CN218034852U - Fat sucking flatness detection equipment - Google Patents

Abstract

The utility model relates to a check out test set especially relates to a liposuction roughness check out test set. The utility model provides a liposuction roughness check out test set who facilitates use. The utility model provides a liposuction roughness check out test set, is including base, link, carriage and cylinder etc, and the top of base is connected with the link, and the sliding connection has the carriage on the link, installs the cylinder on the link. Through opening ultrasonic inductor and display screen to back-and-forth movement ultrasonic inductor, ultrasonic inductor can detect the operation position on one's body of patient and will detect the picture and can show in real time on the display screen, can carry out the roughness through above-mentioned operation this and detect immediately after the operation, need not the patient and walks around, has brought the facility for the patient.

Description

Liposuction roughness check out test set

Technical Field

The utility model relates to a check out test set especially relates to a liposuction roughness check out test set.

Background

Liposuction is also called fat suction, the fat fragments are sucked out by stretching into a subcutaneous fat layer through an instrument so as to achieve the purpose of absorbing fat, the method is suitable for body shaping, but liposuction is not absolutely uniform, concave-convex and leveling phenomena with different degrees can occur on the position after liposuction, and subsequent treatment is performed on the position after operation in order to facilitate the subsequent treatment on the position after operation.

In order to solve the problems in the prior art, it is necessary to design a liposuction flatness detection device which is convenient to use, so that the effect of detecting a patient by using the detection device conveniently is achieved.

SUMMERY OF THE UTILITY MODEL

Need the patient to walk about when overcoming present detection roughness and can not detect for the patient shortcoming of inconvenience with the postoperative standing horse, the technical problem of the utility model is that: provides a convenient liposuction roughness check out test set.

The technical implementation scheme of the utility model is that: the utility model provides a inhale fat roughness check out test set, which comprises a base, the link, the carriage, fixed frame, the guide bar, the slider, ultrasonic sensor, cylinder and display screen, the top of base is connected with the link, sliding connection has the carriage on the link, install the cylinder on the link, the telescopic link of cylinder is connected with the carriage, the right side of carriage is connected with fixed frame, the interior sub-unit connection of fixed frame has the guide bar, sliding connection has the slider on the guide bar, ultrasonic sensor is installed to the top rotary type of slider, ultrasonic sensor is located the inside of fixed frame, the display screen is installed to the upper left side of carriage, display screen and ultrasonic sensor electric connection.

More preferred, still including the motor, the spur gear, the reel, the pulley holder, stay cord and normal spring, the motor is installed to the inside back upside of fixed frame, the inside back upside rotary type of fixed frame is connected with the reel, the reel is located the rear side of motor, the bottom rear side of fixed frame is connected with the pulley holder, all be connected with the spur gear on the output shaft of motor and the right side of reel, be connected with the stay cord between reel and the slider, the pulley holder is walked around to the stay cord, and stay cord and fixed frame sliding connection, be connected with normal spring between slider and the fixed frame, normal spring housing is on the guide bar.

More preferably, the ultrasonic sensor further comprises a fixing block, a clamping block, a first torsion spring and a second torsion spring, the fixing block is connected to the left front side of the fixing frame, the clamping block is rotatably connected to the fixing block, the clamping block is connected with the ultrasonic sensor in a clamped mode, the first torsion spring is connected between the clamping block and the fixing block and sleeved on the clamping block, the second torsion spring is connected between the ultrasonic sensor and the sliding block, and the second torsion spring is sleeved on the ultrasonic sensor.

More preferably, the fixture further comprises a rubber sleeve, and the front side of the fixture block is sleeved with the rubber sleeve.

More preferably, the device further comprises a silica gel pad, and the bottom of the base is connected with the silica gel pad.

More preferably, the connecting frame is connected to the base by bolts.

More preferably, the motor is a reduction motor.

