CN219558637U - Postpartum pelvic floor recovery equipment - Google Patents

Abstract

The utility model provides a postpartum pelvic floor recovery device, which comprises a bottom supporting plate, an auxiliary cushion, side supporting frames, a sliding connecting rod, a pedal plate and a force application training structure, wherein the bottom supporting plate is provided with a plurality of support plates, the side supporting frames are respectively provided with a plurality of support plates, and the support plates are respectively provided with a plurality of support plates, wherein the support plates are respectively provided with a plurality of support plates: the auxiliary cushion is adhered to the middle part of the bottom supporting plate through a devil adhesive sheet below the auxiliary cushion, and after the auxiliary cushion is adhered, the side supporting frames can be connected to the surface of the auxiliary cushion through bolts in the space reserved around; the sliding connecting rod is nested in the sliding groove formed in the side support frame, and the foot pedal is nested on the surface of the sliding connecting rod; the two ends of the force application training structure are arranged on the surface of the bottom supporting plate; the force application training structure takes the central line of the bottom supporting plate as an axis and is symmetrically distributed on two sides of the bottom supporting plate. The pedal and the force application training structure can simulate squatting actions well, have pressure applied in two directions, and have good training effect.

Description

Postpartum pelvic floor recovery equipment

Technical Field

The utility model relates to the technical field of puerperal pelvic floor muscle recovery, in particular to postpartum pelvic floor recovery equipment.

Background

The pelvic floor muscle is restored, the exercise is one of the simplest and effective methods, especially for postpartum women, the pelvic floor muscle can be made to be compact and elastic through the exercise, in the exercise category, squatting is the optimal exercise mode, when squatting, considerable exercise can be generated on the muscle, the pelvic floor muscle training effect can be achieved more quickly, and therefore the pelvic floor muscle training equipment for puerperal squatting is needed. However, the existing pelvic floor muscle recovery equipment still has the problems that the squatting action cannot be well simulated, the applied pressure is single, and a good training effect cannot be achieved.

Therefore, it is necessary to invent a device for restoring the postpartum pelvic floor.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a postpartum pelvic floor recovery device, which solves the problems that the traditional pelvic floor muscle recovery device still cannot simulate squatting actions well, the applied pressure is single, and a good training effect cannot be achieved. The utility model provides a postpartum pelvic floor recovery equipment, includes the bottom sprag version, supplementary cushion, side support frame, sliding connection pole, running-board and application of force training structure, wherein: the auxiliary cushion is sewed with a devil adhesive sheet below, and can be adhered to the middle part of the bottom support plate through the devil adhesive sheet below, and after the auxiliary cushion is adhered, the side support frames can be connected to the surface of the auxiliary cushion through bolts in the space reserved around; the sliding connecting rod is nested in a sliding groove formed in the side support frame, and the foot pedal is nested on the surface of the sliding connecting rod and positioned in the center of the sliding connecting rod; the force application training structure is divided into three endpoints, two ends of the force application training structure are arranged on the surface of the bottom supporting plate through bolts, and the middle endpoint of the force application training structure is connected with the sliding connecting rod through bolts; the force application training structure takes the central line of the bottom supporting plate as an axis and is symmetrically distributed on two sides of the bottom supporting plate.

The pedal plate comprises a rotary support body, a positioning rotating shaft, a support plate, a pedal rotating plate and a foot fixing belt; the positioning rotating shaft is divided into an inner ring and an outer ring, the inner ring of the positioning rotating shaft is connected with the sliding connecting rod, and the outer ring of the positioning rotating shaft is inlaid at two ends of the rotating support body and is fixed through bolts; the support plate is arranged on the surface of the rotary support body through bolts, the pedal rotary plate rotating shaft is arranged on the surface of the support plate, and the foot fixing strap is pressed on the surface of the pedal rotary plate through bolts.

The force application training structure comprises a rear end supporting rod, a front end supporting rod, a force application belt and a middle fixed endpoint, wherein the rear end supporting rod and the front end supporting rod are matched for use to form two fixed point positions; the force application belt is provided with a bolt with a round hole at the rear end, the bolt is arranged between the rear end supporting rod and the front end supporting rod, the middle fixing end point is hung between the force application belts through the bolt with the round hole at the rear end, and the middle fixing end point is connected with the sliding connecting rod through the bolt.

