CN114176974B - Bed body supporting structure of ophthalmic operation bed - Google Patents

Abstract

The invention relates to a bed body supporting structure of an ophthalmic operating table, which comprises a head supporting unit, a back supporting unit and a leg supporting unit which are rotatably connected from front and rear ends, wherein the head supporting unit comprises a head bracket and a driving piece, the back supporting unit comprises a back bracket and a driver, and the leg supporting unit comprises a thigh bracket and a shank bracket which are rotatably connected, a driving part for driving the shank bracket to turn over, and push handles arranged at two sides of the shank bracket. When the back or leg overturning is implemented, the invention can synchronously drive the frame plate and the supporting frame to slide relatively and lock any sliding position, thus forming the optimal effective support of the head, the back and the leg, and synchronously implementing overturning folding or unfolding of the push handle, and completing the angle adjustment and locking of the required position of the bed body without body displacement, thereby improving the success rate of the operation.

Description

Bed body supporting structure of ophthalmic operation bed

Technical Field

The invention belongs to the field of medical instruments, and particularly relates to a bed body supporting structure of an ophthalmic operating table.

Background

Ophthalmic is well known as a discipline for studying diseases related to the visual system, including the eyeball and tissues associated therewith, and is generally studied for various ophthalmic diseases such as vitreous body, retinal diseases, ocular optics, glaucoma and optic neuropathy, cataract, etc.

However, patients who do ophthalmic surgery generally suffer from serious diseases which can affect the eyesight of eyes, and in order to ensure the smooth progress and success rate of the surgery, the patients need to make proper positions aiming at the surgery mode when the ophthalmic surgery is performed, so that doctors can conveniently check and operate the patients.

At present, the bed body supporting structure comprises a head supporting unit, a back supporting unit and a leg supporting unit, wherein the three units are adjusted in a relative rotation mode.

However, the following drawbacks exist with respect to the existing adjustment methods:

1) The patient needs to be continuously shifted to reach the required operation angle, so that the operation is not facilitated, and the error probability is high, thereby influencing the success rate of the operation.

2) When the turnover adjusting is carried out, the formed supporting position moves along with the change of the turnover angle, so that a good supporting effect cannot be formed after the turnover adjusting, meanwhile, the body of a patient is required to be effectively shifted, the legs can be comfortably positioned to conform to the operation angle, the operation is inconvenient, and once the position is inaccurate or the comfort level of the patient is insufficient, the position of the bed and the body is deviated, so that the accuracy of the operation is affected;

3) After the overturning, if the push handle is not singly folded, the push handle can form a barrier to influence accurate operation of a doctor operation.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an improved leg support unit of an ophthalmic operating table.

In order to solve the technical problems, the invention adopts the following technical scheme: a bed body supporting structure of an ophthalmic operating table, comprising a head supporting unit, a back supporting unit and a leg supporting unit which are rotatably connected from front and rear ends, wherein the head supporting unit comprises a head bracket and a driving piece for driving the head bracket to rotate, the back supporting unit comprises a back bracket and a driver for driving the back bracket to rotate, the leg supporting unit comprises a thigh bracket and a shank bracket which are rotatably connected, a driving part for driving the shank bracket to turn over, and push handles arranged at two sides of the shank bracket, in particular, the back bracket comprises a back bracket body and a back bracket plate, wherein the rear end of the back bracket body is rotatably connected with the thigh bracket by a pivot, the back bracket plate is arranged on the back bracket body in a linear sliding way along the front and rear direction of the back bracket body, the head bracket is connected with the front end of the back bracket plate, the back supporting unit further comprises a linkage part connected between the thigh bracket and the back bracket plate, and the back bracket plate can synchronously pull the back and the head bracket body along with the turning over of the back bracket body, and the back bracket plate can also linearly move to stop the back and self-lock the back bracket; the leg support unit also comprises a first transmission piece arranged between the thigh support and the leg support, and a second transmission piece arranged at the corresponding side of the leg support and in transmission connection with the corresponding push handle, wherein the first transmission piece synchronously pushes the leg support plate to move back and forth relative to the leg support and locks the moved leg support plate and the leg support relatively when the thigh support and the leg support rotate relatively; the second transmission piece drives the pushing handle to synchronously rotate inwards or outwards to fold or unfold in the forward and backward movement of the shank frame plate relative to the shank support.

Preferably, the head bracket includes a frame body, a link member sliding along a length direction of the frame body and locked with the frame body, and a link arm, wherein one link end of the link arm is pivotally connected to the back bracket, and the other link end is mounted on the link member to be vertically rotated about a direction parallel to the pivot or/and horizontally rotated about a direction perpendicular to the pivot and locked.

Further, the connecting piece includes the slide rail that extends along frame body length direction, slides the slider that sets up on the slide rail, fixes on the slider and lie in the outer connecting rod of slide rail, activity setting on the connecting rod and can be with the connecting rod with the locking portion of the relative locking of slide rail. Therefore, the adjustment in the length direction of the rack body is satisfied.

Further, the slide rail comprises two parallel spaced rails, wherein inwards concave slide grooves are formed on the inner sides of the two rails, and the sliding blocks are arranged in the slide grooves in a sliding manner from two sides.

According to a specific implementation and preferred aspect of the present invention, the connecting rod is a screw rod and is disposed perpendicular to the slider, and the locking portion is a locking nut capable of locking and abutting against the slide rail, wherein an anti-slip pattern is formed on the outer periphery of the locking nut. Thus, the locking and unlocking operations are facilitated.

Preferably, the connecting end of the connecting rod and the sliding block is provided with a mounting groove extending along the length direction of the connecting rod, and the connecting piece further comprises an elastic piece arranged in the mounting groove and a sliding ball abutting between the elastic piece and the frame body. Through the slip ball setting of elasticity conflict, form restriction effort, avoid once the unblock back, appear sliding by a wide margin, that is to say, after the unblock, the external force of necessarily exerting just can implement the slip regulation.

