conservation equipment shown.

[0016] Figure 3 for Figure 1 A partial structural schematic diagram of the conservation equipment shown from another perspective;

[0017] Figure 4 for Figure 3 A magnified view of a section at point A in the middle;

[0018] Figure 5 for Figure 3 The exploded view of the conservation facilities shown;

[0019] Figure 6 for Figure 5 A magnified view of a section at point B in the middle;

[0020] Figure 7 for Figure 5 A magnified view of a section at point C;

[0021] Figure 8 for Figure 1 A partial structural schematic diagram of the conservation equipment shown from another perspective;

[0022] Figure 9 for Figure 8 The cross-sectional view of the conservation equipment shown;

[0023] Figure 10 for Figure 9 A magnified view of a section at point D;

[0024] Figure 11 for Figure 1 The diagram shows a partial structural cross-section of the conservation equipment. The dashed lines with arrows in the diagram indicate the cable paths.

[0025] Figure 12 This is a partial structural schematic diagram of the second type of conservation equipment according to an embodiment of this application;

[0026] Figure 13 for Figure 12 A partial structural schematic diagram of the conservation equipment shown from another perspective;

[0027] Figure 14 for Figure 13 The exploded view of the conservation facilities shown;

[0028] Figure 15 This is a partial structural schematic diagram of the third type of conservation equipment according to an embodiment of this application;

[0029] Figure 16 for Figure 15 A magnified view of a section at point E in the middle;

[0030] Figure 17 This is a partial structural schematic diagram of the fourth type of conservation equipment according to an embodiment of this application;

[0031] Figure 18 for Figure 17 A magnified view of a section at point F in the middle;

[0032] Figure 19 for Figure 17 The exploded view of the conservation facility shown.

[0033] Explanation of reference numerals in the attached figures

[0034] 100. Nursery equipment; 101. Box body; 102. Support structure; 102a. Slide groove; 102b. Receiving cavity; 102c. First connecting hole; 102d. Second connecting hole; 102e. Limiting groove; 103. Connecting structure; 103a. Support surface; 103b. Wire passage; 1031. Adapter block; 1032. Support block; 104. Box cover assembly; 1041. Box cover; 1042. Connecting arm; 1042a. Mounting port; 105. Shielding strip; 105a. First mounting hole; 05b, Second mounting hole; 106, Pressing element; 107, Tensioning structure; 1071, First mounting block; 1071a, First fastening hole; 1072, Second mounting block; 1072a, Second fastening hole; 1072b, Third fastening hole; 108, Guide post; 109, Winding / unwinding element; 110, First fastener; 111, Second fastener; 112, Third fastener; 113, Guide structure; 114, Connecting cable; 115, Mainboard adapter; 116, Magnetic strip; 200, Electronic equipment. Detailed Implementation

[0035] In the description of the embodiments of this application, it should be noted that the terms "height direction," "lateral direction," etc., indicate the orientation or positional relationship based on the appendix. Figure 2 The indicated orientation or positional relationship, where "radial" refers to the orientation relative to the attached... Figure 1 The "axial direction" shown is perpendicular to the direction. These directional terms are only for the convenience of describing the embodiments of this application and simplifying the description, and are not intended to indicate or imply that the device or element 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 the embodiments of this application.

[0036] This application provides a childcare device 100; please refer to [link / reference]. Figures 1 to 3 , Figure 5 , Figure 6 , Figures 8 to 10 The conservation equipment 100 includes a housing 101, a support structure 102, a connecting structure 103, a drive mechanism (not shown), a housing assembly 104, and a shielding strip 105.

[0037] The top of the box 101 has an opening. The box 101 is used to place an infant. The box 101 is generally equipped with a support surface such as a bed board. The infant can be placed on the bed board from the opening at the top of the box 101, or taken out from the opening.

[0038] The support structure 102 is disposed on one side of the housing 101. The support structure 102 has a groove 102a that extends between opposite ends of the support structure 102 along the height direction. That is, the opposite ends of the groove 102a along its own extension direction are close to the opposite ends of the support structure 102 along the height direction.

[0039] The extension direction of the slide groove 102a can be parallel to the height direction of the support structure 102, or it can form a certain angle with the height direction of the support structure 102. For example, the angle between the extension direction of the slide groove 102a and the height direction of the support structure 102 can be greater than 0 degrees and less than or equal to 10 degrees.

[0040] The connecting structure 103 is vertically and flexibly inserted into the slide groove 102a, and the driving mechanism drives the connecting structure 103 to move up and down along the slide groove 102a. In other words, the connecting structure 103 slides along the slide groove 102a under the drive of the driving mechanism, thereby achieving vertical movement.

[0041] Please continue reading. Figures 1 to 3 The enclosure assembly 104 includes an enclosure 1041 and a connecting arm 1042 disposed on one side of the enclosure 1041. The connecting arm 1042 is connected to a connecting structure 103. The connecting structure 103 raises and lowers the connecting arm 1042, thereby causing the enclosure 1041 to move between an open position with an open opening and a closed position with the opening covered. The slide 102a has a slot facing the connecting arm 1042.

[0042] In other words, the cover 1041 is closable and can be installed over the opening. The connecting structure 103 can lift and lower the connecting arm 1042, which in turn lifts and lowers the cover 1041, thus opening and closing the cover 1041. When the cover 1041 is in the closed position, it covers the opening, creating a relatively enclosed space inside the box 101. When the cover 1041 is in the open position, it opens the opening, allowing the baby to be placed into the box 101 from the opening and removed from the box 101 from the opening.

