CN210077695U - Ultrasonic probe and B-ultrasonic diagnosis and treatment device - Google Patents

Abstract

The utility model discloses an ultrasonic probe and B ultrasonic diagnosis and treatment device relates to medical instrument technical field, can realize the function of a plurality of organs of ultrasonic probe scanning human body through the design of modularization ultrasonic probe. The ultrasonic probe comprises a plurality of types of conduction probes and an ultrasonic transmitting head detachably connected with any type of conduction probe, wherein the ultrasonic transmitting head comprises a telescopic mechanism, a multi-frequency ultrasonic unit and a coupling liquid sac; the telescopic mechanism is used for telescopic movement in the shell according to a telescopic signal; the multi-frequency ultrasonic unit is used for pressing the coupling liquid sac under the driving of the telescopic mechanism so as to adjust the wave transmission thickness of the coupling liquid sac; the conduction probe is used for guiding the sound waves focused by the coupling liquid sac into the body to realize ultrasonic examination. The B-ultrasonic diagnosis and treatment device comprises the ultrasonic probe provided by the scheme.

Description

Ultrasonic probe and B-ultrasonic diagnosis and treatment device

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to an ultrasonic probe and B ultrasonic diagnosis and treatment device.

Background

Ultrasonic examination is an important way for doctors to obtain disease information, and is one of the most common disease examination means due to its advantages of low price, convenient examination, no radiation, etc.

The existing B-ultrasonic diagnosis and treatment device is generally provided with an ultrasonic main machine and a series of ultrasonic probes, wherein the ultrasonic probes comprise ultrasonic probes with different frequencies and different shapes, in the B-ultrasonic examination process, a doctor can correspondingly select the ultrasonic probes with the suitable frequencies and shapes according to the body part examined by a patient to be matched with the ultrasonic main machine for examination, and obviously, the cost of the B-ultrasonic diagnosis and treatment device is high due to the configuration of a plurality of ultrasonic probes. In addition, a coupling block is required to be additionally arranged between the ultrasonic probe and the skin of the examined part by using the conventional B ultrasonic diagnosis and treatment device, so that ultrasonic waves can be just focused on superficial tissues after passing through a proper conduction distance, and then a high-definition ultrasonic examination picture is obtained.

Therefore, the B-ultrasonic diagnosis and treatment device in the prior art is complex to operate and high in manufacturing cost in the using process, and the function that one ultrasonic probe scans multiple organs of a human body cannot be realized.

Disclosure of Invention

An object of the utility model is to provide a device is diagnose to ultrasonic probe and B ultrasonic can realize the function of a plurality of organs of ultrasonic probe scanning human body through modular ultrasonic probe's design to still possess easy operation, low in manufacturing cost's characteristics.

In order to achieve the above object, an aspect of the present invention provides an ultrasonic probe, including multiple types of conduction probes and an ultrasonic transmitting head detachably connected to any type of conduction probe, wherein the ultrasonic transmitting head includes a telescopic mechanism, a multi-frequency ultrasonic unit and a coupling sac, a supporting portion of the multi-frequency ultrasonic unit is connected to a movable end of the telescopic mechanism, and an emitting portion of the multi-frequency ultrasonic unit is fixedly attached to the coupling sac;

the telescopic mechanism is used for telescopic movement in the shell of the ultrasonic transmitting head according to a telescopic signal;

the multi-frequency ultrasonic unit is used for pressing the coupling liquid sac under the driving of the telescopic mechanism so as to adjust the wave-transmitting thickness of the coupling liquid sac;

the conduction probe is used for guiding the sound waves focused by the coupling liquid sac into a body to realize ultrasonic examination.

Preferably, the ultrasonic transmitting head further comprises a fixed shell, a movable shell, an annular rack and a rotating mechanism, wherein the annular rack is arranged on the inner surface of the opening end of the fixed shell, the rotating mechanism is arranged on the inner surface of the opening end of the movable shell, and the rotating mechanism is meshed with the annular rack to perform gear motion so as to drive the movable shell to rotate.

Preferably, the rotating mechanism comprises a plurality of gear assemblies including a gear and a motor for driving the gear to rotate.

