CN218501114U - Bendable guide sheath and guide device - Google Patents

Abstract

The utility model provides a bendable guiding sheath pipe and a guiding device, wherein the middle pipe section of the bendable guiding sheath pipe is connected between the bendable pipe section and a sheath pipe joint; the bendable pipe section comprises at least two tenon-and-mortise plug connectors, and the tenon-and-mortise plug connectors are sequentially plugged along the axial direction of the middle pipe section; the bendable pipe section is used for bending relative to the middle pipe section in the axial direction through relative sliding between the mortise-tenon plug connectors when lateral force is applied. The utility model discloses a set up the flexible pipeline section into two at least tenon fourth of twelve earthly branches plug connectors of pegging graft along middle pipeline section axial to make flexible guide sheath pipe can be close to the calculus fragment in the kidney, and then wash out the calculus fragment through the rivers that fill in the operation, thereby promoted to the fragment discharge efficiency of calculus, avoided the calculus powder to influence the field of vision or pile up the situation that waits to influence the efficiency of the operation in the kidney and appear, promoted calculus clearance.

Description

Bendable guide sheath and guide device

Technical Field

The utility model belongs to the technical field of the medical treatment, especially, relate to a flexible guide sheath pipe and guiding device.

Background

A ureter soft lens lithotripsy is to use a thin lens with the diameter of about 3mm to insert into a ureter through urethra and bladder, and then to break up ureteral calculus or kidney calculus and take out. The guide sheath tube is a consumable material commonly used in ureter soft lens operation and is used for establishing a channel which passes through a urethra and a ureter from the outside of a body and directly enters a renal pelvis. The flexible ureteroscope is guided by the guiding sheath tube to directly enter an operation area, can conveniently carry out related operations and is not influenced by the bending state and thickness degree of the ureter and the urethra.

At present, the main body of the guiding sheath used in the ureteroscope operation is a flexible pipeline, which generally emphasizes the compression resistance and the torsion resistance, so that after the guiding sheath is placed into a human body along a guide wire, the bending part of the ureter can be relatively straightened through the flexibility of the guiding sheath, and the operations of the endoscope such as access and rotation are further facilitated, and the guiding sheath has the disadvantages that: due to the flexibility of the guiding sheath, the guiding sheath can only be placed at the upper section of the ureter or just enters the renal pelvis to form a channel parallel to the longitudinal axis of the body, and cannot be bent to enter the renal pelvis and deeper parts of the renal calyx, so that the crushed stones in the operation cannot be accessed, and the fragments of the stones cannot be washed out of the guiding sheath by the water flow poured in the operation, and therefore, the removal efficiency of the fragments of the stones in the ureter soft mirror operation is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses guide sheath pipe toughness to among the prior art is higher, technical problem such as unable bending provides a flexible guide sheath pipe and guiding device.

In view of the above technical problems, an embodiment of the present invention provides a bendable guiding sheath tube, including a bendable tube section, an intermediate tube section, and a sheath tube joint, where the intermediate tube section is connected between the bendable tube section and the sheath tube joint; the bendable pipe section comprises at least two tenon-and-mortise plug connectors, and the tenon-and-mortise plug connectors are sequentially plugged along the axial direction of the middle pipe section; the bendable pipe section is used for bending relative to the middle pipe section in the axial direction through relative sliding between the mortise-tenon plug connectors when the bendable pipe section is subjected to lateral force.

Optionally, the bendable pipe section further comprises an elastic material layer coated on the surface of the mortise and tenon plug connector.

Optionally, the mortise and tenon plug connector comprises a first body, at least two first plug-in parts and at least two second plug-in parts, wherein the first plug-in parts and the second plug-in parts are symmetrically connected to two opposite sides of the first body; a first inserting sliding groove for the second inserting part of the adjacent mortise and tenon inserting connector to insert and slide relatively is formed between the two first inserting parts; and a second inserting sliding groove which is used for inserting the first inserting parts of the adjacent mortise and tenon inserting parts and can slide relatively is formed between the two second inserting parts.

Optionally, the first plug part comprises a first plug and a first connecting section connected between the first body and the first plug; the second plug part comprises a second plug and a second connecting section connected between the first body and the second plug; the first inserting chute is provided with a first limiting opening for the second connecting section to pass through; the second inserting chute is provided with a second limiting opening for the first connecting section to pass through; in the direction perpendicular to the axial direction of the bendable pipe section which is not bent, the maximum width of the first plug is larger than the width of the second limiting opening; when the bendable pipe section is bent, the first plug slides relatively along the second plug-in sliding groove; the maximum width of the second plug is larger than the width of the first limiting opening; when the bendable pipe section is bent, the second plug slides relatively along the first plug-in sliding groove.