According to a further embodiment and preferred aspect of the invention, a connecting end of the connecting rod remote from the slider is detachably connected to the swivel joint, which swivel joint is rotationally adjustable relative to the connecting arm about a direction parallel to the pivot axis. In this way, after positioning the connecting arm, a rotational fine adjustment can also be performed by the rotational joint.

Preferably, the rotary joint comprises an outer sleeve, an inner core and a locking piece for locking the inner core and the outer sleeve relatively, wherein arc-shaped grooves which are distributed radially around the outer sleeve are formed in the outer sleeve, the connecting arms are fixedly connected with the outer sleeve from a connecting end, and the end parts of the connecting rods extend into the arc-shaped grooves to be in threaded connection with the inner core.

Specifically, the locking piece includes the detachable connection in the chock plug of outer sleeve tip, threaded connection in the chock plug and can conflict the locking bolt of locking the inner core, and fix the handle of locking bolt outer end. The handle is mainly convenient to operate.

In addition, the connecting arm is provided with a first connecting end, a second connecting end and a third connecting end which form three vertexes of a triangle, wherein the first connecting end is connected to the pivot, the second connecting end is connected to the driving piece, and the third connecting end is connected to the connecting piece. In this way, stability is improved by the triangular support once the drive stops moving.

Specifically, when the head bracket and the back bracket are level, the first connecting end, the second connecting end and the third connecting end are arranged from top to bottom, the second connecting end is positioned on the right side of the first connecting end, the third connecting end is positioned on the left side of the first connecting end and below the head bracket, the driving piece is a telescopic rod arranged on the back bracket, and the telescopic end is rotationally connected with the second connecting end.

Preferably, when the back frame body turns upwards around the rear end part, the linkage part drives the back frame plate and the head bracket to move towards the rear end part; when the back frame body turns downwards around the rear end part, the linkage part drives the back frame plate and the head bracket to move towards the front end part. In this way, when lying in half, the downward movement can be most closely attached to the effective support of the back and head; when lying down, the bed body can be extended in length, and a better supporting effect is formed.

According to a specific implementation and preferred aspect of the present invention, the linkage member includes a first fixing seat and a second fixing seat fixed on the back frame body and the thigh bracket, respectively, a joint seat fixed on the back frame plate and joined with the head bracket, a first link rotatably provided on the first fixing seat and formed with a first connection end and a second connection end, a second link connecting the first connection end with the joint seat, and a third link connecting the second connection end with the second fixing seat, wherein when the back frame body is turned over, the third link drives the first link to rotate to drive the second link to drive the joint seat to linearly slide, and when the back frame body is stopped to be turned over, the first link, the second link, and the third link are mutually restricted to form self-locking. The components are simple, and the implementation is convenient.

Preferably, the first fixing seat comprises seat plates which are positioned at two sides and fixed on the back frame body, the first connecting rod is rotationally connected between the two seat plates, the second connecting rod and the third connecting rod are respectively formed at two opposite sides of the first connecting rod, and the second connecting rod and the second fixing seat are rotationally connected with the connecting seat through rotating shafts.

Specifically, when the back bracket and the thigh bracket are level, the second connecting end of the first connecting rod is positioned under the rotating point connected with the first connecting rod and the first fixing seat, and the first connecting end is positioned behind the rotating point. In this way, after lying down, the movement between the individual links can be limited, an optimal locking state is assumed, and at the same time a stable support is also formed.

According to a further specific embodiment and preferred aspect of the present invention, the back frame body is provided with a linear rail extending in the front-rear direction, and the back frame plate slides on the linear rail from the bottom slide.

Preferably, the back frame body includes a plurality of first frame bars extending in the front-rear direction, a second frame bar crossing the plurality of first frame bars, wherein the linear slide rail is disposed on the first frame bars.

Further, the number of the linear sliding rails is two, and the linear sliding rails are symmetrically arranged at the middle part of the back frame body. Thus, the linear motion is smoother.

Meanwhile, the adopted matching mode of the sliding seat and the sliding rail is anti-falling, so that linear guiding movement can be implemented more stably.

In addition, the driver comprises a transmission arm rod and a telescopic cylinder which are fixed on the back frame body and extend towards the bottom of the thigh bracket, wherein two end parts of the telescopic cylinder are respectively connected with the rear end part of the transmission arm rod and the rear end part of the thigh bracket. The layout not only reasonably utilizes the space, but also can implement the overturning operation more laborsaving.

Further, the transmission arm lever comprises an inclined supporting rod with an upper end fixed on the back frame body and an extension rod extending backwards from a lower end of the inclined supporting rod, wherein when the back bracket is level with the thigh bracket, the extension rod is tilted upwards, and the connecting end of the telescopic cylinder and the extension rod is located at the connecting end of the telescopic cylinder and the back frame body. Therefore, the formed structure is more stable, and the formed pushing force direction is very close to the movement direction of the back frame body only after the telescopic cylinder moves relatively, so that the overturning movement and the effective support after the movement are facilitated.

Preferably, when the lower leg support is turned downwards around the front end part, the first transmission piece drives the lower leg support plate to slide forwards relative to the lower leg support, and the second transmission piece synchronously drives the push handle to fold inwards; when the shank bracket turns upwards around the front end part, the first transmission piece drives the shank bracket plate to slide forwards relative to the shank bracket, and the second transmission piece synchronously drives the push handle to be unfolded outwards.

