CN209966959U - Rehabilitation training ladder - Google Patents

Abstract

The utility model provides a rehabilitation training ladder relates to medical equipment technical field, has solved the patient and when carrying out the rehabilitation training with the help of the rehabilitation training ladder, needs medical personnel's uninterrupted supplementary technical problem of supporting. This rehabilitation training ladder includes body, handrail and supplementary pole of holding up, and the handrail is located the body both sides, and the supplementary both ends of holding up the pole respectively with the handrail sliding connection of body both sides to make supplementary pole of holding up can slide along the handrail. The supplementary pole of holding up makes the patient when carrying out ladder rehabilitation training, not only can realize the balance of left and right direction through the handrail of holding up and/or relying on ladder left side and/or right side, still makes the patient can hold up forward and/or rely on supplementary pole of holding up, realizes the balance of fore-and-aft direction to make the patient need not medical personnel and hold up patient uninterruptedly when rehabilitation training, reduce medical personnel's supplementary patient rehabilitation training's intensity of labour.

Description

Rehabilitation training ladder

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a rehabilitation training ladder.

Background

During the treatment period, the patient suffering from diseases such as stroke, hemiplegia and/or spinal injury needs to be matched with the movement of legs and/or waist of the human body to achieve the purpose of accelerating the recovery of the patient so as to shorten the treatment time of the patient. The rehabilitation training items for going up and down stairs need to coordinate the movement of the legs, the waist and the upper limbs of the patient to keep the balance of the human body, so the rehabilitation training items for going up and down stairs become common items for the rehabilitation training of the patients with the types of stroke, hemiplegia and/or spinal injuries. When a patient carries out rehabilitation training of going up and down stairs, the patient needs to complete various actions of going up and down the stairs under the support of medical care personnel by means of the rehabilitation training stairs.

The handrail among the prior art sets up the both sides at the rehabilitation training ladder, and the patient is when going up and down stairs, and one side of patient relies on and/or supports on the handrail, and the opposite side needs medical personnel to support it to prevent that the patient from falling down and/or transition atress in the rehabilitation training in-process. Therefore, the rehabilitation training ladder in the prior art requires the medical staff to hold the patient for rehabilitation training without interruption to prevent the patient from falling and/or being stressed excessively during the training process.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an one of them purpose is to provide a rehabilitation training ladder, has solved among the prior art patient when carrying out the rehabilitation training with the help of the rehabilitation training ladder, needs medical personnel's uninterrupted supplementary technical problem of supporting. The utility model discloses preferred technical scheme can reach a great deal of beneficial technological effect, specifically see the following explanation.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model discloses a rehabilitation training ladder, including body, handrail and supplementary pole of holding up, the handrail is located the body both sides, supplementary both ends of holding up the pole respectively with the handrail sliding connection of body both sides to make supplementary pole of holding up can slide along the handrail.

Further, the handrail comprises a sliding groove, and the sliding groove is used for installing and/or connecting the auxiliary handrail, so that the auxiliary handrail can slide along the sliding groove.

Further, the rehabilitation training ladder still includes glide machanism, and glide machanism is located the supplementary both ends of holding up the pole to make supplementary pole and handrail pass through glide machanism sliding connection.

Further, glide machanism includes the slider, and the slider is embedded in the spout to it slides along the handrail to drive supplementary pole of holding up through the slip of slider in the spout.

Furthermore, the sliding mechanism also comprises a sliding block and a sliding bar, and the sliding bar is positioned on one side of the sliding block; one side of the sliding block, which is close to the sliding-resistant strip, comprises a sliding hole, the sliding-resistant block is positioned in the sliding hole, and the sliding-resistant block can slide along the sliding hole; so that the anti-slip block can protrude out of the surface of the sliding block and be clamped with the anti-slip strip, or the anti-slip block is stuck on the surface of the sliding block and is separated from the anti-slip strip.

Further, hinder the slider and hold up the both ends of pole with supplementary and be connected to when making supplementary pole of holding up receive pressure, hinder the slider and can hold up the effect of pole with supplementary and bulge out the slider surface and hinder the draw runner joint down.

