CN109589133B

CN109589133B - Ultrasonic probe equipment and sleeving bag device thereof

Info

Publication number: CN109589133B
Application number: CN201811257190.XA
Authority: CN
Inventors: 詹壹翔; 陈志宏; 翁虹妗
Original assignee: Qisda Suzhou Co Ltd; Qisda Corp
Current assignee: Qisda Suzhou Co Ltd; Qisda Corp
Priority date: 2018-10-26
Filing date: 2018-10-26
Publication date: 2022-04-12
Anticipated expiration: 2038-10-26
Also published as: CN109589133A

Abstract

The invention provides an ultrasonic probe device, which comprises an ultrasonic probe and a sleeving bag device. The ultrasonic probe has a first engaging structure. The sleeve bag device is detachably arranged on the ultrasonic probe and comprises a flexible bag and a sleeve seat. The flexible bag is provided with a bag opening part, a bag body part and a bag bottom part, wherein the bag body part is connected with the bag opening part and the bag bottom part to form a containing space for containing the ultrasonic conduction fluid. The socket joint seat is detachably connected with the bag opening part to seal the containing space, a socket joint groove structure is formed towards the inner concave part of the flexible bag, a second clamping structure is arranged at the position of the socket joint groove structure corresponding to the first clamping structure, and when the socket joint groove structure is sheathed on the ultrasonic probe, the first clamping structure is clamped on the second clamping structure to detachably arrange the socket joint seat on the ultrasonic probe. By means of the present invention, the detection accuracy of the ultrasonic probe apparatus in performing ultrasonic scanning on irregular body surfaces is improved, and the physical feeling of the person under test is improved.

Description

Ultrasonic probe equipment and sleeving bag device thereof

Technical Field

The present invention relates to an ultrasonic probe apparatus and a bag-in-bag device thereof, and more particularly, to an ultrasonic probe apparatus with a flexible bag and a bag-in-bag device thereof.

Background

With the progress of medical technology, ultrasonic probe devices have been widely used in medical examination for performing ultrasonic scanning on a specific area of a subject (such as a pregnant woman, a patient, etc.) and generating an ultrasonic scanning image for medical staff to see to know the internal conditions of the subject, such as the growth status of a fetus, the degree of pathological changes of organs, etc.

In practical applications, when the ultrasound probe is used to perform ultrasound scanning on a detection part with an irregular surface (such as the neck, throat or face of a subject), since the material of the probe end of the ultrasound probe is not flexible, medical staff usually only can push the ultrasound probe to make the ultrasound probe fit on the irregular surface of the detection part. However, the operation method of directly pressing the ultrasonic probe against the detection portion not only causes discomfort to the subject during the measurement process, but also causes the influence of excessive extrusion deformation of the detection portion by the ultrasonic probe to cause misalignment of the ultrasonic detection, thereby causing inconvenience to the medical staff in performing ultrasonic scanning on irregular body surfaces by using the ultrasonic probe apparatus.

Disclosure of Invention

The present invention is directed to an ultrasonic probe apparatus with a flexible bag and a bag sleeving device thereof to solve the above problems.

According to one embodiment, the ultrasonic probe apparatus of the present invention includes an ultrasonic probe and a sleeve bag device. The ultrasonic probe has at least one first engaging structure. The sleeve bag device is detachably arranged on the ultrasonic probe and comprises a flexible bag and a sleeve seat. The flexible bag is provided with a bag opening part, a bag body part and a bag bottom part, wherein the bag body part is connected with the bag opening part and the bag bottom part to form an accommodating space, and the accommodating space is used for accommodating ultrasonic conduction fluid. The socket is detachably connected to the bag opening portion to seal the accommodating space, a socket groove structure is formed towards the inner concave portion of the flexible bag, a second clamping structure is arranged at a position of the socket groove structure corresponding to the at least one first clamping structure, and when the socket groove structure is in socket connection with the ultrasonic probe, the first clamping structure is clamped with the second clamping structure to detachably arrange the socket on the ultrasonic probe.

Preferably, the bag mouth portion extends outward to form a first skirt, the sleeving seat extends to form a second skirt corresponding to the first skirt, the sleeving bag device further comprises at least one locking member and a first annular clamping plate, and the at least one locking member penetrates through the second skirt, the first skirt and the first annular clamping plate to detachably lock the flexible bag on the sleeving seat.

Preferably, the sleeving bag device further comprises a second annular clamping plate, and the at least one locking member penetrates through the second annular clamping plate, the second skirt, the first skirt and the first annular clamping plate to clamp and fix the first skirt and the second skirt between the first annular clamping plate and the second annular clamping plate.

