JP5877143B2 - Blood processing equipment - Google Patents

Description

The present invention is a blood processing apparatus used for plasma separation such as hemodialysis, blood filtration, hemodiafiltration and the like. The present invention relates to an improved fitting structure between a blood port and a housing,
The present invention relates to a structure that prevents the blood port from being detached from the housing even if the ultrasonic welding between the blood port and the housing is removed.

In the manufacturing (assembling) process of the blood processing apparatus, as a method of attaching the blood ports to both ends of the housing, there is a method of ultrasonically welding the blood port to the housing via a seal part (ultrasonic welding part) and joining them in a liquid-tight manner. It has been adopted.
However, in these manufacturing (assembly) processes, although rare, ultrasonic welding may be incomplete, resulting in a decrease in bonding strength.
Unfortunately, if the blood cap is removed from the housing, a large amount of blood leaks.
Therefore, in Patent Document 1, in order to avoid a decrease in the bonding strength between the blood port and the housing, a method for reinforcing the bonding strength for securely attaching the blood port to the housing and an invention in which the bonding strength is reinforced are disclosed. .
The invention described in Patent Document 1 is an invention in which the bonding strength is reinforced by ultrasonically welding a blood port from the side (side part) of the housing.

JP 2001-269545 A (summary column, FIGS. 1 to 2)

If the ultrasonic welding is incomplete, the bonding strength is reduced, and if the blood cap is removed from the housing unfortunately, a large amount of blood leaks.
When ultrasonic welding is incomplete, in order to reinforce the bonding strength, as in the invention described in Patent Document 1, in this case, it is necessary to add a production process, production equipment (change of ultrasonic welding), etc. Become.

Thus, as a result of intensive studies to solve the above problems, the present inventors have reached the invention of the following blood processing apparatus.

[1] In the present invention, the hollow fiber membrane (4) is disposed inside the housing (2) along the longitudinal ( L ) direction of the housing (2),
The distal end ( DE ) side and the proximal end ( PE ) side of the hollow fiber membrane (4) are fixed to the inner surface of the distal end ( DE ) side and the proximal end ( PE ) side of the housing (2) by a fixing material (3), respectively. And
At the end ( DE ) side of the housing (2) and toward the first side ( S1 ) , a dialysate port inlet (7.1) is mounted,
At the base end ( PE ) side of the housing (2) and in the direction of the first side ( S1 ) , a dialysate port outlet (7.2) is mounted,
At the end ( DE ) side of the housing (2), a blood port outlet (5.2) is mounted,
A blood port inlet (5.1) is mounted on the base end ( PE ) side of the housing (2),
The housing (2) has an ultrasonic welding part (2UW) and a separation prevention part protrusion (2KT) on the distal end ( DE ) side and / or the proximal end ( PE ) side,
The terminal ( DE ) side of the housing (2) is from the terminal (DE) side to the base end (PE) side, and the base end ( PE ) side is from the base end (PE) side to the base end (DE) side. Toward, sequentially form an ultrasonic weld (2UW), a separation prevention projection (2KT) ,
The ultrasonic weld (2UW) has a shape of a taper TP,
The separation prevention protrusion (2KT) is formed continuously in an annular shape in the side (S) direction,
The blood port outlet (5.2) and / or the blood port inlet (5.1) has a separation preventing portion protrusion (5KT) , a separation preventing portion groove ( 5KM) , and an ultrasonic welding portion (5UW),
The blood port outlet (5.2) is directed from the distal end (DE) side to the proximal end (PE) side, and the blood port inlet (5.1) is directed from the proximal end (PE) side to the distal end (DE) side. From the first, an ultrasonic weld (5UW), a separation prevention groove (5KM) and a separation prevention projection (5KT) are formed in sequence,
The separation prevention portion groove (5KM) and the separation prevention portion protrusion (5KT) are intermittently formed in a plurality of locations in the side portion (S) direction,
The ultrasonic weld (5UW) has an edge shape,
The separation prevention part protrusion (2KT) of the housing (2) is formed so as to be able to enter the separation prevention part groove (5KM) during ultrasonic welding,
During ultrasonic welding, the terminated (DE) side blood port outlet of the housing (2) (5.2) in the longitudinal (L) direction of the end (DE) proximal from the side (PE) side,
The proximal end (PE) side of the housing (2) and the blood port inlet (5.1) are viewed from the proximal end (PE) side to the distal end (DE) side in the longitudinal (L) direction,
The ultrasonic weld (2UW) of the housing (2), the ultrasonic weld (5UW) of the blood port (5.1, 5.2), and the blood port (5.1, 5.2) sequentially. Detachment prevention part groove (5KM), detachment prevention part projection (2KT) of said housing (2) that has entered into said detachment prevention part groove (5KM), and detachment prevention part of said blood port (5.1, 5.2) Arrange in the order of protrusions (5KT)
The ultrasonic weld (2UW) of the housing (2) and the ultrasonic weld (5UW) of the blood port (5.1, 5.2) are welded,
When the ultrasonic weld (2UW) and the ultrasonic weld (5UW) are disengaged, the separation preventing protrusion (5KT) of the blood port (5.1, 5.2) Can be locked to the separation prevention protrusion (2KT)
The blood port outlet (5.2) is the longitudinal (L) end (DE) side of the housing (2), and the blood port inlet (5.1) is the longitudinal (L) of the housing (2). A blood processing apparatus (1) formed so as not to be detached is provided on the base end (PE) side of the direction .