Furthermore, the sliding mechanism also comprises a spring, the telescopic direction of the spring is parallel to the movement direction of the anti-sliding block, one end of the spring is connected with the sliding block, and the other end of the spring is connected with the anti-sliding block and/or the auxiliary holding rod; when the pressure on the auxiliary holding rod is relieved, the anti-slip block can be sunk in the surface of the slider through the elasticity of the spring to be separated from the anti-slip strip.

Furthermore, the anti-slip strip comprises blocking parts, and the blocking parts are uniformly distributed on one surface, close to the anti-slip block, of the anti-slip strip.

Furthermore, the blocking part is a blocking tooth and/or a blocking groove matched with the anti-sliding block.

Further, the rehabilitation training ladder includes a non-slip mat positioned on the outer surface of the auxiliary handrail and/or the handrail.

The utility model provides a rehabilitation training ladder has following beneficial technological effect at least:

the both ends of the supplementary pole of holding up of rehabilitation training ladder are connected with body both sides handrail respectively for supplementary pole of holding up is located patient's the place ahead when ladder carries out rehabilitation training about the patient, and then makes the patient can both hands support and/or rely on forward on supplementary pole of holding up, thereby makes the patient can obtain better support, need not that medical personnel support and/or support the patient uninterruptedly.

Specifically, when the patient is doing rehabilitation training, the patient can also go up and down the stairs along the handrail, namely, the left side and/or the right side of the patient can lean on the handrail, and the front side of the handrail is leaned on the auxiliary handrail. The patient can adjust its ascending balance of health left and right sides through the handrail, holds up the pole through supplementary and adjusts ascending balance of its fore-and-aft direction, not only makes the patient can more easily utilize the rehabilitation training ladder effectively and realize self balance, prevents that self from falling down, can also reduce medical personnel to the support of patient when the patient is recovered, makes medical personnel when assisting patient rehabilitation training, need not to hold up the patient uninterruptedly.

Furthermore, the patient can also transfer the upper body weight of the patient to the handrail and/or the auxiliary holding rod by holding the handrail and/or the auxiliary holding rod with both hands, so that the stress of the leg and/or the waist of the patient can be adjusted according to the self condition during rehabilitation training, and the labor intensity of medical staff for holding and/or supporting the patient upwards is reduced.

Furthermore, the utility model discloses preferred technical scheme can also produce following technological effect:

the utility model discloses preferred technical scheme's slider is embedded in the spout for supplementary both ends of holding up the pole not only can slide along the spout under the guide of slider, can also prevent through the effect of slider and spout inner wall that supplementary pole of holding up from appearing the deflection at the in-process that slides.

The utility model relates to a preferred technical scheme's the slider that hinders passes through protrusion in the surface of slider for hinder the slider can with the spout inner wall and/or with fix at the inside structure friction of spout and/or block, slide in the appearance when supporting the patient in order to prevent supplementary pole of holding up.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of a preferred embodiment rehabilitation training ladder of the present invention;

FIG. 2 is a cross-sectional view of a first preferred embodiment of the present invention in a first state of the slide stop;

FIG. 3 is a cross-sectional view of the first preferred embodiment of the present invention in a second state;

FIG. 4 is a cross-sectional view of a second preferred embodiment of the present invention in a first state of the slide stop;

FIG. 5 is a cross-sectional view of a second preferred embodiment of the present invention in a second state of the slide stop;

FIG. 6 is a cross-sectional view of a preferred embodiment of the present invention in a first state of the slide stop;

FIG. 7 is a cross-sectional view of a preferred embodiment of the present invention in a second state of the slide stop;

fig. 8 is a front view of a preferred embodiment rehabilitation training ladder of the present invention.

FIG. 1-body; 2-a handrail; 21-a chute; 22-a locking member; 3-auxiliary holding rod; 4-a sliding mechanism; 41-a slide block; 411-a slide hole; 42-a slide-resistant block; 43-a spring; 44-a slip resistant strip; 441-blocking part; 5-non-slip mat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, a rehabilitation training ladder, includes body 1, handrail 2 and supplementary pole 3 of holding up, handrail 2 is located body 1 both sides, and the supplementary both ends of holding up pole 3 respectively with the handrail 2 sliding connection of body 1 both sides to make supplementary pole 3 of holding up slide along handrail 2.