According to a specific implementation and preferred aspect of the present invention, the first transmission member includes a first positioning seat, a second positioning seat and a third positioning seat fixed on the thigh support, the shank support, and the shank frame plate, respectively; the first transmission rod is rotatably arranged on the second positioning seat and provided with a first connecting part and a second connecting part; the second transmission rod is used for connecting the first connection part with the first positioning seat in a transmission way; and a third transmission rod in transmission connection with the second connection part and the third positioning seat, wherein when the lower leg support frame and the thigh support frame are positioned relatively, the first transmission rod, the second transmission rod and the third transmission rod are locked relatively, and the lower leg support frame are fixed relatively. Therefore, not only can effective support be provided, but also the lower leg support can be positioned at the adjusting position by matching with the driving piece so as to meet the operation requirement.

Preferably, the lower leg support frame is provided with a sliding rail extending along the front-rear direction, and the lower leg support frame plate is provided with a sliding module matched with the sliding rail, wherein the sliding module slides on the sliding rail in an anti-falling mode.

According to a further embodiment and preferred aspect of the invention, the push handle comprises a handle base fixed to the shank frame plate, a handle core arranged in the handle base in rotation about a horizontal direction, a handle bar fixed to the handle core, and a locking member for locking the handle core relative to the handle base, the second transmission member drivingly connecting the handle core to the shank frame and the locking member automatically locking the handle core and the handle base when rotated to an extreme position. Under the synchronous movement of the second transmission piece, the synchronous movement of the pushing handles at two sides can be implemented.

Preferably, the handle comprises a core rod and a core cap, wherein the core rod is rotatably arranged in the handle base around its axis, the handle is mounted on the core cap, and the locking member locks the base and the core cap relatively.

According to a further specific implementation and preferred aspect of the present invention, the inner tube sleeve is provided in the handle base, the core bar is rotatably provided in the inner tube sleeve, the second transmission member comprises a transmission sleeve coaxially and rotatably provided on the inner tube sleeve, and transmission links rotatably connected to the transmission sleeve and the shank bracket at both ends respectively, wherein the transmission sleeve is engaged with an end portion of the core bar, and the transmission sleeve and the core bar are driven to rotate synchronously by the transmission links. Thus, the implementation handle bar is driven to move inwards or outwards under the linkage of the transmission connecting rod.

Preferably, the core rod is hollow and tubular, and the end part is provided with an arc groove along the circumferential direction, the transmission sleeve comprises a sleeve body which is rotatably arranged at the end part of the inner sleeve, a poking block which stretches into the arc groove from the sleeve body, and a connecting lug which is arranged outside the sleeve body, wherein one end part of the transmission connecting rod is rotatably connected with the connecting lug, and the other end part of the transmission connecting rod is connected with the corresponding side calf support. Therefore, the position of the transmission connecting rod is convenient to adjust along with the relative movement of the shank bracket and the shank bracket plate under the idle running of the sleeve body, and when the position is close to the limit position, the stirring block is matched with the end part of the arc-shaped groove to drive the core cap to rotate.

In addition, a sliding groove and a mounting hole which horizontally extend along the left-right direction are formed in the handle seat, a lock hole is correspondingly formed in the core cap, the locking piece comprises an elastic piece and a locking pin which are arranged in the mounting hole, and a poking rod which is fixed on the locking pin and transversely moves in the sliding groove, wherein when the locking piece is locked, the locking pin is inserted into the lock hole under the elasticity of the elastic piece to relatively lock the seat and the core cap. As for unlocking, the unlocking is simpler, the pressing elastic piece is directly moved along the sliding groove by pulling the toggle rod until the lock pin is separated from the lock hole, and at the moment, the overturning operation can be implemented.

Preferably, a guide post and an arc-shaped guide groove which is formed on the other and takes the core bar as a center of a circle are formed on one of the handle base and the core cap, wherein the guide post and the arc-shaped guide groove relatively move when the core bar rotates relative to the handle base.

Due to the implementation of the technical scheme, compared with the prior art, the invention has the following advantages:

when the back or leg overturning is implemented, the invention can synchronously drive the frame plate and the supporting frame to slide relatively and lock any sliding position, thus forming the optimal effective support of the head, the back and the leg, and synchronously implementing overturning folding or unfolding of the push handle, and completing the angle adjustment and locking of the required position of the bed body without body displacement, thereby improving the success rate of the operation.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a bed support structure of an ophthalmic surgical bed of the present invention;

FIG. 2 is a schematic front view of the head support unit of FIG. 1;

FIG. 3 is a schematic view of the structure of the head support unit of FIG. 1;

FIG. 4 is a schematic top view of FIG. 3;

FIG. 5 is a schematic cross-sectional view of A-A of FIG. 4;

FIG. 6 is a schematic view of the back support unit of FIG. 1;

FIG. 7 is a schematic view of the back support unit of FIG. 1 (another view);

FIG. 8 is a schematic top view of FIG. 6;

FIG. 9 is a schematic cross-sectional view of C-C of FIG. 8;

fig. 10 is a schematic view of the leg support unit of fig. 1;

Fig. 11 is a schematic structural view of the leg supporting unit of fig. 1 (another view);

FIG. 12 is a schematic top view of FIG. 10;

FIG. 13 is a schematic view in partial cross-section of FIG. 12;

FIG. 14 is a schematic view of a partial structure of the push handle of FIG. 10;

FIG. 15 is a schematic view of the partial structure of FIG. 14;

FIG. 16 is an exploded view of the structure of FIG. 15;

wherein: (1) a head support unit; 1. a connecting arm; 1a, a first connecting end; 1b, a second connection; 1c, a third connecting end; 2. a head carriage; 20. a frame body; 21. a connecting piece; 210. a slide rail; g. a track; h1, sliding grooves; 211. a slide block; 212. a connecting rod; c1, a mounting groove; 213. a locking part; 214. an elastic member; 215. sliding balls; 2. a rotary joint; 220. an outer sleeve; 221. an inner core; 222. a locking member; s1, a plug head; s2, locking a bolt; s3, a handle; 3. a head pad; 4. a driving member; s, a pivot;