[0043] Please continue reading. Figure 2 , Figure 3 , Figure 5 , Figure 6 and Figure 10 The two ends of the shielding strip 105 are connected to the support structure 102 and shield at least a portion of the groove 102a facing the connecting arm 1042 along the extension direction of the groove 102a. During the lifting and lowering process of the connecting structure 103, the shielding strip 105 always shields at least a portion of the connecting structure 103.

[0044] Specifically, the shielding strip 105 may include a steel strip, a flexible strip of other materials, or other shielding structures such as bristles.

[0045] The shielding strip 105 is used not only to shield the slide 102a, but also to shield the connecting structure 103.

[0046] The shielding strip 105 can either shield only part of the groove 102a facing the connecting arm 1042, or it can shield the entire groove 102a facing the connecting arm 1042 along the extension direction of the groove 102a.

[0047] The shielding strip 105 can shield only a part of the connecting structure 103 or shield the entire connecting structure 103. At the same time, during the raising and lowering of the connecting structure 103, the shielding strip 105 continuously shields either a part or the entire connecting structure 103.

[0048] Because the shielding strip 105 of the childcare equipment 100 in this embodiment can shield at least a portion of the groove 102a facing the connecting arm 1042 along the extending direction of the groove 102a, and the shielding strip 105 also shields at least a portion of the connecting structure 103 during the lifting and lowering process, the shielding strip 105 can effectively shield the groove 102a, thereby facilitating the cleaning and disinfection of the childcare equipment 100. In addition, by using the shielding strip 105 to shield the groove 102a, the appearance of the childcare equipment 100 can be made simpler and more aesthetically pleasing.

[0049] In one embodiment, please refer to Figure 4 and Figure 7 The support structure 102 may be provided with a limiting groove 102e extending along the height direction. The limiting groove 102e is connected to the slide 102a and is located on the side of the slide 102a facing the connecting arm 1042. The shielding strip 105 is provided in the limiting groove 102e.

[0050] Specifically, in the illustrated embodiment, the width of the limiting groove 102e is greater than that of the sliding groove 102a, and the limiting groove 102e and the sliding groove 102a together form a T-shaped structure. However, this application is not limited to this; the width of the limiting groove 102e may also be smaller than that of the sliding groove, and the two may form an inverted T-shaped structure.

[0051] The setting of the limit groove 102e not only facilitates the installation and positioning of the shielding belt 105, but also effectively prevents the shielding belt 105 from deviating during the lifting and lowering process of the connecting structure 103.

[0052] In one embodiment, please refer to Figure 3 and Figure 5 The support structure 102 may be provided with a receiving cavity 102b, and the slide groove 102a communicates with the receiving cavity 102b. A part of the connecting structure 103 may be located inside the receiving cavity 102b and driven by the driving mechanism. Another part of the connecting structure 103 is located outside the support structure 102 and is connected to the connecting arm 1042.

[0053] The receiving cavity 102b is the internal space of the support structure 102. Since the drive connection part of the connecting structure 103 needs to be driven to connect with the drive mechanism, the drive connection part is set in the receiving cavity 102b, which can play a better protective role for the drive connection part.

[0054] In one embodiment, please refer to Figure 6 and Figure 10 During the lifting and lowering process of the connecting structure 103, the connecting structure 103 can cause the shielding strip 105 to recover its topographical deformation as the connecting structure 103 lifts and lowers to match the lifting and lowering of the connecting structure 103.

[0055] Recoverable deformation means that the shielding strip 105 can deform, and the deformed part can return to its original state.

[0056] Since the connecting structure 103 is connected to the connecting arm 1042 of the housing assembly 104, and the connecting structure 103 also needs to slide along the slide groove 102a, the shielding strip 105 needs to avoid the connecting structure 103 during the sliding process of the connecting structure 103 along the slide groove 102a, so that the connecting structure 103 can slide along the slide groove 102a. In other words, the shielding strip 105 must be able to shield the slide groove 102a without affecting the normal sliding of the connecting structure 103. Therefore, during the lifting and lowering process of the connecting structure 103, the connecting structure 103 can deform the shielding strip 105 so that the shielding strip 105 can avoid the connecting structure 103. The parts of the shielding strip 105 that do not deform and the parts that return to their original shape after deformation can maintain the shielding state of the slide groove 102a, thereby ensuring that the shielding strip 105 can always provide good shielding of the slide groove 102a.

[0057] For example, please refer to Figure 6 and Figure 10 The two ends of the shielding strip 105 can be fixedly connected to the support structure 102, and the connecting structure 103 can push the shielding strip 105 to deform it.

[0058] In other words, during the lifting and lowering process of the connecting structure 103, when the connecting structure 103 moves to a certain position, the connecting structure 103 lifts the portion of the shielding strip 105 located near the supporting structure 102 from the side of the shielding strip 105, while the shielding strip 105 remains in a shielding state in other parts. This method almost completely prevents the slide groove 102a from being exposed, thus allowing the shielding strip 105 to provide a good shielding effect on the slide groove 102a.