The foot pedal is positioned at the right center of the sliding connecting rod, the rotary support body is a steel metal block, the rear end of the rotary support body is round, and the positioning rotating shaft can rotate on the surface of the sliding connecting rod; the front end of the rotary support body is a platform and is connected with the support plate; the pedal rotating plate adopts a pair of wooden circular plates, the bottom of the pedal rotating plate is provided with a rotating shaft, and the pedal rotating plate can rotate on the surface of the supporting plate through the rotating shaft at the bottom of the pedal rotating plate; the surface of the pedal rotating plate is adhered with an anti-slip adhesive layer, the foot fixing band adopts an elastic binding band for enabling a patient to lie on the surface of the auxiliary cushion, the foot can be fixed on the surface of the pedal rotating plate through the foot fixing band, after the foot is fixed, the ankle can swing left and right through the rotation of the pedal rotating plate, the leg part can drive the pedal to move in the inside of the chute in the side support frame through bending, the standing posture squatting action is simulated in sequence, the pelvic floor muscles are trained through squatting, a certain slope is arranged for the side support frame, the leg part can move up and down while moving forward and backward through the slope, and the training strength is further increased.

The force application training structure adopts a pair of force application belts, the force application belts adopt elastic rubber belts, the force application belts are cut off from the centers of the force application belts and are connected through middle fixing end points, the force application belts can be kept horizontal under the condition of not being participated by external force, and the middle fixing end points are positioned in the centers of the grooves in the side support frames; the force application training structure can enable the sliding connecting rod and the pedal to be positioned in the center of the groove in the side support frame through the pulling force of the two ends of the force application training structure, and is used for applying pressure to a patient when the patient pushes the novel pedal by using the legs, one can apply two pressures, when the patient pushes forward, the force application belt at the front end starts to apply pressure, when the patient retracts back to the legs, the force application belt at the rear end starts to apply pressure, so that the patient can be trained more comprehensively when using the force application training structure, and the recovery of pelvic floor muscles is quickened.

Compared with the prior art, the utility model has the following beneficial effects:

the foot rest is arranged, so that a patient can lie on the surface of the auxiliary cushion, feet can be fixed on the surface of the foot rest rotating plate through foot fixing belts, feet can swing left and right through rotation of the foot rest rotating plate after the feet are fixed, legs can drive the foot rest to move in the sliding grooves in the side support frames through bending, standing posture squatting actions are simulated sequentially, pelvic floor muscles are exercised through squatting, a certain slope is formed for the side support frames, and the legs can move up and down while moving forwards and backwards through the slope, so that training strength is further improved.

The utility model provides a force application training structure, which is used for a patient to apply pressure when pushing a novel pedal by legs, one force application training structure can apply two pressures, when the patient pedals forwards, the force application belt at the front end starts to apply pressure, and when the patient retracts the legs backwards, the force application belt at the rear end starts to apply pressure, so that the patient can be trained more comprehensively when using the pedal, and the recovery of pelvic floor muscles is quickened.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an enlarged view at a of the present utility model.

Fig. 3 is an enlarged view of the utility model at B.

In the figure:

the maintenance platform supports the mesa 1, the horizontal rotation base 2, the support base 3, the support revolving stage 4, the primary support arm 5, the secondary support arm 6, the adjustment base 61, the adjustment support frame 62, the fixed base 63, the rotation base 64, the steady rest piece 65, the reduction gear backup pad 7, the reduction gear main part 8, reduction gear access cover 9.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution of the embodiments of the present utility model will be clearly and completely described below, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As shown in fig. 1 to 3.

The utility model provides a postpartum pelvic floor recovery device, which comprises a bottom supporting plate 1, an auxiliary cushion 2, side supporting frames 3, a sliding connecting rod 4, a pedal plate 5 and a force application training structure 6, wherein: the auxiliary cushion 2 is sewed with a devil adhesive sheet below, and the auxiliary cushion 2 can be adhered to the middle part of the bottom support plate 1 through the devil adhesive sheet below, after the auxiliary cushion 2 is adhered, the side support frames 3 can be connected to the surface of the auxiliary cushion 2 through bolts in the space reserved around; the sliding connecting rod 4 is nested in the side support frame 3, provided with a chute, and the foot pedal 5 is nested on the surface of the sliding connecting rod 4 and positioned in the center of the sliding connecting rod 4; the force application training structure 6 is divided into three endpoints, two ends of the force application training structure 6 are arranged on the surface of the bottom supporting plate 1 through bolts, and the middle endpoint of the force application training structure 6 is connected with the sliding connecting rod 4 through bolts; the force application training structures 6 are symmetrically distributed on two sides of the bottom supporting plate 1 by taking the central line of the bottom supporting plate 1 as an axis.