The utility model discloses possess following beneficial effect: 1. through opening ultrasonic inductor and display screen to back-and-forth movement ultrasonic inductor, ultrasonic inductor can detect the operation position on one's body of patient and will detect the picture and can show in real time on the display screen, can carry out the roughness through above-mentioned operation this and detect immediately after the operation, need not the patient and walks around, has brought the facility for the patient.

2. The ultrasonic sensor can move backwards by controlling the forward and backward rotation of the output shaft of the motor, and the ultrasonic sensor moves forwards under the action of the normal spring reset, so that the ultrasonic sensor can automatically move forwards and backwards without manually pulling the ultrasonic sensor by a worker, and the consumption of manpower is effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial cross-sectional view of the fixing frame of the present invention.

Fig. 3 is a connection relationship diagram of the pull rope and the reel according to the present invention.

Fig. 4 is a connection relationship diagram of the fixture block and the ultrasonic sensor of the present invention.

The parts are labeled as follows: 1. the device comprises a base, 2, a connecting frame, 21, a silica gel pad, 3, a sliding frame, 4, a fixing frame, 5, a guide rod, 6, a sliding block, 7, an ultrasonic sensor, 8, a cylinder, 9, a display screen, 10, a motor, 11, a straight gear, 12, a reel, 121, a pulley seat, 13, a pull rope, 14, a normal spring, 15, a fixing block, 16, a clamping block, 161, a rubber sleeve, 17, a first torsion spring, 18 and a second torsion spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

The utility model provides a inhale fat roughness check out test set, please look into fig. 1-4, including base 1, link 2, carriage 3, fixed frame 4, guide bar 5, slider 6, ultrasonic sensor 7, cylinder 8 and display screen 9, the top of base 1 is connected with link 2, link 2 passes through bolted connection on base 1, conveniently dismantle link 2, slidable connection has carriage 3 on link 2, install cylinder 8 on link 2, the telescopic link of cylinder 8 is connected with carriage 3, the right side welding of carriage 3 has fixed frame 4, the welding of the inner lower part of fixed frame 4 has guide bar 5, slidable connection has slider 6 on guide bar 5, ultrasonic sensor 7 is installed to slider 6's top rotary type, ultrasonic sensor 7 is located the inside of fixed frame 4, display screen 9 is installed to the upper left side of carriage 3, display screen 9 and ultrasonic sensor 7 electric connection.

Please look over fig. 1, the portable electronic device further comprises a silica gel sleeve 21, the bottom of the base 1 is connected with a silica gel pad 21, and the base 1 can be stably placed on the ground.

Firstly, the device is placed beside an operating bed, after an operation is finished, medical staff controls the expansion rod of the air cylinder 8 to extend, the expansion rod of the air cylinder 8 drives the sliding frame 3 to move upwards, the sliding frame 3 drives the fixing frame 4, the guide rod 5, the sliding block 6, the ultrasonic sensor 7 and the display screen 9 to move upwards, after the fixing frame 4 moves upwards to the upper side of a patient, the air cylinder 8 is closed, the medical staff rotates the ultrasonic sensor 7 rightwards by 90 degrees, then the ultrasonic sensor 7 and the display screen 9 are opened, then the medical staff pushes the ultrasonic sensor 7 backwards at a uniform speed, the ultrasonic sensor 7 drives the sliding block 6 to move together, after the sliding block 6 moves backwards to the limit, the ultrasonic sensor 7 is pulled forwards to reset, the ultrasonic sensor 7 drives the sliding block 6 to move forwards along with the sliding block 7, and then the ultrasonic sensor 7 can move forwards in a reciprocating mode, meanwhile, the ultrasonic sensor 7 can send ultrasonic waves to detect the operation position on the body of a patient, detected data and a detected picture can be displayed on the display screen 9 in real time, medical staff can achieve the effect of detecting the flatness of the operation position according to the data and the picture on the display screen 9, accordingly, the flatness detection can be performed immediately after the operation through the operation, the patient can carry out the detection without walking, convenience is brought to the patient, after the detection is finished, the medical staff pulls the ultrasonic sensor 7 forwards to reset, rotates the ultrasonic sensor 7 reversely for 90 degrees to retract, then the telescopic rod of the air cylinder 8 is controlled to retract, the telescopic rod of the air cylinder 8 drives the fixing frame 4, the guide rod 5, the sliding block 6, the ultrasonic sensor 7 and the display screen 9 to push downwards through the sliding frame 3, and after the telescopic rod of the air cylinder 8 is completely retracted, and (3) closing the air cylinder 8, the ultrasonic sensor 7 and the display screen 9.