(2) a back support unit; b1, a back bracket; b10, a back frame body; 101. a first rack bar; g1, a linear slide rail; 102. a second rack bar; b11, a back frame plate; g2, sliding seat; b2, a driver; b20, a transmission arm lever; 200. an inclined strut; 201. an extension rod; b21, a telescopic cylinder; b3, a linkage component; b31, a first fixing seat; 310. a seat plate; b32, a second fixing seat; b33, a connecting seat; b34, a first connecting rod; a1, a first connecting end; a2, a second connecting end; b35, a second connecting rod; b36, a third connecting rod;

(3) Leg support units; t1, thigh brackets; t2, a shank bracket; t20, calf support; t200, sliding track; t21, shank shelf board; t210, a sliding module; t3, a driving unit; t31, a first seat body; t32, a second seat body; t33, telescopic rod; t4, pushing the handle; 40. a handle base; 400. an inner tube sleeve; f. a sliding groove; k. a mounting hole; g. an arc-shaped guide groove; 41. a handle core; 410. a core bar; e. an arc-shaped groove; 411. a core cap; q, lockhole; z, guiding column; 42. a handle bar; 43. a locking member; 430. an elastic member; 431. a locking pin; 432. a toggle rod; t5, a first transmission piece; 51. a first positioning seat; 52. a second positioning seat; 53. a third positioning seat; 54. a first transmission rod; 541. a first connection portion; 52. a second connecting portion; 55. a second transmission rod; 56. a third transmission rod; t6, a second transmission piece; 60. a transmission sleeve; 600. a sleeve body; 601. a poking block; 602. a connecting lug; 61. and a transmission connecting rod.

Detailed Description

In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is, however, susceptible of embodiment in many other forms than those described herein and similar modifications can be made by those skilled in the art without departing from the spirit of the application, and therefore the application is not to be limited to the specific embodiments disclosed below.

As shown in fig. 1, the bed body support unit of the ophthalmic operating bed of the present embodiment includes a head support unit (1), a back support unit (2), and a leg support unit (3) rotatably connected from front and rear ends.

Specifically, the head support unit (1) includes a head bracket 2, a driving member 4 that drives the head bracket 2 to rotate; the back support unit (2) comprises a back bracket B1 and a driver B2 for driving the back bracket B1 to rotate; the leg support unit (3) comprises a thigh bracket T1 and a shank bracket T2 which are connected in a rotating way, a driving part T3 for driving the shank bracket T2 to turn over, and push handles T4 arranged on two sides of the shank bracket T2.

As shown in fig. 2, the head support unit (1) includes a head bracket 2 rotatably connected to a backrest of an ophthalmic operating table through a connection arm 1, a head pad 3, and a driving member 4 driving the head bracket 2 to rotate.

As shown in fig. 3, the head carriage 2 includes a carriage body 20, a link 21 that slides along the length of the carriage body 20 and locks with the carriage body 20, and a swivel joint 22.

As shown in fig. 4 and 5, the connector 21 includes a rail 210 extending along the longitudinal direction of the frame body 20, a slider 211 slidably disposed on the rail 210, a connecting rod 212 fixed to the slider 211 and located outside the rail 210, and a locking portion 213 movably disposed on the connecting rod 212 and capable of locking the connecting rod 212 and the rail 210 with respect to each other. Therefore, the adjustment in the length direction of the rack body is satisfied.

The sliding rail 210 includes two parallel spaced rails g, wherein opposite inner sides of the two rails g are formed with inward recessed sliding grooves h1, and the sliding blocks 211 are slidably disposed in the sliding grooves h1 from both sides.

The connecting rod 212 is a screw rod and is disposed perpendicular to the slider 211, and the locking portion 213 is a locking nut capable of locking and abutting against the slide rail 210, wherein an anti-slip pattern is formed on the outer circumference of the locking nut. Thus, the locking and unlocking operations are facilitated.

In this example, the connecting rod 212 and the slider 211 are formed with a mounting groove c1 extending along the length direction of the connecting rod 212, and the connecting member 20 further includes an elastic member 214 disposed in the mounting groove c1, and a sliding ball 215 abutting between the elastic member 214 and the frame body 20. Through the slip ball setting of elasticity conflict, form restriction effort, avoid once the unblock back, appear sliding by a wide margin, that is to say, after the unblock, the external force of necessarily exerting just can implement the slip regulation.

The rotary joint 22 is detachably provided at a connection end of the connection rod 212 remote from the slider 211, and one connection end of the connection arm 1 is rotatably connected to the back frame through a pivot shaft S and the other connection end is mounted on the rotary joint 22 to be rotated up and down around a direction parallel to the pivot shaft S and locked. In this way, after positioning the connecting arm, a rotational fine adjustment can also be performed by the rotational joint.

In this example, the rotary joint 22 includes an outer sleeve 220, an inner core 221, and a locking member 222 for locking the inner core 221 and the outer sleeve 220 relatively, wherein an arc-shaped slot h radially distributed around the outer sleeve 220 is formed on the outer sleeve 220, and the connecting arm 1 is fixedly connected with the outer sleeve 220 from a connecting end, and an end portion of the connecting rod 212 extends into the arc-shaped slot h to be in threaded connection with the inner core 221.

Specifically, the locking member 222 includes a plug s1 detachably coupled to an end of the outer sleeve 220, a locking bolt s2 threadedly coupled to the plug s1 and capable of abutting against the locking core 221, and a handle s3 fixed to an outer end of the locking bolt s 2. In this example, the handle is mainly convenient to operate.