Preferably, the sleeve bag device further comprises a first elastic clamping structure and a second elastic clamping structure, wherein the first elastic clamping structure and the second elastic clamping structure are respectively connected to two sides of the sleeve seat to laterally clamp the bag body part, so that the bottom of the bag protrudes forward relative to the bag body part.

Preferably, the first elastic clamping structure includes a first elastic body and a first connection piece seat, the second elastic clamping structure includes a second elastic body and a second connection piece seat, the first connection piece seat and the second connection piece seat are respectively locked on two sides of the socket joint seat, and the first elastic body and the second elastic body are respectively attached to the first connection piece seat and the second connection piece seat so as to mutually face and jointly clamp the bag body part.

Preferably, the at least one first engaging structure is a notch structure, the sleeve-connected groove structure extends laterally to form a receiving groove, the second engaging structure includes a sleeve, an elastic member and a positioning bead, the sleeve is fixed in the receiving groove, the elastic member is disposed in the sleeve and connected to the positioning bead, and when the sleeve-connected groove structure is sleeved on the ultrasonic probe, the elastic member drives the positioning bead to protrude outwards from the sleeve to engage with the notch structure.

Preferably, the at least one first engaging structure is a protruding point structure, the sleeve-connected groove structure extends laterally to form a receiving groove, the second engaging structure includes a sleeve, an elastic member and a positioning bead, the positioning bead has a notch structure, the sleeve is fixed in the receiving groove, the elastic member is disposed in the sleeve and connected to the positioning bead, when the sleeve-connected groove structure is sleeved on the ultrasonic probe, the elastic member drives the positioning bead to move from the sleeve to the protruding point structure, so that the notch structure is engaged with the protruding point structure.

Preferably, the bag thickness of the bag bottom is smaller than the bag thickness of the bag body.

According to another embodiment, the sleeving bag device of the present invention is suitable for an ultrasonic probe, the ultrasonic probe has at least one first engaging structure, and the sleeving bag device includes a flexible bag and a sleeving seat. The flexible bag is provided with a bag opening part, a bag body part and a bag bottom part, wherein the bag body part is connected with the bag opening part and the bag bottom part to form a containing space, and the containing space is used for containing an ultrasonic conduction fluid. The socket is detachably connected to the bag opening portion to seal the accommodating space, a socket groove structure is formed towards the inner concave portion of the flexible bag, a second clamping structure is arranged at a position of the socket groove structure corresponding to the at least one first clamping structure, and when the socket groove structure is in socket connection with the ultrasonic probe, the first clamping structure is clamped with the second clamping structure to detachably arrange the socket on the ultrasonic probe.

Preferably, the bag mouth portion extends outward to form a first skirt, the sleeving seat extends to form a second skirt corresponding to the first skirt, the sleeving bag device further comprises at least one locking member and a first annular clamping plate, and the at least one locking member penetrates through the first skirt, the second skirt and the first annular clamping plate to detachably lock the flexible bag on the sleeving seat.

Preferably, the sleeving bag device further comprises a second annular clamping plate, and the at least one locking member penetrates through the second annular clamping plate, the first skirt, the second skirt and the first annular clamping plate to clamp and fix the first skirt and the second skirt between the first annular clamping plate and the second annular clamping plate.

Preferably, the at least one first engaging structure is a notch structure, the sleeve-connected groove structure extends laterally to form a receiving groove, the second engaging structure includes a sleeve, an elastic member and a positioning bead, the sleeve is fixed in the receiving groove, the elastic member is disposed in the sleeve and connected to the positioning bead, when the sleeve-connected groove structure is sleeved on the ultrasonic probe, the elastic member drives the positioning bead to protrude outwards from the sleeve to engage with the notch structure.

In summary, the design of sleeving the sleeving bag device on the ultrasonic probe to make the flexible bag be attached to the surface of the detection part instead of the prior art of using the ultrasonic probe to directly press the detection part, the present invention can effectively solve the problems mentioned in the prior art that the detected person will feel uncomfortable during the detection process and the detection part is extruded and deformed by the ultrasonic probe to cause the misalignment of the ultrasonic detection, thereby greatly improving the detection accuracy of the ultrasonic probe apparatus in performing the ultrasonic scanning on irregular body surfaces and improving the physical experience of the detected person during the detection.

The advantages and spirit of the present invention can be further understood by the following detailed description of the invention and the accompanying drawings.

