CN220124357U - Lifting mechanism and infant care equipment - Google Patents
Lifting mechanism and infant care equipment Download PDFInfo
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- CN220124357U CN220124357U CN202321507965.0U CN202321507965U CN220124357U CN 220124357 U CN220124357 U CN 220124357U CN 202321507965 U CN202321507965 U CN 202321507965U CN 220124357 U CN220124357 U CN 220124357U
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- 238000005096 rolling process Methods 0.000 claims description 27
- 230000000694 effects Effects 0.000 claims description 14
- 230000001681 protective effect Effects 0.000 claims description 14
- 230000002093 peripheral effect Effects 0.000 claims description 10
- 235000017166 Bambusa arundinacea Nutrition 0.000 claims description 7
- 235000017491 Bambusa tulda Nutrition 0.000 claims description 7
- 241001330002 Bambuseae Species 0.000 claims description 7
- 235000015334 Phyllostachys viridis Nutrition 0.000 claims description 7
- 239000011425 bamboo Substances 0.000 claims description 7
- 238000013016 damping Methods 0.000 claims description 7
- 230000035939 shock Effects 0.000 claims description 4
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000003139 buffering effect Effects 0.000 description 2
- 208000027418 Wounds and injury Diseases 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
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Abstract
The utility model relates to a lifting mechanism and infant care equipment, wherein the lifting mechanism comprises a fixing piece, the fixing piece comprises a fixed shaft and a fixed cover, and the fixed cover is covered on the fixed shaft and fixedly connected with the fixed shaft; the lifting cylinder is movably sleeved on the fixed shaft and positioned between the fixed shaft and the fixed cover, one end of the lifting cylinder penetrates through the fixed cover and extends out of the fixed cover, and the fixed cover is used for limiting the lifting cylinder to rotate; the driving mechanism comprises a driving cylinder, and the driving cylinder and the lifting cylinder can be driven to be sleeved. Compared with the prior art, the lifting cylinder only rubs with the fixed cover when doing lifting movement, and the utility model can effectively reduce noise generated by friction.
Description
Technical Field
The utility model relates to the technical field of infant care, in particular to a lifting mechanism and infant care equipment.
Background
With the advancement of technology, more and more products for caring for infants appear on the market, and by placing the infants on the products, the products can pacify and pleasure the infants so as to relieve the pressure of parents for holding the infants.
How to meet the requirements of lifting movement and low noise of infant care equipment is always a problem which needs to be solved in industry. The prior patent with publication number of CN104055355B discloses a variable movement infant seat, when the seat is in vertical lifting movement, noise is easy to generate due to the friction rotation and friction rolling of a first double-scissor type mechanism and a second double-scissor type mechanism respectively with a rigid platform, the infant care is not facilitated, and if the infant sleeping is performed by using the seat, the infant sleeping is difficult to be performed due to the noise generated, so that the use experience is reduced. Based on the problems existing in the prior art, my department proposes a lifting mechanism and infant care equipment.
Disclosure of Invention
Based on this, it is an object of the present utility model to provide a lifting mechanism which not only has a good balance but also has the advantage of low noise; the utility model also provides infant care equipment.
The first object of the present utility model is achieved by the following technical solutions:
a lifting mechanism comprising:
the fixing piece comprises a fixing shaft and a fixing cover, and the fixing cover is covered on the fixing shaft and fixedly connected with the fixing shaft;
the lifting cylinder is movably sleeved on the fixed shaft and positioned between the fixed shaft and the fixed cover, one end of the lifting cylinder penetrates through the fixed cover and extends out of the fixed cover, and the fixed cover is used for limiting the lifting cylinder to rotate;
the driving mechanism comprises a driving cylinder, and the driving cylinder and the lifting cylinder can be driven to be sleeved.
The utility model is further provided with: the driving cylinder is provided with at least one driving groove, the driving groove is arranged along the circumferential direction of the driving cylinder and is obliquely arranged, the lifting cylinder is provided with a sliding piece, and the sliding piece is slidably clamped in the driving groove.
The utility model is further provided with: the driving grooves are formed in an annular shape on the inner wall of the driving cylinder, and the lowest point of one driving groove of the adjacent two driving grooves is located above the highest point of the other driving groove.
The utility model is further provided with: the sliding pieces are arranged at least two corresponding to the driving grooves, at least two sliding pieces are arranged on two sides of the lifting cylinder and along the length direction of the lifting cylinder, two adjacent sliding pieces in the sliding pieces are arranged on two sides of the lifting cylinder, one of the two adjacent sliding pieces in the sliding pieces is arranged above the other sliding piece, and at least two corresponding sliding pieces are clamped in the driving grooves.
The utility model is further provided with: the sliding piece is a sliding wheel.
The utility model is further provided with: at least one first bearing is arranged between the lifting cylinder and the fixed shaft and used for driving the axis of the fixed shaft and the axis of the lifting cylinder to be positioned on the same straight line.
The utility model is further provided with: the fixed cover comprises a fixed cylinder, the fixed cylinder is sleeved on the driving cylinder and is in clearance with the outer wall of the driving cylinder, and the fixed cylinder is connected with the fixed shaft.
The utility model is further provided with: the bottom of the fixed cylinder is provided with a connecting piece, the connecting piece is provided with a connecting groove with an opening facing the opening of the fixed cylinder, and the connecting groove is fixedly sleeved with the fixed shaft.
The utility model is further provided with: the connecting piece is provided with at least one through hole, at least one through hole is positioned at the outer side of the connecting groove, one end of the lifting cylinder is provided with at least one supporting block, and at least one supporting block extends out of the fixed cylinder through at least one through hole.