[0059] Please continue reading. Figure 6 and Figure 10 A support surface 103a can be provided on the side of the connecting structure 103 near the shielding strip 105. The shielding strip 105 can abut against the support surface 103a. That is to say, during the lifting and lowering process of the connecting structure 103, the support surface 103a and the shielding strip 105 remain in contact, and the part of the shielding strip 105 that remains in contact with the support surface 103a is the part of the shielding strip 105 that is lifted up. The support surface 103a can keep the part of the shielding strip 105 that is lifted up flat, thereby ensuring that the part of the shielding strip 105 that is lifted up can also remain flat after returning to its original state.

[0060] Please see Figure 6 and Figure 10 To ensure that the shielding strip 105 can fit well with the support surface 103a, preferably, the support surface 103a can be a curved surface that protrudes toward the shielding strip 105.

[0061] In other embodiments, the support surface 103a may also be a plane.

[0062] Please continue reading. Figure 6 The connecting structure 103 may include a transition block 1031 and a support block 1032 with a support surface 103a. The transition block 1031 avoids the shielding strip 105, meaning that the transition block 1031 is not shielded by the shielding strip 105. The transition block 1031 protrudes from the support surface 103a in a direction away from the support structure 102, and the connecting arm 1042 is connected to the transition block 1031.

[0063] Figure 6 Two adapter blocks 1031 are shown. The two adapter blocks 1031 are located on opposite sides of the support block 1032 in the lateral direction perpendicular to the height direction. The connecting arm 1042 is connected to the two adapter blocks 1031. That is to say, a groove-like receiving space is formed between the two adapter blocks 1031, the support surface 103a is located in the receiving space, and the shielding strip 105 is also between the two adapter blocks 1031.

[0064] The two adapter blocks 1031 can limit the position of the shielding strip 105 to prevent the shielding strip 105 from shifting and affecting the shielding effect. In addition, the connection between the connecting arm 1042 and the two adapter blocks 1031 can also improve the reliability and stability of the connection between the connecting arm 1042 and the connecting structure 103.

[0065] In other embodiments, the connection structure 103 may also consist of only one adapter block 1031.

[0066] In other embodiments, the connecting structure 103 may not have a support surface 103a. For example, the connecting structure 103 may have a transition body and a roller. The transition body is connected to the connecting arm 1042, the roller is rotatably mounted on the transition body, and the shielding strip 105 abuts against the roller. That is, during the lifting and lowering process of the connecting structure 103, the roller rotates relative to the transition body, while the shielding strip 105 remains in contact with the roller.

[0067] In one embodiment, please refer to Figure 6 and Figure 10 The conservation equipment 100 can also be equipped with a pressure-resistant component 106. Figure 6 and Figure 10 The conservation device 100 shown is provided with two pressing members 106, which are located on opposite sides of the connecting structure 103 along the extension direction of the shielding strip 105. In some other embodiments, a single pressing member 106 may also be provided, which is located on one side of the opposite sides of the connecting structure 103 along the extension direction of the shielding strip 105.

[0068] The pressing member 106 abuts against the side of the shielding strip 105 away from the slide groove 102a, and rises and falls synchronously with the connecting structure 103. That is to say, during the rising and falling of the connecting structure 103, the pressing member 106 also rises and falls together with the connecting structure 103, and the pressing member 106 and the shielding strip 105 remain in contact.

[0069] Figure 6 and Figure 10 The pressure member 106 shown can rotate relative to the connecting structure 103. The pressure member 106 can be, for example, a pressure roller. In other embodiments, the pressure member 106 can also remain stationary relative to the connecting structure 103, that is, the pressure member 106 cannot move relative to the connecting structure 103.

[0070] Since the connecting structure 103 causes the shielding strip 105 to deform during the lifting process, by setting the pressing member 106, the shielding strip 105 can be pressed down near the part of the shielding strip 105 that is lifted up, so as to better ensure that the part of the shielding strip 105 that is lifted up can remain flat.

[0071] Figure 9 and Figure 10 The pressing member 106 shown is disposed on the connecting structure 103. In some other embodiments, the pressing member 106 may also be disposed on the connecting arm 1042, or the pressing member 106 may be disposed on both the connecting arm 1042 and the connecting structure 103.

[0072] Please continue reading. Figure 10 The body of the connecting arm 1042 has a mounting opening 1042a facing the shielding strip 105. Exemplarily, a pressing member 106 can be disposed inside the body of the connecting arm 1042, near the mounting opening 1042a. The portion of the connecting structure 103 that pushes against the shielding strip 105 can also extend into the body of the connecting arm 1042 from the mounting opening 1042a. However, regardless of whether the pressing member 106 is provided, as... Figure 15 , 17 As shown, the part of the connecting structure 103 and the part of the shielding strip 105 that is lifted both extend into the body of the connecting arm 1042 from the mounting port 1042a, so that the connecting arm 1042 can shield them.

[0073] Figure 10 The connecting structure 103 shown has a support surface 103a. The connecting structure 103 pushes the shielding strip 105 through the support surface 103a. Therefore, the part of the connecting structure 103 with the support surface 103a is located inside the body of the connecting arm 1042.

[0074] The advantage of the part of the connecting structure 103 that pushes the shielding strip 105 into the body of the connecting arm 1042 from the mounting port 1042a is that, during the lifting and lowering process of the connecting structure 103, the part of the shielding strip 105 that is lifted by the connecting structure 103 can be hidden inside the connecting arm 1042. That is to say, the part of the shielding strip 105 that is lifted is almost invisible from the outside of the connecting arm 1042, which can indirectly shield the slide groove 102a at the position where the shielding strip 105 is lifted.