Drawings

Fig. 1 is a partially exploded view of an ultrasonic probe apparatus according to an embodiment of the present invention.

Fig. 2 is a partially exploded view of the socketed bag apparatus of fig. 1.

FIG. 3 is a partial cross-sectional view of the ultrasonic probe apparatus shown in FIG. 1 along the section line A-A.

Fig. 4 is a schematic cross-sectional view of the socketed bag apparatus of fig. 3 disposed on an ultrasonic probe.

Fig. 5 is a partial cross-sectional view of an ultrasonic probe apparatus according to another embodiment of the present invention.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Referring to fig. 1, 2, 3 and 4, fig. 1 is a partially exploded view of an ultrasonic probe apparatus 10 according to an embodiment of the present invention, fig. 2 is a partially exploded view of a socketed bag device 14 of fig. 1, fig. 3 is a partially sectional view of the ultrasonic probe apparatus 10 of fig. 1 along a section line a-a, fig. 4 is a sectional view of the socketed bag device 14 of fig. 3 disposed on an ultrasonic probe 12, as shown in fig. 1 to 4, the ultrasonic probe apparatus 10 includes an ultrasonic probe 12 and a socketed bag device 14. The ultrasonic probe 12 may be a common ultrasonic probe device and has at least one first engaging structure 16 (one is shown in fig. 1, but not limited thereto), the ultrasonic probe 12 may be used to perform ultrasonic scanning on a detection region (such as a surface region of a body of a subject, etc.) and generate an ultrasonic scanning image for medical staff to see to obtain internal conditions of the body of the subject, such as fetal growth, visceral organ lesion, swallowing of throat, etc., and the related description of the probe design and ultrasonic scanning principle for the ultrasonic probe 12 is common in the prior art and will not be described herein again. The bag-in-box device 14 is detachably disposed on the ultrasonic probe 12 and includes a flexible bag 18 and a bag-in-box seat 20. The flexible bag 18 may be made of flexible material (such as silicone, but not limited thereto) and has a bag opening 22, a bag body 24 and a bag bottom 26, the bag body 24 is connected to the bag opening 22 and the bag bottom 26, so that the bag opening 22, the bag body 24 and the bag bottom 26 may form a containing space 27 together for containing the ultrasound-conducting fluid. The socket 20 is detachably connected to the bag mouth 22 to seal the accommodating space 27, and a socket groove structure 28 is formed towards the inner recess of the flexible bag 18, the socket groove structure 28 has a second engaging structure 30 corresponding to the position of the first engaging structure 16, so that when the socket groove structure 28 is socket-connected to the ultrasonic probe 12, the first engaging structure 16 is engaged with the second engaging structure 30 to detachably dispose the socket 20 on the ultrasonic probe 12.

In more detail, in this embodiment, the first engaging structure 16 may preferably be a recess structure, the socket groove structure 28 may laterally extend to form the receiving groove 32, and the second engaging structure 30 may include a sleeve 34, an elastic element 36 and a positioning ball 38, the sleeve 34 is fixed in the receiving groove 32, and the elastic element 36 (preferably, but not limited to, a spring) is disposed in the sleeve 34 and connected to the positioning ball 38. Through the above design, when the socket structure 28 is sleeved on the ultrasonic probe 12, the elastic member 36 can drive the positioning balls 38 to protrude outward from the sleeve 34 to engage with the first engaging structure 16 (as shown in fig. 4), so as to detachably mount the socket 20 on the ultrasonic probe 12, thereby completing the socket mounting operation of the ultrasonic probe apparatus 10.

As for the design of the connection between the socket 20 and the flexible bag 18, the present invention can adopt a clamping and locking design (but not limited thereto, other common connection designs such as adhesive attachment or structural fastening design, etc.), for example, as shown in fig. 2 and 3, the bag mouth 22 can be extended outward to form a first skirt 40, the socket 20 can be extended outward to form a second skirt 42 corresponding to the first skirt 40, the bag set 14 can further comprise at least one locking member 44 (preferably, ten screws, but not limited thereto, are shown in fig. 2), a first annular clamp 46 and a second annular clamp 48, whereby the locking member 44 can pass through the second annular clamp 48, the second skirt 42, the first skirt 40 and the first annular clamp 46 to clamp and fix the first skirt 40 and the second skirt 42 between the first annular clamp 46 and the second annular clamp 48, thereby securely engaging flexible bag 18 to socket 20.