The utility model is further provided with: the movable cover is sleeved on the fixed cylinder, and the supporting block is connected with the movable cover.
The utility model is further provided with: the movable cover is provided with a gap between the movable cover and the fixed cylinder, a rolling assembly is arranged between the movable cover and the fixed cylinder, and the rolling assembly is used for reducing friction between the movable cover and the fixed cylinder and limiting the movable cover to rotate relative to the fixed cylinder.
The utility model is further provided with: the rolling assembly comprises at least three groups of first rollers, at least three groups of first rollers are uniformly arranged on the inner wall of the movable cover, gaps exist between two adjacent groups of first rollers, at least three groups of first rollers surround the peripheral wall of the fixed cylinder, and the peripheral wall of the first rollers are abutted to the fixed cylinder.
The utility model is further provided with: the rolling assembly comprises at least three groups of second rollers, at least three groups of second rollers are uniformly arranged on the circumferential outer wall of the fixed cylinder, gaps exist between two adjacent groups of second rollers, and the circumferential wall of each second roller is abutted to the movable cover.
The utility model is further provided with: the rolling assembly further comprises at least three groups of first rollers, the at least three groups of first rollers are uniformly arranged on the inner wall of the movable cover, gaps exist between two adjacent groups of first rollers, the at least three groups of first rollers surround the peripheral wall of the fixed cylinder, and the peripheral wall of the first rollers is abutted with the fixed cylinder; at least three groups of first rollers and at least three groups of second rollers are arranged at intervals, wherein one first roller is positioned between two adjacent second rollers.
The utility model is further provided with: and a gap exists between the hole wall of the through hole and the supporting block.
The utility model is further provided with: the fixed cover is characterized by further comprising a cover body arranged at the bottom of the fixed cylinder, the driving mechanism is arranged in the cover body, the top of the cover body is provided with a protective cover, the movable cover is positioned in the protective cover, and a gap exists between the movable cover and the protective cover.
The utility model is further provided with: the fixing piece further comprises a base, wherein the base is positioned in the fixing cover and fixedly connected with the fixing cover, and the base is fixedly connected with the fixing shaft.
The utility model is further provided with: the lifting cylinder is located above the base, an elastic piece is arranged between the base and the lifting cylinder, and the elastic piece is sleeved on the fixed shaft.
The utility model is further provided with: the fixing piece further comprises a base, and the driving cylinder is movably sleeved on the base.
The utility model is further provided with: the connecting piece is positioned in the driving cylinder, and a second bearing is arranged between the driving cylinder and the connecting piece; and another second bearing is arranged between the driving cylinder and the base.
The utility model is further provided with: the axis of the first bearing and the axis of the second bearing are positioned on the same straight line,
the utility model is further provided with: the fixing piece further comprises a base, the driving barrel comprises a barrel body and a turbine fixedly connected with the barrel body, the barrel body can be sleeved on the lifting barrel in a driving mode, and the turbine is movably connected with the base.
The utility model is further provided with: the driving mechanism comprises a worm meshed with the turbine and a motor for driving the worm to rotate.
The utility model is further provided with: the motor is fixedly connected with the inner cavity of the fixed cover, and a shock pad is arranged between the motor and the fixed cover.
The utility model is further provided with: the fixing piece further comprises a base, the worm is installed on the base, and a damping sleeve is arranged between the worm and the base.
The second object of the present utility model is achieved by the following technical solutions:
the infant care apparatus comprises the lifting mechanism and further comprises a supporting component for supporting an infant, wherein the supporting component is arranged at the top of the lifting cylinder.
In summary, the beneficial technical effects of the utility model are as follows:
compared with the prior art, the lifting mechanism provided by the utility model has the advantages that as the fixed shaft and the fixed cover are relatively fixed, the lifting cylinder penetrates through the fixed cover and is connected with the movable cover, so that the fixed cover can limit the rotation of the lifting cylinder and the movable cover, and the lifting cylinder and the movable cover can only do lifting back and forth reciprocating motion; when the driving cylinder drives the lifting cylinder to rotate, the lifting cylinder is limited to rotate by the fixed cover, so that the lifting cylinder reciprocates back and forth along the length direction of the lifting cylinder, namely the lifting cylinder moves in a lifting manner; because the lifting cylinder only rubs with the fixed cover when doing lifting movement, the utility model can effectively reduce noise generated by friction.
Further, the inner wall of the driving cylinder is provided with a driving groove, the lifting cylinder is provided with a sliding piece clamped in the driving groove, and the driving groove is obliquely arranged and the lifting cylinder cannot rotate; the sliding piece is preferably a sliding wheel, and the lifting cylinder performs rolling friction motion with the driving groove through the sliding wheel, so that noise can be effectively reduced. The driving grooves are at least two, the lowest point of one driving groove of two adjacent driving grooves in the at least two driving grooves is positioned above the highest point of the other driving groove, at least two sliding pieces are correspondingly arranged, two adjacent sliding pieces in the at least two sliding pieces are positioned on two sides of the lifting cylinder, and the at least two sliding pieces are correspondingly and slidably clamped in the at least two driving grooves; when the driving cylinder rotates, as the at least two sliding pieces are positioned in the at least two driving grooves, the driving cylinder can be effectively lifted to drive the lifting cylinder to do the balance and the stability of lifting motion through the driving grooves, and the noise is further reduced. Because the driving groove is in the annular arrangement in the driving cylinder, the driving cylinder rotates to one direction to drive the lifting cylinder to do lifting motion, and the driving cylinder does not need to do reciprocating motion in two directions, so that the arrangement of the driving mechanism is simplified.