[0075] In one embodiment, please refer to Figures 2 to 4 , Figure 7 The conservation equipment 100 may also be equipped with a tensioning structure 107, which is located at least one end near both ends of the shielding strip 105. That is, the tensioning structure 107 can be located at both ends of the shielding strip 105, or it can be located at one end of the shielding strip 105. The shielding strip 105 is tensioned and installed on the support structure 102 with adjustable tension via the tensioning structure 107.

[0076] The tensioning structure 107 is used to keep the shielding strip 105 in a taut state so that the undeformed part of the shielding strip 105 can fit in close contact with the support structure 102. This not only allows the slide 102a to form a relatively enclosed space through the shielding of the shielding strip 105, but also reduces noise during the lifting and lowering of the connecting structure 103.

[0077] During the installation of the shielding strip 105, the shielding strip 105 can be tightened first, and then the shielding strip 105 can be installed on the support structure 102 through the tensioning structure 107.

[0078] For example, please refer to Figure 4 and Figure 7 The support structure 102 may be provided with a first connecting hole 102c, the tensioning structure 107 is provided with a first mounting block 1071 having a first fastening hole 1071a, and the shielding strip 105 is provided with a first mounting hole 105a. The length of the first mounting hole 105a along the extension direction of the shielding strip 105 is greater than the length of the first connecting hole 102c along the extension direction of the shielding strip 105, and is also greater than the length of the first fastening hole 1071a along the extension direction of the shielding strip 105. The first mounting block 1071 abuts against the side of the shielding strip 105 away from the support structure 102. The conservation device 100 also includes a first fastener 110 that passes sequentially through the first fastening hole 1071a, the first mounting hole 105a, and the first connecting hole 102c.

[0079] The first fastening hole 1071a, the first mounting hole 105a, and the first connecting hole 102c are used to pass through fasteners such as screws and bolts. For ease of description, the fasteners passing through the first fastening hole 1071a, the first mounting hole 105a, and the first connecting hole 102c are referred to as the first fastener 110.

[0080] Since the length of the first mounting hole 105a along the extension direction of the shielding strip 105 is greater than the lengths of the first connecting hole 102c and the first fastening hole 1071a along the extension direction of the shielding strip 105, during the installation of the shielding strip 105, the shielding strip 105 can be pulled along the extension direction of the shielding strip 105 first. After the shielding strip 105 is tightened, the first fastener 110 is then inserted into the first fastening hole 1071a, the first mounting hole 105a and the first connecting hole 102c, so that the first mounting block 1071, the shielding strip 105 and the support structure 102 are fastened together by the first fastener 110, thereby keeping the shielding strip 105 in a taut state.

[0081] Further, please refer to Figure 4 and Figure 7 The conservation equipment 100 may also be equipped with guide posts 108, which are disposed on the support structure 102 and extend along the height direction. The tensioning structure 107 is provided with a second mounting block 1072, which is slidably connected to the guide post 108, and the shielding strip 105 is connected to the second mounting block 1072.

[0082] Specifically, after the shielding strip 105 is tightened, the second mounting block 1072 can be slid to adjust the position so that it can be connected to the shielding strip 105, and then the shielding strip 105 can be connected to the second mounting block 1072.

[0083] For example, please refer to Figure 4 and Figure 7 The shielding strip 105 can be provided with a second mounting hole 105b, the second mounting block 1072 can be provided with a second fastening hole 1072a and a third fastening hole 1072b, the support structure 102 is provided with a second connecting hole 102d, and the third fastening hole 1072b is connected to the second connecting hole 102d in the height direction.

[0084] The second mounting hole 105b and the second fastening hole 1072a are also used to pass through fasteners such as screws and bolts. For ease of description, the fasteners that pass through the second mounting hole 105b and the second fastening hole 1072a are referred to as the second fastener 111.

[0085] The purpose of the sliding connection between the second mounting block 1072 and the guide post 108 is to allow the second mounting block 1072 to be adjusted in the height direction.

[0086] The fact that the third fastening hole 1072b and the second connecting hole 102d are connected in the height direction means that the fastener moves along the height direction to pass through the third fastening hole 1072b and the second connecting hole 102d. Figure 7 The second connecting hole 102d is located above the third fastening hole 1072b along the height direction. In other embodiments, the second connecting hole 102d may also be located below the third fastening hole 1072b along the height direction. For ease of description, the fastener passing through the third fastening hole 1072b and the second connecting hole 102d is referred to as the third fastener 112.

[0087] Specifically, after the shielding strip 105 is tightened, the second mounting block 1072 can be slid to connect the second mounting hole 105b with the second fastening hole 1072a. After the second mounting hole 105b and the second fastening hole 1072a are connected, the second fastener 111 can be inserted into the second mounting hole 105b and the second fastening hole 1072a, so that the shielding strip 105 and the second mounting block 1072 are fastened together by the second fastener 111, thus securing the second mounting block... After adjusting 1072 to a suitable height, the third fastener 112 is then inserted into the second connecting hole 102d and the third fastening hole 1072b, so that the second mounting block 1072 and the support structure 102 are fastened together by the third fastener 112. Alternatively, the third fastener 112 can be inserted into the second connecting hole 102d and the third fastening hole 1072b first, and then the second fastener 111 can be inserted into the second mounting hole 105b and the second fastening hole 1072a.