In practical applications, the socketed bag device 14 may employ a lateral elastic clamping design to prevent the flexible bag 18 from being depressed at the bag bottom 26 and expanded at the bag body 24 for contacting the detection portion under the influence of gravity after being filled with the ultrasonic transmission fluid, for example, as shown in fig. 1 and fig. 2, in this embodiment, the socketed bag device 14 may further include a first elastic clamping structure 50 and a second elastic clamping structure 52, the first elastic clamping structure 50 and the second elastic clamping structure 52 may be respectively connected to two sides of the socketed seat 20 to laterally clamp the flexible bag 18, in more detail, the first elastic clamping structure 50 may include a first elastic body 54 (such as but not limited to foam) and a first connecting sheet seat 56, the second elastic clamping structure 52 may include a second elastic body 58 (such as but not limited to foam) and a second connecting sheet seat 60, the first connecting sheet seat 56 and the second connecting sheet seat 60 are respectively locked on two sides of the socket 20 (for example, by the locking means 44), and the first elastic body 54 and the second elastic body 58 are respectively attached to the first connecting sheet seat 56 and the second connecting sheet seat 60 to be opposite to each other and laterally press the bag body portion 24 of the flexible bag 18 together, so that the bag bottom portion 26 can protrude forward relative to the bag body portion 24 (as shown in fig. 1) to be reliably attached on the surface of the detection portion to be detected of the ultrasonic probe apparatus 10. In addition, in order to further enhance the structural flexibility of the flexible bag 18 at the contact position corresponding to the detection site, the bag thickness of the bag bottom 26 (preferably 0.5mm, but not limited thereto) may be preferably smaller than the bag thickness of the bag body 24 (preferably 2mm, but not limited thereto), so that the bag bottom 26 can be more closely attached to the surface contour of the detection site when contacting the detection site, thereby effectively enhancing the scanning accuracy of the ultrasonic probe 12.

Through the above design, when a user wants to use the ultrasonic probe apparatus 10 with the ultrasonic conduction fluid filled in the flexible bag 18 to perform ultrasonic scanning detection on a detection part with an irregular surface (such as the neck, throat or face of a subject), the user only needs to align and sleeve the socket groove structure 28 shown in fig. 3 on the ultrasonic probe 12 (in practical applications, the user can selectively coat the ultrasonic conduction glue on the scanning probe surface of the ultrasonic probe 12 to fill up the joint structure gap between the socket groove structure 28 and the ultrasonic probe 12 and simultaneously remove the air that is not beneficial to ultrasonic conduction), the elastic force of the elastic element 36 drives the positioning ball 38 to protrude from the sleeve 34 to engage with the first engaging structure 16. In this way, through the fitting structure between the fitting groove structure 28 and the ultrasonic probe 12 and the concave-convex structure between the first engaging structure 16 and the positioning bead 38, the fitting bag device 14 can be stably fitted on the ultrasonic probe 12 (as shown in fig. 4), so as to effectively avoid the situation that the fitting bag device 14 falls off or shakes from the ultrasonic probe 12 during the ultrasonic scanning process. Next, the user can align and press the bottom 26 of the flexible bag 18 (filled with the ultrasound-transmitting fluid) against the irregular surface of the detection site, and at this time, the bottom 26 can be correspondingly flexibly deformed and firmly attached to the irregular surface of the detection site through the structural flexibility of the flexible bag 18 itself, so as to perform the subsequent ultrasound scanning.

On the other hand, through the detachable engagement design between the first engagement structure 16 and the positioning bead 38, when the user wants to detach the sleeving bag device 14 from the ultrasonic probe 12, the user only needs to apply force to pull the sleeving bag device 14 outward, and during this process, the positioning bead 38 will be pushed by the sidewall of the ultrasonic probe 12 and contract inward, so that the first engagement structure 16 is separated from the positioning bead 38 to release the concave-convex engagement between the first engagement structure 16 and the positioning bead 38, and thus, the user can rapidly and intuitively detach the sleeving bag device 14 from the ultrasonic probe 12, so as to perform subsequent operations such as filling the ultrasonic conductive adhesive or cleaning the sleeving bag device 14.

In summary, the design of sleeving the sleeving bag device on the ultrasonic probe to make the flexible bag be attached to the surface of the detection part instead of the prior art that the ultrasonic probe directly presses the detection part, the present invention can effectively solve the problems mentioned in the prior art that the detected person will feel uncomfortable during the detection process and the detection part is extruded and deformed by the ultrasonic probe to cause the misalignment of the ultrasonic detection, thereby greatly improving the detection accuracy of the ultrasonic probe apparatus in performing the ultrasonic scanning of irregular body surfaces and improving the physical experience of the detected person during the detection.

