CN207591108U - The deformable transvaginal probe of puerpera - Google Patents

Abstract

The utility model is related to the deformable transvaginal probes of puerpera, it is made of the portion of holding, catch, loop shaped probe portion, it is characterized in that the loop shaped probe portion generally loop shaped structure, connects including the both arms electrode portion positioned at ring body both sides and respectively and enclose set on the probing head of the both arms electrode portion upper and lower ends and connection bottom；The V-shaped structure of the probing head and connection bottom and the upper and lower ends being symmetrically laid in.The utility model improves the deformation effect of probe portion, and size is put into best while improving resilient support effect；Reduce the sense of discomfort of patient, the vagina that the effective docile of electrode portion for making into inverted triangle using each position different thicknesses of both arms again is deformed, and adequate solution has been made to short circuit problem with the ring-like pad of the anti-short circuit by being pasted in electrode portion, it is applicable to the vagina being deformed after puerpera's production.

Description

The deformable transvaginal probe of puerpera

Technical field

The utility model is related to a kind of postpartum recovery medical apparatus, are a kind of deformable vaginas of puerpera specifically Probe, belongs to technical field of medical appliance structures.

Background technology

Female pelvic floor is made of multilayer muscle and fascia, support and keep the pelvic cavity visceras such as uterus, bladder, rectum in Normal position, collagen is the structural protein for forming extracellular matrix, to maintaining the elasticity and toughness of Pelvic support structure It plays an important role.Elastin laminin is the main component for forming elastomer, and elastin laminin remodeling is for maintaining female pelvic structure It plays a significant role with functional completeness, influence of the gestation to basin primer original, gestation and childbirth are to the remodeling of elastomer and right The damage at basin bottom is the high risk factor of female pelvic floor dysfunctional disease.

At present, most medical institutions are mainly cloudy by the way of for postpartum pelvic diaphragm muscle intensive training and functional rehabilitation Road electrostimulation, in this method, vagina electric shock probe are the critical components for playing rehabilitation training effect.Medical vagina electric shock Probe be for women pelvic muscles sarolemma layer by pregnancy and vagina production after be easy to cause relaxation and it is powerless, bladder Pressure be more than urethra pressure or menopause after women because women He Ermeng shortage, easily generate urethral wall in muscle or The medical instrument of the gynecological diseases development such as relaxation atrophy, the prolapse of uterus and urinary incontinence of pelvic muscles sarolemma.

With reference to the pelvis bottom structure feature after parturient childbirth, medical vagina electric shock probe has to meet following work( It can condition：

1st, fetus passes through when postpartum vaginal is because of childbirth, can from large to small in birth canal recovery process, therefore probe size should be Elastic construction with contractile function.

2nd, in order to ensure certain effective therapeutic process, probe will remain secured to intravaginal, have to bone Pelvic floor The stimulation of effect, such as fixation are unfavorable to cause probe to be sliding out vagina, then loses therapeutic effect, while also patient's external genital can be made Into different degrees of injury, therefore the structure popped one's head in should have preferable anti-slip effect.

3rd, in order to ensure therapeutic effect, docile should be stablized in the vaginal wall being deformed after stretching into vagina by popping one's head in, therefore will It asks each portion of probe both arms that there is different elasticity tensions and as much as possible ensures electrode portion and the contact area of vaginal wall.

4th, the activity of puerpera's routine should be allowed, avoid the electric pole short circuit phenomenon because of caused by activity various extruding angles.

5th, electric shock detecting head surface answers smooth easy cleaning, to clean postpartum vaginal inner product object in time.

It pops one's head at present to carry out the medical vagina electric shock of electro photoluminescence to vagina bone Pelvic floor, it is cloudy that rodlike formula can be divided into Road electric shock probe and clamping formula vagina electric shock probe.The knot of clamping formula vagina electric shock probe clamping formula vagina electric shock probe therein Structure is that clamping made of vulcanie is popped one's head in, and both sides respectively set the half-round metal electrode at two intervals.During implementation, performer's warp It is shunk by the lever control clamping probe of clamping end, is decontroled again after clamping probe and half-round metal electrode are put into vagina, Make the half-round metal electrode contact bone Pelvic floor of clamping probe both sides, carry out electro photoluminescence.