[0088] The second mounting block 1072 not only further improves the reliability of the installation of the shielding strip 105, but also better ensures that the shielding strip 105 can be kept in a taut state.

[0089] In other embodiments, the tensioning structure 107 may not be provided for the shielding strip 105, which is a steel strip. For example, please refer to [link to relevant documentation]. Figures 17 to 19 The conservation equipment 100 can be equipped with magnetic strips 116 on the support structure 102. The steel strip can also be magnetically attracted to the magnetic strips 116, so that the undeformed part of the shielding strip 105 can stay in contact with the support structure 102.

[0090] In one embodiment, please refer to Figures 12 to 14 Two shielding strips 105 can be provided at the slide groove 102a. The two shielding strips 105 are arranged side by side in the transverse direction, and part of the connecting structure 103 is exposed between the two shielding strips 105. That is to say, the connecting structure 103 is exposed through the gap between the two shielding strips 105. During the lifting and lowering of the connecting structure 103, the two shielding strips 105 may deform in a direction away from the slide groove 102a under the force of the connecting structure 103, or they may not deform.

[0091] In one embodiment, please refer to Figure 15 and Figure 16 The conservation equipment 100 may be provided with two winding components 109. The two winding components 109 are provided on the support structure 102. At least a portion of both ends of the shielding strip 105 are respectively wound around the two winding components 109. During the lifting and lowering process of the connecting structure 103, one winding component 109 releases the shielding strip 105, and the other winding component 109 winds up the shielding strip 105 to cooperate with the lifting and lowering of the connecting structure 103.

[0092] In other words, one winding component 109 is located on the upper side of the connecting structure 103, and the other winding component 109 is located on the lower side of the connecting structure 103. During the process of the connecting structure 103 rising, the winding component 109 located on the upper side of the connecting structure 103 winds up the shielding tape 105, and the winding component 109 located on the lower side of the connecting structure 103 releases the shielding tape 105. During the process of the connecting structure 103 falling, the winding component 109 located on the lower side of the connecting structure 103 winds up the shielding tape 105, and the winding component 109 located on the upper side of the connecting structure 103 releases the shielding tape 105.

[0093] The winding component 109 can be a coil spring, a tape winder, or other winding structures that enable winding and unwinding.

[0094] In one embodiment, the conservation equipment 100 may further include a roll-up member 109 disposed on the support structure 103, at least a portion of one end of the shielding strip 105 is wound around the roll-up member 109, and at least a portion of the other end of the shielding strip 105 is flexible. During the lifting and lowering of the connecting structure 103, the roll-up member 109 rolls up or releases the shielding strip 105, and the flexible portion of the other end of the shielding strip 105 extends and retracts accordingly to cooperate with the lifting and lowering of the connecting structure 103.

[0095] In other words, the flexible part of the shielding strip 105 can extend and retract. During the lifting and lowering process of the connecting structure 103, if the winding and unwinding component 109 winds up the shielding strip 105, the flexible part at the other end of the shielding strip 105 will extend accordingly. If the winding and unwinding component 109 releases the shielding strip 105, the flexible part at the other end of the shielding strip 105 will retract accordingly, thereby cooperating with the lifting and lowering of the connecting structure 103.

[0096] In one embodiment, the shielding strip 105 may also include at least an accordion-style protective cover, which extends and retracts during the lifting and lowering of the connecting structure 103 to coordinate with the lifting and lowering of the connecting structure 103.

[0097] In one embodiment, the shielding strip 105 may be provided with shielding bristles of the sliding groove 102a, the bristles having a plurality of monofilaments, and the partial connecting structure 103 pushing the monofilaments aside to expose them from the bristles.

[0098] In other words, the shielding strip 105 can use bristles with several monofilaments to shield the slide groove 102a. During the lifting and lowering process of the connecting structure 103, part of the connecting structure 103 pushes away the monofilaments, allowing the monofilaments to fall over to avoid the connecting structure 103. After the connecting structure 103 moves to other positions, the fallen monofilaments stand up again to restore their original state.

[0099] In one embodiment, please refer to Figure 3 , Figure 6 and Figure 11 The childcare equipment 100 includes a main control board (not shown) and a connecting cable 114. The main control board can be housed within a support structure 102 or within a housing 101. For a support structure 102 having a receiving cavity 102b that communicates with a slide 102a, the childcare equipment 100 can provide a guide structure 113 within the receiving cavity 102b, the guide structure 113 extending along the height direction. At least a portion of the connecting cable 114 is retractably wound around the guide structure 113 along its extension direction. The connecting cable 114 is electrically connected to the main control board, and extends through the slide 102a into the interior of the connecting arm 1042.

[0100] The fact that the connecting cable 114 is retractably wound around the guide structure 113 along the extension direction of the guide structure 113 means that during the lifting and lowering of the connecting arm 1042, the portion of the connecting cable 114 wound around the guide structure 113 can be extended or shortened along the guide structure 113.

[0101] The connecting cable 114 can be used for electrical connection with some components of the conservation equipment 100 or with equipment used in conjunction with the conservation equipment 100.

[0102] For example, the connecting arm 1042 can be a telescopic structure, meaning that the connecting arm 1042 can extend and retract. The telescopic movement of the connecting arm 1042 can cause the housing 1041 to change position, thereby avoiding certain structures or components on the conservation equipment 100 during or after the opening of the connecting arm 1042. The conservation equipment 100 may have a telescopic drive mechanism inside the connecting arm 1042 for driving the extension and retraction of the connecting arm 1042, and the connecting cable 114 can be electrically connected to the telescopic drive mechanism.