It should be noted that the second annular clamping plate, the first elastic clamping structure and the second elastic clamping structure are omitted, so as to simplify the structural design of the ultrasonic probe apparatus provided by the present invention. For example, in another embodiment where second annular clamp plate 48 is omitted, fastener 44 can pass through second skirt 42, first skirt 40 and first annular clamp plate 46 to detachably lock flexible bag 18 to socket 20; alternatively, in another embodiment that omits the first elastic clamping structure 50 and the second elastic clamping structure 52, the user can directly and manually clamp the bag body portion 24 of the flexible bag 18 laterally, so that the bag bottom portion 26 can protrude forward relative to the bag body portion 24 to reliably conform to the surface of the detection site.

In addition, the design of the engagement between the first engagement structure and the second engagement structure is not limited to the above-mentioned embodiments, for example, please refer to fig. 5, which is a schematic cross-sectional view of a portion of the ultrasonic probe apparatus 100 according to another embodiment of the present invention, wherein the elements in this embodiment have the same numbers as those in the above-mentioned embodiments, which indicates that they have similar functions or structures, and thus, the description thereof is omitted. As shown in fig. 5, the ultrasonic probe apparatus 100 includes an ultrasonic probe 102 and a bag sleeving device 104, the ultrasonic probe 102 may have at least one first engaging structure 106 (one is shown in fig. 5, but not limited thereto), the bag sleeving device 104 is detachably disposed on the ultrasonic probe 102 and includes a flexible bag 18 and a bag sleeving seat 108, the bag sleeving seat 108 is detachably connected to the bag opening portion 22 to seal the accommodating space 27, a bag sleeving groove structure 28 is formed towards the flexible bag 18, and the bag sleeving groove structure 28 has a second engaging structure 110 corresponding to a position of the first engaging structure 16.

In more detail, in this embodiment, the first engaging structure 106 may preferably be a bump structure, and the second engaging structure 110 may include a sleeve 34, an elastic element 36 and a positioning ball 112, the positioning ball 112 may have a notch structure 113, and the elastic element 36 is disposed in the sleeve 34 and connected to the positioning ball 112. Through the above design, when the socket-spigot structure 28 is sleeved on the ultrasonic probe 102, the elastic member 36 drives the positioning bead 112 to move from the sleeve 34 to the first engaging structure 106 (protruding point structure) so as to engage the notch structure 113 with the first engaging structure 106 (as shown in fig. 5), so as to detachably dispose the socket 108 on the ultrasonic probe 102, thereby completing the socket installation operation of the ultrasonic probe apparatus 100. For other related descriptions and modifications of the ultrasonic probe apparatus 100 (such as the ring splint fixing design, the elastic clamping design, and the bag thickness design), reference is made to the above embodiments, and the description thereof is omitted here.

The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims

1. An ultrasonic probe apparatus, comprising:

the ultrasonic probe is provided with at least one first clamping structure; and

cup joint bagging apparatus, its detachably sets up on this ultrasonic wave probe, should cup joint bagging apparatus and contain:

a flexible bag having a bag mouth, a bag body and a bag bottom, the bag body being connected to the bag mouth and the bag bottom to form an accommodation space for accommodating an ultrasonic transmission fluid; and

the sleeving seat is detachably connected to the bag opening part to seal the accommodating space, a sleeving groove structure is formed towards the inner concave part of the flexible bag, a second clamping structure is arranged at the position of the sleeving groove structure corresponding to the at least one first clamping structure, and when the sleeving groove structure is sleeved on the ultrasonic probe, the first clamping structure is clamped on the second clamping structure to detachably arrange the sleeving seat on the ultrasonic probe;

the socket joint bag device further comprises a first elastic clamping structure and a second elastic clamping structure, wherein the first elastic clamping structure and the second elastic clamping structure are respectively connected to two sides of the socket joint seat to laterally clamp and squeeze the bag body part, so that the bottom of the bag is protruded forwards relative to the bag body part.

2. The ultrasonic probe apparatus of claim 1, wherein the bag opening portion extends outward to form a first skirt, the socket base extends to form a second skirt at a position corresponding to the first skirt, and the socket bag device further comprises at least one locking member and a first annular clamp plate, the at least one locking member passes through the second skirt, the first skirt and the first annular clamp plate to detachably lock the flexible bag on the socket base.