[2] In the present invention, the hollow fiber membrane (4) is disposed inside the housing (2) along the longitudinal (L) direction of the housing (2),
The distal end (DE) side and the proximal end (PE) side of the hollow fiber membrane (4) are fixed to the inner surface of the distal end (DE) side and the proximal end (PE) side of the housing (2) by a fixing material (3), respectively. And
At the end (DE) side of the housing (2) and in the direction of the first side (S1), a dialysate port inlet (7.1) is mounted,
At the base end (PE) side of the housing (2) and toward the first side (S1), a dialysate port outlet (7.2) is mounted,
At the end (DE) side of the housing (2), a blood port outlet (5.2) is attached,
A blood port inlet (5.1) is mounted on the base end (PE) side of the housing (2),
The housing (2) has an ultrasonic welding part (2UW) and a detachment prevention part (2KTP) on the distal end (DE) side and / or the proximal end (PE) side,
The terminal (DE) side of the housing (2) is from the terminal (DE) side toward the base end (PE) side, and the base end (PE) side is from the base end (PE) end side to the end (DE) side. Towards
Sequentially, an ultrasonic weld (2UW), a separation prevention protrusion (2KTP) are formed,
The separation prevention part (2KTP) is intermittently formed in the side part (S) direction at a plurality of locations,
The ultrasonic weld (2UW) has a shape of a taper TP,
The blood port outlet (5.2) and / or the blood port inlet (5.1) has a separation prevention part projection (5KTP), a separation prevention part groove (5KMP) and an ultrasonic welding part (5UW),
The blood port outlet (5.2) is directed from the distal end (DE) side to the proximal end (PE) side, and the blood port inlet (5.1) is directed from the proximal end (PE) side to the distal end (DE) side. Toward, sequentially formed an ultrasonic weld (5UW), a separation prevention groove (5KMP) and a separation prevention projection (5KTP),
The separation prevention protrusion (5KTP) is formed continuously in a ring shape in the side (S) direction,
The separation prevention part groove (5KMP) is formed intermittently in a plurality of locations in the side part (S) direction,
The ultrasonic weld (5UW) has an edge shape,
The separation prevention protrusion (2KTP) of the housing (2) is formed so as to be able to enter the separation prevention groove (5KMP) during ultrasonic welding,
During ultrasonic welding, the distal end (DE) side of the housing (2) and the blood port outlet (5.2) are extended from the distal end (DE) side in the longitudinal (L) direction to the proximal end (PE) side,
The proximal end (PE) side of the housing (2) and the blood port inlet (5.1) are viewed from the proximal end (PE) side to the distal end (DE) side in the longitudinal (L) direction,
The ultrasonic weld (2UW) of the housing (2), the ultrasonic weld (5UW) of the blood port (5.1, 5.2), and the blood port (5.1, 5.2) sequentially. Detachment prevention part groove (5KMP), detachment prevention part protrusion (2KTP) of the housing (2) that has entered the detachment prevention part groove (5KMP), and detachment prevention of the blood port (5.1, 5.2) Arrange in the order of the part protrusion (5KTP),
The ultrasonic weld (2UW) of the housing (2) and the ultrasonic weld (5UW) of the blood port (5.1, 5.2) are welded,
When the ultrasonic weld (2UW) and the ultrasonic weld (5UW) are disengaged,
The separation preventing portion protrusion (5KTP) of the blood port (5.1, 5.2) can be locked to the separation preventing portion protrusion (2KTP) of the housing (2),
The blood port outlet (5.2) is the longitudinal (L) end (DE) side of the housing (2), and the blood port inlet (5.1) is the longitudinal (L) of the housing (2). A blood processing apparatus (1) formed so as not to be detached is provided on the base end (PE) side of the direction.