Preferably, the telescopic mechanism comprises a sliding guide rail and a power module for driving the sliding guide rail to do vertical stretching movement, the outer shell of the telescopic mechanism is fixed with the fixed shell, and the movable end of the sliding guide rail is fixed with the multi-frequency ultrasonic unit through the supporting part.

Preferably, the coupling liquid bag comprises a liquid bag body, a liquid storage tank and a distributed partition arranged between the liquid bag body and the liquid storage tank, the distributed partition is arranged around the liquid bag body, and the liquid bag body is communicated with the liquid storage tank through a gap between the distributed partitions.

Further, still include respectively with the motor, the power module reaches the control unit that the multifrequency supersound unit is connected, control unit is used for corresponding output motor drive signal, guide rail drive signal and supersound drive signal.

Further, still including the cover establish the sliding guide reaches the swivelling joint ware of supporting part, the control unit pass through swivelling joint ware respectively with the motor reaches the multifrequency supersound unit is connected.

Preferably, the ultrasonic examination device further comprises a display screen embedded in the surface of the fixed shell, and the display screen is used for displaying prompt information of the operation method of the B-ultrasonic examination.

Preferably, the ultrasonic examination device further comprises a display screen embedded in the surface of the fixed shell, and the display screen is used for displaying prompt information of the operation method of the B ultrasonic examination.

Compared with the prior art, the utility model provides an ultrasonic probe has following beneficial effect:

the utility model provides an among the ultrasonic probe, constitute by the conduction probe and an ultrasonic emission head of a plurality of models, wherein, the conduction probe difference of different models only lies in the outside molding design of probe, the utility model discloses corresponding according to different health inspection positions provides that the polytypic conduction probe supplies the doctor to form a complete set for use, such as convex array type probe, linear array type probe, body cavity type probe etc. through the design that can dismantle the connection, can make the conduction probe and the ultrasonic emission head fast assembly of doctor with the lectotype, compare in prior art in the integrated design of conduction probe and ultrasonic emission head, the utility model discloses only need the conduction probe that is equipped with multiple model can realize being equipped with a plurality of ultrasonic probe's function among the prior art, not only practiced thrift manufacturing cost and still improved the commonality.

In addition, consider that different health positions need use different sound wave frequency to inspect, the utility model discloses a choose multifrequency supersound unit for use for the doctor can correspond the suitable sound wave frequency of adjustment according to the inspection needs at health position, and in order to guarantee the focus to the human tissue that the sound wave after the frequency of adjustment can be accurate, the utility model discloses a scheme of telescopic machanism oppression coupling liquid bag carries out adaptability adjustment to the wave-transparent thickness of coupling liquid bag to realize the accurate scanning to human different tissues and position, make it can satisfy universal standard.

The utility model discloses an on the other hand provides a B ultrasonic diagnosis and treatment device, including above-mentioned technical scheme ultrasonic probe.

Compared with the prior art, the utility model provides a beneficial effect of B ultrasonic diagnosis and treatment device is the same with the beneficial effect of the ultrasonic probe that above-mentioned technical scheme provided, does not do here and gives unnecessary details.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic structural view of an ultrasonic transmitter and a conduction probe that are not assembled according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an ultrasonic probe assembled by an ultrasonic transmitter and a conduction probe according to an embodiment of the present invention;

fig. 3 is an enlarged schematic structural view of a rotating mechanism according to an embodiment of the present invention;

fig. 4 is a schematic view illustrating two states of the telescopic mechanism compressing the coupling liquid bag according to the first embodiment of the present invention;

FIG. 5 is a schematic view of an internal structure of an ultrasound transmitter head according to an embodiment of the present invention;

FIG. 6-1 is a bottom view of the internal structure of an ultrasound transmitter head according to an embodiment of the present invention;

FIG. 6-2 is a top view of an internal structure of an ultrasound transmitter head according to an embodiment of the present invention;

fig. 7-1 is a three-view diagram of a convex array type probe structure according to an embodiment of the present invention;

fig. 7-2 is a three-view diagram of a centerline array type probe structure according to an embodiment of the present invention;

fig. 7-3 are front and bottom views of a cavity probe structure according to an embodiment of the present invention.