In practice, above-mentioned clamping formula vagina electric shock probe is because there are puerpera can not be used in during following major defect：

1st, since the both sides of probe portion especially upper and lower ends are the identical toroidal ring structure of diameter, so even on material Resilient flexible silica gel is employed, but since the limitation of structure design also results in integral, flexible deformation deficiency, it is difficult to which satisfaction makes With requiring, when patient treatment location has light activity, entire probe can lose therapeutic effect due to elastic shrinkage function deficiency, difficult To meet Clinical practice effect.

2nd, the probe portion after being put into present substantially in vivo it is a kind of up and down substantially with the structure of wide 8-shaped or Pear-Shaped, The structure of this structure and patient's body therapentic part does not have good fixed point, thus be just easy in patient's light activity from Patient's body is sliding out coming, and severe patient can also cause to stab to the external genital of patient.

3rd, since the front-end architecture of loop shaped probe portion only devises smooth arc shape bending, at the beginning of vagina is put into only according to By the opposing compression bending part so that it is shrunk to an easier insert structure, patient's intravaginal can be just efficiently entering, this On the one hand the design of kind structure is the external force extruding that places one's entire reliance upon, even if another aspect squeezes diminution but still can be because of preceding end in contact Position is larger and causes to be inserted into sense of discomfort that is difficult, enabling patient's generation larger, and severe patient, which causes to resist, to be treated.

4th, without electrode is completely avoided to crash the short circuit problem of generation.

Invention content

The utility model aims to solve the problem that the existing resilient support deficiency of above-mentioned clamping formula vagina electric shock probe, head end are shunk not Difficult, easy major defects such as slippages, easy short circuit are put into caused by enough and deformation is insufficient, so provide it is a kind of by rotation with/ Or the deformable transvaginal probe of puerpera for squeezing and being deformed.The puerpera with deformable transvaginal probe when being put by turn Dynamic bipolar electrode deforms and obtains minimum insertion size, and a kind of inverted triangle knot is presented being squeezed into after discharging in vivo by vaginal wall Structure, between the inverted triangle structure and vaginal wall have firm stable combination, on the one hand ensure maximum area and vagina Wall contacts, and reaches docile stabilization, the therapeutic effect of effective stimulus, on the other hand avoids slippage problem.

To solve the above problems, technical solution is used by the utility model：

The deformable transvaginal probe of puerpera, is made of the portion of holding 1, catch 2, loop shaped probe portion 3, and the catch 2 is designed at It is described to hold between portion 1 and loop shaped probe portion 3, to avoid performer take probe mistiming touch probe portion, probe portion is caused to pollute； It is characterized in that：

The loop shaped probe portion 3 generally loop shaped structure, including being located at ring body both sides as sonde body Both arms electrode portion and be symmetrically connected to the both arms electrode portion upper and lower ends and as resilient support main body probing head 6 With connection bottom 7；The probing head 6 and connection bottom 7 are in symmetrical v-shaped structure, when the both arms electrode portion opposing compression During stress, the both arms electrode portion is using the V-arrangement point bottom of its both ends probing head 6 and connection bottom 7 as rotational support and around it Make opposite or reversely rotate deformation, to obtain smaller szie, reach best and be inserted into effect.

The probing head 6 and connection bottom 7 include two linking arms for being connected to both arms electrode portion and are connected by two Connect the V-arrangement point bottom that arm docking is formed；The linking arm of the connection bottom 7 is in flat structure；The structure to ensure both arms electricity During pole portion opposing compression stress, both sides linking arm can surround V-arrangement point bottom and generate rotation tightening until reaching the state of crashing；It is described The ring diameter of the linking arm of probing head 6 is tapered into from electrode connecting end to butt end according to stress and deformation state, in its docking The minimum ring diameter of point is visited with the contact as introitus in place.

Further, a bump 6-4, the bump are outward extended with along the head V-arrangement point bottom 6-1 of the probing head 6 The linking arm of 6-4 both sides has the segmental arc 6-5 being recessed inwardly, when both arms electrode turns to the 6 opposite direction tightening of probing head, A smooth wave section is formed from the bump 6-4 to the segmental arc 6-5, is more easily put into introitus.

The both arms electrode portion includes the first cast electrode portion 4 and the second cast electrode portion 5；First cast electrode portion, 4 He Second cast electrode portion 5 is covered in for conductive material or electric silica gel material on the ring body of loop shaped probe portion 3, and described first The inside of 4 and second cast electrode portion 5 of cast electrode portion is connect respectively by conducting wire with power supply.