Optionally, the mortise and tenon plug connector comprises a second body, a first rotating groove arranged on the first side of the second body, a first stop block connected to the second side of the second body, and a first rotating block connected to the second side of the first stop block; the first rotating groove is provided with a first opening for the first stop block of the adjacent tenon-and-mortise plug connector to pass through, and the first rotating groove is used for accommodating the first rotating block of the adjacent tenon-and-mortise plug connector; the maximum width of the first rotating block is larger than the width of the first opening;

when the bendable pipe section is bent, the first rotating block and the first rotating groove rotate relatively, and the first rotating block of the mortise and tenon connector is abutted to the edge of the first opening, and the mortise and tenon connector stops rotating.

Optionally, the mortise and tenon plug connector further comprises a second stop block connected to the inner side wall of the first rotating groove, and a second rotating block connected to the first side of the second stop block and located in the first rotating groove; a second rotating groove is formed in the first rotating block, and a second opening which is deviated from the first opening and is used for a second stop block of the adjacent mortise and tenon plug connector to pass through is formed in the second rotating groove; the second rotating groove is used for accommodating a second rotating block of the adjacent mortise and tenon plug connector; the maximum width of the second rotating block is larger than the width of the second opening;

when flexible pipeline section is buckled, first turning block with first pivoted slot rotates relatively, just the second turning block with the second rotated slot rotates relatively, adjacent two the tenon fourth of twelve earthly branches plug connector first turning block with first open-ended edge butt or the second turning block with during the second open-ended edge butt, adjacent two tenon fourth of twelve earthly branches plug connector stall.

Optionally, the mortise and tenon plug connector further comprises a third stop connected to the inner side wall of the second rotating groove, and a third rotating block connected to the third stop and located in the second rotating groove; a third rotating groove is formed in the second rotating block, and a third opening for allowing a third stop block of the adjacent mortise and tenon plug connector to penetrate through is formed in the third rotating groove; the third rotating groove is used for accommodating a third rotating block of the adjacent mortise and tenon plug connector; the maximum width of the third rotating block is larger than the width of the third opening;

when the bendable pipe section is bent, the first rotating block and the first rotating groove rotate relatively, the second rotating block and the second rotating groove rotate relatively, the third rotating block and the third rotating groove rotate relatively, and the tenon fourth of twelve earthly branches plug connector is adjacent, the first rotating block and the first open-ended edge butt, the second rotating block and the second open-ended edge butt or the third rotating block and the third open-ended edge butt are adjacent, and the tenon fourth of twelve earthly branches plug connector stops rotating.

Optionally, the third opening and the opening direction of the second opening are arranged at a preset angle.

Optionally, the mortise and tenon plug connector further comprises a first clamping groove and a second clamping groove which are respectively arranged on two opposite sides of the second stopper; a first buckle matched with the first clamping groove and a second buckle matched with the second clamping groove are respectively arranged on two opposite sides of the second opening;

when the bendable pipe section is bent, the first rotating block and the first rotating groove rotate relatively, and the second rotating block and the second rotating groove rotate relatively;

when the second stop blocks of two adjacent mortise and tenon plug connectors are abutted to the edge of the second opening, the two adjacent mortise and tenon plug connectors stop rotating; the first buckle and the first clamping groove are connected in a clamped mode or the second buckle and the second clamping groove are connected in a clamped mode, and the relative rotation position between the tenon-and-mortise plug connectors is fixed.

An embodiment of the utility model provides a guiding device is still provided, including expander and above-mentioned flexible guide sheath pipe, the expander passes flexible guide sheath pipe with sheath union coupling.

The utility model discloses a flexible guide sheath pipe divide into flexible pipeline section, middle pipeline section and sheath union coupling three with flexible guide sheath pipe, through with the flexible pipeline section sets up to two at least edges the tenon fourth of the twelve earthly branches plug connector of grafting in order of middle pipeline section axial to make flexible guide sheath pipe can be crooked to required shape, thereby make flexible guide sheath pipe be close to the calculus fragment in the kidney through the flexible pipeline section, and then through pouring rivers in the operation with the calculus fragment from flexible guide sheath pipe rush-out, so, the discharge efficiency to the calculus fragment has been promoted, avoided the calculus powder to influence the field of vision or the situation that influences operation efficiency such as piling up in the kidney appears, can also avoid the uncertainty of natural calculus removal, promote the calculus clearance.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of a bendable guiding sheath according to an embodiment of the present invention.