The connecting arm 1 has a first connecting end 1a, a second connecting end 1b and a third connecting end 1c forming three apexes of a triangle, wherein the first connecting end 1a is connected to the pivot shaft S, the second connecting end 1b is connected to the driving member 4, and the third connecting end 1c is connected to the outer sleeve 220. In this way, the triangular structure is changed by the change of the position of the second connecting end 1b, and once the driving member 4 stops moving, the triangular structure is positioned relatively to form a stable support.

Specifically, when the backrest frames of the frame body 20 and the backrest are level, the first connecting end 1a, the second connecting end 1b and the third connecting end 1c are arranged from top to bottom, the second connecting end 1b is located on the right side of the first connecting end 1a, the third connecting end 1c is located on the left side of the first connecting end 1a and below the frame body 20, the driving piece 4 is a telescopic rod installed on the backrest frame, and the telescopic end is rotationally connected with the second connecting end 1 b.

Therefore, the head support unit of the present embodiment has the following advantages:

1. the rotation adjustment of the head rest is formed under the rotation support of the connecting arm, and the linear motion and the swing (left and right or up and down) of the head rest are combined at the same time so as to meet the operation requirement of adjusting the degrees of different positions of the head rest up, down, left, right, front and back;

2. the connecting arm forming the main support has higher stability under the effective support of the triangle;

3. when the linear sliding is implemented, the sliding can be directly performed after unlocking, and the sliding can be performed after overcoming the resistance so as to avoid the occurrence of adjustment transition.

As shown in fig. 6, the back support unit (2) includes a back bracket B1, a back cushion, and a driver B2 that drives the back bracket B1 to rotate around a rear end portion.

The back bracket B1 comprises a back bracket body B10 and a back bracket plate B11, wherein the rear end part of the back bracket body B10 is rotationally connected with the thigh bracket T1 through a pivot, the back bracket plate B11 is arranged on the back bracket body B10 in a linear sliding way along the front-back direction of the back bracket body B10, the head bracket 2 is connected with the front end part of the back bracket plate B11, and the backrest cushion is detachably arranged on the back bracket plate B11.

As shown in connection with fig. 7, the back frame body B10 includes two first frame bars 101 extending in the front-rear direction, and a second frame bar 102 crossing the two first frame bars 101.

In this example, the first rack bar 101 and the second rack bar 102 are distributed in a zigzag shape.

Meanwhile, a linear rail g1 is correspondingly formed on each first rack bar 101, and the back rack board B11 is slidably disposed on the linear rail g1 from the bottom slide seat g 2.

In this example, each linear rail g1 has two rail monomers, and a plurality of carriages g2 are uniformly spaced along the length of the rail monomers.

Furthermore, an anti-falling design is formed between the rail monomer and the sliding seat g 2.

In this example, the back support unit further includes a linking member B3 connected between the thigh bracket T1 and the back frame plate B11, wherein the linking member B3 can synchronously pull the back frame plate B11 and the head bracket 2 to linearly move relative to the back frame body B10 along with the turning of the back frame body B10 and can also stop moving at the back frame body B10 to form self-locking.

In this example, when the back frame body B10 turns upward around the rear end portion, the interlocking member B3 drives the back frame plate B11 and the head bracket 2 to move toward the rear end portion; when the back frame body B10 is turned down around the rear end portion, the interlocking member B3 drives the back frame plate B11 and the head bracket 2 to move toward the front end portion. In this way, when lying in half, the downward movement can be most closely attached to the effective support of the back and head; when lying down, the bed body can be extended in length, and a better supporting effect is formed.

As shown in fig. 8 and 9, the linkage member B3 includes a first fixing seat B31 and a second fixing seat B32 respectively fixed on the back frame body B10 and the thigh bracket T1, a connecting seat B33 fixed on the back frame plate B11 and connected with the head bracket 2, a first connecting rod B34 rotatably provided on the first fixing seat B31 and formed with a first connecting end a1 and a second connecting end a2, a second connecting rod B35 connecting the first connecting end a1 with the connecting seat B33, and a third connecting rod B36 connecting the second connecting end a2 with the second fixing seat B32, wherein when the back frame body B10 is turned over, the third connecting rod B36 drives the first connecting rod B34 to rotate to drive the second connecting rod B35 to drive the connecting seat B33 to slide linearly, and when the back frame body B10 stops turning over, the first connecting rod B34, the second connecting rod B35, and the third connecting rod B36 limit each other to form self-locking. The components are simple, and the implementation is convenient.

The first fixing seat B31 includes seat plates 310 located at two sides and fixed at the middle of the second frame rod 102, the first connecting rod B34 is rotatably connected between the two seat plates 310, and the second connecting rod B35 and the third connecting rod B36 are respectively formed at two opposite sides of the first connecting rod B34 and are rotatably connected with the connecting seat B33 and the second fixing seat B32 through rotating shafts.

When the back bracket B1 and the thigh bracket T1 are level, the second connecting end a2 of the first connecting rod B34 is positioned right below a rotating point where the first connecting rod B34 and the first fixing seat B31 are connected, and the first connecting end a1 is positioned behind the rotating point. In this way, after lying down, the movement between the individual links can be limited, an optimal locking state is assumed, and at the same time a stable support is also formed.

The actuator B2 includes a transmission arm B20 fixed to the back frame body B10 and extending toward the bottom of the thigh bracket T1, and a telescopic cylinder B21, wherein both end portions of the telescopic cylinder B21 are connected to the rear end portion of the transmission arm B20 and the rear end portion of the thigh bracket T1, respectively. The layout not only reasonably utilizes the space, but also can implement the overturning operation more laborsaving.

The transmission arm B20 includes an inclined strut 200 having an upper end portion fixed to the back frame body B10, and an extension rod 201 extending rearward from a lower end portion of the inclined strut 200, wherein the extension rod 201 is tilted upward when the back bracket B1 and the thigh bracket T1 are flush, and a connection end portion of the extension cylinder B21 and the extension rod 201 is located at a connection end portion of the extension cylinder B21 and the back frame body B10. Therefore, the formed structure is more stable, and the formed pushing force direction is very close to the movement direction of the back frame body only after the telescopic cylinder moves relatively, so that the overturning movement and the effective support after the movement are facilitated.