The blood processing apparatus of the present invention comprises:
(1) Even when the ultrasonic welding of the seal portion (ultrasonic welding portion) between the blood port and the housing is incomplete, the blood port does not come off the housing.
(2) Like the invention described in Patent Document 1, it is not necessary to add a production process and production equipment.

It is a whole side view of the blood treatment apparatus of the present invention. It is sectional drawing of the longitudinal L direction of the blood processing apparatus of this invention. FIG. 3 is a partially enlarged view of a housing 2 in FIG. 2 on a terminal DE side. It is the side view which looked at FIG. 1 from the terminal DE side. It is the whole view which looked at blood port 5.2 from the base end PE side. It is AA sectional drawing of the side part S direction of the blood port 5.1. It is a partially expanded view of the fitting position (before ultrasonic welding) of the terminal DE side of the housing and the blood port 5.2 base end PE side. It is a partially enlarged view at the time of ultrasonic welding of the terminal DE side of the housing and the blood port 5.2 base end PE side. FIG. 9 is a partially enlarged view when ultrasonic welding is removed from FIG. 8. FIG. 8 is a partially enlarged view of FIG. 7. (Other Embodiments) FIG. 1 is a side view of FIG. 1 viewed from the terminal DE side. (Other Examples) FIG. 7 is an overall view of blood port 5.2 as viewed from the base end PE side. (Other Examples) FIG. 10 is a cross-sectional view taken along the line AA in the side S direction of the blood port 5.1. (Other Embodiments) FIG. 6 is a partially enlarged view of the fitting position (before ultrasonic welding) on the terminal DE side of the housing and the blood port 5.2 base PE side. (Other Embodiments) FIG. 6 is a partially enlarged view of the housing at the time of ultrasonic welding on the terminal DE side and the blood port 5.2 base PE side. (Other Embodiments) FIG. 16 is a partially enlarged view when ultrasonic welding is removed from FIG.

Hereinafter, the present invention will be described in detail with reference to the drawings.
Hereinafter, in order to clearly describe the present invention, the following definitions are provided.
(Definition 1) In the present invention, “proximal end PE (side or direction)” means an end portion on the blood port inlet 5.1 side, as shown in FIGS.
(Definition 2) “Terminal DE (side or direction)” means an end opposite to the “base end PE (side or direction)”, as shown in FIGS. More specifically, it means the end on the blood port outlet 5.2 side.
(Definition 3) “Center axis or center CL (side or direction)” means the center in the longitudinal L direction of the housing 2 (see the broken line in the figure), as shown in FIGS.

(Definition 4) “Longitudinal L (side or direction)” means the long direction of the housing 2 as shown in FIGS.
The “side portion S (side or direction)” means a direction that intersects the longitudinal L direction substantially perpendicularly as shown in FIG.
(Definition 5) “First side portion S1 (side or direction)” means an end portion on the dialysate port inlet 7.1 side as shown in FIGS. Referring to FIG. 4, it means the 9 o'clock direction in terms of the timepiece hand position.
(Definition 6) “Second side portion S2 (side or direction)” means an end portion opposite to the end portion on the dialysate port inlet 7.1 side, as shown in FIGS. Referring to FIG. 4, the position of the timepiece means the 3 o'clock direction.
(Definition 7) “Third side portion S3 (side or direction)” means “first side portion S1 (side or direction)” and “second side portion S2 (side or direction)” as shown in FIG. (Upper U side) position between. Referring to FIG. 4, the position of the timepiece means the 12 o'clock direction.