Fig. 2 is a schematic view of a bendable guiding sheath according to another embodiment of the present invention.

Fig. 3 is a schematic view of the mortise and tenon plug connector of the bendable guiding sheath according to fig. 2 of the present invention.

Fig. 4 is a schematic view illustrating a structure of a bendable guiding sheath according to another embodiment of the present invention.

Fig. 5 is a schematic view of the mortise and tenon plug-in connector of the bendable guiding sheath according to fig. 4 of the present invention.

Fig. 6 is a schematic view illustrating a bendable guiding sheath according to still another embodiment of the present invention.

Fig. 7 is a schematic view of the mortise and tenon connector of the bendable guiding sheath according to fig. 6 of the present invention.

Fig. 8 is a schematic structural diagram of a guiding device according to an embodiment of the present invention.

The reference numerals in the specification are as follows:

1. the flexible pipe section, 2, the middle pipe section, 3, the sheath pipe joint, 4, the expander, 11, the mortise-tenon joint piece, 12, the elastic material layer, 1101, the first body, 1102, the first plug-in part, 1103, the second plug-in part, 1104, the first plug-in sliding groove, 1105, the second plug-in sliding groove, 11021, the first plug, 11022, the first connection section, 11041, the first limit port, 11031, the second plug, 11032, the second connection section, 11051, the second limit port, 11023, the first arc surface, 11033, the second arc surface, 11052, the second arc groove, 11042, the first arc groove, 1106, second body, 1107, first groove, 1108, first dog, 1109, first rotation piece, 11071, first opening, 1110, second dog, 1111, second rotation piece, 1112, second rotation groove, 11121, second opening, 1113, third dog, 1114, third rotation piece, 1115, third rotation groove, 11151, third opening, 1116, first draw-in groove, 1117, second draw-in groove, 1118, first buckle, 1119, second buckle, 22, first protective layer, 23, support structure layer, 24, second protective layer.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", "middle", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, an embodiment of the present invention provides a bendable guiding sheath, which includes a bendable pipe section 1, an intermediate pipe section 2, and a sheath joint 3, where the intermediate pipe section 2 is connected between the bendable pipe section 1 and the sheath joint 3; the bendable pipe section 1 comprises at least two mortise and tenon connectors 11, and the mortise and tenon connectors 11 are sequentially inserted and connected along the axial direction of the middle pipe section 2; the bendable pipe section 1 is used for bending relative to the middle pipe section 2 in the axial direction through relative sliding between the mortise and tenon plug connectors 11 when lateral force is applied. In an embodiment, the connection manner of the intermediate pipe segment 2, the bendable pipe segment 1 and the sheath pipe joint 3 includes, but is not limited to, one or more of integrally formed connection manners, bonding, welding, snap connection, or threaded connection, and it should be understood that the connection manner only needs to achieve the effect of stably connecting the intermediate pipe segment 2, the bendable pipe segment 1 and the sheath pipe joint 3.

In an embodiment, as shown in fig. 1, the middle pipe section 2 includes a first protective layer 22, a support structure layer 23, and a second protective layer 24, the first protective layer 22 covers an outer side wall of the support structure layer 23, and the second protective layer 24 covers an inner side wall of the spring layer. Further, the support structure layer 23 is a spring layer, the first protective layer 22 is a PEBAX (block polyether amide resin) material layer, and the second protective layer 24 is a PTFE (polytetrafluoroethylene) material layer. It is understood that the first protective layer 22 and the second protective layer 24 respectively coat the outer surface and the inner surface of the support structure layer 23 to protect the support structure layer 23. In an embodiment, the surfaces of the first protective layer 22 and the second protective layer 24, which are in contact with the outside, further include a lubricating coating, and the lubricating coating provided on the first protective layer 22 covering the outer surface of the support structure layer 23 is used for facilitating the entry and exit of the intermediate pipe section 2 when the intermediate pipe section is inserted into the ureter; the lubricating coating on the second protective layer 24 coated on the inner surface of the support structure layer 23 is used for smooth in and out when a soft lens or other instruments are placed in the middle tube section 2.