Reference numerals:

1-ultrasonic transmitting head, 2-conduction probe;

11-fixed shell, 12-movable shell;

13-display screen, 14-rotation mechanism;

15-ring rack, 141-gear;

142-motor, 111-telescoping mechanism;

112-multifrequency ultrasound unit, 113-coupling sac;

114-swivel connector, 1131-sac body;

1132-reservoir, 1133-distributed partition;

1141-stator circuit board, 1142-slider circuit board;

21-probe body, 22-acoustic matching layer.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention without any creative work belong to the protection scope of the embodiments.

Example one

Referring to fig. 1 to 5, the ultrasound probe provided in this embodiment includes multiple types of conduction probes 2 and an ultrasound transmitting head 1 detachably connected to any type of conduction probe 2, wherein the ultrasound transmitting head 1 includes a telescopic mechanism 111, a multi-frequency ultrasound unit 112 and a coupling sac 113, a supporting portion of the multi-frequency ultrasound unit 112 is connected to a movable end of the telescopic mechanism 111, and a transmitting portion of the multi-frequency ultrasound unit 112 is attached and fixed to the coupling sac 113; the telescopic mechanism 111 is used for telescopic movement in the shell of the ultrasonic transmitting head according to a telescopic signal; the multi-frequency ultrasonic unit 112 is used for compressing the coupling liquid bag 113 under the driving of the telescopic mechanism 111 so as to adjust the wave-transmitting thickness of the coupling liquid bag 113; the conduction probe 2 is used for guiding the sound waves focused by the coupling liquid sac 113 into the body to realize ultrasonic examination.

Among the ultrasonic probe that this embodiment provided, constitute by the conduction probe and an ultrasonic emission head of a plurality of models, wherein, the conduction probe difference of different models only lies in the outside molding design of probe, this embodiment corresponds according to the physical examination position of difference and provides that the polytypic conduction probe supplies the doctor to form a complete set to choose for use, such as convex array type probe, linear array type probe, body cavity type probe etc., through the design that can dismantle the connection, can make the conduction probe and the ultrasonic emission head fast assembly of the type of selecting by the doctor, compare in the integrated design of conduction probe and ultrasonic emission head among the prior art, this embodiment only needs the conduction probe of being equipped with multiple model can realize the function of being equipped with a plurality of ultrasonic probes among the prior art, not only practice thrift manufacturing cost but also improved the commonality.

In addition, consider that different body parts need use different sound wave frequencies to inspect, this embodiment is through selecting for use multifrequency ultrasonic unit for the doctor can correspond the suitable sound wave frequency of adjustment according to the inspection needs of body part, and in order to guarantee that the sound wave after the adjustment frequency can be accurate focus on human tissue, this embodiment adopts the scheme of telescopic machanism oppression coupling liquid bag to carry out adaptability adjustment to the wave-transparent thickness of coupling liquid bag, in order to realize the accurate scanning to different tissues of human body and position, makes it can satisfy universal standard.

Alternatively, the multi-frequency ultrasonic unit 112 in the above embodiments is an ultrasonic Chip using mems technology, such as an ultrasonic-on-Chip series Chip derived from Butterfly IQ, and is disposed on the multi-frequency ultrasonic unit 112 in the form of an array, so that the multi-frequency ultrasonic unit has a function of emitting multi-frequency sound waves.

Referring to fig. 3, the ultrasound transmitting head 1 of the above embodiment further includes a fixed housing 11, a movable housing 12, a ring-shaped rack 15 and a rotating mechanism 14, wherein the ring-shaped rack 15 is disposed on an inner surface of an opening end of the fixed housing 11, the rotating mechanism 14 is disposed on an inner surface of an opening end of the movable housing 12, and the rotating mechanism 14 engages the ring-shaped rack 15 to perform a gear motion to drive the movable housing 12 to rotate.

