Utility model content
This utility model embodiment, by providing a kind of multifunctional overturn bed, solves the technical problem of bed accessory function singleness of the prior art.
This utility model embodiment provides a kind of multifunctional overturn bed, comprising:
Lathe bed;
Elevating mechanism, elevating mechanism is arranged at the below of lathe bed, and elevating mechanism is used for carrying out integral elevating to lathe bed;
Rollover mechanism, rollover framework is arranged at the top of lathe bed, and rollover mechanism comprises side turn-off frame and side turn-off frame driving mechanism, and side turn-off frame driving mechanism is used for the upset of driving side translation frame, and, side turn-off frame with the length direction of lathe bed for axle overturns;
Lower limb back support mechanism, lower limb back support organization establishes is in the top of lathe bed, lower limb back support mechanism comprises multiple bed surface supports that the length direction along lathe bed sets gradually, and the multiple bed surface driving mechanisms to overturn for driving each bed surface support to carry out, be hinged between two bed surface supports adjacent in multiple bed surface support, and, each bed surface support with the width of lathe bed for axle overturns.
Preferably, each bed surface support in multiple bed surface support is by the hinged formation of left and right two panels support body;
Wherein, when all bed surface supports in multiple bed surface support are positioned at sustained height, the left slice rack body in all bed surface supports forms the left side translation frame in side turn-off frame, and the right patch rack body in all bed surface supports forms the right side translation frame in side turn-off frame.
Preferably, the width of left side translation frame and right side translation frame accounts for 2/3rds of lathe bed width respectively, and left side translation frame and right side translation frame are the sparerib shelf of a side opening, and, left side translation frame and right side translation frame arranged in a crossed manner.
Preferably, side turn-off frame driving mechanism comprises left side translation frame driving mechanism and right side translation frame driving mechanism;
Wherein, left side translation frame driving mechanism is connected with the rollover pull bar on the translation frame of left side, and right side translation frame driving mechanism is connected with the rollover pull bar on the translation frame of right side.
Preferably, elevating mechanism comprises castor mechanism and footpost crane, and footpost crane comprises footpost support and footpost frame;
Wherein, one end of footpost support is articulated with the middle part of footpost frame, and footpost crane is connected with castor mechanism by footpost frame.
Preferably, lathe bed comprises lathe bed body and chute group:
Wherein, chute group is arranged at the middle part of lathe bed body, and two chutes comprised in chute group are arranged at the both sides of lathe bed body respectively, and footpost frame is installed in the chute of corresponding position by pulley, footpost support and lathe bed body hinged.
Preferably, describedly multifunctional overturn bedly also comprise head board, head board is arranged at the end of lathe bed.
Preferably, describedly multifunctional overturn bedly also comprise guardrail, guardrail is arranged at the side of lathe bed.
Preferably, describedly multifunctional overturn bedly also comprise controller, described controller is used for controlling side turn-off frame driving mechanism and bed surface driving mechanism.
One or more technical schemes in this utility model embodiment, at least have following technique effect or advantage:
By arranging elevating mechanism below lathe bed, rollover mechanism and lower limb back support mechanism are set above lathe bed, elevating mechanism is utilized to realize elevating function, utilize rollover mechanism can realize rollover function, utilize lower limb back support mechanism can realize back and raise the function with leg curvature, the multifunctional overturn bed set lifting of the application, stand up and be integrated with lower limb back support function, diverse in function.
Detailed description of the invention
In order to solve the technical problem of bed accessory function singleness of the prior art, this utility model embodiment provides a kind of multifunctional overturn bed.
For making the object of this utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is this utility model part embodiment, instead of whole embodiments.Based on the embodiment in this utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of this utility model protection.
The application provides a kind of multifunctional overturn bed, comprises lathe bed, elevating mechanism, rollover mechanism and lower limb back support mechanism.
Wherein, elevating mechanism is arranged at the below of lathe bed, and elevating mechanism is used for carrying out integral elevating to institute's lathe bed.Rollover mechanism, rollover framework is arranged at the top of lathe bed, and rollover mechanism comprises side turn-off frame and side turn-off frame driving mechanism, and side turn-off frame driving mechanism is used for the upset of driving side translation frame, and, side turn-off frame with the length direction of lathe bed for axle overturns.Lower limb back support mechanism, lower limb back support organization establishes is in the top of lathe bed, comprise multiple bed surface supports that the length direction along lathe bed sets gradually, and the multiple bed surface driving mechanisms to overturn for driving each bed surface support to carry out, be hinged between two bed surface supports adjacent in multiple bed surface support, and, each bed surface support with the width of lathe bed for axle overturns.