At least one first bearing is arranged between the fixed shaft and the lifting cylinder, the first bearing is a linear bearing, the first bearing plays a role of driving the axis of the fixed shaft and the axis of the lifting cylinder to be positioned on the same straight line, dislocation of the lifting cylinder can be effectively reduced, power required by lifting of the lifting cylinder is reduced, meanwhile friction between the lifting cylinder and the fixed shaft can be reduced, noise is reduced, and balance and stability of the lifting cylinder during lifting can be improved. Be equipped with the second bearing between actuating cylinder and the connecting piece, be equipped with another second bearing between actuating cylinder and the base, the both ends of actuating cylinder are connected with base and connecting piece (fixed cylinder) respectively through the second bearing promptly for on the one hand, the axle center that makes base, connecting piece and actuating cylinder all is located same straight line, noise because of friction production when reducing actuating cylinder rotation, on the other hand, the second bearing drives the sliding friction between actuating cylinder and base and the connecting piece respectively and becomes rolling friction, thereby can effectively reduce friction, thereby noise reduction, promote equilibrium and stability. And because the axis of the first bearing and the axis of the second bearing are positioned on the same straight line, the axes of the driving cylinder, the connecting piece, the base, the fixed shaft and the lifting cylinder are all positioned on the same straight line, and the noise generated by friction of the driving cylinder, the connecting piece, the base, the fixed shaft and the lifting cylinder can be effectively reduced. Because the slot center of the connecting slot and the axis of the fixed cylinder are positioned on the same straight line, the axes of the driving cylinder, the fixed cylinder, the base, the fixed shaft and the lifting cylinder are all positioned on the same straight line, friction can be reduced, noise is reduced, meanwhile, balance and stability of the lifting mechanism during lifting motion are optimized, in addition, energy loss during lifting motion of the lifting cylinder can be reduced, and accordingly energy loss of lifting motion of the lifting mechanism is reduced, and the effect of saving energy consumption is achieved.
The rolling component is arranged between the movable cover and the fixed cylinder, and the rolling component not only plays a role in driving sliding friction between the movable cover and the fixed cylinder to be changed into rolling friction so as to reduce noise generated by friction between the movable cover and the fixed cylinder, but also plays a role in limiting the rotation of the movable cover relative to the fixed cylinder. Because the movable cover is fixedly connected with the lifting cylinder, the movable cover cannot rotate relative to the fixed cylinder, namely the movable cover cannot rotate, so that the lifting cylinder cannot rotate; gaps exist between the supporting blocks of the lifting cylinder and the hole walls of the through holes, friction cannot be generated between the supporting blocks and the through holes, and therefore only rolling friction exists when the lifting cylinder is used for lifting, and friction force and generated noise can be effectively reduced. The rolling assembly comprises at least three first rollers and at least three second rollers, the first rollers and the second rollers are arranged at intervals, noise can be reduced, and balance of the movable cover during lifting movement can be improved.
An elastic piece is arranged between the lifting cylinder and the base, and when the lifting cylinder is lifted, the elastic piece plays a role in pushing the lifting cylinder to lift so as to reduce the power required by driving the lifting cylinder to lift; when the lifting cylinder descends, the elastic piece plays a role of buffering, and the descending speed of the lifting cylinder is reduced to be too high, so that the descending balance and stability of the lifting cylinder are improved.
The safety cover is located and is had the clearance between activity cover and the safety cover and the activity cover, and the safety cover not only plays the effect that restriction user's hand stretched between activity cover and the cover body to restriction user is pressed from both sides to be injured by the activity cover, in order to promote factor of safety, moreover, if fixed section of thick bamboo can not restrict the activity cover rotation, and the safety cover can play restriction activity cover pivoted effect.
The utility model also provides infant care equipment, which comprises the lifting mechanism, so that the infant care equipment has the advantages of low noise, balance and stability, and is convenient for better care of infants.
For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.
Drawings
The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.
Fig. 1 is a schematic view of the structure of the apparatus of the present utility model.
Fig. 2 is a cross-sectional view of A-A in fig. 1.
Fig. 3 is a schematic structural view of the lifting mechanism of the present utility model.
Fig. 4 is an exploded view of the lifting mechanism of the present utility model.
Fig. 5 is an exploded view of the lifting mechanism of the present utility model.
Fig. 6 is an exploded view of the lifting mechanism of the present utility model.
Fig. 7 is a cross-sectional view of B-B of fig. 6.
In the figure, 1, a fixing piece; 11. a fixed shaft; 12. a fixed cover; 121. a fixed cylinder; 122. a connecting piece; 123. a connecting groove; 124. a through hole; 125. a cover body; 13. a base; 14. a protective cover; 2. a lifting cylinder; 21. a sliding member; 22. a support block; 3. a driving mechanism; 31. a drive cylinder; 311. a driving groove; 312. a cylinder; 313. a turbine; 32. a worm; 33. a motor; 4. a first bearing; 5. a movable cover; 6. a rolling assembly; 61. a first roller; 62. a second roller; 7. an elastic member; 8. a second bearing; 9. and a support assembly.
Detailed Description
Terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible mentioned in this specification are defined with respect to their construction, and they are relative concepts. Therefore, the position and the use state of the device may be changed accordingly. These and other directional terms should not be construed as limiting terms.
The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of implementations consistent with aspects of the present disclosure.
