CN201445530U - ultrasonic cystoscope - Google Patents

Abstract

The utility model belongs to the technical field medical apparatus and particularly discloses an ultrasonic cystoscope which is formed by combining an improved scleroid cystoscope with a miniature ultrasonic probe; therefore, the utility model has not only the functions of a cystoscope but also the ultrasonic inspection function. The ultrasonic cystoscope comprises an endoscope main body; the endoscope main body comprises a scleroid endoscope end part as well as an apparatus passage, a cold light source input end and an eyepiece input end which are communicated with the endoscope end part; a sheath is arranged outside the endoscope main body; a manipulater provided with at least one apparatus passage is connected to the sheath; and the miniature ultrasonic probe used for performing real-time ultrasonic scanning to the urinary bladder is arranged in the apparatus passage of the endoscope main body. The utility model can accurately determines the position, the size, the appearance and the range of the nidus, thereby improving the inspection, diagnosis and operation accuracy of the urinary bladder, and offsetting the deficiency of the prior therapeutic method, so as to be suitable for the excellent treatment of various bladder diseases. Besides, the ultrasonic cystoscope can be held conveniently so as to aid in the smooth operation.

Description

Ultrasonic cystoscope

Technical field

This utility model belongs to the medical equipment technical field.Be particularly related to a kind of modern medicine and carry out a kind of core medical instrument of Urology Surgery operation, i.e. ultrasonic cystoscope.

Background technology

At present, cystoscope and cystoscope technology are widely used clinically, it is the important tool of Urology Surgery diagnosis and treatment disease, but the existing cystoscope that is used for the bladder disease diagnosis and treatment can be determined the focus of bladder, but can't understand the variation of each layer of bladder and surrounding organ, there is the insufficient hidden danger of diagnostic accuracy, and has only 1～2 instrument channel, can not implement comparatively complicated operation.At present on the clinical medicine, understanding bladder pathological changes situation mainly is to rely on external B ultrasonic, CT technology, and the pathological changes information of each layer of bladder and surrounding organ more accurately all can not be provided.In addition, present ultrasonic endoscope technology has been widely used in field of surgery such as stomach, duodenum, and its equipment is various soft lens and supporting miniature ultrasonic probe etc., but is not applied in the middle of the diagnosis and treatment technology of bladder.

The utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of ultrasonic cystoscope is provided, can determine position, size, outward appearance and scope that the intravesical focus exists exactly, improve the accuracy of BLOBS bladder observation, diagnosis, operation, thereby remedy the deficiency of present diagnosis and treatment method.

In order to realize above-mentioned technical purpose, this utility model is realized by following technical scheme:

Ultrasonic cystoscope described in the utility model, comprise cystoscope scope main body, described scope main body comprises hard scope end, and the instrument channel that is communicated with the scope end, cold light source input and eyepiece input, described scope main body is provided with the mirror sheath outward, be connected with the operator that has at least one instrument channel on the described mirror sheath, be provided with the miniature ultrasonic probe that is used for bladder is carried out real-time ultrasonic scanning in the instrument channel of described scope main body.

Described mirror sheath comprises mirror sheath end and mirror sheath elder generation end, and two fluid passages that are communicated with mirror sheath end, is provided with the valve of its unlatching of control on this two fluid passage.Described mirror sheath tip lengths is 180～220mm, and the profile of end is non-circular, maximum gauge 8.4mm, minimum diameter 6.6mm; Mirror sheath elder generation end is blunt shape structural design, can effectively reduce the damage of first end to urethra.

Also be provided with a pipe sheath core pin that cooperates with the mirror sheath on the described mirror sheath, after the cooperation, the opening portion of mirror sheath end can be filled up in the end of pipe sheath core pin, makes it to constitute one, is convenient to insert urethra, enters bladder.

The afterbody of described mirror sheath is provided with and manages the locking device that sheath core pin is connected, and by locking device mirror sheath and pipe sheath core pin is combined closely.

Two individual instruments passages that described operator comprises the operator end and is communicated with its end, the afterbody of each operator is provided with the locking device that is connected with the scope main body; Between two instrument channel of operator and the axis of operator end in angle of 45 degrees, and the angle between two instrument channel greater than 60 the degree.In this utility model, the external diameter of operator end is 6.4mm, and its tip lengths is 200～230mm, and the instrument channel diameter of described operator is 3.0mm.

The eyepiece input of described scope main body becomes the angle of 135 degree with the axis of scope main body, its cold light source input is vertical with the centrage of scope, and described cold light source input and eyepiece input design the both sides in scope main body axis respectively. the outer end diameter of described scope main body is 6.2mm, the instrument channel diameter of scope main body is 2.5～3.2mm, scope adopts 2.5～3.0mm optical lens, and the angle of optical lens is divided into a series of specification, is respectively 0 degree mirror, 12 degree mirrors, 30 degree mirrors, 70 degree mirrors, 110 degree mirrors.