In the first embodiment of the application, rollover mechanism is arranged at the below of lower limb back support mechanism, when rollover mechanism action, drive the motion of lower limb back support whole mechanism, and lower limb back support mechanism can single movement.
When rollover mechanism and lower limb back support mechanism are arranged respectively, multifunctional overturn bed excessive height, for overcoming multifunctional overturn bed too high problem, the application provides preferred the second embodiment, specific as follows:
Each bed surface support in multiple bed surface support is by the hinged formation of left and right two panels support body, wherein, when all bed surface supports in multiple bed surface support are positioned at sustained height, left slice rack body in all bed surface supports forms the left side translation frame in side turn-off frame, and the right patch rack body in all bed surface supports forms the right side translation frame in side turn-off frame.
The width of left side translation frame and right side translation frame accounts for 2/3rds of lathe bed width respectively, left side translation frame and right side translation frame are the sparerib shelf of a side opening, and, left side translation frame and right side translation frame arranged in a crossed manner, when left side translation frame and right side-overturn frame are set together, the width of its width and lathe bed is suitable.
Side turn-off frame driving mechanism comprises left side translation frame driving mechanism and right side translation frame driving mechanism, and left side translation frame driving mechanism is connected with the rollover pull bar on the translation frame of left side, and right side translation frame driving mechanism is connected with the rollover pull bar on the translation frame of right side.
Elevating mechanism comprises castor mechanism and footpost crane, and footpost crane comprises footpost support and footpost frame, and one end of footpost support is articulated with the middle part of footpost frame, and footpost crane is connected with castor mechanism by footpost frame.
Lathe bed comprises lathe bed body and chute group, chute group is arranged at the middle part of lathe bed body, two chutes comprised in chute group are arranged at the both sides of lathe bed body respectively, and footpost frame is installed in the chute of corresponding position by pulley, footpost support and lathe bed body hinged.
The multifunctional overturn bed of the application also comprises head board and guardrail, and head board is arranged at the end rails of lathe bed, and guardrail is arranged at the side of lathe bed.
The multifunctional overturn bed of the application also comprises controller, and controller is used for controlling side turn-off frame driving mechanism and bed surface driving mechanism.
It should be noted that, side turn-off frame driving mechanism and the bed surface driving mechanism of the application are motor, are specially push-down motor.
Below in conjunction with a specific embodiment, the multifunctional overturn bed of the application is described in detail:
As Figure 1-4, the application's is multifunctional overturn bed, comprising: lathe bed body 1, two chute groups, two groups of elevating mechanisms, two lifting motors, staggered form bed surface mechanism, two rotating shafts 13, two rollover motors 14, thigh motor 20 and back motors 19.Wherein, each chute group comprises two chutes, and each elevating mechanism comprises two castor mechanisms, 4, two groups of footpost cranes and head rod 5, often organizes footpost crane and comprises footpost support 6 and footpost frame 7.
It should be noted that, staggered form bed surface mechanism comprises multiple bed surface supports that the length direction along lathe bed body 1 sets gradually, be hinged between two bed surface supports adjacent in multiple bed surface support, each bed surface support in multiple bed surface support is by the hinged formation of left and right two panels support body.When all bed surface supports in multiple bed surface support are positioned at sustained height, the left slice rack body in all bed surface supports forms the left side translation frame 10 in side turn-off frame, and the right patch rack body in all bed surface supports forms the right side translation frame 11 in side turn-off frame.Left side translation frame 10 and the width of right side translation frame 11 account for 2/3rds of lathe bed width respectively, and left side translation frame 10 and right side translation frame 11 are the sparerib shelf of a side opening, and, left side translation frame 10 and right side translation frame 11 arranged in a crossed manner.
Two chute groups are juxtaposed on the middle part of lathe bed body 1, two chutes in each chute group are arranged at the both sides of lathe bed body 1 respectively, the first chute group 2 in two chute groups is for coordinating with first group of elevating mechanism in two groups of elevating mechanisms, the second chute group 3 in two chute groups for coordinating with second group of elevating mechanism in two groups of elevating mechanisms, thus realizes the function of multifunctional overturn bed lifting.