(Definition 8) “Fourth side portion S4 (side or direction)” means “first side portion S1 (side or direction)” and “second side portion S2 (side or direction)” as shown in FIG. (On the lower D side) between. Referring to FIG. 4, the position of the timepiece means the 6 o'clock direction.
(Regarding the description of the signs indicating the direction of the position and arrangement of the names of each part)
In the drawings and description of the invention,
The symbol of the housing 2 or the like, the “small diameter part” is “○ .1” like “2.1”, and the “large diameter part” is “○ .2” like “2.2”. I'm wearing it.
For example, “2UW” means the ultrasonic weld UW of the housing 2.
The blood port “inlet” is “○ .1”, such as “5.1”.
The blood port “exit” is marked with “◯ .2” as “5.2”.
For example, “5 UW” means the ultrasonic weld UW of the blood port 5.
The symbol “blood port outlet 5.2” indicates that “small diameter portion” is “5.21”, “◯. ○ 1”, and “large diameter portion” is “5.22”. ○. ○ 2 ”is attached.
Reference to “blood port 5” simply includes both “blood port inlet 5.1” and “blood port outlet 5.2”.
In addition, the code | symbol which shows directionality, such as a position and arrangement | positioning, was able to understand the invention, and described only one part in drawing and description of invention within the range recognized as need.

[Blood treatment equipment]
In the blood processing apparatus 1 of the present invention, a hollow fiber membrane 4 (see FIG. 2) is disposed inside the housing 2 along the longitudinal L direction of the housing 2. The base PE side and the terminal DE side of the hollow fiber membrane 4 are fixed in the housing 2 by a fixing material 3 (see FIG. 2).
A dialysate port inlet 7.1 is mounted on the terminal DE side of the housing 2 in the direction of the first side S1, and a dialysate port outlet 7. on the base end PE side of the housing 2 in the direction of the first side S1. 2 is installed.
A blood port inlet 5.1 is mounted on the base end PE side of the housing 2, and a blood port outlet 5.2 is mounted on the terminal DE side of the housing 2.

The obstruction member 11 (terminal DE side obstruction member 11) is provided on the terminal DE side at the position where the dialysate port inlet 7.1 is formed when viewed in the longitudinal L direction of the housing 2.
Similarly, the obstruction member 11 (proximal end PE side obstruction member 11 is also provided on the base PE side where the dialysate port outlet 7.2 is formed.

As illustrated in FIGS. 2 and 4, the obstruction member 11 has a so-called “substantially cylindrical shape”.
As shown in FIGS. 2 and 4, the obstruction member 11 fixes the base end PE side outer peripheral wall to the inner peripheral wall of the housing 2.

More specifically, the housing 2 has a terminal DE side facing the terminal DE side through a small diameter portion 2.1 and a transition portion 2.3 as shown in FIGS. It has a large diameter part 2.2.
A dialysate port inlet 7.1 is attached to the first side S1 of the large diameter portion 2.2.
Moreover, the base end PE side has the large diameter part 2.2 through the small diameter part 2.1 and the transition part 2.3 toward the base end PE side. A dialysate port outlet 7.2 is mounted on the first side S1 of the large diameter portion 2.2.
The obstacle member 11 is formed from the transition part 2.3 to the middle of the large diameter part 2.2.

The blood processing apparatus 1 according to the present invention is characterized by ultrasonic welding at both ends (the terminal DE side and the base end PE side) of the large-diameter portion 2.2 of the housing 2 as illustrated in FIGS. Part 2UW and detachment prevention part protrusion 2KT are formed, and ultrasonic welding part 5UW and detachment prevention part groove are formed on large diameter part 5.22 of blood port 5 (blood port inlet 5.1 and blood port outlet 5.2). This is the point that 5KM and the separation preventing portion projection 5KT are formed.
The ultrasonic weld 2UW and the detachment prevention projection 2KT of the housing 2 may be formed only in one of the blood port inlet 5.1 and the blood port outlet 5.2.

(Housing 2)
Hereinafter, for convenience of explanation, the housing 2 on the terminal DE side will be described in detail.
For the housing 2 on the base end PE side, the “terminal DE side” is also referred to as “base end PE side”.
It will be obvious to those skilled in the art that the “base end PE side” has the same function if it is read as “terminal DE side” while changing the position.
As illustrated in FIGS. 1, 2, 3, and 7 to 9, the housing 2 has a large-diameter portion 2.2 on the terminal DE side.
The large-diameter portion 2.2 forms an ultrasonic welding portion 2UW and a separation preventing portion 2KT.
7 to 9, the large-diameter portion 2.2 forms the separation preventing portion protrusion 2KT on the terminal DE side, and further forms the ultrasonic welding portion 2UW on the terminal DE side of the separation preventing portion protrusion 2KT. doing.
More specifically, the housing 2 has an ultrasonic welding portion 2UW and a separation preventing portion 2KT on the terminal DE side and / or the base PE side (both sides or either one).
The separation preventing portion protrusion 2KT on the terminal DE side of the housing 2 forms an ultrasonic weld 2UW on the terminal DE side, and the separation preventing portion protrusion 2KT on the proximal end PE side of the housing 2 is ultrasonically welded on the proximal end PE side. Part 2UW is formed.