Example 2

On the basis of embodiment 1, please look at fig. 2 and 3, further include a motor 10, a spur gear 11, a reel 12, a pulley seat 121, a pull rope 13 and a normal spring 14, the motor 10 is installed at the rear upper side inside the fixed frame 4, the motor 10 is a speed reduction motor, the rear upper side inside the fixed frame 4 is rotatably connected with the reel 12, the reel 12 is located at the rear side of the motor 10, the pulley seat 121 is connected to the rear side of the bottom of the fixed frame 4, the spur gear 11 is connected to both the output shaft of the motor 10 and the right side of the reel 12, the pull rope 13 is connected between the reel 12 and the slider 6, the pull rope 13 bypasses the pulley seat 121, the pull rope 13 is slidably connected with the fixed frame 4, the normal spring 14 is connected between the slider 6 and the fixed frame 4, and the normal spring 14 is sleeved on the guide rod 5.

When the ultrasonic sensor 7 needs to move back and forth, a worker starts the motor 10, an output shaft of the motor 10 drives the winding wheel 12 to rotate through the straight gear 11, the winding wheel 12 winds the pull rope 13, the pull rope 13 can pull the sliding block 6 backwards, the normal spring 14 stretches, the sliding block 6 drives the ultrasonic sensor 7 to move backwards, after the ultrasonic sensor 7 moves backwards to the extreme position, the worker controls the output shaft of the motor 10 to rotate reversely, the output shaft of the motor 10 drives the winding wheel 12 to rotate reversely through the straight gear 11, the winding wheel 12 loosens the pull rope 13, the normal spring 14 resets and drives the ultrasonic sensor 7 to move forwards and reset through the sliding block 6, the ultrasonic sensor 7 can automatically move back and forth in a reciprocating mode by controlling the forward and reverse rotation of the output shaft of the motor 10 by repeating the operation, the worker does not need to manually pull the ultrasonic sensor 7, manpower consumption is effectively reduced, after detection is completed, the motor 10 is controlled to enable the ultrasonic sensor 7 to move forwards and reset, and the motor 10 is closed.

Example 3

On the basis of embodiment 2, please see fig. 4, the ultrasonic sensor further includes a fixing block 15, a fixture block 16, a first torsion spring 17 and a second torsion spring 18, the fixing block 15 is welded to the left front side of the fixing frame 4, the fixture block 16 is rotatably connected to the fixing block 15, the fixture block 16 is connected to the ultrasonic sensor 7 in a clamping manner, the first torsion spring 17 is connected between the fixture block 16 and the fixing block 15, the first torsion spring 17 is sleeved on the fixture block 16, the second torsion spring 18 is connected between the ultrasonic sensor 7 and the slider 6, and the second torsion spring 18 is sleeved on the ultrasonic sensor 7.

Please look at fig. 4, the medical device further includes a rubber sleeve 161, and the front side of the latch 16 is sleeved with the rubber sleeve 161, so that the medical staff can comfortably rotate the latch 16 without being scratched by the corners of the latch 16.