Because of the first cast electrode portion 4 and the second cast electrode portion 5 can generate the rotation of various angles and the contact that crashes, and is Prevent two electrodes from influencing therapeutic effect and damage machine when contacting by short circuit, in the first cast electrode portion 4 and second The opposite offside of the upper and lower ends of cast electrode portion 5 is respectively equipped with the ring-like pad 8 of anti-short circuit；The ring-like pad 8 of anti-short circuit is at two When electrode portion any angle contacts, two electrode portions are effectively kept apart, play anti-short-circuit effect.

The catch 2 in upper and lower ends microbend backward convex arc shape.

Each position of the probing head 6 and connection bottom 7 has different diameter size and shapes, after vagina is placed in, The loop shaped probe portion 3 in vivo use state when shrink in inverted triangular structure because of the extruding by vaginal wall so that its with Between vaginal wall there is the combination of firm stable, reach docile stabilization, the therapeutic effect of effective stimulus, avoid because of fixation The probe of not firm generation slips problem.

First cast electrode portion 4 of the loop shaped probe portion 3 and the size of the second cast electrode portion 5, therebetween Distance and the probing head 6 and the size of connection bottom 7 are set using different human body physiological structure as with reference to adjustment.

The catch 2 is made of electric silica gel material, when catch 2 does not connect power supply, only with 4 He of the first cast electrode portion Second cast electrode portion 5 carries out electro photoluminescence respectively as positive electrode and negative electrode；

It can access normal electrode in the catch 2, after catch 2 connects power supply, by catch internal standard collimator electrode as reference, Using the first cast electrode portion 4 and the second cast electrode portion 5 as positive electrode and negative electrode, biological feedback instruction is carried out to patient Practice, also electromyogram probe can be used as to be used.

The probing head 6 of the loop shaped probe portion 3, connection bottom 7 and both arms electrode portion periphery uses and vagina Mucous layer has the medical grade silica gel material of good biocompatibility.

It is insufficient, slotting mainly to solve existing transvaginal probe deformation for the deformable transvaginal probe of the puerpera of the utility model Enter to have some setbacks, flexibly support the technological deficiency that inadequate, easy short circuit etc. is unsuitable for puerpera.The technical way used thus is will to visit The connection bottom in survey portion and probing head have made adaptable planform variation；One is by the connection bottom of probe portion by ring Column is changed to flat structure, so as to which the deformation direction shunk to pressure for making original electrode portion is transformed into each angle of two electrode portions Spend rotational deformation；The deformation effect of probe portion is improved with this, is put while improving resilient support effect with best Enter size；Correspondingly, the utility model also emphasis improves the probing head structure of probe portion, on the one hand design is right with it The v-shaped structure to match to connection bottom structure, is on the other hand preferably put into effect, in the V-arrangement of its v-shaped structure to obtain Smooth insertion curved segment has been made at sharp bottom, and the sense of discomfort of patient is reduced with this.After problem on deformation is solved, the short circuit brought therewith is asked Topic has made adequate solution in the utility model also by the ring-like pad of the anti-short circuit pasted in electrode portion.In addition, the utility model In the positioning gear for holding the resilient flexible silica gel making that controllable insertion vagina depth is equipped between portion and probe portion of transvaginal probe Piece allows electrode position accurately to contact bone Pelvic floor and sphincter urethrae position, and implementer can be avoided accidentally to touch probe portion It pollutes.

Description of the drawings

Fig. 1：Existing transvaginal probe structure diagram；

Fig. 2：The deformable transvaginal probe free state lower structure schematic diagram of the utility model puerpera；

Fig. 3：The side view of Fig. 2；

Fig. 4：Existing transvaginal probe loop shaped probe portion stress crimp state diagram；

Fig. 5：The deformable transvaginal probe stress crimp structure diagram of the utility model puerpera；

Fig. 6：The utility model transvaginal probe loop shaped probe portion is rotated into minimal deformation state diagram；

Fig. 7：The side view of Fig. 6；

Fig. 8：The deformable transvaginal probe use state diagram of the utility model puerpera；

In the figure 1, portion is held, 2, catch, 3, loop shaped probe portion, the 4, first cast electrode portion, the 5, second cast electrode Portion, 6, probing head, 6-1, the first head linking arm, 6-2, the second head linking arm, 6-3, head V-arrangement point bottom, 6-4, bump, 6-5, segmental arc, 7, connection bottom.7-1, the first bottom linking arm, 7-2, the second bottom linking arm, 7-3, bottom chevron shaped point bottom, 8, The anti-ring-like pad of short circuit.