The embodiment of the utility model provides an in, divide into flexible pipeline section 1, middle pipeline section 2 and 3 triplets of sheath coupling with flexible guide sheath pipe, in above-mentioned embodiment, the bearing structure layer 23 of middle pipeline section 2 is the spring layer for middle pipeline section 2 has kept the toughness of the guide sheath pipe among the prior art, nevertheless on this basis, has increased flexible pipeline section 1 again, through inciting somebody to action flexible pipeline section 1 sets up to two at least edges tenon fourth of the twelve earthly branches plug connector 11 of 2 axial of middle pipeline section pegging graft in order to make flexible guide sheath pipe can be crooked to required shape, thereby make flexible guide sheath pipe can be close to the stone fragment in the kidney through flexible pipeline section 1, and then wash out the stone fragment from flexible guide sheath pipe through the rivers that fill in the operation, so, promoted the garrulous discharge efficiency, avoided stone powder to influence the field of vision or the interior situation that influences operation efficiency such as piling up of kidney to appear, can also avoid the uncertainty of natural stone discharge, promote the stone and clear away.

In an embodiment, as shown in fig. 1, the bendable pipe segment 1 further includes an elastic material layer 12 covering the surface of the mortise and tenon connector 11. It can understand ground, elastic material layer 12 is used for restricting tenon fourth of twelve earthly branches plug connector 11 is in the radial removal of flexible pipeline section 1 is in order to tie tenon fourth of twelve earthly branches plug connector 11 so that do not break away from each other, and take place deformation when flexible pipeline section 1 buckles, the cladding is all the time in 11 surfaces of tenon fourth of twelve earthly branches plug connector. The elastic material layer 12 can be coated on the outer surface and/or the inner surface of the mortise and tenon connector 11, so that the mortise and tenon connector 11 is prevented from directly interfering with the outside. In one embodiment, the innermost and outermost layers of the bendable pipe section 1 further comprise a lubricating coating for smoother insertion or plugging of the bendable pipe section 1.

In an embodiment, as shown in fig. 2 and 3, the mortise-tenon connector 11 includes a first body 1101, at least two first plugging portions 1102 and at least two second plugging portions 1103, and the first plugging portions 1102 and the second plugging portions 1103 are symmetrically connected to two opposite sides of the first body 1101; a first plug chute 1104 is formed between the two first plug parts 1102, and is used for the second plug part 1103 of the adjacent mortise-tenon plug connector 11 to be inserted and to slide relatively; a second inserting sliding groove 1105 for the first inserting part 1102 of the adjacent mortise-tenon inserting connector 11 to insert and slide relatively is formed between the two second inserting parts 1103. It should be understood that the first body 1101 may be an annular structure, a sheet structure or other shapes as long as the bendable pipe segment 1 can be bent when the mortise-tenon plug connector 11 is stretched and/or contracted. Preferably, the first body 1101 is an annular structure, the first insertion part 1102 and the first insertion sliding groove 1104 are distributed on one side of the first body 1101, and the second insertion part 1103 and the second insertion sliding groove 1105 are distributed on the other side of the first body 1101. The plurality of first plugging portions 1102 are plugged with the second plugging sliding grooves 1105 and can slide in the second plugging sliding grooves 1105, and the second plugging portions 1103 are plugged with the first plugging sliding grooves 1104 and can slide in the first plugging sliding grooves 1104, so that a bendable tubular structure is formed between the mortise and tenon plugging members 11 through the sliding connection relationship.