Referring to fig. 8, the height of the armrest 2 may be adjusted. Specifically, handrail 2 includes the dead lever of vertical setting, and the dead lever includes canned paragraph and lift section. Preferably, the fixed section includes a hole matching with the shape and size of the lifting section, so that the lifting section can be embedded in the fixed section, and the lifting section moves along the extension direction of the fixed section, so that the lifting section can move upwards and/or downwards to realize the height adjustment of the handrail.

As a preferred embodiment of the present invention, the armrest 2 further includes a locking member 22. The locking member 22 is used to fix the elevation section in the handle so that the elevation section is fixed at a designated height on the fixed section. Preferably, the locking member 22 includes a screw, a threaded hole matched with the screw is formed in the fixed section, and the threaded hole is communicated with a hole sleeved with the lifting section, so that the locking member 22 can pass through the threaded hole in the fixed section to be connected with the lifting section, and the lifting section is fixed on the fixed section at a designated height.

Referring again to fig. 1, handrail 2 includes a sliding groove 21, and sliding groove 21 is used for mounting and/or connecting assist lever 3 so that assist lever 3 can slide along sliding groove 21. Preferably, the slide groove 21 is located on a side of the two side armrests 2 close to each other and/or a side far from the ground.

Referring to fig. 1, 3 or 5, the rehabilitation training ladder further comprises a sliding mechanism 4, the sliding mechanism 4 is located at two ends of the auxiliary handrail 3, and the auxiliary handrail 3 and the handrail 2 are slidably connected through the sliding mechanism 4. Preferably, the sliding mechanism 4 is fixedly connected with two ends of the auxiliary holding rod 3, so that the auxiliary holding rod 3 can move along the sliding chute under the guidance of the sliding mechanism 4.

Referring to fig. 3 or 5, the sliding mechanism 4 includes a sliding block 41, and the sliding block 41 is embedded in the sliding slot 21, so that the auxiliary handrail 3 is driven to slide along the handrail 2 by the sliding of the sliding block 41 in the sliding slot 21. Preferably, the size of the sliding block 41 is matched with the size and shape of the sliding slot 21, so that the sliding block 41 can only slide along the sliding slot 21.

Referring to fig. 6 and 7, the slide groove 21 may be provided as a groove having a "T" shape in cross section; the width of the sliding block 41 matches the width of the bottom of the sliding slot 21, so that the sliding block 41 can slide along the sliding slot 21 and no longer swing inside the sliding slot 21, and the auxiliary handrail 3 can slide more stably along the sliding slot 21.

Referring to fig. 2 and 3 or fig. 4 and 5, the sliding mechanism 4 further includes a slide preventing block 42 and a slide preventing bar 44, the slide preventing bar 44 being located at one side of the slide 41; one side of the sliding block 41 close to the sliding-resistant strip 44 comprises a sliding hole 411, the sliding-resistant block 42 is positioned in the sliding hole 411, and the sliding-resistant block 42 can slide along the sliding hole 411; so that the anti-slip block 42 can protrude from the surface of the sliding block 41 to be clamped with the anti-slip strip 44, or the anti-slip block 42 is sunken in the surface of the sliding block 41 to be separated from the anti-slip strip 44. Preferably, the anti-slip strip 44 is connected with the sliding groove 21 through screws and/or pins so as to reduce the manufacturing difficulty of the rehabilitation training ladder.

As an alternative to this, the anti-slip strip 44 and the runner 21 can also be of one-piece construction.

Referring to fig. 2 to 5, the slide block 42 is connected to both ends of the auxiliary handrail 3, so that when the auxiliary handrail 3 is pressed, the slide block 42 can protrude out of the surface of the slide block 41 under the action of the auxiliary handrail 3 to be clamped with the slide bar 44.