In summary, the back support unit of the present embodiment has the following advantages:

1. the backrest can be relatively closed or unfolded on the premise of keeping the backrest support and the head support unchanged while the backrest overturning adjustment is met, so that an optimal support effect is formed, and the backrest can be self-locked in any motion state, so that the adjustment and locking of the operation position are facilitated, and the success rate of the operation is improved;

2. the simple multi-connecting-rod structure is adopted, and the relative positions of the transmission arm rod and the telescopic cylinder are matched, so that self-locking can be simply and conveniently implemented, not only is an effective support formed, but also the stability after adjustment is further improved.

As shown in fig. 10 and 11, the leg support unit (3) includes a thigh bracket T1 and a shank bracket T2 rotatably connected to each other, a driving section T3 for driving the shank bracket T2 to turn over, push handles T4 provided on both sides of the shank bracket T2, a first transmission member T5 provided between the thigh bracket T1 and the shank bracket T2, and a second transmission member T6 provided on the corresponding side of the shank bracket T2 and in transmission connection with the corresponding push handles.

Specifically, the thigh bracket T1 is rotatably connected from the rear end portion to the front end portion of the shank bracket T2.

The lower leg bracket T2 includes a lower leg bracket T20 and a lower leg bracket plate T21, the lower leg bracket T20 is rotatably connected from the front end to the rear end of the thigh bracket T1, and the lower leg bracket plate T21 is relatively slidably connected to the lower leg bracket T20 in the front-rear direction.

The first transmission member T5 synchronously pushes the leg frame plate T21 to move back and forth relative to the leg support frame T20 and locks the leg frame plate T21 and the leg support frame T20 after the movement when the thigh bracket T1 and the leg bracket T2 rotate relatively; the second transmission member T6 drives the push handle T4 to rotate and fold or unfold synchronously inwards or outwards during the back-and-forth movement of the leg rest T21 relative to the leg rest T20.

In this example, when the lower leg support T20 turns downward around the front end, the first transmission member T5 drives the lower leg support T21 to slide forward relative to the lower leg support T20, and the second transmission member T6 synchronously drives the push handle T4 to fold inward; when the shank bracket T20 turns upwards around the front end part, the first transmission part T5 drives the shank bracket plate T21 to slide forwards relative to the shank bracket T20, and the second transmission part T6 synchronously drives the push handle T4 to be unfolded outwards.

As shown in fig. 12 and 13, the first transmission member T5 includes a first positioning seat 51, a second positioning seat 52, and a third positioning seat 53 fixed to the thigh bracket T1, the shank bracket T20, and the shank bracket plate T21, respectively; a first transmission rod 54 rotatably provided on the second positioning seat 52 and having a first connection portion 541 and a second connection portion 542; a second transmission rod 55 for transmitting and connecting the first connection portion 541 and the first positioning seat 51; and a third transmission rod 56 for transmitting and connecting the second connection portion 542 and the third positioning seat 53, wherein the first transmission rod 54, the second transmission rod 55, and the third transmission rod 56 are locked relatively when the calf support T20 and the thigh bracket T1 are positioned relatively, and the calf support T21 and the calf support T20 are fixed relatively. Therefore, not only can effective support be provided, but also the shank bracket can be positioned in an adjusting position by being matched with the driving piece so as to meet the operation requirement.

The shank bracket T20 is formed with a sliding rail T200 extending in the front-rear direction, and the shank bracket plate T21 is formed with a sliding module T210 matching with the sliding rail T200, wherein the sliding module T210 slides on the sliding rail T200 in an anti-falling manner.

As shown in fig. 14 to 16, the push handle T4 includes a handle base 40 fixed to the leg rest T21, a handle core 41 rotatably provided in the handle base 40 about a horizontal direction, a handle lever 42 fixed to the handle core 41, and a locking member 43 for locking the handle core 41 to the handle base 40 with respect to each other, and the second transmission member T6 connects the handle core 41 to the leg rest T21 in a transmission manner, and the locking member 43 automatically locks the handle core 41 and the handle base 40 when rotated to a limit position. Under the synchronous movement of the second transmission piece, the synchronous movement of the pushing handles at two sides can be implemented.

The handle 41 includes a core rod 410 and a core cap 411, wherein the core rod 410 is rotatably disposed in the handle base 40 about its own axis, the handle bar 42 is mounted on the core cap 411, and the locking member 43 locks the handle base 40 and the core cap 411 relative to each other.

The inner tube sleeve 400 is arranged in the handle base 40, the core bar 410 is rotatably arranged in the inner tube sleeve 400, the second transmission member T6 comprises a transmission sleeve 60 which is coaxial with the inner tube sleeve 400 and is rotatably arranged on the inner tube sleeve 400, and a transmission connecting rod 61 which is rotatably connected with the transmission sleeve 60 and the lower leg bracket T21 respectively at two ends, wherein the transmission sleeve 60 is connected with the end part of the core bar 410, and the transmission sleeve 60 and the core bar 410 are driven by the transmission connecting rod 61 to synchronously rotate. Thus, the actuating lever 42 is moved inward or outward by the linkage of the transmission link 61.

The core rod 410 is hollow and tubular, and the end part is provided with an arc-shaped groove e along the circumferential direction, the transmission sleeve 60 comprises a sleeve body 600 rotatably arranged at the end part of the inner sleeve 400, a stirring block 601 extending into the arc-shaped groove e from the sleeve body 600, and a connecting lug 602 arranged outside the sleeve body 600, wherein one end part of the transmission connecting rod 61 is rotatably connected with the connecting lug 602, and the other end part is connected with the corresponding side calf bracket T21. Therefore, the position of the transmission connecting rod is convenient to adjust along with the relative movement of the lower leg bracket and the lower leg frame plate under the idle running of the sleeve body, and when the position is close to the limit position, the stirring block is matched with the end part of the arc-shaped groove to drive the core cap to rotate.