In an embodiment, as shown in fig. 2 and 3, the first plug part 1102 includes a first plug 11021 and a first connection section 11022 connected between the first body 1101 and the first plug 11021; the second plugging portion 1103 includes a second plug 11031 and a second connection section 11032 connected between the first body 1101 and the second plug 11031; a first limiting opening 11041 through which the second connecting section 11032 passes is formed in the first inserting chute 1104; the second plugging sliding slot 1105 is provided with a second limiting opening 11051 for the first connection section 11022 to pass through; in a direction perpendicular to the axial direction of the bendable pipe section 1 that is not bent, the maximum width of the first plug 11021 is greater than the width of the second stopper 11051; when the bendable pipe section 1 is bent, the first plug 11021 slides relatively along the second plugging chute 1105; the maximum width of the second plug 11031 is larger than the width of the first limiting opening 11041; when the bendable pipe section 1 is bent, the second plug 11031 slides relatively along the first plug chute 1104. It can be understood that, in a direction perpendicular to the axial direction of the bendable pipe segment 1 that is not bent, the maximum width of the first plug 11021 is greater than the width of the second limiting opening 11051, and the second limiting opening 11051 plays a limiting role in preventing the first plug portion 1102 from disengaging from the second plug chute 1105; the maximum width of the second plug 11031 is greater than the width of the first limiting opening 11041, and the first limiting opening 11041 has a limiting effect, so that the second plugging portion 1103 is prevented from being separated from the first plugging sliding groove 1104. It is understood that the maximum width of the first plug 11021 in the direction perpendicular to the axial direction of the bendable pipe section 1 that is not bent is smaller than or equal to the width of the second plug runner 1105, so that the first plug 11021 can slide in the second plug runner 1105; the maximum width of the second plug 11031 is smaller than or equal to the width of the first plugging chute 1104, so that the second plug 11031 can slide in the first plugging chute 1104. It is understood that, in a direction perpendicular to the axial direction of the bendable pipe section 1 that is not bent, the maximum width of the first connection section 11022 is smaller than the width of the second limiting opening 11051, so that when the first plug 11021 slides relatively along the second plugging sliding groove 1105, the first connection section 11022 slides in the second limiting opening 11051; the maximum width of the second connection section 11032 is smaller than the width of the first limiting opening 11041, so that when the second plug 11031 slides relatively along the first plugging sliding slot 1104, the second connection section 11032 slides in the first limiting opening 11041.

In an embodiment, as shown in fig. 2 and fig. 3, a first arc-shaped surface 11023 is disposed at one end of the first plug 11021 away from the first body 1101, a second arc-shaped surface 11033 is disposed at one end of the second plug 11031 away from the first body 1101, a second arc-shaped groove 11052 matched with the first arc-shaped surface 11023 is disposed at one end of the second plug sliding slot 1105 close to the first body 1101, a first arc-shaped groove 11042 matched with the second arc-shaped surface 11033 is disposed at one end of the first plug sliding slot 1104 close to the first body 1101, the second limiting opening 11051 is formed between the two second plugs 11031, the first plug 11021 can rotate in the second plug sliding slot 1105, the first limiting opening 11041 is formed between the two first plugs 11021, and the second plug 11031 can rotate in the first plug sliding slot 1104.

The embodiment of the utility model provides an in, through setting up tenon fourth of twelve earthly branches plug connector 11 that two at least rings were pegged graft mutually, just tenon fourth of twelve earthly branches plug connector 11 is the unsmooth tenon fourth of twelve earthly branches structure that combines of semicircle type, thereby has realized the effect of 1 universal bending of flexible pipeline section, and can make flexible pipeline section 1 is flexible in certain limit, thereby makes the calculus direction in the kidney that the sheath mouth of flexible guide sheath pipe can be more convenient is close to.

In an embodiment, as shown in fig. 4 and 5, the mortise and tenon plug 11 includes a second body 1106, a first rotation groove 1107 disposed at a first side of the second body 1106, a first block 1108 connected to a second side of the second body 1106, and a first rotation block 1109 connected to a second side of the first block 1108; the first rotating groove 1107 is provided with a first opening 11071 for the first stopper 1108 of the adjacent mortise and tenon connector 11 to pass through, and the first rotating groove 1107 is used for accommodating a first rotating block 1109 of the adjacent mortise and tenon connector 11; the maximum width of the first rotating block 1109 is greater than the width of the first opening 11071; when the bendable pipe section 1 is bent, the first rotating block 1109 and the first rotating groove 1107 rotate relatively, and when the first rotating block 1109 of two adjacent mortise and tenon plug connectors 11 is abutted by the edge of the first opening 11071, the two adjacent mortise and tenon plug connectors 11 stop rotating. In one embodiment, the maximum width of the first rotating block 1109 is larger than the width of the first opening 11071, so that the first rotating block 1109 can be inserted into the first rotating groove 1107 to rotate without being disengaged, thereby enabling the first rotating block 1109 to rotate in the first rotating groove 1107; the first block 1108 is used for limiting the rotation angle between the two mortise and tenon plug connectors 11.