It should be noted that, when one end of the slide stopping block 42 protrudes from the surface of the slide block 41, the slide stopping block 42 can rub against and/or block the inner wall of the slide slot 21, so as to prevent the auxiliary supporting rod 3 from sliding along the slide slot 21 when supporting the patient. When the slide stopping block 42 is sunk in the slide hole 411, the slide stopping block 42 and the inner wall of the slide groove 21 are separated from each other, so that the auxiliary handrail 3 can slide along the slide groove 21.

Referring to fig. 2 or 4 again, the sliding mechanism 4 further includes a spring 43, the extending and contracting direction of the spring 43 is parallel to the moving direction of the anti-sliding block 42, and one end of the spring 43 is connected with the sliding block 41, and the other end is connected with the anti-sliding block 42 and/or the auxiliary handrail 3; so that when the pressure applied to the auxiliary handrail 3 is released, the anti-slip block 42 can be separated from the anti-slip strip 44 by being sunk into the surface of the slip block 41 by the elastic force of the spring 43.

Preferably, the spring 43 is sleeved on the slide block 42, and one end of the spring 43 close to the slide block 44 is connected with the slide block 41, and the other end is connected with the slide block 42 and/or the auxiliary handrail 3. When the block 42 protrudes from the surface of the block 41, the spring 43 is compressed, so that when the pressure applied to the auxiliary handrail 3 is relieved, the block 42 can be separated from the block 44 by being sunk into the surface of the block 41 by the thrust of the spring 43.

Specifically, referring to fig. 6, when the auxiliary handrail 3 is pressed downward by the patient, the spring 43 is compressed, so that the blocking slider 42 protrudes from the outer surface of the slider 41, so that the auxiliary handrail 3 is fixed on the handrail 2, thereby preventing the patient from falling forward and/or backward. Specifically, the patient presses the spring 43 by leaning and/or holding his body on the auxiliary handrail 3, so that the auxiliary handrail 3 can be fixed on the handrail.

Referring to fig. 7, when the auxiliary handrail 3 is not subjected to the downward pressing force, the sliding block 42 is recessed into the sliding hole 411 under the action of the spring 43, so that the sliding block 42 does not protrude out of the surface of the sliding block 41, and the auxiliary handrail 3 can slide along the handrail 2; specifically, when the patient goes up a step and/or a step, the patient transfers the self gravity to the handrail and/or the leg, and pushes the auxiliary handrail 3 forward, so that the auxiliary handrail 3 slides along the handrail.

In another preferred embodiment, one end of the spring 43 near the slide bar 44 is fixedly connected to the slide block 42 and/or the auxiliary handrail 3, and the other end is fixedly connected to the slide block 41. Specifically, when the sliding block 42 protrudes from the surface of the sliding block 41, the spring 43 is stretched, so that when the pressure on the auxiliary handrail 3 is relieved, the sliding block 42 can be sunk into the surface of the sliding block 41 by the pulling force of the spring 43 to be separated from the sliding block strip 44.

As an implementable alternative, elastic sheets can be provided between the slide 41 and the slide block 42 and/or the auxiliary handrail 3.

Referring to fig. 2 or 4 again, the sliding bar 44 includes blocking portions 441, and the blocking portions 441 are uniformly distributed on a surface of the sliding bar 44 close to the sliding block 42. Preferably, the blocking portion 441 is a latch and/or a slot matched with the sliding stopper 42.

As a preferred embodiment of the present invention, the blocking portion 441 includes a blocking surface, and the blocking surface is used for blocking with a surface of the sliding block 42, so as to prevent the sliding block 41 from sliding. Preferably, the included angle between the blocking surface and the inner wall surface of the sliding groove 21 is 60-90 degrees.

As a preferred embodiment of the present invention, the blocking portion 441 further includes a sliding surface, and the included angle between the sliding surface and the inner wall surface of the sliding groove 21 is 120 ° to 150 °. The sliding surface can make the sliding of the slider 41 inside the chute 21 smoother.

As an alternative to this, the anti-slip strip 44 may be a rack, and the anti-slip block 42 may include a tooth structure matching the rack, so that the anti-slip block 42 can be engaged with the anti-slip strip 44.