In the illustration of FIG. 4, the separation preventing portion protrusion 2KT is formed continuously on the outer periphery [side direction (first side portion S1 to fourth side portion S4)] of the large diameter portion 2.2. More specifically, it projects in a ring shape in the direction of the side S.
As shown in FIGS. 7 to 9, the separation preventing portion protrusion 2KT has a longitudinal section in the longitudinal L direction as illustrated in FIGS.
A so-called “convex shape” (“substantially key claw shape” or “substantially wedge shape”) is formed.
Furthermore, the terminal DE side is formed in a tapered shape tapered toward the terminal DE direction. (Having a tapered portion TP)
The ultrasonic weld 2UW is a tapered portion TP (also referred to as an inclined portion).

Further, as illustrated in FIG. 11, the separation preventing portion protrusion 2KT can be formed intermittently and partially. (Hereinafter, the symbol is described as “2KTP”.)
When the separation preventing portion protrusion 2KTP is employed, as illustrated in FIG. 13, a groove (detachment prevention portion groove 5KMP) is formed at a position facing the blood port (5, 5.1, 5.2).
The separation preventing portion protrusions 2KTP are intermittently formed at a plurality of locations on the side portion S (first side portion S1 to fourth side portion S4).
As illustrated in FIG. 11, four locations can be formed in each direction of the first side portion S1, the second side portion S2, the third side portion S3, and the fourth side portion S4.
As illustrated in FIG. 11, the separation preventing portion protrusion 2KTP includes the first side portion S1 and the second side portion S.
2, four sides may be formed in each direction of the third side part S3 and the fourth side part S4, and in addition to the illustrated example, the side part S (first side part S1 to fourth side part S4) is intermittently connected. Two or more locations, preferably
Three or more (five to eight locations) can be formed.

(Blood port)
Hereinafter, for convenience of explanation, blood port outlet 5.2 will be described in detail.
As for blood port inlet 5.1, “terminal DE side” is also referred to as “proximal PE side”,
It will be obvious to those skilled in the art that the “base end PE side” has the same function if it is read as “terminal DE side” while changing the position.
As illustrated in FIG. 7, the blood port outlet 5.2 forms a small diameter portion 5.21, a transition portion 5.23, and a large diameter portion 5.22 from the terminal DE side toward the proximal end PE side. ing.
The small-diameter portion 5.21 forms a connecting portion 5.21S on the outer periphery (side S direction), and forms an opening 5.21O from the inside of the base end PE side to the terminal DE side.

(Large diameter part 5.22)
The large diameter portion 5.22 includes an O-ring mounting groove 5OM, an ultrasonic welding portion 5UW, a separation preventing portion groove 5KM, and a separation preventing portion protrusion 5KT.
The O-ring mounting groove 5OM is formed on the center CL side.
The separation preventing portion protrusion 5KT is formed on the base end portion PE side.
The separation preventing portion groove 5KM is formed on the terminal DE side of the separation preventing portion protrusion 5KT.
The ultrasonic welding portion 5UW is formed on the terminal DE side of the separation preventing portion groove 5KM.
In other words, the separation preventing portion protrusion 5KT, the separation preventing portion groove 5KM, and the ultrasonic welding portion 5UW are formed from the base end portion PE side toward the terminal DE side.
More specifically, the blood port outlet 5.2 has a separation preventing portion projection 5KT and an ultrasonic welding portion 5UW on the proximal end PE side, and forms a separation preventing portion projection 5KT on the proximal end PE side. An ultrasonic weld 5UW is formed on the terminal DE side of the blocking portion protrusion 5KT.
The blood port inlet 5.1 has a separation preventing portion protrusion 5KT and an ultrasonic welding portion 5UW on the terminal DE side, and forms a separation preventing portion protrusion 5KT on the terminal DE side, and the base of the separation preventing portion protrusion 5KT is formed. An ultrasonic weld 5UW is formed on the end PE side.