The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.
The present utility model will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1 to 7, in order to disclose a lifting mechanism and an infant care apparatus according to the present utility model, the infant care apparatus further includes a support assembly 9 for supporting an infant, and the support assembly 9 is disposed on top of the lifting mechanism, so that the lifting mechanism drives the support assembly 9 to lift and reciprocate back and forth, so as to take care of the infant.
In some embodiments, the lifting mechanism comprises a fixture 1, a lifting cylinder 2, and a drive mechanism 3; the fixing piece 1 comprises a base 13, a fixing shaft 11 and a fixing cover 12, wherein the base 13 and the fixing shaft 11 are both positioned in the fixing cover 12, the fixing cover 12 is covered on the fixing shaft 11, two ends of the fixing shaft 11 are respectively fixedly connected with the base 13 and the fixing cover 12, and the base 13 is positioned at the bottom of the fixing shaft 11; the lifting cylinder 2 is movably sleeved on the fixed shaft 11 and is positioned between the fixed shaft 11 and the fixed cover 12, one end of the lifting cylinder 2 penetrates through the fixed cover 12 and extends out of the fixed cover 12, and the fixed cover 12 is used for limiting the rotation of the lifting cylinder 2; the driving mechanism 3 comprises a driving cylinder 31, and the driving cylinder 31 and the lifting cylinder 2 can be in driving sleeve joint; wherein, the driving cylinder 31 can be sleeved on the lifting cylinder 2 in a driving way and is positioned between the lifting cylinder 2 and the fixed cover 12; of course, the lifting cylinder 2 may be drivingly sleeved on the driving cylinder 31 and located between the driving cylinder 31 and the fixed cover 12, and in this case, the driving cylinder 31 is located between the lifting cylinder 2 and the fixed shaft 11; if the lifting cylinder 2 can be sleeved on the driving cylinder 31 in a driving way, other parts of the driving mechanism 3 are required to be in driving connection with the driving cylinder 31, and the fixed shaft 11 is fixedly connected with the fixed cover 12, so that the length of the fixed shaft 11 is longer, the height of the fixed cover 12 is better, and the preparation cost of the lifting mechanism is increased; therefore, the utility model adopts the scheme that the driving cylinder 31 can be driven to be sleeved on the lifting cylinder 2. When the driving cylinder 31 drives the lifting cylinder 2 to rotate, the lifting cylinder 2 can only move along the length direction thereof, namely, the lifting cylinder 2 can only move up and down due to the fact that the lifting cylinder 2 is limited to rotate by the fixed cover 12. Since the lifting cylinder 2 is only rubbed with the fixed cover 12 when doing lifting movement, the utility model can effectively reduce noise generated by friction.
In some embodiments, the driving cylinder 31 is provided with at least one driving groove 311, the driving groove 311 may be disposed on an inner wall or an outer wall of the driving cylinder 31, for the purposes of the present utility model, the driving groove 311 is disposed on the inner wall of the driving cylinder 31, the driving groove 311 is disposed along a circumferential direction of the inner wall of the driving cylinder 31, and the driving groove 311 is disposed obliquely, that is, the driving groove 311 has a slope, the outer wall of the lifting cylinder 2 is provided with a sliding member 21, and the sliding member 21 may be slidably clamped in the driving groove 311; when the driving cylinder 31 rotates, the driving cylinder 31 drives the lifting cylinder 2 to do lifting movement through the driving groove 311 because the lifting cylinder 2 cannot rotate. The driving groove 311 may be disposed in a thread shape on the inner wall of the driving cylinder 31, that is, the driving groove 311 is a thread groove; the driving groove 311 may be formed in an annular shape on the inner wall of the driving cylinder 31, that is, the driving groove 311 is a ring groove; the driving groove 311 may be provided in other suitable shapes. If the driving slot 311 is a threaded slot, the lifting movement of the lifting cylinder 2 is driven to be realized by driving the driving cylinder 31 to reciprocate back and forth, that is, the driving cylinder 31 rotates in one direction to drive the lifting cylinder 2 to rise, and the driving cylinder 31 rotates in the other direction to drive the lifting cylinder 2 to fall. If the driving groove 311 is a ring groove, when the driving cylinder 31 is vertically placed, the driving groove 311 has the highest point and the lowest point, and the sliding member 21 can move from the lowest point to the highest point and from the highest point to the lowest point along one direction. Accordingly, it is relatively advantageous that the driving groove 311 is provided in a ring shape.
In order to improve the balance and stability of the lifting motion of the lifting cylinder 2, at least two driving grooves 311 are arranged, the lowest point of one driving groove 311 of the adjacent two driving grooves 311 is positioned above the highest point of the other driving groove 311, and correspondingly, the highest point of one driving groove 311 of the adjacent two driving grooves 311 is positioned above the lowest point of the other driving groove 311. Correspondingly, at least two driving grooves 311 are arranged corresponding to at least two driving grooves 311, at least two sliding pieces 21 are arranged on two sides of the lifting cylinder 2 and along the length direction of the lifting cylinder 2, two adjacent sliding pieces 21 in the at least two sliding pieces 21 are positioned on two sides of the lifting cylinder 2, when the lifting cylinder 2 is vertically placed, the heights of the adjacent sliding pieces 21 on two sides of the lifting cylinder 2 are different, one sliding piece 21 in the two adjacent sliding pieces 21 in the at least two sliding pieces 21 is positioned above the other sliding piece 21, and the at least two sliding pieces 21 are correspondingly and slidably clamped in the at least two driving grooves 311. The driving cylinder 31 drives the at least two sliding pieces 21 through the at least two driving grooves 311 respectively to drive the lifting cylinder 2 to do lifting motion, so that the balance and stability of the lifting cylinder 2 to do lifting motion can be effectively improved. Those skilled in the art can set up the quantity of drive slot 311 as required, and the quantity of simplest drive slot 311 is two, and the correspondence is also equipped with two to slider 21, and two slider 21 are located the both sides of lift section of thick bamboo 2, and when lift section of thick bamboo 2 is vertical to be placed, and the difference in height that two slider 21 are located, and two slider 21 correspond to block respectively and arrange in two drive slot 311. In order to reduce the friction between the driving slot 311 and the sliding piece 21 and reduce noise, the sliding piece 21 may be a sliding wheel, and the sliding wheel changes sliding friction into rolling friction, so that the friction can be effectively reduced, and noise generated by friction is reduced.