Specific embodiment

Attached drawing is described in detail below the utility model puerpera with deformable transvaginal probe below.

Embodiment 1

The deformable transvaginal probe of puerpera, is made of the portion of holding 1, catch 2, loop shaped probe portion 3, and the catch 2 is designed at It is described to hold between portion 1 and loop shaped probe portion 3, to avoid performer take probe mistiming touch probe portion, probe portion is caused to pollute； The portion of holding is designed as the ring type that performer is convenient for take control,

The loop shaped probe portion 3 generally loop shaped structure, including being located at ring body both sides as sonde body First cast electrode portion 4 and the second cast electrode portion 5 and symmetrical it is connected to two electrode portion upper and lower ends and as resilient support The probing head 6 of main body and connection bottom 7；The first cast electrode portion 4 and the second cast electrode portion 5 for conductive material or are led Electric silica gel material is covered on the ring body of probe portion.The inside points of the first cast electrode portion 4 and the second cast electrode portion 5 It is not connect by conducting wire with power supply, electro photoluminescence is carried out to vagina bone Pelvic floor after energization.The first cast electrode portion 4 and second is managed Type electrode portion 5 is designed as easy cleaned long axle construction, and Shi Shushi has 4 He of the first cast electrode portion of large contact area Vagina bone Pelvic floor can be steadily contacted in second cast electrode portion 5, and patient is avoided to generate sense of discomfort.The probing head 6 and company It connects medical grade silica gel material of the bottom 7 using elasticity and with good biocompatibility to be made, the two is disposed around first respectively Both sides of 4 and second cast electrode portion 5 of cast electrode portion and in symmetrical v-shaped structure, when the both arms electrode portion opposing compression During stress, the both arms electrode portion is using the V-arrangement point bottom of its both ends probing head 6 and connection bottom 7 as rotational support and around it Make opposite or rotate backward deformation, to obtain smaller szie, reach best and be inserted into effect.

The probing head 6 is connected to 5 upper end of the first cast electrode portion 4 and the second cast electrode portion including two First head linking arm 6-1 and the second head linking arm 6-2 and by the first head linking arm 6-1 and the second head linking arm The head V-arrangement point bottom 6-3 that 6-2 docking are formed；The connection bottom 7 is connected to 4 He of the first cast electrode portion including two The the first bottom linking arm 7-1 and the second bottom linking arm 7-2 of second cast electrode portion, 5 lower end and by the first bottom connect Arm 7-1 and the second bottom linking arm 7-2 docks the bottom chevron shaped point bottom 7-3 of composition.

It is described connection bottom 7 the first bottom linking arm 7-1 and the second bottom linking arm 7-2 in flat structure and Its bottom junctions is reserved with certain running clearance；The structure is ensureing that the first bottom linking arm 7-1 and the second bottom connect When connecing arm 7-2 opposing compression stress, the rotary tightening of any angle can be done around bottom chevron shaped point bottom 7-3 and crashed until reaching State；The stress of the first head linking arm 6-1 and the second head linking arm 6-2 of the probing head 6 are big when being tightened with rotation The ring diameter of small and deformation state, the first head linking arm 6-1 and the second head linking arm 6-2 are from electrode connecting end to head Portion V-arrangement point bottom 6-3 is tapered into, and at its head V-arrangement point bottom, 6-3 has the minimum ring diameter that point is visited as the contact of introitus.

Further, a bump 6-4, the bump are outward extended with along the head V-arrangement point bottom 6-3 of the probing head 6 The the first head linking arm 6-1 and the second head linking arm 6-2 of 6-4 both sides have the segmental arc 6-5 being recessed inwardly, in the detection When head 6 is tightened, two linking arms make the bump 6-4 to the segmental arc 6-5 form a smooth wave section to folded, more easily In being put into introitus.

Because the first cast electrode portion 4 and the second cast electrode portion 5 can generate the contact that rotates and crash at any angle, it is Effect of Short Circuit curative effect even damages machine when preventing two electrodes from contacting, in the first cast electrode portion 4 and the second cast electricity The opposite offside of the upper and lower ends in pole portion 5 is respectively equipped with the ring-like pad 8 of anti-short circuit；The ring-like pad 8 of anti-short circuit is in two electrode portions When making any angle rotation contact, two electrode portions are effectively kept apart, play anti-short-circuit effect.The catch 2 is in The convex arc shape of upper and lower ends microbend backward presets the distance of catch 2 and electrode portion front end, provide probe portion be inserted into it is cloudy Road, when catch closely sticks to the labia of introitus, as judge that long tube type electrode portion and bone Pelvic floor contacted really according to According to.