In the often group footpost crane of the application, one end of footpost support 6, by the middle part of pin-hinges in footpost frame 7, can relatively rotate between footpost support 6 and footpost frame 7.Often organize footpost crane to be connected with the arbitrary castor mechanism 4 in two castor mechanisms 4 by one end of footpost frame 7, described multifunctional overturn bed by castor mechanism 4 and earth surface.Preferably, described castor mechanism 4 not only comprises castor parts, also comprises brake part, thus has brake function.
Further, comprise head rod 5 often organizing elevating mechanism, the two ends of head rod 5 are connected with two groups of footpost cranes respectively, thus two groups of footpost cranes connect together by head rod 5.In this application, the two ends of head rod 5 can be connected with the footpost support 6 in two groups of footpost cranes respectively, also can be connected with the footpost frame 7 in two groups of footpost cranes respectively.Preferably, often organize footpost elevating mechanism and also comprise the second connecting rod 24, often organize footpost elevating mechanism respectively two footpost framves 7 to be connected with two footpost supports 6 with the second connecting rod 24 by head rod 5, thus, can ensure that footpost elevating mechanism is more stable in lifting process.When the two ends of head rod 5 are connected with footpost support 6 respectively, the two ends of the second connecting rod 24 are connected with the footpost frame 7 in two groups of footpost cranes respectively.
In this application, first group of elevating mechanism in two groups of elevating mechanisms and second group of elevating mechanism are symmetricly set in the lower surface of lathe bed body 1.Meanwhile, the other end of footpost frame 7 is installed in the chute of corresponding position by pulley, and the other end and the lathe bed body 1 of footpost support 6 are hinged, thus when footpost frame 7 slides in chute, elevating mechanism can carry out elevating movement relative to lathe bed body 1.
In this application, the two ends of the first lifting motor 8 in two lifting motors are connected with the middle part of lathe bed body 1 with the arbitrary footpost crane in first group of elevating mechanism respectively, and the two ends of the second lifting motor 9 in two lifting motors are connected with the middle part of lathe bed body 1 with the arbitrary footpost crane in second group of elevating mechanism respectively.Preferably, there is in the middle part of lathe bed body 1 cross bar 23, the two ends of the first lifting motor 8 are connected with cross bar 23 with the arbitrary footpost crane in first group of elevating mechanism respectively, and the two ends of the second lifting motor 9 are connected with cross bar 23 with the arbitrary footpost crane in second group of elevating mechanism respectively.
Under the effect of lifting motor, footpost frame 7 and footpost support 6 relatively rotate, and footpost frame 7 slides in chute, multifunctional overturn bedly realize elevating function.By the structure of the application, the multifunctional overturn bed bed surface altitude mixture control that can realize 246mm-776mm.Meanwhile, when the first lifting motor 8 is asynchronous with the second lifting motor 9, the height at lathe bed body 1 two ends is inconsistent, thus can realize lathe bed body 1 in front and back on inclination.
In this application, left side translation frame 10 is connected by the first rotating shaft 13 in two rotating shafts with lathe bed body 1, and right side translation frame 11 is connected by the second rotating shaft in two rotating shafts with lathe bed body 1.By rotating shaft, side turn-off frame and lathe bed body 1 can relatively rotate.
In this application, first rollover one end of motor in two rollover motors 14 is connected with the rollover pull bar 12 on left side translation frame 10, the other end of the first rollover motor is fixed on lathe bed body 1, second rollover one end of motor 14 in two rollover motors 14 is connected with the rollover pull bar on right side translation frame 11, and the other end of the second rollover motor 14 is fixed on lathe bed.First rollover motor 14 i.e. left side translation frame 10 driving mechanism, the second rollover motor 14 i.e. right side translation frame 11 driving mechanism.Rotating shaft is arranged at the same side on side turn-off frame with rollover pull bar.
Under rollover motor 14 pulls the effect of rollover pull bar 12, between side turn-off frame and lathe bed body 1, rotating shaft is relied on to relatively rotate, thus, realize the function of multifunctional overturn bed left-right rollover, patient can be turned on one's side, move bed or leave the bed and become convenient.By the structure of the application, the multifunctional overturn bed gradient that can realize 0 °-70 °.