In this utility model, all be provided with the sealing device that prevents fluid loop on each instrument channel of described operator and the instrument channel of scope main body.

In this utility model, described miniature ultrasonic probe comprises the data wire union joint, probe end and the first end of probe, and the first end of popping one's head in is effective district of scanning, miniature ultrasonic probe can be done annular and linear scanning.

Compared with prior art, the beneficial effects of the utility model are:

This utility model forms ultrasonic cystoscope because hard cystoscope through transforming and miniature ultrasonic probe are organically combined, and has both had cystoscopic function, has the ultrasonic examination function again.After cystoscope enters bladder, miniature ultrasonic probe is platform with the cystoscope, under the supervision of cystoscope camera system, miniature ultrasonic probe directly enters bladder through cystoscopic instrument channel, in direct observation bladder cavity clearly in the situation, under the situation of bladder full of liquid, miniature ultrasonic probe is carried out real-time ultrasonic scanning from inside to outside to bladder, carry out 360 ° circular scanning for cavity, linear scanning or three-dimensional reconstruction, make that miniature ultrasonic probe more can be directly near focus, in addition, adopt the more clear lesions showed of high frequency technique, thereby can determine the position that focus exists, size, outward appearance and scope can the various bladder diseases of cystoscope diagnosis and treatment, to improve BLOBS bladder observation, diagnosis, the accuracy of operation has remedied the deficiency of present diagnosis and treatment method.

Description of drawings

Below in conjunction with the drawings and specific embodiments this utility model is described in detail:

Fig. 1 is the structural representation of ultrasonic cystoscope described in the utility model;

Fig. 2 is the upward view of above-mentioned Fig. 1;

Fig. 3 is the side view of mirror sheath in this utility model;

Fig. 4 is the vertical view of above-mentioned Fig. 3;

Fig. 5 is that the mirror sheath cooperates sketch map with pipe sheath core pin in this utility model;

Fig. 6 is an operator side view in this utility model;

Fig. 7 is an operator axonometric chart in this utility model;

Fig. 8 is a scope main body side view in this utility model;

Fig. 9 is a miniature ultrasonic probe sketch map in this utility model;

Figure 10 is the user mode sketch map that miniature ultrasonic probe is passed through instrument channel;

Figure 11 is that ultrasonic cystoscope cooperates miniature ultrasonic probe to carry out the sketch map of operation on bladder.

The specific embodiment

This utility model such as Fig. 1, in conjunction with Fig. 2, Fig. 6 and shown in Figure 8, ultrasonic cystoscope described in the utility model is by ultrasonic cystoscope mirror sheath 1, operator 2, scope main body 3 and miniature ultrasonic probe 4 four parts are formed.

As shown in Figure 3, Figure 4, in this utility model, the concrete part of mirror sheath 1 has sheath tube end 12, fluid passage 13,14, locking device 15.In addition, the first end 11 of mirror sheath 1 is blunt shape structural design, has promptly done harmless design, damage urethra when can avoid mirror sheath 1 to enter urethra effectively.In this utility model, end 12 Design of length of mirror sheath 1 are 180～220mm, and the profile of end 12 is non-circular, maximum gauge 8.4mm, minimum diameter 6.6mm.

As shown in Figure 5, also be provided with the pipe sheath core pin 5 that is mated use on the ultrasonic cystoscope mirror sheath 1, mirror sheath 1 and pipe sheath core pin 5 by first locking device 15 lock cooperate after, the opening portion of the end 11 of mirror sheath part 1 can be filled up in the end 51 of pipe sheath core pin 5, make the two constitute one, so that the insertion urethra enters bladder.

As shown in Figure 6, in conjunction with Fig. 7, operator 2 of the present utility model is by end 21, instrument channel 22 and 23, also be provided with at the afterbody of operator 2 and be used for operator 2 and scope main body 3 are connected in the locking device 25 of one, and instrument channel 22,23 shared common channel outlet 24, between two instrument channel 22,23 of operator 2 and the axis of operator end 21 in angle of 45 degrees, and the angle between two instrument channel 22,23 greater than 60 the degree.In this utility model, the external diameter of operator end 21 is 6.4mm, and its tip lengths is 200～230mm, and instrument channel 22,23 diameters of described operator 2 are 3.0mm.

As shown in Figure 8, scope main body 3 of the present utility model comprises: eyepiece input 31, instrument channel 32, cold light source input 33, scope locking device 34 and scope end 35.Wherein: the eyepiece input 31 of scope main body 3 becomes the angle of 135 degree with the axis of scope main body 3, and main body 3 is comfortable, stable when making people's holds scope.In addition, cold light source input 33 is vertical with the centrage of scope main body 3, and cold light source input 33 and eyepiece input 31 design the both sides in scope main body 3 axis respectively.The outer end diameter of described scope main body 3 is 6.2mm, its end 35 length are 225～270mm, instrument channel 32 diameters of scope main body 3 are 2.5～3.2mm, and scope adopts 2.5～3.0mm optical lens, and the angle of optical lens is divided into a series of specification, be respectively 0 degree mirror, 12 degree mirrors, 30 degree mirrors, 70 degree mirrors, 110 degree mirrors, abundant scope series can be selected suitable scope according to patient's operation different situations for the doctor.

