CN112229989A - Biological sample identification equipment of GPU (graphics processing Unit) technology - Google Patents

Abstract

The invention discloses a biological sample recognition device of GPU technology, comprising a box body, wherein an inner cavity is arranged in the box body, a clamp device is arranged in the inner cavity, the clamp device comprises a clamp seat fixedly connected with the lower wall surface of the inner cavity, the invention can complete the customization of a flexible earphone cover, the invention realizes the preliminary positioning of the approximate size of a customized earmuff by comparing the data of a biological sample measured by the GPU technology with a biological sample gene library, so that a customizer can obtain an earphone which is required to be suitable for the size of the ear of the customizer only by providing the hair of the customizer, and the detection of a GPU probe is completed by using a standard biological sample in the preliminary stage to check whether the earphone can realize the function, and the temperature in the device is regularly detected in the using process, so that the temperature in the device can protect the biological sample from being damaged, and the invention improves the adaptability of the manufactured earphone by the method, and convenience for the customizer.

Description

Biological sample identification equipment of GPU (graphics processing Unit) technology

Technical Field

The invention relates to the technical field of biological sample identification, in particular to biological sample identification equipment based on GPU technology.

Background

The biological sample identification is a process of putting a biological sample to be identified in an existing gene sample library and obtaining a result required by the biological sample through comparison and analysis, and as the GPU technology is mature, the analysis speed and efficiency are rapidly mature, the biological sample identification technology is gradually advanced into the field of daily production and manufacturing,

modern earphone ear muff manufacturing often can't design out the ear muff of laminating human ear, and the loaded down with trivial details measurement is again of customization money ear muff, because the shape of people's ear to a great extent is by gene control alone, consequently, we are utilizing GPU technical biological sample identification technique, and the relevant people's ear gene of discernment is like: the earmuffs with stronger adaptability are intelligently manufactured due to the existence of related genes such as earlobe genes and the like.

Disclosure of Invention

The invention aims to provide biological sample identification equipment based on a GPU technology, and solves the problem that the GPU technology is difficult to apply to the customization industry.

The invention is realized by the following technical scheme.

The biological sample identification device adopting the GPU technology comprises a box body, wherein an inner cavity is arranged in the box body, a clamp device is arranged in the inner cavity, the clamp device comprises a clamp seat fixedly connected with the lower wall surface of the inner cavity, the front end surface of the clamp seat is provided with a hinged point, a triangular disc is rotatably arranged on the hinged point, the upper end surface of the clamp seat is provided with fixed clamping blocks which are bilaterally symmetrical, the fixed clamping blocks are hinged with rotary clamping blocks, a first clamping connecting rod is hinged between the rotary clamping block on the left side and the triangular disc, a second clamping connecting rod is hinged between the rotary clamping block on the right side and the triangular disc, the rotary clamping blocks are rotated through the rotation of the triangular disc to complete the clamping between the rotary clamping blocks and the fixed clamping blocks, a device is arranged on the slide glass, the slide glass device comprises a fixed placing block fixedly connected with the upper wall surface of the inner cavity, a placing chute is arranged in the placing fixed block, a placing slide block is arranged in the placing chute in a vertically sliding manner, a placing push rod is fixedly arranged on the upper wall surface of the placing slide block, a placing switch is fixedly arranged on the upper wall surface of the placing push rod, a placing hinged seat is fixedly arranged on the lower wall surface of the placing slide block, a carrying disc fixed block is fixedly arranged on the right wall surface of the inner cavity, a carrying disc chute is arranged in the carrying disc fixed block, a carrying disc slide block is arranged in the carrying disc chute in a front-back sliding manner, a carrying disc hinged seat is fixedly arranged on the upper wall surface of the carrying disc slide block, a placing connecting rod is hinged between the carrying disc hinged seat and the placing hinged seat, the carrying disc slide block moves forwards through the downward movement of the placing slide block, a customizing device is arranged in the inner cavity, the customizing device comprises a workbench fixedly connected with the lower wall, a first sliding groove is arranged in the first fixing block, a first sliding block is arranged in the first sliding groove in a front-back sliding manner, a first inductor is fixedly arranged on the rear wall surface of the first sliding groove, a first push rod is fixedly arranged on the front end surface of the first sliding block, a first push block is fixedly arranged on the front end surface of the first push rod, a second fixing block is fixedly arranged on the upper end surface of the workbench, a second sliding groove is arranged in the second fixing block, a second sliding block is arranged in the second sliding groove in a left-right sliding manner, a second inductor is fixedly arranged on the left wall surface of the second sliding block, a second push rod is fixedly arranged on the right end surface of the second sliding block, a second push block is fixedly arranged on the right end surface of the second push rod, a third fixing block is fixedly arranged on the upper end surface of the workbench, a third sliding groove is arranged in the third fixing block, a third sliding block is arranged in the third sliding groove in a front-back, the earphone comprises a box body, a first sliding block, a second sliding block and a third sliding block, wherein the first sliding block is fixedly arranged on the inner wall of the box body, the second sliding block is fixedly arranged on the rear end face of the third sliding block, the third sliding block is fixedly arranged on the rear end face of the third sliding block, a size template for manufacturing an earphone cover is formed by the third sliding block and the third sliding block moving, a testing device is arranged on the box body, the testing device comprises a GPU (graphics processing unit) monitor fixedly connected with the upper wall face of an inner cavity, and corresponding gene sequences are identified by the GPU.