In an embodiment, as shown in fig. 4 and 5, the mortise and tenon inserting piece 11 further includes a second stopper 1110 connected to the inner side wall of the first rotating groove 1107, and a second rotating block 1111 connected to the first side of the second stopper 1110 and located in the first rotating groove 1107; a second rotating groove 1112 is formed in the first rotating block 1109, and a second opening 11121 which is arranged away from the first opening 11071 and through which the second stopper 1110 of the adjacent mortise-tenon plug connector 11 passes is formed in the second rotating groove 1112; the second rotating groove 1112 is used for accommodating a second rotating block 1111 of the adjacent mortise and tenon plug connector 11; the maximum width of the second rotating block 1111 is greater than the width of the second opening 11121; when the bendable pipe section 1 is bent, the first rotating block 1109 and the first rotating groove 1107 rotate relatively, the second rotating block 1111 and the second rotating groove 1112 rotate relatively, and when the first rotating block 1109 and the edge of the first opening 11071 or the second rotating block 1111 and the edge of the second opening 11121 of the adjacent two mortise and tenon joint part 11 stop rotating, the adjacent two mortise and tenon joint part 11 stop rotating. In an embodiment, the maximum width of the second rotating block 1111 is greater than the width of the second opening 11121, so that the second rotating block 1111 can be inserted into the second rotating groove 1112 and rotate without being disengaged; the cross sections of the first rotation groove 1107 and the second rotation groove 1112 are arc-shaped, the cross sections of the first rotation block 1109 and the second rotation block 1111 are arc-shaped, the first rotation block 1109 is matched with the cross section of the first rotation groove 1107, and the second rotation groove 1112 is matched with the cross section of the second rotation groove 1112, so that the second rotation block 1111 can rotate in the second rotation groove 1112 while the first rotation block 1109 rotates in the first rotation groove 1107; the second stopper 1110 is used for limiting the rotation angle between the two mortise and tenon plug connectors 11.

In an embodiment, as shown in fig. 4 and 5, the mortise and tenon plug 11 further includes a third stopper 1113 connected to an inner sidewall of the second rotation groove 1112, and a third rotation block 1114 connected to the third stopper 1113 and located in the second rotation groove 1112; a third rotation groove 1115 is formed in the second rotation block 1111, and a third opening 11151 through which a third block 1113 of the adjacent mortise-tenon plug connector 11 passes is formed in the third rotation groove 1115; the third rotation groove 1115 is used for accommodating a third rotation block 1114 of the adjacent mortise-tenon plug connector 11; the maximum width of the third rotating block 1114 is greater than the width of the third opening 11151; when flexible pipe section 1 is buckled, first turning block 1109 with first rotation groove 1107 rotates relatively, second turning block 1111 with second rotation groove 1112 rotates relatively, just third turning block 1114 with third rotation groove 1115 rotates relatively, adjacent two tenon fourth of twelve earthly branches plug connector 11 first turning block 1109 with the edge butt of first opening 11071, second turning block 1111 with the edge butt of second opening 11121 or third turning block 1114 with when the edge butt of third opening 11151, adjacent two tenon fourth of twelve earthly branches plug connector 11 stops rotating. In one embodiment, the maximum width of the third rotation block 1114 is greater than the width of the third opening 11151, so that the third rotation block 1114 can be inserted into the third rotation groove 1115 to rotate without being disengaged; the third rotation groove 1115 is circular in cross section, and the third rotation block 1114 is circular in cross section and is matched with the third rotation groove 1115 in cross section, so that the second rotation block 1111 rotates in the second rotation groove 1112 and the third rotation block 1114 rotates in the third rotation groove 1115 while the first rotation block 1109 rotates in the first rotation groove 1107; the third blocking block 1113 is used to limit the rotation angle between the two mortise and tenon plug connectors 11.

In an embodiment, as shown in fig. 4 and 5, the third opening 11151 is disposed at a predetermined angle with respect to the opening direction of the second opening 11121. It is understood that the opening direction of the third opening 11151 and the second opening 11121 is preset at an angle of 0 to 180 degrees. Preferably, the opening direction of the third opening 11151 and the second opening 11121 is set to a predetermined angle of 90 degrees.

The embodiment of the utility model provides an in, through setting up the mortise and tenon plug connector 11 of two at least grafting of each other, just mortise and tenon plug connector 11 is the mortise and tenon structure of round unsmooth combination, thereby has improved the bending angle of flexible pipeline section 1, thereby makes the calculus direction in the kidney that can be more convenient of sheath mouth of flexible guide sheath pipe is close to.