3. The ultrasonic probe apparatus of claim 2, wherein the socketed bag further comprises a second annular clamping plate, and the at least one locking member passes through the second annular clamping plate, the second skirt, the first skirt and the first annular clamping plate to clamp and fix the first skirt and the second skirt between the first annular clamping plate and the second annular clamping plate.

4. The ultrasonic probe apparatus of claim 1, wherein the first elastic clamping structure comprises a first elastic body and a first connection piece seat, the second elastic clamping structure comprises a second elastic body and a second connection piece seat, the first connection piece seat and the second connection piece seat are respectively locked on two sides of the socket seat, and the first elastic body and the second elastic body are respectively attached to the first connection piece seat and the second connection piece seat so as to face each other and jointly clamp the bag portion.

5. The ultrasonic probe apparatus of claim 1, wherein the at least one first engaging structure is a concave structure, the sleeve-engaging structure extends laterally to form an accommodating cavity, the second engaging structure comprises a sleeve, an elastic member and a positioning bead, the sleeve is fixed in the accommodating cavity, the elastic member is disposed in the sleeve and connected to the positioning bead, and when the sleeve-engaging structure is sleeved on the ultrasonic probe, the elastic member drives the positioning bead to protrude outward from the sleeve to engage with the concave structure.

6. The ultrasonic probe apparatus of claim 1, wherein the at least one first engaging structure is a bump structure, the socket groove structure extends laterally to form an accommodating cavity, the second engaging structure comprises a sleeve, an elastic member and a positioning bead, the positioning bead has a notch structure, the sleeve is fixed in the accommodating cavity, the elastic member is disposed in the sleeve and connected to the positioning bead, when the socket groove structure is sleeved on the ultrasonic probe, the elastic member drives the positioning bead to move from the sleeve to the bump structure so as to engage the notch structure with the bump structure.

7. The ultrasonic probe apparatus of claim 1, wherein the bag thickness of the bag bottom portion is smaller than the bag thickness of the bag body portion.

8. A cup joint bagging apparatus, it is suitable for the ultrasonic probe, the ultrasonic probe has at least a first block structure, characterized by that, the cup joint bagging apparatus includes:

9. A socketed bag apparatus as recited in claim 8, wherein the mouth portion of the bag extends outwardly to form a first skirt, the socket extends to form a second skirt at a position corresponding to the first skirt, the socketed bag apparatus further comprises at least one locking member and a first annular clamp plate, the at least one locking member passes through the first skirt, the second skirt and the first annular clamp plate to detachably lock the flexible bag to the socket.

10. The apparatus of claim 9, further comprising a second annular clamp plate, wherein the at least one locking member passes through the second annular clamp plate, the first skirt, the second skirt, and the first annular clamp plate to clamp and secure the first skirt and the second skirt between the first annular clamp plate and the second annular clamp plate.

11. A bag sleeving device as claimed in claim 8, wherein said first elastic holding structure comprises a first elastic body and a first connecting sheet seat, said second elastic holding structure comprises a second elastic body and a second connecting sheet seat, said first connecting sheet seat and said second connecting sheet seat are respectively locked on two sides of said bag sleeving seat, said first elastic body and said second elastic body are respectively attached to said first connecting sheet seat and said second connecting sheet seat so as to mutually oppose and jointly clamp said bag body portion.

12. A sleeving bag apparatus according to claim 8, wherein said at least one first engaging structure is a recessed structure, a receiving groove is formed in said sleeving groove structure in a laterally extending manner, said second engaging structure comprises a sleeve, an elastic member and a positioning bead, said sleeve is fixed in said receiving groove, said elastic member is disposed in said sleeve and connected to said positioning bead, when said sleeving groove structure is sleeved on said ultrasonic probe, said elastic member drives said positioning bead to protrude outwardly from said sleeve to engage with said recessed structure.

13. The apparatus of claim 8, wherein the at least one first engaging structure is a protruding structure, the engaging groove structure extends laterally to form an accommodating cavity, the second engaging structure comprises a sleeve, an elastic member and a positioning bead, the positioning bead has a recess structure, the sleeve is fixed in the accommodating cavity, the elastic member is disposed in the sleeve and connected to the positioning bead, when the engaging groove structure is engaged with the ultrasonic probe, the elastic member drives the positioning bead to move from the sleeve to the protruding structure, so that the recess structure is engaged with the protruding structure.

14. A socketed bag arrangement as claimed in claim 8, wherein the bag thickness of the bag bottom portion is less than the bag thickness of the bag body portion.