Be illustrated in figure 9 as and be applied to miniature ultrasonic probe 4 sketch maps of the present utility model, miniature ultrasonic probe 4 comprises data wire coupling part 42, miniature ultrasonic probe end 41 and first end 411.

Be applied to cooperation axonometric chart of the present utility model for miniature ultrasonic probe as shown in figure 10,35 the outlet 321 of instrument channel 32 in the scope main body 3 in the end, eyepiece input 31 is 35 optical lens 311 in the end, cold light source input 33 is 35 light-conductive optic fibre outlet 331 in the end, miniature ultrasonic probe 4 enters by the instrument channel 32 of main body scope 3, stretches out from end 35 outlets 321 of main body scope 3.

Figure 11 enters the operation sketch map of bladder 5 by ultrasonic cystoscope for miniature ultrasonic probe 4.Its concrete operating procedure is:

At first, the mirror sheath 1 fit tube sheath core pin 5 with ultrasonic cystoscope enters bladder 6 via patient's urethra;

Then, take-off pipe sheath core pin 5 cooperates operator 2 with mirror sheath 1, is platform with scope main body 3 with mirror sheath 1 and operator 2 then, enters bladder and observes;

At last, the instrument channel 32 of miniature ultrasonic probe 4 by scope main body 3 entered bladder smoothly, the first end 411 of miniature ultrasonic probe 4 can rotate and lengthwise movement, miniature ultrasonic probe is carried out real-time ultrasonic scanning from inside to outside to bladder, bladder carried out 360 ° circular scanning, linear scanning or three-dimensional reconstruction, make that miniature ultrasonic probe more can be directly near focus, in addition, adopt the clear lesions showed of high frequency technique, thereby determine position, size, outward appearance and scope that focus exists, improve the accuracy of BLOBS bladder observation, diagnosis, operation.

Claims (10)

1. ultrasonic cystoscope, comprise the scope main body, described scope main body comprises hard scope end, and the instrument channel that is communicated with the scope end, cold light source input and eyepiece input, it is characterized in that: described scope main body is provided with the mirror sheath outward, be connected with the operator that has at least one instrument channel on the described mirror sheath, be provided with the miniature ultrasonic probe that is used for bladder is carried out real-time ultrasonic scanning in the instrument channel of described scope main body.

2. ultrasonic cystoscope according to claim 1, it is characterized in that: described mirror sheath comprises mirror sheath end and mirror sheath elder generation end, and two fluid passages that are communicated with mirror sheath end, the end profiles of described mirror sheath is non-circular, mirror sheath elder generation end is blunt shape structural design.

3. ultrasonic cystoscope according to claim 2 is characterized in that: the afterbody of described mirror sheath is provided with and manages the locking device that sheath core pin is connected.

4. ultrasonic cystoscope according to claim 3 is characterized in that: described mirror sheath tip lengths is 180～220mm, and the profile of end is non-circular, maximum gauge 8.4mm, minimum diameter 6.6mm

5. ultrasonic cystoscope according to claim 1 is characterized in that: two individual instruments passages that described operator comprises the operator end and is communicated with its end, the afterbody of described operator is provided with the locking device that is connected with the scope main body.

6. ultrasonic cystoscope according to claim 5 is characterized in that: between two instrument channel of described operator and the axis of operator end in angle of 45 degrees, and the angle between two instrument channel greater than 60 the degree.

7. ultrasonic cystoscope according to claim 6 is characterized in that: the external diameter of described operator end is 6.4mm, and its tip lengths is 200～230mm, and the instrument channel diameter of described operator is 3.0mm.

8. according to the described ultrasonic cystoscope of claim 1, it is characterized in that: the eyepiece input of described scope main body becomes the angle of 135 degree with the axis of scope main body, its cold light source input is vertical with the centrage of scope, and described cold light source input and eyepiece input design the both sides in scope main body axis respectively.

9. ultrasonic cystoscope according to claim 7 is characterized in that; The outer end diameter of described scope main body is 6.2mm, the instrument channel of scope main body, diameter are 2.5～3.2mm, and scope adopts 2.5～3.0mm optical lens, and the angle of optical lens is divided into a series of specification, is respectively 0 degree mirror, 12 degree mirrors, 30 degree mirrors, 70 degree mirrors, 110 degree mirrors.

10. ultrasonic cystoscope according to claim 1 is characterized in that: described miniature ultrasonic probe comprises the data wire union joint, probe end and the first end of probe, and the first end of popping one's head in is effective district of scanning, miniature ultrasonic probe can be done annular and linear scanning.

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