During specific implementation, the fixed shell 11 and the movable shell 12 are of columnar structures matched with each other, the fixed shell 11 and the movable shell 12 are both designed to be open at one end and closed at the other end, the annular rack 15 is arranged at the position, close to the inner surface of the open end, of the fixed shell 11, the rotating mechanism 14 is arranged at the position, close to the inner surface of the open end, of the movable shell 12, the fixed shell 11 and the movable shell 12 are assembled in a mode that the rotating mechanism 14 is meshed with the annular rack 15, the movable shell 12 can be driven to rotate when the rotating mechanism 14 and the annular rack 15 do gear motion, the rotating function of the conduction probe 2 is further realized, the operation method that a doctor rotates the ultrasonic probe in the B ultrasonic examination process is simulated, and the operation difficulty of. The rotation frequency, rotation speed and rotation angle of the conduction probe 2 can be precisely controlled by an algorithm program, which is not described in detail in this embodiment.

Alternatively, with continued reference to fig. 3, the rotating mechanism 14 in the above embodiment includes a plurality of gear assemblies, and the gear assemblies include a gear 141 and a motor 142 for driving the gear 141 to rotate. In a specific implementation, the number of the rotating mechanisms 14 may be multiple, preferably 2, and the motor 142 is a stepping motor or a servo motor capable of accurately controlling the rotating speed and the angle.

Specifically, the telescopic mechanism 111 in the above embodiment includes a sliding guide rail and a power module for driving the sliding guide rail to perform a vertical stretching motion, the assembling end of the telescopic mechanism 111 is fixed to the fixed housing 11, and the movable end of the sliding guide rail is connected to the multi-frequency ultrasonic unit 112 through a support portion.

For example, referring to fig. 4 and 5, the power module may adopt a magnetic power device or a pneumatic power device commonly used in the prior art, such as a power electromagnetic coil or a power air cylinder, and controls the sliding guide rail to move up and down through the power module, so as to control the degree of the multi-frequency ultrasonic unit 112 pressing the coupling liquid bag 113, when the sliding guide rail moves up, the coupling liquid bag 113 is stretched under the action of its own elastic force, at this time, the height of the coupling liquid bag 113 is increased, that is, the wave-transparent thickness of the coupling liquid bag 113 is increased, similarly, when the sliding guide rail moves down, the coupling liquid bag 113 is compressed under the pressing of the multi-frequency ultrasonic unit 112, that is, the wave-transparent thickness of the coupling liquid bag 113 is decreased, and thus, the accurate adjustment of the focusing position of the sound wave can be realized by controlling the wave-transparent thickness of the coupling liquid bag 113.

Referring to fig. 6-1 and 6-2, the coupling sac 113 in the above embodiment includes a sac body 1131, a reservoir 1132, and a distributed partition 1133 disposed between the sac body 1131 and the reservoir 1132, where the distributed partition 1133 is disposed around the sac body 1131, and the sac body 1131 is communicated with the reservoir 1132 through a gap between the distributed partitions 1133.

In specific implementation, the contour of the coupling liquid bag 113 matches the shape of the base of the movable housing 12, wherein the liquid bag body 1131 is cylindrical, the end surface of the liquid bag body 1131 is identical in shape and size to the end surface of the emitting portion of the multi-frequency ultrasonic unit 112, the liquid storage tank 1132 surrounds the periphery of the liquid bag body 1131, and the liquid bag body 1131 is communicated with the liquid storage tank 1132 only through the gap between the distributed partitions 1133, so that when the emitting portion of the multi-frequency ultrasonic unit 112 presses the liquid bag body 1131, the liquid bag body 1131 guides the compressed surplus coupling liquid to the liquid storage tank 1132, at this time, the wave transmission thickness of the liquid bag body 1131 is reduced immediately, when the emitting portion of the multi-frequency ultrasonic unit 112 moves upwards, the liquid bag body 1131 rebounds, at this time, the coupling liquid in the liquid storage tank 1132 flows back to the liquid bag body 1131, and the wave transmission thickness of the coupling liquid bag 113 is increased accordingly. It is understood that the fluid bag body 1131 and the reservoir 1132 are both made of an elastic material, and the ultrasonic transmission capability of the elastic material needs to be similar to that of the coupling fluid, such as Epoxy resin (Epoxy resin), Cellulose ester (Cellulose ester), and the like.