[0103] The connecting cable 114 can supply power to the telescopic drive mechanism by being electrically connected to it.

[0104] In addition, the telescopic drive mechanism and the main control board can transmit signals through the connecting cable 114 or wirelessly. That is to say, the signal transmission between the telescopic drive mechanism and the main control board can be achieved through the connecting cable 114 or not.

[0105] Please see Figure 6 and Figure 11 The conservation equipment 100 can have a mainboard adapter 115 installed inside the connecting arm 1042. The connecting cable 114 includes a first cable (not shown) and a second cable (not shown). The first cable is wound on the guide structure 113. The main control board is electrically connected to the mainboard adapter 115 through the first cable. The telescopic drive mechanism is electrically connected to the mainboard adapter 115 through the second cable. That is to say, the connecting cable 114 can have at least two cables, the first cable and the second cable. The first cable is located between the main control board and the mainboard adapter 115 to realize the electrical connection between the main control board and the mainboard adapter 115. The second cable is located between the telescopic drive mechanism and the mainboard adapter 115 to realize the electrical connection between the telescopic drive mechanism and the mainboard adapter 115. It is equivalent to the main control board and the telescopic drive mechanism being electrically connected through the adapter 115.

[0106] In other embodiments, the connecting cable 114 may also be directly electrically connected to the telescopic drive mechanism without providing a motherboard adapter 115.

[0107] For example, the childcare equipment 100 may be provided with an external interface, which may be provided in the housing 1041 or the connecting arm 1042. The external interface is electrically connected to the main control board through the connecting cable 114.

[0108] Please see Figure 1 An external interface (not shown in the figure) is used for electrical connection with electronic device 200. The number of external interfaces can be one or more. When the number of external interfaces is more than one, each external interface can be connected to the corresponding electronic device 200, which is equivalent to using multiple electronic devices 200 at the same time.

[0109] Electronic device 200 is a device that can be used in conjunction with conservation equipment 100. It should be noted that conservation equipment 100 can also be used independently without electronic device 200. For example, conservation equipment 100 can adjust temperature, humidity and oxygen concentration.

[0110] The type of electronic device 200 is not limited. For example, electronic device 200 may include at least one of a blue light device, a vital signs monitoring device, a camera, a radiometer, a lighting lamp, a light sensor, and a box defogging device.

[0111] It should be noted that if the external interface is located in the housing 1041, a portion of the connecting cable 114 will extend from the inside of the connecting arm 1042 to the outside of the connecting arm 1042. If the external interface is located in the connecting arm 1042, the connecting cable 114 may not extend from the inside of the connecting arm 1042 to the outside. For example, a mounting port 1042a may be provided on the connecting arm 1042, and the external interface may be installed at the mounting port 1042a. Alternatively, the connecting cable 114 may extend from the inside of the connecting arm 1042 to the outside. For example, a clearance opening may be provided on the connecting arm 1042, and the connecting cable 114 may extend from the clearance opening, with the external interface located at the end of the connecting cable 114. The main purpose of electrically connecting the electronic device 200 to the external interface is to enable the main control board to supply power to the electronic device 200 through the connecting cable 114.

[0112] In addition, the electronic device 200 and the main control board can transmit signals through the connecting cable 114 or wirelessly. That is to say, the signal transmission between the electronic device 200 and the main control board can be achieved through the connecting cable 114 or not.

[0113] In related technologies, electronic devices are usually placed separately on the enclosure assembly, and the connecting cables of the electronic devices are located outside the care equipment. In order to prevent the connecting cables from being scattered outside the care equipment, it is necessary to use methods such as binding to restrain the connecting cables separately, which increases the workload of medical staff.

[0114] The childcare equipment 100 has an external interface for electrical connection to the electronic equipment 200 provided in the housing assembly 104 or the connecting arm 1042. At least part of the connecting cable 114, which is electrically connected to the external interface, is located inside the support structure 102 and the connecting arm 1042 and is electrically connected to the main control board of the childcare equipment 100. This allows the connecting cable 114 to be integrated into the childcare equipment 100 and prevents it from being scattered outside the childcare equipment 100. Therefore, this arrangement does not require additional constraints on the connecting cable 114, which facilitates the management of the connecting cable 114 and reduces the workload of medical staff.

[0115] Please continue reading. Figure 6 and Figure 11The conservation equipment 100 can also have a motherboard adapter 115 installed inside the connecting arm 1042. The connecting cable 114 includes a first cable and a third cable. The first cable is wound around the guide structure 113. The main control board is electrically connected to the motherboard adapter 115 through the first cable, and the external interface is electrically connected to the motherboard adapter 115 through the third cable. That is to say, the connecting cable 114 can have at least two cables, the first cable and the third cable. The first cable is located between the main control board and the motherboard adapter 115 to realize the electrical connection between the main control board and the motherboard adapter 115. The third cable is located between the external interface and the motherboard adapter 115 to realize the electrical connection between the external interface and the motherboard adapter 115. In other words, the main control board and the external interface can be electrically connected through the motherboard adapter 115.

[0116] In other embodiments, the connecting cable 114 may also be directly electrically connected to the external interface without providing a motherboard adapter 115.