In an embodiment, as shown in fig. 6 and 7, the mortise and tenon plugging member 11 further includes a first locking groove 1116 and a second locking groove 1117 respectively disposed at two opposite sides of the second stopper 1110; a first buckle 1118 matched with the first clamping groove 1116 and a second buckle 1119 matched with the second clamping groove 1117 are respectively arranged on two opposite sides of the second opening 11121; when the bendable pipe section 1 is bent, the first rotating block 1109 and the first rotating groove 1107 rotate relatively, and the second rotating block 1111 and the second rotating groove 1112 rotate relatively; when the second stop 1110 of two adjacent mortise and tenon connectors 11 is abutted to the edge of the second opening 11121, the two adjacent mortise and tenon connectors 11 stop rotating; when the first buckle 1118 is clamped with the first clamping groove 1116 or the second buckle 1119 is clamped with the second clamping groove 1117, the relative rotation position between the two adjacent mortise and tenon connectors 11 is fixed. In an embodiment, the first and second latches 1118 and 1119 are made of soft material, and the first and second latches 1116 and 1117 are made of hard material, so that the first and second latches 1118 and 1119 and the first and second latches 1116 and 1117 can be inserted into each other and separated from each other under a certain force. It is understood that the first buckle 1118 and the second buckle 1119 may also be made of hard and/or soft material, and the first catch 1116 and the second catch 1117 may also be made of soft and/or hard material, as long as the effect that the first buckle 1118 and the first catch 1116 are embedded into each other and separated from each other under a certain acting force, and the effect that the second buckle 1119 and the second catch 1117 are embedded into each other and separated from each other under a certain acting force can be achieved. In an embodiment, the first catch 1116 and the second catch 1117 may be disposed on opposite sides of the third block 1113, and the first catch 1118 and the second catch 1119 may be disposed on opposite sides of the third opening 11151. It can be understood that the first engaging groove 1116 and the second engaging groove 1117, and the corresponding first buckle 1118 and the corresponding second buckle 1119 may be respectively disposed on the abutting surfaces of two adjacent mortise and tenon connectors 11, as long as the two adjacent mortise and tenon connectors 11 can be fixed at a predetermined rotation position when rotating relatively.

The embodiment of the utility model provides an in, through set up draw-in groove (for example first draw-in groove 1116 and second draw-in groove 1117) and buckle (for example first buckle 1118 and second buckle 1119) on the tenon fourth of the twelve earthly branches plug connector 11 that circular unsmooth combination, along with when flexible pipeline section 1 is crooked to predetermined angle, the joint through the draw-in groove buckle makes flexible pipeline section 1 gets into the state of fixed angle. After the flexible endoscope in the flexible guide sheath is withdrawn, the flexible tube section 1 is still kept in the fixed angle state, so that the next negative pressure suction lithotripsy operation is convenient to carry out. If the locking state needs to be released, the flexible lens is reversely bent to drive the bendable pipe section 1 to be bent in the opposite direction, the clamping of the clamping groove buckle is released, and the bendable pipe section 1 is released from the fixed angle state.

As shown in fig. 8, an embodiment of the present invention further provides a guiding device, which includes an expander 4 and the above-mentioned bendable guiding sheath, wherein the expander 4 passes through the bendable guiding sheath and the sheath connector 3. Specifically, the dilator 4 sequentially passes through the bendable pipe section 1, the intermediate pipe section 2, and the sheath joint 3 of the bendable guiding sheath, and is connected to the sheath joint 3.

The embodiment of the utility model provides an in, guiding device includes flexible guide sheath pipe and passes flexible guide sheath pipe and with expander 4 that the sheath coupling 3 of flexible guide sheath pipe connects, flexible guide sheath pipe divide into flexible pipeline section 1, middle pipeline section 2 and 3 triplets of sheath coupling, through with flexible pipeline section 1 sets up to two at least edges tenon fourth of the twelve earthly branches plug connector 11 of pegging graft in order of 2 axial of middle pipeline section to make guiding device can bend to required shape, thereby make guiding device be close to the calculus fragment in the kidney through flexible pipeline section 1, and then through the rivers that fill in the operation with the calculus fragment from guiding device rush out, so, promoted the discharge efficiency to the calculus fragment, avoided the calculus powder to influence the field of vision or pile up the situation that etc. influence operation efficiency in the kidney and appeared, can also avoid the natural stone of arranging, promoted the calculus and clear away.