Optionally, the ultrasonic probe in the above embodiment further includes a control unit connected to the motor 142, the power module, and the multi-frequency ultrasonic unit 112, respectively, and the control unit is configured to output a motor 142 driving signal, a rail driving signal, and an ultrasonic driving signal correspondingly. Through the setting of the control unit, the automatic control of the motor 142, the power module and the multi-frequency ultrasonic unit 112 can be realized, so that the ultrasonic probe has the characteristics of easy operation and intellectualization, for example, the functions of self-adaptive adjustment of the wave transmission thickness of the coupling liquid sac 113, self-rotation control of the conductive probe 2, self-adaptive adjustment of the sound wave frequency of the multi-frequency ultrasonic unit 112 and the like are realized through a computer program, and the control unit can be a processor.

Preferably, referring to fig. 5, the ultrasonic probe in the above embodiment further includes a rotary connector 114 sleeved on the sliding guide rail and the supporting portion, and the control unit is connected to the motor 142 and the multi-frequency ultrasonic unit 112 through the rotary connector 114. Wherein, the rotary connector 114 is composed of two disc-type slip ring circuit boards, which are divided into a fixed sheet circuit board and a sliding sheet circuit board, the fixed sheet circuit board is fixed with the outer casing of the telescopic mechanism 111 through a plurality of L-shaped brackets, the sliding sheet circuit board can rotate coaxially 360 degrees relative to the fixed sheet circuit board, in addition, the central positions of the fixed sheet circuit board and the sliding sheet circuit board are respectively provided with round holes with the same size, the telescopic mechanism 111 sequentially penetrates through the two round holes, and fixes the outer casing of the telescopic mechanism 111 with the structural plate of the fixed casing, the movable end of the sliding guide rail is fixed with the supporting part of the multi-frequency ultrasonic unit, by connecting the output end of the control unit with the fixed sheet circuit board, the output end of the sliding sheet circuit board is respectively connected with the motor 142 and the multi-frequency ultrasonic unit 112, when, so as to ensure that the lead wire keeps stable and reliable electrical connection in the rotating process. Illustratively, the rotary connector 114 employs an MPCB series disc-type conductive slip ring available from the Moflon corporation.

Preferably, referring to fig. 1 and 2, the ultrasound probe in the above embodiment further includes a display screen 13 embedded in the surface of the fixed housing 11, and the display screen 13 is used for displaying prompt information of the B-mode ultrasound examination operation method. In specific implementation, the doctor can be prompted to use an accurate operation method for pressure application scanning through display modes such as light, characters or graphs.

It should be noted that the conductive probe 2 in the above embodiment includes a probe body 21 filled with a coupling agent, a coupling block or a good ultrasonic conductor, and an acoustic matching layer 22 attached to the top end of the probe body 21 for transmitting acoustic waves; referring to fig. 7-1 to 7-3, the probe body 21 may be of one or more types selected from a convex array type probe, a linear array type probe, and a body cavity type probe.

During specific implementation, a doctor can select a proper type of conduction probe 2 to be assembled for use according to detection of different body parts, for example, when the vagina needs to be detected, the body cavity type probe and the ultrasonic transmitting head 1 can be selected to be assembled, or when the abdomen needs to be detected, the convex array type probe and the ultrasonic transmitting head 1 can be selected to be assembled, and it needs to be noted that after the conduction probe 2 is replaced each time, the wave-transmitting thickness of the coupling liquid bag 113 needs to be adjusted again to be operable for use, otherwise, the problems of disordered sound wave focusing position and inaccurate detection result can be caused. Optionally, the detachable connection mode of the conduction probe 2 and the ultrasound transmission head 1 is various, and the embodiment is not limited herein, such as a threaded connection, a bayonet connection, or a snap connection. In addition, considering that the acoustic impedance between the conduction probe 2 and the human body is greatly different, the ultrasonic waves are almost rebounded by the whole number and cannot enter the human body, and in order to avoid the phenomenon, an acoustic matching layer 22 is arranged between the conduction probe 2 and the human body, so that the ultrasonic waves can effectively enter the human body, and high-sensitivity ultrasonic examination is realized.