In some embodiments, the fixed cover 12 includes a fixed cylinder 121 and a cover 125, as shown in fig. 2, the cover 125 is disposed at the bottom of the fixed cylinder 121, since the opening of the fixed cylinder 121 is toward the bottom, i.e., the cover 125 is located at the opening of the fixed cylinder 121; the fixed cylinder 121 is sleeved on the driving cylinder 31, a gap exists between the fixed cylinder 121 and the driving cylinder 31, and the fixed cylinder 121 passes through the driving cylinder 31 and the lifting cylinder 2 to be fixedly connected with the fixed shaft 11. More specifically, as shown in fig. 2, according to the placement mode of the fixed cylinder 121 in fig. 2, the connecting piece 122 is located at the top of the fixed cylinder 121, the connecting piece 122 is located at the top of the fixed shaft 11, the connecting piece 122 is provided with a connecting groove 123 with an opening facing the fixed cylinder 121, the connecting groove 123 is fixedly sleeved with the fixed shaft 11, and the center of the connecting groove 123 and the axis of the fixed cylinder 121 are located on the same straight line, so that the axis of the fixed cylinder 121 and the axis of the fixed shaft 11 are located on the same straight line. The connecting piece 122 is provided with at least one through hole 124, wherein the number of the through holes 124 can be set according to the requirement, preferably, the number of the through holes 124 is three, and the three through holes 124 are all positioned outside the connecting groove 123; one end of the lifting cylinder 2 is provided with at least one supporting block 22, and the corresponding supporting block 22 is preferably provided with three supporting blocks, and the three supporting blocks 22 respectively extend out of the fixed cylinder 121 through three through holes 124; since the fixed cylinder 121 cannot rotate, the through hole 124 plays a role of restricting the rotation of the elevation cylinder 2 to some extent.
In some embodiments, the device further comprises a movable cover 5, the movable cover 5 is sleeved on the fixed cylinder 121, and the supporting block 22 is fixedly connected with the movable cover 5 through the through hole 124. There is a gap between the movable cover 5 and the fixed cylinder 121, and a rolling assembly 6 is disposed between the movable cover 5 and the fixed cylinder 121, and the rolling assembly 6 is used for reducing friction between the movable cover 5 and the fixed cylinder 121 and limiting rotation of the movable cover 5 relative to the fixed cylinder 121. Since the rolling assembly 6 restricts the rotation of the movable cover 5 relative to the fixed cylinder 121, and since the movable cover 5 is connected with the lifting cylinder 2 through the supporting block 22, the fixed cylinder 121 restricts the rotation of the lifting cylinder 2 through the rolling assembly 6, the movable cover 5 and the supporting block 22. A gap exists between the wall of the through hole 124 and the support block 22 to restrict the support block 22 from contacting the wall of the through hole 124 when performing the lifting movement, thereby reducing noise.
Further, the rolling assembly 6 comprises at least three sets of first rollers 61 and at least three sets of second rollers 62; at least three groups of first rollers 61 are uniformly arranged on the inner wall of the movable cover 5, gaps exist between two adjacent groups of first rollers 61, at least three groups of first rollers 61 surround the peripheral wall of the fixed cylinder 121, and the peripheral wall of each first roller 61 is abutted against the fixed cylinder 121; wherein the first roller 61 is located at the opening of the movable cover 5, and the first roller 61 is close to the cover 125; at least three groups of second rollers 62 are uniformly arranged on the circumferential outer wall of the fixed cylinder 121, gaps exist between two adjacent groups of second rollers 62, and the circumferential wall of each second roller 62 is abutted with the movable cover 5; as shown in fig. 2, the second roller 62 is positioned at the top of the fixed cylinder 121 such that the second roller 62 is positioned above the first roller 61. At least three sets of first rollers 61 and at least three sets of second rollers 62 are arranged at intervals, wherein one first roller 61 is positioned between two adjacent second rollers 62 so as to limit the first rollers 61 and the second rollers 62 to abut against each other. In order to better limit the movement track of the first roller 61 and the second roller 62, a first wheel groove is formed in the movable cover 5, the second roller 62 is clamped in the first wheel groove, the first wheel groove is arranged along the length direction of the fixed shaft 11, the fixed cylinder 121 limits the rotation of the movable cover 5 through the second roller 62 and the first wheel groove, and the movable cover 5 moves along the length direction of the fixed shaft 11; correspondingly, the outer wall of the fixed cylinder 121 is provided with a second wheel groove, the second wheel groove is arranged along the length direction of the fixed cylinder 121, the first roller 61 is clamped in the second wheel groove, and the second wheel groove plays a role in limiting the rotation of the movable cover 5, so that the movable cover 5 moves along the length direction of the fixed cylinder 121. It should be noted that, when the cross section of the fixed cylinder 121 is in a circular ring shape, that is, when the fixed cylinder 121 is arranged in a cylindrical shape, only three sets of the first roller 61 and the second roller 62 may be arranged; in fact, the cross section of the fixing cylinder 121 is provided in a hollow polygonal shape, for example, the cross section of the fixing cylinder 121 is a hollow triangle, a hollow quadrangle, a hollow pentagon, or the like. The cross section of the movable cover 5 may also be in a ring shape, and the cross section of the movable cover 5 may also be in a hollow polygonal shape, such as a hollow triangle, a hollow quadrilateral, a hollow pentagon, etc. the cross section of the movable cover 5. When the cross section of the movable cover 5 is arranged in a hollow polygonal shape and the cross section of the fixed cylinder 121 is arranged in a hollow polygonal shape, and the movable cover 5 is sleeved on the fixed cylinder 121, a gap exists between the movable cover 5 and the fixed cylinder 121, and the fixed cylinder 121 plays a role in limiting the rotation of the movable cover 5. Specifically, the first roller 61 and the second roller 62 are preferably provided in four groups.