The loop shaped probe portion 3 in vivo use state when shrink in inverted triangular structure because of the extruding by vaginal wall, So that it has the combination of firm stable between vaginal wall, reach docile stabilization, the therapeutic effect of effective stimulus, avoid Because of the slippage problem of the not firm generation of fixation.

First cast electrode portion 4 of the loop shaped probe portion 3 and the size of the second cast electrode portion 5, therebetween Distance and the probing head 6 and the size of connection bottom 7 are set using different human body physiological structure as with reference to adjustment.

The catch 2 is made of electric silica gel material, when catch 2 does not connect power supply, only with 4 He of the first cast electrode portion Second cast electrode portion 5 carries out electro photoluminescence respectively as positive electrode and negative electrode；It can access normal electrode in the catch, work as gear After piece connection power supply, by catch internal standard collimator electrode as reference, distinguished with the first cast electrode portion 4 and the second cast electrode portion 5 As positive electrode and negative electrode, biological feedback training is carried out to patient, also electromyogram probe can be used as to be used.The loop shaped is visited Probing head 6, connection bottom 7 and the both arms electrode portion periphery in survey portion 3 have good biological phase using with vagina mucosa layer The medical grade silica gel material of capacitive.

The design principle and the course of work of the utility model are as follows：

Two linking arms that pressure ring round probe portion 2 connects bottom 6 are pinched, at this time two linking arms pair by performer's hand grip portion 1 It receives and folds and together in offset flat shape structure, original loop shaped probe portion 3 is made to be deformed into minimum dimension, and probing head 6 is to folded It is in afterwards the smooth curved segment with a bump, entire loop shaped probe portion 3 is placed in by the moon along probing head 6 with optimum contact angle In road, entire probe positions are aligned in hand grip portion 1 later.Loop shaped probe portion 3 in connection bottom 7 and is visited after entering in vivo Return and entire loop shaped probe portion 3 is unfolded under the elastic reaction in gauge head portion 6, is in integrally inverted triangle under the extruding of vaginal wall Shape reaches resilient support and fixedly positioning anti-slip state so that two electrode portions hold its shape and can effectively with The holding of vagina bone Pelvic floor fits closely, and promotes its steady contact with bone Pelvic floor.Due to probing head 6 and connection bottom 7 It is that the good medical grade silica gel of biocompatibility is made and in symmetrical v-shaped structure, it is best so as to provide two electrode portions To folding effect, reach best deformation size, more easily by introitus, reduce the sense of discomfort of patient to greatest extent, After probe portion enters in vivo, electrode portion can keep most preferably holding out against contact condition with introitus.The setting of catch is in addition to that can keep away Exempting from performer, accidentally tactile probe portion pollutes, and can be close to labia using catch when probe portion is inserted into vagina, makes electrode accurate Ground contacts bone Pelvic floor and sphincter urethrae position, to reach optimum curative effect.Two electrode portions to it is folded when and patient activity In the process, the anti-ring-like pad of short circuit on the inside of electrode portion can effectively completely cut off two electrodes and be in direct contact, and short circuit occurs.

The puerpera of the utility model is with deformable transvaginal probe, technical characteristics and using effect

By optimizing the connection bottom at probe portion both ends and the structure of probing head, the change that original electrode portion shrinks pressure Into each angular turn deformation of two electrode portions, this mode of texturing one side improves at the beginning of detection to be put into shape direction transformation Operability, reduce the sense of discomfort of patient, on the other hand in therapeutic process after filling, elastic anchorage force is strong, whole In the inverted triangle structure unfolded, two lateral electrodes is made effectively with vagina abutting contact, effectively probe portion to be avoided to slip, reach stable Therapeutic effect.When electrode portion is designed with and crashes contact, isolation avoids generating the anti-ring-like pad of short circuit of short circuit, when two electrode portions are rolled over When overlay is touched, being contacted with each other by the ring-like pad of the anti-short circuit in both sides and obstructed two electrode portions is in direct contact.