The separation preventing portion protrusions 5KT are intermittently formed at a plurality of locations on the side portion S (first side portion S1 to fourth side portion S4).
As illustrated in FIG. 5, the first side S1, the second side S2, the third side S3, and the fourth side S.
Four locations are formed in each direction.
As illustrated in FIG. 6, the separation preventing portion grooves 5KM are formed at four locations in each direction of the first side portion S1, the second side portion S2, the third side portion S3, and the fourth side portion S4.
The separation preventing portion protrusion 5KT and the separation preventing portion groove 5KM are viewed in the side direction (first side portion S1 to fourth side portion S4) as illustrated in FIGS. They are formed at the same position.
The separation preventing portion protrusion 5KT and the separation preventing portion groove 5KM are intermittently provided on the side portion S (first side portion S1 to fourth side portion S4) other than those illustrated in FIGS. 5 to 6 and 7 to 9. 2 or more, preferably three or more (five to eight).

The ultrasonic weld 5UW is formed continuously in the inner circumference [side direction (first side portion S1 to fourth side portion S4)] of the large diameter portion 5.22.
The ultrasonic weld 5UW is formed in an angular so-called “edge shape”.
The “edge-like” portion (hereinafter, edge portion E) is ultrasonically welded to the tapered portion TP of the ultrasonic weld portion 2UW of the housing 2.

(Separation prevention part groove 5KMP)
As described above, when the housing 2 is intermittently interrupted and the separation preventing portion projection 2KTP is partially adopted, the groove (detachment) is formed at the position facing the blood port (5, 5.1, 5.2). Blocking portion groove 5KMP) is formed.
As shown in FIG. 13, the separation preventing portion grooves 5KMP are intermittently formed at a plurality of locations on the side portion S (first side portion S1 to fourth side portion S4).
As illustrated in FIG. 13, four locations can be formed in each direction of the first side portion S1, the second side portion S2, the third side portion S3, and the fourth side portion S4.
As illustrated in FIG. 13, the separation preventing portion groove 5KMP is formed in each direction of the first side portion S1, the second side portion S2, the third side portion S3, and the fourth side portion S4, as illustrated in FIG. May be formed in four places, and in addition to the examples, the side part S (first side part S1 to fourth side part S4)] is intermittently two or more, preferably three or more (five to eight). Place) can be formed.
(Separation prevention protrusion 5KTP)
In addition, as illustrated in FIG. 12, the blood port (5, 5.1, 5.2) is configured such that the separation preventing portion protrusion 5KTP has an outer periphery of the large diameter portion 5.22 [side direction (first side portions S1 to S1). The fourth side portion S4)] is formed continuously.

(Ultrasonic welding between housing 2 and blood port outlet 5.2)
An ultrasonic welding method between the housing 2 and the blood port outlet 5.2 of the blood processing apparatus 1 of the present invention and an example in the case where the ultrasonic welding is removed will be described.
(1) The blood port outlet 5.2 is fitted to the housing 2 as illustrated in FIG.
The separation preventing portion protrusion 2KT of the housing 2 enters the separation preventing portion groove 5KM of the blood port outlet 5.2. More specifically, as illustrated in FIG. 10, a substantially central portion of the separation preventing portion groove 5KM (a penetration limit line L of the separation preventing portion protrusion 2KT into the separation preventing portion groove 5KM).
Invade until.
The ultrasonic welding part 5UW (edge part E) of the blood port outlet 5.2 is brought into contact with the ultrasonic welding part 2UW (tapered part TP) of the housing 2.
It is possible to push the blood port outlet 5.2 further in the direction of the housing 2 from the fitting position of the blood port outlet 5.2 and the housing 2. As a result, the O-ring OR can be compressed during ultrasonic welding to maintain a liquid-tight state.
(2) As illustrated in FIG. 8, the ultrasonic weld 5UW (edge E) of the blood port outlet 5.2 is brought into contact with the ultrasonic weld 2UW (taper TP) of the housing 2.
(3) As illustrated in FIG. 9, even if the ultrasonic weld 5UW (edge E) at the blood port outlet 5.2 and the ultrasonic weld 2UW (taper TP) of the housing 2 are disengaged, the blood port The separation preventing portion protrusion 5KT of the outlet 5.2 is locked at the four positions at the terminal DE side with the base end PE side of the separation preventing portion 2KT of the housing 2.
For this reason, the blood port outlet 5.2 does not leave the housing 2.
In the blood port outlet 5.2, the separation preventing portion projections 5KT are partially formed at four locations, not the entire circumference.