Initially, the fixture block 16 clamps the ultrasonic sensor 7, so that the second torsion spring 18 deforms, when the ultrasonic sensor 7 needs to be rotated by 90 degrees to the right, the worker rotates the front side of the fixture block 16 to the right, the first torsion spring 17 deforms, the fixture block 16 is separated from the clamping fit with the ultrasonic sensor 7, so that the second torsion spring 18 resets and drives the ultrasonic sensor 7 to rotate by 90 degrees to the right, the ultrasonic sensor 7 can rotate by 90 degrees to the right, the worker does not need to manually rotate the ultrasonic sensor 7, then the worker loosens the fixture block 16, the first torsion spring 17 resets and drives the fixture block 16 to reversely rotate and reset, when the ultrasonic sensor 7 needs to be retracted, the worker rotates the front side of the fixture block 16 to the right, the first torsion spring 17 deforms, then reversely rotates the ultrasonic sensor 7 by 90 degrees, the second torsion spring 18 deforms, and finally loosens the fixture block 16, the first torsion spring 17 resets and drives the fixture block 16 to reversely rotate and reset, and the fixture block 16 is clamped with the ultrasonic sensor 7.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the present disclosure, but rather to limit the scope thereof by the appended claims.

Claims (7)

1. The utility model provides a inhale fat roughness check out test set, characterized by, including base (1), link (2), carriage (3), fixed frame (4), guide bar (5), slider (6), ultrasonic sensor (7), cylinder (8) and display screen (9), the top of base (1) is connected with link (2), sliding connection has carriage (3) on link (2), install cylinder (8) on link (2), the telescopic link of cylinder (8) is connected with carriage (3), the right side of carriage (3) is connected with fixed frame (4), the interior sub-unit connection of fixed frame (4) has guide bar (5), sliding connection has slider (6) on guide bar (5), ultrasonic sensor (7) are installed to the top rotary type of slider (6), ultrasonic sensor (7) are located the inside of fixed frame (4), display screen (9) are installed to the upper left side of carriage (3), display screen (9) and ultrasonic sensor (7) electric connection.

2. The grease suction flatness detecting device according to claim 1, characterized by further comprising a motor (10), a spur gear (11), a winding wheel (12), a pulley seat (121), a pull rope (13) and a normal spring (14), wherein the motor (10) is installed on the rear upper side inside the fixing frame (4), the winding wheel (12) is rotatably connected to the rear upper side inside the fixing frame (4), the winding wheel (12) is located on the rear side of the motor (10), the pulley seat (121) is connected to the rear side of the bottom of the fixing frame (4), the spur gear (11) is connected to an output shaft of the motor (10) and the right side of the winding wheel (12), the pull rope (13) is connected between the winding wheel (12) and the sliding block (6), the pulley seat (121) is bypassed by the pull rope (13), the pull rope (13) is slidably connected with the fixing frame (4), the normal spring (14) is connected between the sliding block (6) and the fixing frame (4), and the normal spring (14) is sleeved on the guide rod (5).

3. The liposuction flatness detecting apparatus according to claim 2, further comprising a fixing block (15), a clamping block (16), a first torsion spring (17) and a second torsion spring (18), wherein the fixing block (15) is connected to the front left side of the fixing frame (4), the clamping block (16) is rotatably connected to the fixing block (15), the clamping block (16) is connected to the ultrasonic sensor (7) in a clamping manner, the first torsion spring (17) is connected between the clamping block (16) and the fixing block (15), the first torsion spring (17) is sleeved on the clamping block (16), the second torsion spring (18) is connected between the ultrasonic sensor (7) and the slider (6), and the second torsion spring (18) is sleeved on the ultrasonic sensor (7).

4. A liposuction flatness detecting apparatus according to claim 3, further comprising a rubber sleeve (161), and the rubber sleeve (161) is fitted over the front side of the fixture block (16).

5. The liposuction flatness detecting apparatus according to claim 4, further comprising a silicone pad (21), wherein the bottom of the base (1) is connected with the silicone pad (21).

6. A grease absorption flatness detecting apparatus according to claim 5, wherein the link frame (2) is connected to the base frame (1) by bolts.

7. A grease suction flatness detecting apparatus according to claim 6, wherein the motor (10) is a speed reduction motor.

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