Known through the above-mentioned concrete implementation process, this embodiment is through the supporting use scheme of dismantling of polytypic conduction probe 2 and ultrasonic emission head 1, the doctor can change the conduction probe 2 of adaptation model according to the health inspection position of difference to can put into the inspection and use after adjusting sound wave frequency and/or the wave-transparent thickness of coupling liquid bag 113, compare in the ultrasonic probe that integrated structure only possesses single health inspection function among the prior art, the ultrasonic probe that this embodiment provided possesses preferred flexibility of use and commonality, and very big saving manufacturing cost.

Example two

The embodiment of the utility model provides a B ultrasonic diagnosis and treatment device, including the ultrasonic probe in the above-mentioned embodiment.

Compared with the prior art, the embodiment of the utility model provides a B ultrasonic diagnosis and treatment device's beneficial effect is the same with the ultrasonic probe's that above-mentioned embodiment a provided beneficial effect, does not do here and describe repeatedly.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An ultrasonic probe is characterized by comprising a plurality of types of conduction probes and an ultrasonic transmitting head detachably connected with any type of conduction probe, wherein the ultrasonic transmitting head comprises a telescopic mechanism, a multi-frequency ultrasonic unit and a coupling liquid sac;

the telescopic mechanism is used for telescopic movement in the shell of the ultrasonic transmitting head according to a telescopic signal;

the multi-frequency ultrasonic unit is used for pressing the coupling liquid sac under the driving of the telescopic mechanism so as to adjust the wave-transmitting thickness of the coupling liquid sac;

the conduction probe is used for guiding the sound waves focused by the coupling liquid sac into a body to realize ultrasonic examination.

2. The ultrasonic probe of claim 1, wherein the ultrasonic transmitter head further comprises a fixed housing, a movable housing, a ring-shaped rack and a rotating mechanism, the ring-shaped rack is disposed on the inner surface of the opening end of the fixed housing, the rotating mechanism is disposed on the inner surface of the opening end of the movable housing, and the rotating mechanism engages the ring-shaped rack to perform a gear motion to drive the movable housing to rotate.

3. The ultrasound probe of claim 2, wherein the rotation mechanism comprises a plurality of gear assemblies including a gear and a motor for driving the gear in rotation.

4. The ultrasonic probe according to claim 3, wherein the telescopic mechanism comprises a sliding guide rail and a power module for driving the sliding guide rail to do up-and-down stretching movement, an outer shell of the telescopic mechanism is fixed with the fixed shell, and a movable end of the sliding guide rail is fixed with the multi-frequency ultrasonic unit through the supporting portion.

5. The ultrasound probe of claim 2, wherein the coupling sac comprises a sac body, a reservoir, and a distributed partition disposed between the sac body and the reservoir, the distributed partition being disposed around the sac body, the sac body being in communication with the reservoir through a void between the distributed partitions.

6. The ultrasound probe of claim 4, further comprising a control unit connected to the motor, the power module and the multi-frequency ultrasound unit, respectively, the control unit being configured to output a motor driving signal, a rail driving signal and an ultrasound driving signal in response thereto.

7. The ultrasonic probe of claim 6, further comprising a rotary connector for sleeving the sliding guide and the supporting portion, wherein the control unit is connected to the motor and the multi-frequency ultrasonic unit through the rotary connector.

8. The ultrasonic probe of claim 5, further comprising a display screen embedded in the surface of the fixed shell, wherein the display screen is used for displaying prompt information of a B-ultrasonic examination manipulation.

9. The ultrasonic probe according to claim 1, wherein the conductive probe comprises a probe body filled with a coupling agent, a coupling block or a good ultrasonic conductor, and an acoustic matching layer attached to a tip of the probe body for transmitting an acoustic wave;

the type of the probe body comprises one or more of a convex array type probe, a linear array type probe and a body cavity type probe.

10. A B-ultrasonic medical treatment apparatus comprising the ultrasonic probe of any one of claims 1 to 9.

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