[0117] In other embodiments, the connecting cable 114 may also be electrically connected to the telescopic drive mechanism and the external interface respectively. For example, the connecting arm 1042 is provided with a motherboard adapter 115. The connecting cable 114 may include a first cable, a second cable and a third cable. The main control board is electrically connected to the motherboard adapter 115 through the first cable, the telescopic drive mechanism is electrically connected to the motherboard adapter 115 through the second cable, and the external interface is electrically connected to the motherboard adapter 115 through the third cable.

[0118] The guide structure 113 not only facilitates the organization of the connecting cables 114, but also effectively prevents the connecting cables 114 from interfering with other structures or components inside the support structure 102.

[0119] To facilitate the insertion of the connecting cable 114 into the connecting arm 1042, please refer to [link / reference needed]. Figure 6 and Figure 11 The connecting structure 103 can extend into the interior of the connecting arm 1042. The connecting structure 103 can be provided with a wire passage 103b, which is connected to the interior of the connecting arm 1042. The connecting cable 114 passes through the wire passage 103b, that is, the connecting cable 114 extends into the interior of the connecting arm 1042 by passing through the wire passage 103b.

[0120] The connection structure 103 is provided with a cable passage 103b, which can both constrain the connection cable 114 so that the connection cable 114 can extend into the interior of the connection arm 1042, and also provide a good hiding effect for the connection cable 114.

[0121] In other embodiments, a wire passage 103b may be formed between the connecting structure 103 and the connecting arm 1042. For example, the connecting structure 103 and the connecting arm 1042 may be spaced apart so that the wire passage 103b is formed at the interval. Alternatively, grooves may be provided on the connecting structure 103 and the connecting arm 1042 respectively, and the grooves on the connecting structure 103 and the connecting arm 1042 together enclose the wire passage 103b.

[0122] In the description of this application, the references to terms such as "in one embodiment," "in some embodiments," "in other embodiments," or "exemplary," etc., refer to specific features, structures, materials, or characteristics described in connection with that embodiment or example, which are included in at least one embodiment or example of the embodiments of this application. In this application, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Moreover, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. Furthermore, without contradiction, those skilled in the art can combine the different embodiments or examples described in this application, as well as the features of the different embodiments or examples.

[0123] The above description is merely a preferred embodiment of this application and is not intended to limit the application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application are included within the scope of protection of this application.

Claims

1. A conservation device, characterized in that, include: A box with an opening at the top; A support structure is provided on one side of the housing, the support structure having a groove that extends between opposite ends of the support structure along the height direction; A connecting structure, wherein the connecting structure is vertically and retractably inserted into the slide groove; A drive mechanism drives the connecting structure to move up and down along the slide rail; A box cover assembly includes a box cover and a connecting arm connected to the box cover. The slide has a slot facing the connecting arm. The connecting arm is connected to a connecting structure. The connecting structure drives the connecting arm to rise and fall by lifting, thereby moving the box cover between an open position with the opening open and a closed position with the opening covered. A shielding strip, the two ends of which are connected to the support structure and shield at least a portion of the opening of the slide groove along the extension direction of the slide groove, wherein the shielding strip always shields at least a portion of the connecting structure during the lifting and lowering process of the connecting structure.

2. The childcare equipment according to claim 1, characterized in that, The support structure further includes a receiving cavity, the slide is connected to the receiving cavity, a part of the connecting structure is located inside the receiving cavity and is drivenly connected to the driving mechanism, and another part of the connecting structure is located outside the support structure and is connected to the connecting arm.

3. The childcare equipment according to claim 1 or 2, characterized in that, During the raising and lowering of the connecting structure, the connecting structure causes the shielding strip to recover its topographical deformation in accordance with the raising and lowering of the connecting structure.

4. The childcare equipment according to claim 3, characterized in that, The two ends of the shielding strip are fixedly connected to the support structure, and the connecting structure causes the shielding strip to deform by pushing it.

5. The conservation equipment according to claim 4, characterized in that, The connecting structure has a support surface on the side near the shielding strip, and the shielding strip abuts against the support surface.

6. The childcare equipment according to claim 5, characterized in that, The supporting surface is a curved surface that protrudes toward the shielding strip.

7. The childcare equipment according to claim 5, characterized in that, The connecting structure includes a transition block and a support block having the support surface. The transition block avoids the shielding strip and protrudes from the support surface in a direction away from the support structure. The connecting arm is connected to the transition block.

8. The conservation equipment according to claim 7, characterized in that, The number of the adapter blocks is two, and the two adapter blocks are located on opposite sides of the support block in the lateral direction perpendicular to the height direction. The connecting arm is connected to the two adapter blocks.

9. The childcare equipment according to claim 4, characterized in that, The connection structure includes a transfer body connected to the connecting arm and a roller rotatably disposed on the transfer body, with the shielding strip abutting against the roller.

10. The conservation equipment according to claim 4, characterized in that, The conservation equipment also includes a pressing member, which is disposed on at least one side of the connecting structure along the extension direction of the shielding strip. The pressing member abuts against the side of the shielding strip opposite to the slide groove and rises and falls synchronously with the connecting structure.

11. The childcare equipment according to claim 10, characterized in that, The pressing member remains stationary relative to the connecting structure; or... The pressing member can rotate relative to the connecting structure.

12. The childcare equipment according to claim 10, characterized in that, The pressing member is disposed on at least one of the connecting arm and the connecting structure.