In some embodiments, the top of the cover 125 is provided with the protective cover 14, the movable cover 5 is located in the protective cover 14, a gap exists between the movable cover 5 and the protective cover 14, and the height of the protective cover 14 is higher than that of the movable cover 5 to be moved above the highest point, so that the protective cover 14 can limit the hand used for extending between the movable cover 5 and the cover 125, thereby reducing the clamping injury of the user and being beneficial to improving the safety factor. Because a gap exists between the movable cover 5 and the protective cover 14, friction is not generated between the movable cover 5 and the protective cover 14.
In some embodiments, both the base 13 and the drive mechanism 3 are located within the stationary housing 12, and more specifically, both the base 13 and the drive mechanism 3 are located within the housing 125; the base 13 is provided with a splicing groove, and the base 13 is fixedly connected with the fixed shaft 11 through the splicing groove. The lifting cylinder 2 is positioned above the base 13, an elastic piece 7 is arranged between the base 13 and the lifting cylinder 2, the elastic piece 7 is a compression spring, the elastic piece 7 is sleeved on the fixed shaft 11, and two ends of the elastic piece 7 respectively prop against the base 13 and the lifting cylinder 2. When the lifting cylinder 2 is lifted, the elastic piece 7 plays a role of pushing the lifting cylinder 2 to lift so as to reduce the power required for driving the lifting cylinder 2 to lift; when the lifting cylinder 2 descends, the elastic piece 7 plays a role of buffering, so that the descending speed of the lifting cylinder 2 is reduced to be too high, and the descending balance and stability of the lifting cylinder 2 are improved. As shown in fig. 2, the width of the driving groove 311 (in the vertical direction) is larger than the width of the slider 21 (in the vertical direction), and when the lifting cylinder 2 is lifted, the driving cylinder 31 abuts against the slider 21 through the groove wall of the driving groove 311 at the bottom in the vertical direction and drives the slider 21 to lift, thereby realizing the lifting of the lifting cylinder 2; when the lifting cylinder 2 is lowered (lowered, i.e. moves downwards), the driving cylinder 31 is abutted with the sliding piece 21 through the groove wall of the driving groove 311 positioned at the top in the vertical direction and drives the sliding piece 21 to be lowered due to the action of the elastic piece 7, so that the lifting cylinder 2 is lowered; when the lifting cylinder 2 is not lifted or lowered, i.e. the driving cylinder 31 does not drive the lifting cylinder 2 to move, a gap exists between the sliding member 21 and the groove walls at the top and bottom of the driving groove 311 in the vertical direction, respectively, due to the action of the elastic member 7.
Further, the driving cylinder 31 is movably sleeved on the base 13, so that the driving cylinder 31 can rotate relative to the base 13; the inserting groove is positioned in the middle of the base 13, and the axis of the driving cylinder 31 and the center of the inserting groove are positioned on the same straight line because the driving cylinder 31 is sleeved with the base 13. In order to reduce friction between the driving cylinder 31 and the base 13, a second bearing 8 is provided between the driving cylinder 31 and the base 13, and the second bearing 8 drives sliding friction between the driving cylinder 31 and the base 13 to become rolling friction so as to reduce noise. The top of the driving barrel 31 abuts against the connecting piece 122, the connecting piece 122 is located above and relatively inside the top of the driving barrel 31, the connecting piece 122 is located in the driving barrel 31, a second bearing 8 is arranged between the driving barrel 31 and the connecting piece 122, and sliding friction between the driving barrel 31 and the connecting piece 122 is changed into rolling friction by the second bearing 8, so that noise is reduced.
In order to further reduce noise, at least one first bearing 4 is arranged between the lifting cylinder 2 and the fixed shaft 11, as shown in fig. 2, two first bearings 4 are arranged, a gap exists between the two first bearings 4, and the first bearings 4 are used for driving the axle center of the fixed shaft 11 and the axis of the lifting cylinder 2 to be positioned on the same straight line; wherein the first bearing 4 is a linear bearing. The axes of the two second bearings 8 are on the same straight line, the axes of the two first bearings 4 are on the same straight line, and the axes of the first bearings 4 and the second bearings 8 are on the same straight line, so that the axes of the driving cylinder 31, the fixed cylinder 121, the base 13 (the inserting groove core of the base 13), the fixed shaft 11 and the lifting cylinder 2 are all on the same straight line to reduce noise.