(Other examples)
Other embodiments described in FIGS. 11 to 16 [The housing 2 is intermittently interrupted, partially adopts the separation preventing portion protrusion 2KTP, and the blood port (5, 5.1, 5.2) In the case of forming a groove (disengagement prevention portion groove 5KMP) at a facing position], ultrasonic welding can be performed in the same manner as described above. Further, even when the ultrasonic welding is released, the blood port outlet 5.2 is not detached from the housing 2.
Since the detachment prevention portion protrusion 2KTP and the detachment prevention portion groove 5KMP are formed discontinuously and intermittently, the detachment prevention portion protrusion 2KTP is locked to the detachment prevention portion protrusion 5KT at the blood port outlet 5.2. After that, it can be stably locked (fixed) without rotating along the circumference.

DESCRIPTION OF SYMBOLS 1 Blood processing apparatus 2 Housing 2.1 Small diameter part 2.2 Large diameter part 2.3 Transition part 2 UW ultrasonic welding part 2KT detachment prevention part 2KTP detachment prevention part 3 Fixing material 4 Hollow fiber membrane 5.1 Blood port inlet 5. 2 Blood port outlet 5.21 Small diameter part 5.21 S connection part 5.21 O opening 5.22 large diameter part 5.23 transition part 5 OMO ring mounting groove ORO ring 5 UW ultrasonic welding part 5 KM separation prevention part groove 5 KMP separation prevention part Groove 5KT Detachment Block Protrusion 5KTP Detachment Block Protrusion 7 Dialysate Port 7.1 Dialysate Port Inlet 7.2 Dialysate Port Outlet 11 Obstacle Member (Baffle Member)
TP taper part E edge part

Claims (2)