In addition, a sliding groove f and a mounting hole k horizontally extending along the left-right direction are formed in the handle base 40, a locking hole q is correspondingly formed in the core cap 411, the locking member 43 comprises an elastic member 430 and a locking pin 431 mounted in the mounting hole k, and a toggle rod 432 fixed on the locking pin 431 and transversely moving in the sliding groove f, wherein when locking, the locking pin 431 is inserted into the locking hole q under the elastic force of the elastic member 430 to relatively lock the handle base 40 and the core cap 411. As for unlocking, the unlocking is simpler, the pressing elastic piece is directly moved along the sliding groove by pulling the toggle rod until the lock pin is separated from the lock hole, and at the moment, the overturning operation can be implemented.

Meanwhile, a guide column z is formed on the core cap 411, and an arc-shaped guide groove g centering around the core bar 410 is formed on the grip block 40, wherein the guide column z and the arc-shaped guide groove g relatively move when the core bar 410 rotates relative to the grip block 40. In this way, the relative movement of the seat 40 and the cartridge cap 411 is made more stable.

In this example, the driving portion T3 includes a first seat T31 and a second seat T32 fixed to the lower leg rest T20 and the thigh rest T1, respectively, and a telescopic rod T33 rotatably connected to the first seat T31 and the second seat T32 at both ends, wherein the telescopic rod T33 is located at one side and the telescopic cylinder B21 is located at the opposite side, so that the space is reasonably utilized.

In summary, the leg support unit of the present embodiment has the following advantages:

1. when the leg overturning is implemented, the frame plate and the supporting frame can be synchronously driven to slide relatively and lock any sliding position, so that the effective supporting position is adjusted in a follow-up way, body displacement is not needed, and the success rate of the operation is improved;

2. in the relative movement of the frame plate and the supporting frame, the overturning, folding and unfolding of the pushing handle can be synchronously implemented, so that the requirement of manual operation is further met;

3. the position of the transmission connecting rod is convenient to adjust along with the relative movement of the lower leg bracket and the lower leg frame plate under the idle running of the sleeve body, and when the position is close to the limit position, the stirring block is matched with the end part of the arc-shaped groove to drive the core cap to rotate, and the lock pin automatically bounces into the lock hole to realize the relative limit of the push handle and the lower leg bracket.

The present invention is described in detail above, but the present invention is not limited to the above-described embodiments. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (7)

1. The utility model provides a bed body bearing structure of ophthalmic surgery bed, its includes head supporting element, back supporting element, shank supporting element that rotate from the tip mutually around, wherein head supporting element includes head bracket, drive head bracket pivoted driving piece, back supporting element includes back bracket, drive back bracket pivoted driver, shank supporting element includes thigh bracket and shank bracket that rotate the connection mutually, drive shank bracket upset drive division, and set up the pushing away the handle of shank bracket both sides, its characterized in that: the back bracket comprises a back bracket body and a back bracket plate, wherein the rear end part of the back bracket body is rotationally connected with a thigh bracket through a pivot, the back bracket plate is arranged on the back bracket body in a linear sliding way along the front-back direction of the back bracket body, the head bracket is connected with the front end part of the back bracket plate, the back support unit also comprises a linkage part connected between the thigh bracket and the back bracket plate, the linkage part can synchronously pull the back bracket plate and the head bracket to linearly move relative to the back bracket body along with the overturning of the back bracket body, and can also stop moving to form self-locking when the back bracket body overturns upwards around the rear end part, and the linkage part drives the back bracket plate and the head bracket to move towards the rear end part; when the back frame body turns downwards around the rear end part, the linkage part drives the back frame plate and the head bracket to move towards the front end part, the linkage part comprises a first fixing seat and a second fixing seat which are respectively fixed on the back frame body and the thigh bracket, a connecting seat which is fixed on the back frame plate and is connected with the head bracket, a first connecting rod which is rotationally arranged on the first fixing seat and is formed with a first connecting end and a second connecting end, a second connecting rod which is used for connecting the first connecting end with the connecting seat, and a third connecting rod which is used for connecting the second connecting end with the second fixing seat, wherein when the back frame body turns, the third connecting rod drives the first connecting rod to rotate so as to drive the second connecting rod to drive the connecting seat to linearly slide, and when the back frame body stops turning, the first connecting rod, the second connecting rod and the third connecting rod are mutually limited to form self-locking; the leg support unit also comprises a first transmission piece arranged between the thigh bracket and the leg bracket, and a second transmission piece arranged at the corresponding side of the leg bracket and in transmission connection with the corresponding push handle, wherein the first transmission piece synchronously pushes the leg bracket to move back and forth relative to the leg bracket and locks the moved leg bracket and the leg bracket relative to each other when the thigh bracket and the leg bracket rotate relative to each other; the second transmission piece drives the push handle to synchronously rotate inwards or outwards to fold or unfold in the forward and backward movement of the shank frame plate relative to the shank support; when the lower leg support turns downwards around the front end part, the first transmission piece drives the lower leg support plate to slide forwards relative to the lower leg support, and the second transmission piece synchronously drives the push handle to fold inwards; when the shank bracket turns upwards around the front end part, the first transmission piece drives the shank bracket plate to slide forwards relative to the shank bracket, and the second transmission piece synchronously drives the push handle to be unfolded outwards; the first transmission piece comprises a first positioning seat, a second positioning seat and a third positioning seat which are respectively fixed on the thigh bracket, the shank bracket and the shank bracket plate; the first transmission rod is rotatably arranged on the second positioning seat and provided with a first connecting part and a second connecting part; a second transmission rod for connecting the first connection part with the first positioning seat in a transmission way; a third transmission rod in transmission connection with the second connection part and the third positioning seat, wherein when the lower leg support frame and the thigh bracket are positioned relatively, the first transmission rod, the second transmission rod and the third transmission rod are locked relatively, and the lower leg support frame plate and the lower leg support frame are fixed relatively; the push handle comprises a handle seat fixed on the shank frame plate, a handle core rotatably arranged in the handle seat around the horizontal direction, a handle rod fixed on the handle core and a locking piece for locking the handle core and the handle seat relatively, the second transmission piece is used for transmitting and connecting the handle core and the shank frame, and when the push handle rotates to a limiting position, the locking piece automatically locks the handle core and the handle seat; the handle core comprises a core rod and a core cap, wherein the core rod is rotatably arranged in the handle seat around the axis direction of the core rod, the handle rod is arranged on the core cap, and the locking piece locks the handle seat and the core cap relatively; the handle seat is internally provided with an inner pipe sleeve, the core rod is rotatably arranged in the inner pipe sleeve, the second transmission piece comprises a transmission sleeve which is coaxial with the inner pipe sleeve and is rotatably arranged on the inner pipe sleeve, and two ends of the transmission sleeve are respectively connected with the transmission sleeve and the shank bracket in a rotating way, wherein the transmission sleeve is connected with the end part of the core rod, and the transmission sleeve and the core rod are driven by the transmission connecting rod to synchronously rotate.