Staggered form bed surface mechanism at least to comprise in the middle part of back bed surface support 15, first bed surface support 17 and leg bed surface support 18 in the middle part of bed surface support 16, second, back bed surface support 15 and leg bed surface support 18 are arranged at the two ends of lathe bed body 1 respectively, in the middle part of in the of first, bed surface support 16 is connected with back bed surface support 15, and in the middle part of in the of second, bed surface support 17 is connected with leg bed surface support 18.The two ends of back motor 19 respectively with back bed surface support 15 and lathe bed body 1 hinged, the two ends of thigh motor 20 respectively with leg bed surface support 18 and lathe bed body 1 hinged.Concrete, back wound surface support and leg bed surface support 18 have driving arm 26 respectively, and back motor 19 is connected with the driving arm of back bed surface support 15, the driving arm of thigh motor 20 and leg bed surface support 18, is connected.
Promote the effect of back bed surface support 15 at back motor 19 under, back bed surface support 15 can relative to first in the middle part of bed surface support 16 rotate, realize raising of back bed surface support 15.Pull the effect of leg bed surface support 18 in thigh motor 20 under, leg bed surface support 18 can relative to second in the middle part of bed surface support 17 rotate, in the middle part of realizing leg bed surface support 18 and second, bed surface support 17 forms bending fold state, realizes the function of leg curvature.By the structure of the application, the multifunctional overturn bed back that can realize raises 0 °-70 °, realizes leg and raises 0 °-30 °.Further, multifunctional overturn bedly can also comprise hinge 25, one end of hinge 25 is connected with leg bed surface, and the other end of hinge 25 is connected with lathe bed, and when hinge 25 is locked, leg bed surface is set level, and when hinge 25 loosens, leg bed surface is fallen on lathe bed naturally.
Preferably, multifunctional overturn bedly also comprise the two ends that two head boards, 21, two head boards 21 are arranged at lathe bed body 1 respectively, and two head boards 21 are positioned at the upper surface of lathe bed body 1.
Preferably, multifunctional overturn bedly also comprise two groups of guardrails 22, described two groups of guardrails 22 are arranged on two sides of lathe bed body 1 respectively.
The application multifunctional overturn bed be aly integrate automatic turn-over body, the electric sick bed of the multinomial nursing function such as back is raised, the inclination of leg curvature, lathe bed, bed surface altitude mixture control, a key reset.Its featured function has:
Automatic turn-over body function, can realize automatic turn-over body according to the requirements set interval of body-turning of patient, as 30 °, also by manually behaviour do hand controller realize stand up, the scope of standing up is 0 °-45 °.
One key reset function, can make sick bed (under an any duty) key be reset to the level of 530mm height, make operation simpler.
Function is raised at back, back can be made automatically to be raised to (0 °-70 °), patient effortlessly just can be sat up and see TV or dining.
Leg curvature function, can make patient activity leg (being raised to 0 °-30 °), at the tail end of bed, hinge is housed, and regulates the angle (keeping flat or bent lower limb) at shank position according to the demand of user.Reach relaxing muscles and tendons and activating QI and blood in the collateral, the effect of fatigue alleviating.
Bed surface height adjusting function, can regulate bed surface height (246-776mm) according to the daily life demand of user.
Lathe bed tilt function, can regulate lathe bed to tilt (0 °-17.5 °), make patient move bed or out-of-bed activity becomes more light.
Steamboat strap brake function: can follow and need apply the brakes according to use, avoids the displacement inconvenience because bed remakes, makes sick bed more safety and stability.In addition it selects seven keyed hand controllers, the design of hommization, makes the use of sick bed become more convenient.Thus give a kind of comfortable enjoyment of patient, useful physical and mental health.Also nursery work is made to become more light.
Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:
By arranging elevating mechanism below lathe bed, rollover mechanism and lower limb back support mechanism are set above lathe bed, elevating mechanism is utilized to realize elevating function, utilize rollover mechanism can realize rollover function, utilize lower limb back support mechanism can realize back and raise the function with leg curvature, the multifunctional overturn bed set lifting of the application, stand up and be integrated with lower limb back support function, diverse in function.
Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of this utility model scope.
Obviously, those skilled in the art can carry out various change and modification to this utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of this utility model claim and equivalent technologies thereof, then this utility model is also intended to comprise these change and modification.