The above embodiments are merely examples of the bendable guiding sheath and guiding device of the present invention, and are not intended to limit the present invention, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (10)

1. A bendable guiding sheath pipe is characterized by comprising a bendable pipe section, an intermediate pipe section and a sheath pipe joint, wherein the intermediate pipe section is connected between the bendable pipe section and the sheath pipe joint; the bendable pipe section comprises at least two tenon-and-mortise plug connectors, and the tenon-and-mortise plug connectors are sequentially plugged along the axial direction of the middle pipe section; the bendable pipe section is used for bending relative to the middle pipe section in the axial direction through relative sliding between the mortise and tenon plug connectors when lateral force is applied.

2. The bendable guiding sheath of claim 1, wherein the bendable segment further comprises a layer of elastic material covering the surface of the mortise and tenon connector.

3. The bendable guide sheath according to claim 1, wherein the mortise and tenon connector comprises a first body, at least two first insertion parts and at least two second insertion parts, the first insertion part and the second insertion part are symmetrically connected to two opposite sides of the first body; a first inserting sliding groove for the second inserting part of the adjacent mortise and tenon inserting connector to insert and slide relatively is formed between the two first inserting parts; and a second inserting sliding groove which is used for inserting the first inserting parts of the adjacent mortise and tenon inserting parts and can slide relatively is formed between the two second inserting parts.

4. The bendable guide sheath according to claim 3, wherein the first mating part comprises a first plug and a first connection section connected between the first body and the first plug; the second plug part comprises a second plug and a second connecting section connected between the first body and the second plug; the first inserting chute is provided with a first limiting opening for the second connecting section to pass through; the second inserting chute is provided with a second limiting opening for the first connecting section to pass through; in the direction perpendicular to the axial direction of the bendable pipe section which is not bent, the maximum width of the first plug is larger than the width of the second limiting opening; when the bendable pipe section is bent, the first plug slides relatively along the second plug-in sliding groove; the maximum width of the second plug is larger than the width of the first limiting opening; when the bendable pipe section is bent, the second plug slides relatively along the first plug-in sliding groove.

5. The bendable guide sheath according to claim 1, wherein the mortise and tenon connector comprises a second body, a first rotation groove provided at a first side of the second body, a first stopper connected to a second side of the second body, and a first rotation block connected to a second side of the first stopper; the first rotating groove is provided with a first opening for the first stop block of the adjacent tenon-and-mortise plug connector to pass through, and the first rotating groove is used for accommodating the first rotating block of the adjacent tenon-and-mortise plug connector; the maximum width of the first rotating block is greater than the width of the first opening.

6. The bendable guide sheath according to claim 5, wherein the mortise and tenon connector further comprises a second stopper connected to an inner sidewall of the first rotation groove, a second rotation block connected to a first side of the second stopper and located in the first rotation groove; a second rotating groove is formed in the first rotating block, and a second opening which is deviated from the first opening and is used for a second stop block of the adjacent mortise and tenon plug connector to pass through is formed in the second rotating groove; the second rotating groove is used for accommodating a second rotating block of the adjacent mortise and tenon plug connector; the maximum width of the second rotating block is larger than the width of the second opening.

7. The bendable guide sheath according to claim 6, wherein the mortise and tenon connector further comprises a third stopper connected to an inner sidewall of the second rotation groove, a third rotation block connected to the third stopper and located in the second rotation groove; a third rotating groove is formed in the second rotating block, and a third opening for allowing a third stop block of the adjacent mortise and tenon plug connector to penetrate through is formed in the third rotating groove; the third rotating groove is used for accommodating a third rotating block of the adjacent mortise and tenon plug connector; the maximum width of the third rotating block is larger than the width of the third opening.

8. The bendable guiding sheath of claim 7, wherein the third opening is disposed at a predetermined angle to the opening direction of the second opening.

9. The bendable guiding sheath according to any one of claims 6-8, wherein the mortise and tenon connector further comprises a first locking groove and a second locking groove respectively disposed at opposite sides of the second stopper; the two opposite sides of the second opening are respectively provided with a first buckle matched with the first clamping groove and a second buckle matched with the second clamping groove.

10. A guide device comprising a dilator and a bendable guide sheath according to any one of claims 1 to 9, the dilator being connected to the sheath connector through the bendable guide sheath.

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