2. The ophthalmic surgical bed support structure of claim 1, wherein: the head bracket comprises a bracket body, a connecting piece and a connecting arm, wherein the connecting piece slides along the length direction of the bracket body and is locked with the bracket body, one connecting end of the connecting arm is connected to the back bracket through a pivot, and the other connecting end is installed on the connecting piece in a manner of rotating up and down around the direction parallel to the pivot or/and rotating left and right around the direction perpendicular to the pivot in a manner of rotating and locking.

3. The ophthalmic surgical bed support structure of claim 2, wherein: the connecting piece comprises a sliding rail extending along the length direction of the frame body, a sliding block arranged on the sliding rail in a sliding way, a connecting rod fixed on the sliding block and positioned outside the sliding rail, and a locking part movably arranged on the connecting rod and capable of locking the connecting rod and the sliding rail relatively; the sliding rail comprises two parallel rails at intervals, wherein inwards concave sliding grooves are formed on the opposite inner sides of the two rails, and the sliding blocks are arranged in the sliding grooves in a sliding manner from two sides; the connecting rod is the screw rod, and is perpendicular to the slider sets up, locking portion is can lock the lock nut who contradicts on the slide rail.

4. A bed support structure for an ophthalmic surgical bed according to claim 3, wherein: the connecting end of the connecting rod and the sliding block is provided with a mounting groove extending along the length direction of the connecting rod, and the connecting piece also comprises an elastic piece arranged in the mounting groove and a sliding ball abutting between the elastic piece and the frame body; the connecting rod is far away from a connecting end of the sliding block and is detachably connected to the rotating joint, and the rotating joint and the connecting arm rotate and adjust relatively around the direction parallel to the pivot.

5. The ophthalmic surgical bed support structure of claim 4, wherein: the rotary joint comprises an outer sleeve, an inner core and a locking piece which is used for locking the inner core and the outer sleeve relatively, wherein an arc-shaped groove which is distributed radially around the outer sleeve is formed in the outer sleeve, the connecting arm is fixedly connected with the outer sleeve from a connecting end, the end part of the connecting rod stretches into the arc-shaped groove to be in threaded connection with the inner core, and the locking piece comprises a plug head which is detachably connected with the end part of the outer sleeve, a locking bolt which is in threaded connection with the plug head and can be used for locking the inner core in a collision mode, and a handle which is fixed at the outer end part of the locking bolt.

6. The ophthalmic surgical bed support structure of claim 2, wherein: the connecting arm is provided with a first connecting end, a second connecting end and a third connecting end which form three vertexes of a triangle, wherein the first connecting end is connected to the pivot, the second connecting end is connected to the driving piece, the third connecting end is connected to the connecting piece, when the head bracket and the back bracket are level, the first connecting end, the second connecting end and the third connecting end are arranged from top to bottom, the second connecting end is positioned on the right side of the first connecting end, the third connecting end is positioned on the left side of the first connecting end and below the head bracket, the driving piece is a telescopic rod arranged on the back bracket, and the telescopic end is rotationally connected with the second connecting end.

7. The ophthalmic surgical bed support structure of claim 1, wherein: the core bar is hollow and tubular, and an arc-shaped groove is formed in the end part of the core bar along the circumferential direction; the transmission sleeve comprises a sleeve body rotatably arranged at the end part of the inner pipe sleeve, a poking block extending into the arc-shaped groove from the sleeve body, and a connecting lug arranged outside the sleeve body, wherein one end part of the transmission connecting rod is rotatably connected with the connecting lug, and the other end part of the transmission connecting rod is connected with the shank bracket at the corresponding side; the handle seat is provided with a sliding groove and a mounting hole which horizontally extend along the left-right direction, the core cap is correspondingly provided with a lock hole, the locking piece comprises an elastic piece and a lock pin which are arranged in the mounting hole, and a toggle rod which is fixed on the lock pin and transversely moves in the sliding groove, wherein when the locking piece is locked, the lock pin is inserted into the mounting hole under the elasticity of the elastic piece to relatively lock the handle seat and the core cap; and a guide column and an arc-shaped guide groove which is formed on the other guide column and takes the core rod as a circle center are formed on one of the handle seat and the core cap, wherein the guide column and the arc-shaped guide groove relatively move when the core rod rotates relative to the handle seat.