The foot pedal 5 includes a rotation support body 51, a positioning rotation shaft 52, a support plate 53, a foot pedal rotation plate 54 and a foot fixing strap 55; the positioning rotating shaft 52 is divided into an inner ring and an outer ring, the inner ring of the positioning rotating shaft 52 is connected with the sliding connecting rod 4, and the outer ring of the positioning rotating shaft 52 is inlaid at two ends of the rotating support body 51 and is fixed through bolts; the support plate 53 is mounted on the surface of the rotary support body 51 by bolts, the pedal rotary plate 54 is rotatably mounted on the surface of the support plate 53, and the foot fixing strap 55 is pressed on the surface of the pedal rotary plate 54 by bolts.

The force application training structure 6 comprises a rear end supporting rod 61, a front end supporting rod 62, a force application belt 63 and a middle fixing endpoint 64, wherein the rear end supporting rod 61 and the front end supporting rod 62 are matched for use to form two fixed points; the force application belt 63 is mounted between the rear support bar 61 and the front support bar 62 by a bolt with a circular hole at the rear end, and an intermediate fixing end point 64 is suspended between the force application belt 63 by a bolt with a circular hole at the rear end, and the intermediate fixing end point 64 is connected with the slide link 4 by a bolt.

The utility model provides a postpartum pelvic floor recovery device, wherein a bottom supporting plate 1 is used for forming a stable supporting plate and is used for supporting other mechanisms above the bottom supporting plate so as to prevent the situations of deflection and toppling during use; the auxiliary cushion 2 adopts a silica gel cushion to prevent the patient from sliding during the surface training; the side support frames 3 are in a pair, and the rear ends of the side support frames 3 are higher than the front end bottoms, so that an inclined chute can be formed in the side support frames, and the sliding connecting rod 4 can slide in the side support frames smoothly; the sliding connecting rod 4 adopts a steel metal rod and is mainly used for supporting the foot pedal 5 and receiving the pressure generated by the force application training structure 6; the foot pedal 5 is positioned at the right center of the sliding connecting rod 4, the rotary support body 51 is a steel metal block, the rear end of the rotary support body 51 is round, and the positioning rotating shaft 52 rotates on the surface of the sliding connecting rod 4; the front end of the rotary support body 51 is a platform and is connected with the support plate 53; the pedal rotating plate 54 is a pair of wooden circular plates, a rotating shaft is arranged at the bottom of the pedal rotating plate 54, and the pedal rotating plate 54 can rotate on the surface of the supporting plate 53 through the rotating shaft at the bottom of the pedal rotating plate; the surface of the pedal rotating plate 54 is adhered with an anti-slip adhesive layer, the foot fixing belt 55 is an elastic binding belt and is used for enabling a patient to lie on the surface of the auxiliary cushion 2, feet can be fixed on the surface of the pedal rotating plate 54 through the foot fixing belt 55, feet can swing left and right through rotation of the pedal rotating plate 54 after being fixed, legs can drive the pedals 5 to move in the sliding grooves in the side support frames 3 through bending, standing posture squatting actions are simulated in sequence, pelvic floor muscles are exercised through squatting, a certain slope is formed for the side support frames 3, and the legs can move back and forth through the slope and up and down, so that training strength is further improved; the force application training structure 6 adopts a pair, the force application belt 63 adopts an elastic rubber belt, the force application belt 63 is cut off from the center of the force application belt and is connected through a middle fixing endpoint 64, the force application belt 63 can keep horizontal under the condition of not being participated by external force, and the middle fixing endpoint 64 is positioned in the center of a slot in the side support frame 3; the force application training structure 6 can enable the sliding connecting rod 4 and the pedal 5 to be positioned in the center of the groove in the side support frame 3 through the pulling force at two ends of the force application training structure, and is used for applying pressure to the novel pedal 5 when a patient pushes the pedal 5 by using legs, one of the force application training structure 6 can apply two pressures, when the patient pushes forward, the force application belt 63 at the front end starts to apply pressure, when the patient retracts back to the legs, the force application belt 63 at the rear end starts to apply pressure, so that the patient can be trained more comprehensively when using the novel pedal, and the recovery of pelvic floor muscles is quickened.