In some embodiments, the driving cylinder 31 includes a cylinder 312 and a turbine 313 fixedly connected to the cylinder 312, the cylinder 312 is arranged in a driving manner around the lifting cylinder 2, the turbine 313 is located below the cylinder 312, the driving slot 311 is arranged in the cylinder 312, the turbine 313 is movably connected to the base 13, the second bearing 8 is arranged between the turbine 313 and the base 13, and the elastic member 7 is located on the opposite inner sides of the turbine 313 and the cylinder 312. The driving mechanism 3 further comprises a worm 32 meshed with the turbine 313 and a motor 33 for driving the worm 32 to rotate, the motor 33 is fixedly connected with the inner cavity of the cover 125, and the worm 32 is arranged on the base 13; the motor 33 may drive the worm 32 to rotate through two pulleys and a belt connected between the two pulleys, the motor 33 may drive the worm 32 to rotate through two meshed gears, and the motor 33 may drive the worm 32 to rotate through two sprockets and a communication connected between the two sprockets.
In order to reduce vibration, a shock pad is provided between the motor 33 and the fixed cover 12, and the shock pad may be a rubber pad or other suitable cushion pad. In order to further reduce vibration, a damping sleeve is arranged between the worm 32 and the base 13, wherein the damping sleeve is positioned at two ends of the worm 32, and can be a rubber sleeve or other suitable damping sleeves; since the damping sleeve is arranged between the worm 32 and the base 13, when the connection between the worm 32 and the turbine 313 is deviated, the worm 32 will drive the damping sleeve to deform so as to optimize the connection between the worm 32 and the turbine 313, so that the connection between the worm 32 and the turbine 313 is in an optimal state.
In some embodiments, since the movable cover 5 is connected with the lifting cylinder 2, the top of the movable cover 5 is provided with a supporting component 9, and the supporting component 9 is used for supporting an infant, for example, the supporting component 9 can comprise a cradle, the infant is placed on the cradle, and the cradle is driven to balance, stabilize and quietly perform lifting motion through the lifting mechanism so as to realize pleasure, pacify and care the infant, so that hands of a carer of the infant are liberated, and the care infant is easier to use, so that the use experience of the device is improved.
The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.
Claims (26)
1. A lifting mechanism, comprising:
the fixing piece (1), the fixing piece (1) comprises a fixing shaft (11) and a fixing cover (12), and the fixing cover (12) is covered on the fixing shaft (11) and is fixedly connected with the fixing shaft (11);
the lifting cylinder (2) is movably sleeved on the fixed shaft (11) and is positioned between the fixed shaft (11) and the fixed cover (12), one end of the lifting cylinder (2) penetrates through the fixed cover (12) and extends out of the fixed cover (12), and the fixed cover (12) is used for limiting the rotation of the lifting cylinder (2);
and the driving mechanism (3), the driving mechanism (3) comprises a driving cylinder (31), and the driving cylinder (31) and the lifting cylinder (2) can be driven to be sleeved.
2. A lifting mechanism as claimed in claim 1, wherein: at least one driving groove (311) is formed in the driving cylinder (31), the driving groove (311) is formed in the circumferential direction of the driving cylinder (31) in an inclined mode, the lifting cylinder (2) is provided with a sliding piece (21), and the sliding piece (21) is slidably clamped in the driving groove (311).
3. A lifting mechanism as claimed in claim 2, wherein: at least two driving grooves (311) are formed in the inner wall of the driving barrel (31), the driving grooves (311) are arranged in an annular shape, and the lowest point of one driving groove (311) of two adjacent driving grooves (311) in the at least two driving grooves (311) is located above the highest point of the other driving groove (311).
4. A lifting mechanism according to claim 3, wherein: the sliding pieces (21) are at least two corresponding to the driving grooves (311), the sliding pieces (21) are arranged on two sides of the lifting cylinder (2) and are arranged along the length direction of the lifting cylinder (2), two adjacent sliding pieces (21) in the sliding pieces (21) are positioned on two sides of the lifting cylinder (2), one sliding piece (21) in the two adjacent sliding pieces (21) in the sliding pieces (21) is positioned above the other sliding piece (21), and the sliding pieces (21) are correspondingly and slidably clamped in the driving grooves (311).
5. A lifting mechanism as claimed in claim 4, wherein: the sliding piece (21) is a sliding wheel.
6. A lifting mechanism as claimed in claim 1, wherein: at least one first bearing (4) is arranged between the lifting cylinder (2) and the fixed shaft (11), and the first bearing (4) is used for driving the axle center of the fixed shaft (11) and the axis of the lifting cylinder (2) to be positioned on the same straight line.
7. A lifting mechanism as claimed in claim 6, wherein: the fixed cover (12) comprises a fixed cylinder (121), the fixed cylinder (121) is sleeved on the driving cylinder (31) and is in clearance with the outer wall of the driving cylinder (31), and the fixed cylinder (121) is connected with the fixed shaft (11).
8. A lifting mechanism as claimed in claim 7, wherein: the bottom of the fixed cylinder (121) is provided with a connecting piece (122), the connecting piece (122) is provided with a connecting groove (123) with an opening facing the opening of the fixed cylinder (121), and the connecting groove (123) is fixedly sleeved with the fixed shaft (11).
9. A lifting mechanism as claimed in claim 8, wherein: at least one through hole (124) is formed in the connecting piece (122), at least one through hole (124) is located on the outer side of the connecting groove (123), at least one supporting block (22) is arranged at one end of the lifting cylinder (2), and at least one supporting block (22) extends out of the fixing cylinder (121) through at least one through hole (124).