Claims (10)

1. the deformable transvaginal probe of puerpera, by the portion of holding（1）, catch（2）, loop shaped probe portion（3）It forms, the catch（2） Portion is held described in being designed at（1）With loop shaped probe portion（3）Between, to avoid performer take probe mistiming touch probe portion, cause Probe portion pollutes；It is characterized in that：

The loop shaped probe portion（3）Generally loop shaped structure, including positioned at pair of the ring body both sides as sonde body Arm electrode portion and be symmetrically connected to the both arms electrode portion upper and lower ends and as resilient support main body probing head（6） With connection bottom（7）；The probing head（6）With connection bottom（7）In symmetrical v-shaped structure, when the both arms electrode portion phase During to squeezing stress, the both arms electrode portion is with its both ends probing head（6）With connection bottom（7）V-arrangement point bottom for rotation branch It supports and surrounds it and make opposite or reversely rotate deformation, to obtain smaller szie, reach best and be inserted into effect.

2. the deformable transvaginal probe of puerpera as described in claim 1, is characterized in that

The probing head（6）With connection bottom（7）Include two linking arms for being connected to both arms electrode portion and connected by two Connect the V-arrangement point bottom that arm docking is formed；The connection bottom（7）Linking arm be in flat structure；The structure is ensureing both arms During electrode portion opposing compression stress, both sides linking arm can surround V-arrangement point bottom and generate rotation tightening until reaching the state of crashing；Institute State probing head（6）The ring diameter of linking arm tapered into from electrode connecting end to butt end according to stress and deformation state, at it There is the minimum ring diameter that point is visited as the contact of introitus at docking.

3. the deformable transvaginal probe of puerpera as claimed in claim 2, is characterized in that

Along the probing head（6）V-arrangement point bottom be outward extended with a bump（6-4）, the linking arm of the bump both sides has The segmental arc being recessed inwardly（6-5）, the probing head is turned in both arms electrode（6）During opposite direction tightening, from the bump（6-4） To the segmental arc（6-5）Form a smooth wave section.

4. the deformable transvaginal probe of puerpera as claimed in claim 3, is characterized in that

The both arms electrode portion includes the first cast electrode portion（4）With the second cast electrode portion（5）；First cast electrode portion（4） With the second cast electrode portion（5）It is covered on the ring body of loop shaped probe portion for conductive material or electric silica gel material, it is described First cast electrode portion（4）With the second cast electrode portion（5）Inside connect respectively by conducting wire with power supply.

5. the deformable transvaginal probe of puerpera as claimed in claim 4, is characterized in that

The probing head（6）With connection bottom（7）Each position have different diameter size and shapes, after vagina is placed in, The loop shaped probe portion（3）Make electrode because the extruding by vaginal wall is shunk in inverted triangular structure during use state in vivo The effective vagina for being obedient to postpartum deformation prevents probe from skidding off vagina simultaneously.

6. the deformable transvaginal probe of puerpera as claimed in claim 5, is characterized in that

Because of the first cast electrode portion（4）With the second cast electrode portion（5）The rotation of various angles can be generated and the contact that crashes, be Prevent two electrodes from influencing therapeutic effect and damage machine when contacting by short circuit, in the first cast electrode portion（4）With Two cast electrode portions（5）The opposite offsides of upper and lower ends be respectively equipped with the anti-ring-like pad of short circuit（8）；The anti-ring-like pad of short circuit （8）When two electrode portion any angles contact, two electrode portions are effectively kept apart, play anti-short-circuit effect.

7. the deformable transvaginal probe of puerpera as claimed in claim 6, is characterized in that

The catch（2）In the convex arc shape of upper and lower ends microbend backward.

8. the deformable transvaginal probe of puerpera as claimed in claim 7, is characterized in that

The loop shaped probe portion（3）The first cast electrode portion（4）With the second cast electrode portion（5）Size, therebetween Distance and the probing head（6）With connection bottom（7）Size using different human body physiological structure as with reference to adjustment and Setting.

9. the deformable transvaginal probe of puerpera as claimed in claim 8, is characterized in that

The catch（2）It is made of electric silica gel material；The catch（2）Normal electrode is accessed, works as catch（2）Connect power supply Afterwards, by catch internal standard collimator electrode as reference, with the first cast electrode portion（4）With the second cast electrode portion（5）Respectively as just Electrode and negative electrode carry out patient biological feedback training or are used as electromyogram probe.

10. the deformable transvaginal probe of puerpera as claimed in claim 9, is characterized in that

The loop shaped probe portion（3）Probing head（6）, connection bottom（7）And both arms electrode portion periphery uses and the moon Road mucous layer has the medical grade silica gel material of good biocompatibility.