As a preferred embodiment of the present invention, the rehabilitation training ladder comprises a non-slip mat 5, the non-slip mat 5 is located on the outer surface of the auxiliary handrail 3 and/or the handrail 2. Preferably, the non-slip mat 5 may be made of a soft material provided with a non-slip structure, such as foam provided with stripes and/or bumps, which not only can improve the comfort of the handrail 2 and/or the auxiliary handrail 3, but also can facilitate the patient to grip the handrail 2 and/or the auxiliary handrail 3.

As a preferred embodiment of the present invention, the auxiliary handrail 3 is further provided with a depending plate. With the vertical setting of backup plate to the area of increase backup plate and patient contact surface, thereby reach and reduce the pressure that the patient relied on to receive on supplementary handrail 3, improve the comfort level of patient when relying on supplementary handrail. Preferably, the surface of the depending plate is a cambered surface matched with the human body structure.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. The rehabilitation training ladder is characterized by comprising a body (1), handrails (2), auxiliary holding rods (3) and a sliding mechanism (4), wherein the handrails (2) are positioned on two sides of the body (1), and two ends of each auxiliary holding rod (3) are respectively in sliding connection with the handrails (2) on two sides of the body (1), so that the auxiliary holding rods (3) can slide along the handrails (2);

the sliding mechanisms (4) are positioned at two ends of the auxiliary holding rod (3), and the auxiliary holding rod (3) is connected with the handrail (2) in a sliding manner through the sliding mechanisms (4);

the sliding mechanism (4) comprises a sliding block (41), the sliding block (41) is embedded in a sliding groove (21) so as to drive the auxiliary handrail (3) to slide along the handrail (2) through the sliding of the sliding block (41) in the sliding groove (21);

the sliding mechanism (4) also comprises a slide resisting block (42) and a slide resisting strip (44),

the slide-resistant strip (44) is positioned on one side of the slide block (41);

one surface of the sliding block (41) close to the sliding-resistant strip (44) comprises a sliding hole (411), the sliding-resistant block (42) is positioned in the sliding hole (411), and the sliding-resistant block (42) can slide along the sliding hole (411);

so that the sliding block (42) can protrude from the surface of the sliding block (41) and be clamped with the sliding block strip (44), or the sliding block (42) is sunken into the surface of the sliding block (41) and is separated from the sliding block strip (44).

2. The rehabilitation training ladder of claim 1, wherein the handrail (2) comprises a sliding groove (21), and the sliding groove (21) is used for mounting and/or connecting the auxiliary handrail (3) so that the auxiliary handrail (3) can slide along the sliding groove (21).

3. The rehabilitation training ladder according to claim 1, characterized in that the slide block (42) is connected with both ends of the auxiliary handrail (3) so that when the auxiliary handrail (3) is pressed, the slide block (42) can protrude out of the surface of the slide block (41) under the action of the auxiliary handrail (3) to be clamped with the slide block (44).

4. The rehabilitation training ladder according to claim 1, characterized in that the sliding mechanism (4) further comprises a spring (43), the extension and contraction direction of the spring (43) is parallel to the movement direction of the slide block (42), and one end of the spring (43) is connected with the slide block (41) and the other end is connected with the slide block (42) and/or the auxiliary handrail (3);

when the pressure on the auxiliary handrail (3) is relieved, the sliding block (42) can be sunk into the surface of the sliding block (41) through the elastic force of the spring (43) to be separated from the sliding bar (44).

5. The rehabilitation training ladder of claim 1, wherein the slide bar (44) comprises blocking portions (441), and the blocking portions (441) are uniformly distributed on one surface of the slide bar (44) close to the slide block (42).

6. The rehabilitation training ladder of claim 5, wherein the catch (441) is a catch and/or a catch groove that mates with the anti-slide block (42).

7. The rehabilitation training ladder of claim 6, characterized by comprising a non-slip mat (5), the non-slip mat (5) being located on the outer surface of the auxiliary handrail (3) and/or the handrail (2).

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