13. The childcare equipment according to claim 12, characterized in that, The body of the connecting arm has a mounting opening facing the shielding strip, the pressing member is disposed inside the body and close to the mounting opening, and the part of the connecting structure that pushes the shielding strip extends into the body from the mounting opening.

14. The childcare equipment according to claim 3, characterized in that, The conservation equipment also includes a tensioning structure disposed at at least one end near both ends of the shielding strip, the shielding strip being adjustablely tensioned and mounted to the support structure via the tensioning structure.

15. The childcare equipment according to claim 14, characterized in that, The support structure also has a first connecting hole, the tensioning structure includes a first mounting block with a first fastening hole, the shielding strip has a first mounting hole, the length of the first mounting hole along the extension direction of the shielding strip is greater than the length of the first connecting hole along the extension direction and greater than the length of the first fastening hole along the extension direction; the first mounting block abuts against the side of the shielding strip away from the support structure, and the conservation device also includes a first fastener that passes through the first fastening hole, the first mounting hole and the first connecting hole in sequence.

16. The childcare equipment according to claim 15, characterized in that, The conservation equipment also includes a guide column disposed on the support structure and extending along the height direction, the tensioning structure includes a second mounting block, the second mounting block is slidably connected to the guide column, and the shielding strip is connected to the second mounting block.

17. The conservation equipment according to claim 1 or 2, characterized in that, The shielding strip includes a steel strip.

18. The conservation equipment according to claim 17, characterized in that, The conservation equipment also includes a magnetic strip disposed on the support structure, and the steel strip is magnetically attracted to the magnetic strip.

19. The conservation equipment according to claim 1 or 2, characterized in that, Two shielding strips are provided at the slide groove. The two shielding strips are arranged side by side in a transverse direction perpendicular to the height direction, and part of the connecting structure is exposed between the two shielding strips.

20. The conservation equipment according to claim 1 or 2, characterized in that, The shielding strip includes bristles that shield the groove, the bristles having a plurality of monofilaments, and a portion of the connecting structure pushes the monofilaments aside to expose them from the bristles.

21. The childcare equipment according to claim 1 or 2, characterized in that, The conservation equipment includes two unwinding components disposed on the support structure. At least portions of both ends of the shielding strip are respectively wound around the two unwinding components. During the lifting and lowering of the connecting structure, one of the unwinding components releases the shielding strip, and the other unwinding component winds up the shielding strip to cooperate with the lifting and lowering of the connecting structure.

22. The childcare equipment according to claim 21, characterized in that, The winding component is a coil spring or a tape winder.

23. The childcare equipment according to claim 1 or 2, characterized in that, At least one end of the shielding strip includes an accordion-style protective cover, which extends and retracts during the lifting and lowering of the connecting structure to coordinate with the lifting and lowering of the connecting structure.

24. The childcare equipment according to claim 1 or 2, characterized in that, The conservation equipment also includes a roll-up component disposed on the support structure. At least a portion of one end of the shielding strip is wound around the roll-up component, and at least a portion of the other end of the shielding strip is flexible. During the lifting and lowering of the connecting structure, the roll-up component winds up or releases the shielding strip, and the flexible portion of the other end of the shielding strip extends and retracts accordingly to cooperate with the lifting and lowering of the connecting structure.

25. The conservation equipment according to claim 1 or 2, characterized in that, The support structure also has a limiting groove extending along the height direction, the limiting groove communicating with the slide groove and located on the side of the slide groove facing the connecting arm, and the shielding strip is disposed in the limiting groove.

26. The childcare equipment according to claim 1, characterized in that, The conservation equipment also includes a main control board, a guide structure, and a connecting cable. The support structure also includes a receiving cavity communicating with the slide. The guide structure is disposed in the receiving cavity and extends along the height direction. At least a portion of the connecting cable is retractably wound around the guide structure along the extension direction of the guide structure. The connecting cable is electrically connected to the main control board, and the connecting cable extends into the interior of the connecting arm through the slide.

27. The childcare equipment according to claim 26, characterized in that, The connecting structure extends into the interior of the connecting arm; the connecting structure has a wire passage, or a wire passage is formed between the connecting structure and the connecting arm, the wire passage is connected to the interior of the connecting arm, and the connecting cable passes through the wire passage.

28. The childcare equipment according to claim 26, characterized in that, The connecting arm is a telescopic structure, and the conservation equipment also includes a telescopic drive mechanism, which is disposed inside the connecting arm to drive the connecting arm to extend or retract. The connecting cable is electrically connected to the telescopic drive mechanism.

29. The childcare equipment according to claim 28, characterized in that, The conservation equipment also includes a motherboard adapter disposed inside the connecting arm. The connecting cable includes a first cable and a second cable. The first cable is wound around the guide structure. The main control board is electrically connected to the motherboard adapter through the first cable. The telescopic drive mechanism is electrically connected to the motherboard adapter through the second cable.

30. The childcare equipment according to claim 26, characterized in that, The conservation equipment also includes an external interface, which is located on the housing or the connecting arm and is electrically connected to the main control board via the connecting cable.

31. The childcare equipment according to claim 30, characterized in that, The conservation equipment also includes a motherboard adapter disposed inside the connecting arm. The connecting cable includes a first cable and a third cable. The first cable is wound around the guide structure. The main control board is electrically connected to the motherboard adapter through the first cable. The external interface is electrically connected to the motherboard adapter through the third cable.