By utilizing the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the utility model.

Claims (5)

1. A postpartum pelvic floor recovery apparatus, characterized by: including bottom sprag board (1), supplementary cushion (2), side support frame (3), slide connecting rod (4), running-board (5) and application of force training structure (6), wherein: the magic adhesive sheets are sewn below the auxiliary soft cushion (2), the auxiliary soft cushion (2) is adhered to the middle part of the bottom supporting plate (1), and after the auxiliary soft cushion (2) is adhered, the side supporting frames (3) can be connected to the surfaces of the auxiliary soft cushion through bolts in the space reserved around; the sliding connecting rod (4) is nested in a chute formed in the side support frame (3), and the foot pedal (5) is nested on the surface of the sliding connecting rod (4) and positioned in the center of the sliding connecting rod (4); the force application training structure (6) is divided into three endpoints, two ends of the force application training structure (6) are arranged on the surface of the bottom supporting plate (1), and the middle endpoint of the force application training structure (6) is connected with the sliding connecting rod (4); the force application training structures (6) are symmetrically distributed on two sides of the bottom supporting plate (1) by taking the central line of the bottom supporting plate (1) as an axis.

2. A postpartum pelvic floor recovery apparatus as claimed in claim 1, wherein: the pedal (5) comprises a rotary support body (51), a positioning rotating shaft (52), a support plate (53), a pedal rotary plate (54) and a foot fixing belt (55); the positioning rotating shaft (52) is divided into an inner ring and an outer ring, the inner ring of the positioning rotating shaft (52) is connected with the sliding connecting rod (4), and the outer ring of the positioning rotating shaft (52) is inlaid at two ends of the rotating support body (51) and fixed through bolts; the support plate (53) is arranged on the surface of the rotary support body (51) through bolts, the pedal rotary plate (54) is arranged on the surface of the support plate (53) in a rotary shaft mode, and the foot fixing belt (55) is pressed on the surface of the pedal rotary plate (54) through bolts.

3. A postpartum pelvic floor recovery apparatus as claimed in claim 1, wherein: the force application training structure (6) comprises a rear end supporting rod (61), a front end supporting rod (62), a force application belt (63) and a middle fixing endpoint (64), wherein the rear end supporting rod (61) and the front end supporting rod (62) are matched for use to form two fixed points; the force application belt (63) is arranged between the rear end supporting rod (61) and the front end supporting rod (62) through a bolt with a round hole at the rear end, the middle fixing end point (64) is hung between the force application belt (63) through a bolt with a round hole at the rear end, and the middle fixing end point (64) is connected with the sliding connecting rod (4) through a bolt.

4. A postpartum pelvic floor recovery apparatus as claimed in claim 2, wherein: the foot pedal (5) is positioned at the right center of the sliding connecting rod (4), the rotary support body (51) is a steel metal block, the rear end of the rotary support body (51) is round, and the positioning rotating shaft (52) can rotate on the surface of the sliding connecting rod (4); the front end of the rotary support body (51) is a platform and is connected with the support plate (53); the pedal rotating plate (54) adopts a pair of wooden circular plates, a rotating shaft is arranged at the bottom of the pedal rotating plate (54), and the pedal rotating plate (54) can rotate on the surface of the supporting plate (53) through the rotating shaft at the bottom of the pedal rotating plate; the surface of the pedal rotating plate (54) is adhered with an anti-slip adhesive layer, and the foot fixing belt (55) adopts an elastic binding belt.

5. A postpartum pelvic floor recovery apparatus as claimed in claim 3, wherein: the force application training structure (6) adopts a pair, the force application belt (63) adopts an elastic rubber belt, the force application belt (63) is cut off from the center of the force application belt and is connected through a middle fixing end point (64), the force application belt (63) can keep horizontal under the condition of not being participated by external force, and the middle fixing end point (64) is positioned in the center of a slot in the side support frame (3); the force application training structure (6) can enable the sliding connecting rod (4) and the pedal (5) to be positioned in the center of the groove in the side support frame (3) through the pulling force at the two ends of the force application training structure.