10. A lifting mechanism as claimed in claim 9, wherein: the movable cover (5) is sleeved on the fixed cylinder (121), and the supporting block (22) is connected with the movable cover (5).
11. A lifting mechanism as claimed in claim 10, wherein: there is the clearance between activity cover (5) and fixed section of thick bamboo (121), activity cover (5) with be equipped with between fixed section of thick bamboo (121) rolling element (6), rolling element (6) are used for reducing friction between activity cover (5) with fixed section of thick bamboo (121) and are used for restricting activity cover (5) are relative fixed section of thick bamboo (121) rotates.
12. A lifting mechanism as claimed in claim 11, wherein: the rolling assembly (6) comprises at least three groups of first rollers (61), at least three groups of first rollers (61) are uniformly arranged on the inner wall of the movable cover (5), gaps exist between two adjacent groups of first rollers (61), at least three groups of first rollers (61) surround the peripheral wall of the fixed cylinder (121), and the peripheral wall of the first rollers (61) is abutted to the fixed cylinder (121).
13. A lifting mechanism as claimed in claim 11, wherein: the rolling assembly (6) comprises at least three groups of second rollers (62), at least three groups of second rollers (62) are uniformly arranged on the circumferential outer wall of the fixed cylinder (121), gaps exist between two adjacent groups of second rollers (62), and the circumferential wall of each second roller (62) is abutted to the movable cover (5).
14. A lifting mechanism as claimed in claim 13, wherein: the rolling assembly (6) further comprises at least three groups of first rollers (61), at least three groups of first rollers (61) are uniformly arranged on the inner wall of the movable cover (5), gaps exist between two adjacent groups of first rollers (61), at least three groups of first rollers (61) surround the peripheral wall of the fixed cylinder (121), and the peripheral wall of the first rollers (61) is abutted against the fixed cylinder (121); at least three groups of first rollers (61) and at least three groups of second rollers (62) are arranged at intervals, wherein one first roller (61) is positioned between two adjacent second rollers (62).
15. A lifting mechanism as claimed in claim 10, wherein: a gap exists between the hole wall of the through hole (124) and the supporting block (22).
16. A lifting mechanism as claimed in claim 10, wherein: the fixed cover (12) further comprises a cover body (125) arranged at the bottom of the fixed cylinder (121), the driving mechanism (3) is arranged in the cover body (125), the top of the cover body (125) is provided with a protective cover (14), the movable cover (5) is positioned in the protective cover (14), and a gap exists between the movable cover (5) and the protective cover (14).
17. A lifting mechanism as claimed in claim 7, wherein: the fixing piece (1) further comprises a base (13), wherein the base (13) is positioned in the fixing cover (12) and fixedly connected with the fixing cover (12), and the base (13) is fixedly connected with the fixing shaft (11).
18. A lifting mechanism as claimed in claim 17, wherein: the lifting cylinder (2) is located above the base (13), an elastic piece (7) is arranged between the base (13) and the lifting cylinder (2), and the elastic piece (7) is sleeved on the fixed shaft (11).
19. A lifting mechanism as claimed in claim 8, wherein: the fixing piece (1) further comprises a base (13), and the driving cylinder (31) is movably sleeved on the base (13).
20. A lifting mechanism as claimed in claim 19, wherein: the connecting piece (122) is positioned in the driving cylinder (31), and a second bearing (8) is arranged between the driving cylinder (31) and the connecting piece (122); and another second bearing (8) is arranged between the driving cylinder (31) and the base (13).
21. A lifting mechanism as claimed in claim 20, wherein: the axis of the first bearing (4) is on the same line as the axis of the second bearing (8).
22. A lifting mechanism as claimed in claim 1, wherein: the fixing piece (1) further comprises a base (13), the driving cylinder (31) comprises a cylinder body (312) and a turbine (313) fixedly connected with the cylinder body (312), the cylinder body (312) can be driven to be sleeved on the lifting cylinder (2), and the turbine (313) can be movably connected with the base (13).
23. A lifting mechanism as claimed in claim 22, wherein: the driving mechanism (3) comprises a worm (32) meshed with the turbine (313) and a motor (33) for driving the worm (32) to rotate.
24. A lifting mechanism as claimed in claim 23, wherein: the motor (33) is fixedly connected with the inner cavity of the fixed cover (12), and a shock pad is arranged between the motor (33) and the fixed cover (12).
25. A lifting mechanism as claimed in claim 23, wherein: the fixing piece (1) further comprises a base (13), the worm (32) is installed on the base (13), and a damping sleeve is arranged between the worm (32) and the base (13).
26. Infant care apparatus, comprising a lifting mechanism according to any of claims 1 to 25, and further comprising a support assembly (9) for supporting an infant, the support assembly (9) being arranged on top of the lifting drum (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321507965.0U CN220124357U (en) | 2023-06-13 | 2023-06-13 | Lifting mechanism and infant care equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321507965.0U CN220124357U (en) | 2023-06-13 | 2023-06-13 | Lifting mechanism and infant care equipment |
Publications (1)
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CN220124357U true CN220124357U (en) | 2023-12-05 |
Family
ID=88963654
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321507965.0U Active CN220124357U (en) | 2023-06-13 | 2023-06-13 | Lifting mechanism and infant care equipment |
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CN (1) | CN220124357U (en) |
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2023
- 2023-06-13 CN CN202321507965.0U patent/CN220124357U/en active Active
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