A hollow fiber membrane (4) is arranged inside the housing (2) along the longitudinal ( L ) direction of the housing (2),
The distal end ( DE ) side and the proximal end ( PE ) side of the hollow fiber membrane (4) are fixed to the inner surface of the distal end ( DE ) side and the proximal end ( PE ) side of the housing (2) by a fixing material (3), respectively. And
At the end ( DE ) side of the housing (2) and toward the first side ( S1 ) , a dialysate port inlet (7.1) is mounted,
At the base end ( PE ) side of the housing (2) and in the direction of the first side ( S1 ) , a dialysate port outlet (7.2) is mounted,
At the end ( DE ) side of the housing (2), a blood port outlet (5.2) is mounted,
A blood port inlet (5.1) is mounted on the base end ( PE ) side of the housing (2),
The housing (2) has an ultrasonic welding part (2UW) and a separation prevention part protrusion (2KT) on the distal end ( DE ) side and / or the proximal end ( PE ) side,
The terminal ( DE ) side of the housing (2) is from the terminal (DE) side to the base end (PE) side, and the base end ( PE ) side is from the base end (PE) side to the base end (DE) side. Toward, sequentially form an ultrasonic weld (2UW), a separation prevention projection (2KT) ,
The ultrasonic weld (2UW) has a shape of a taper TP,
The separation prevention protrusion (2KT) is formed continuously in an annular shape in the side (S) direction,
The blood port outlet (5.2) and / or the blood port inlet (5.1) has a separation preventing portion protrusion (5KT) , a separation preventing portion groove ( 5KM) , and an ultrasonic welding portion (5UW),
The blood port outlet (5.2) is directed from the distal end (DE) side to the proximal end (PE) side, and the blood port inlet (5.1) is directed from the proximal end (PE) side to the distal end (DE) side. From the first, an ultrasonic weld (5UW), a separation prevention groove (5KM) and a separation prevention projection (5KT) are formed in sequence,
The separation prevention portion groove (5KM) and the separation prevention portion protrusion (5KT) are intermittently formed in a plurality of locations in the side portion (S) direction,
The ultrasonic weld (5UW) has an edge shape,
The separation prevention part protrusion (2KT) of the housing (2) is formed so as to be able to enter the separation prevention part groove (5KM) during ultrasonic welding,
During ultrasonic welding, the terminated (DE) side blood port outlet of the housing (2) (5.2) in the longitudinal (L) direction of the end (DE) proximal from the side (PE) side,
The proximal end (PE) side of the housing (2) and the blood port inlet (5.1) are viewed from the proximal end (PE) side to the distal end (DE) side in the longitudinal (L) direction,
The ultrasonic weld (2UW) of the housing (2), the ultrasonic weld (5UW) of the blood port (5.1, 5.2), and the blood port (5.1, 5.2) sequentially. Detachment prevention part groove (5KM), detachment prevention part projection (2KT) of said housing (2) that has entered into said detachment prevention part groove (5KM), and detachment prevention part of said blood port (5.1, 5.2) Arrange in the order of protrusions (5KT)
The ultrasonic weld (2UW) of the housing (2) and the ultrasonic weld (5UW) of the blood port (5.1, 5.2) are welded,
When the ultrasonic weld (2UW) and the ultrasonic weld (5UW) are disengaged, the separation preventing protrusion (5KT) of the blood port (5.1, 5.2) Can be locked to the separation prevention protrusion (2KT)
The blood port outlet (5.2) is the longitudinal (L) end (DE) side of the housing (2), and the blood port inlet (5.1) is the longitudinal (L) of the housing (2). A blood processing apparatus (1) characterized in that it is formed on the base end (PE) side of the direction so as not to come off . Inside the housing (2), the hollow fiber membrane (4) is disposed along the longitudinal (L) direction of the housing (2),
The distal end (DE) side and the proximal end (PE) side of the hollow fiber membrane (4) are fixed to the inner surface of the distal end (DE) side and the proximal end (PE) side of the housing (2) by a fixing material (3), respectively. And
At the end (DE) side of the housing (2) and in the direction of the first side (S1), a dialysate port inlet (7.1) is mounted,
At the base end (PE) side of the housing (2) and toward the first side (S1), a dialysate port outlet (7.2) is mounted,
At the end (DE) side of the housing (2), a blood port outlet (5.2) is attached,
A blood port inlet (5.1) is mounted on the base end (PE) side of the housing (2),
The housing (2) has an ultrasonic welding part (2UW) and a detachment prevention part (2KTP) on the distal end (DE) side and / or the proximal end (PE) side,
The terminal (DE) side of the housing (2) is from the terminal (DE) side toward the base end (PE) side, and the base end (PE) side is from the base end (PE) end side to the end (DE) side. Towards
Sequentially, an ultrasonic weld (2UW), a separation prevention protrusion (2KTP) are formed,
The separation prevention part (2KTP) is intermittently formed in the side part (S) direction at a plurality of locations,
The ultrasonic weld (2UW) has a shape of a taper TP,
The blood port outlet (5.2) and / or the blood port inlet (5.1) has a separation prevention part projection (5KTP), a separation prevention part groove (5KMP) and an ultrasonic welding part (5UW),
The blood port outlet (5.2) is directed from the distal end (DE) side to the proximal end (PE) side, and the blood port inlet (5.1) is directed from the proximal end (PE) side to the distal end (DE) side. Toward, sequentially formed an ultrasonic weld (5UW), a separation prevention groove (5KMP) and a separation prevention projection (5KTP),
The separation prevention protrusion (5KTP) is formed continuously in a ring shape in the side (S) direction,
The separation prevention part groove (5KMP) is formed intermittently in a plurality of locations in the side part (S) direction,
The ultrasonic weld (5UW) has an edge shape,
The separation prevention protrusion (2KTP) of the housing (2) is formed so as to be able to enter the separation prevention groove (5KMP) during ultrasonic welding,
During ultrasonic welding, the distal end (DE) side of the housing (2) and the blood port outlet (5.2) are extended from the distal end (DE) side in the longitudinal (L) direction to the proximal end (PE) side,
The proximal end (PE) side of the housing (2) and the blood port inlet (5.1) are viewed from the proximal end (PE) side to the distal end (DE) side in the longitudinal (L) direction,
The ultrasonic weld (2UW) of the housing (2), the ultrasonic weld (5UW) of the blood port (5.1, 5.2), and the blood port (5.1, 5.2) sequentially. Detachment prevention part groove (5KMP), detachment prevention part protrusion (2KTP) of the housing (2) that has entered the detachment prevention part groove (5KMP), and detachment prevention of the blood port (5.1, 5.2) Arrange in the order of the part protrusion (5KTP),
The ultrasonic weld (2UW) of the housing (2) and the ultrasonic weld (5UW) of the blood port (5.1, 5.2) are welded,
When the ultrasonic weld (2UW) and the ultrasonic weld (5UW) are disengaged,
The separation preventing portion protrusion (5KTP) of the blood port (5.1, 5.2) can be locked to the separation preventing portion protrusion (2KTP) of the housing (2),
The blood port outlet (5.2) is the longitudinal (L) end (DE) side of the housing (2), and the blood port inlet (5.1) is the longitudinal (L) of the housing (2). A blood processing apparatus (1) characterized in that it is formed on the base end (PE) side of the direction so as not to come off.