Preferably, still include in the fixture device with bottom surface fixed connection's the clamp is tight attaches the piece, press from both sides to attach the piece articulated and be equipped with and attach the pole, attach the fixed extension rod that is equipped with of pole right-hand member face, the articulated groove pole that is equipped with in the lower left corner of triangle dish, be equipped with in the groove pole with extension rod sliding connection's rod groove, the fixed magnet that is equipped with of rod groove right wall, the fixed response iron that is equipped with of extension rod right wall, response iron right wall with it is equipped with connecting spring to connect between the magnet left wall, through the removal of groove pole drives the rotation of triangle dish.

Preferably, the slide glass device further comprises a frame piece rod fixedly connected with the left wall surface of the slide block of the carrying disc, a frame piece frame is fixedly arranged on the front end surface of the frame piece rod, gene slide glass is placed in an inner groove of the frame piece frame, and the gene slide glass is pushed to a pre-clamping position through the frame piece frame to be clamped.

Preferably, still include in the customization device with wall fixed connection's fixed earflap piece on the workstation, the fixed mirror holder fixed block that is equipped with of wall on the workstation, be equipped with the mirror holder spout in the mirror holder fixed block, it attaches the groove to be equipped with the mirror holder on the mirror holder fixed block, the mirror holder attaches the inslot horizontal slip and is equipped with attaches the groove slider, horizontal slip is equipped with the mirror holder slide bar in the mirror holder spout, behind the mirror holder slide bar wall with it is equipped with the servo spring to attach to connect between the groove slider front end face, the fixed mirror holder push rod that is equipped with of mirror holder slide bar right side wall, through the servo spring makes attach the groove slider with the mirror holder slide bar removes simultaneously.

Preferably, the testing device further comprises a testing fixed block fixedly connected with the left wall surface, a testing chute is arranged in the testing fixed block, a testing slide block is arranged in the testing chute in a left-right sliding manner, a testing connecting rod is fixedly arranged on the rear wall surface of the testing slide block, a testing push rod is fixedly arranged on the left end surface of the testing connecting rod, a testing frame is fixedly arranged on the right end surface of the testing connecting rod, a testing gene slide is arranged in the testing frame, a temperature fixed block is fixedly arranged on the upper wall surface of the inner cavity, a temperature chute is arranged in the temperature fixed block, a temperature slide block is arranged in the temperature chute in a left-right sliding manner, a temperature rod is fixedly arranged on the right wall surface of the temperature slide block, a temperature groove is fixedly arranged on the temperature rod, a cold conveying pipe is fixedly arranged on the upper wall surface of the box body, a refrigeration box, the temperature sensing ball is fixedly arranged on the lower end face of the expansion ball, the temperature sensing ball senses the internal temperature, and the expansion ball expands with heat and contracts with cold to complete the left and right movement of the temperature slide block.

The invention has the beneficial effects that: the invention can complete the customization of the flexible earphone cover, the invention realizes the preliminary positioning of the approximate size of the customized ear cover by comparing the data of the biological sample measured by the GPU technology with the biological sample gene library, so that the customizer can obtain the earphone which is required to be suitable for the size of the ear by only providing the hair of the customizer, and the detection of a GPU probe is completed by using a standard biological sample in the preliminary stage to check whether the earphone can realize the function, and the temperature in the device is regularly detected in the using process, so that the temperature in the device can protect the biological sample from being damaged.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention in the direction A of FIG. 1;

FIG. 3 is an enlarged view of the embodiment of the present invention in the direction B of FIG. 1;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The biological sample recognition device based on the GPU technology described with reference to fig. 1-4 includes a box 11, an inner cavity 12 is provided in the box 11, a clamp device 901 is provided in the inner cavity 12, the clamp device 901 includes a clamp base 20 fixedly connected to a lower wall surface of the inner cavity 12, a hinge point 22 is provided on a front end surface of the clamp base 20, a triangular disc 21 is rotatably provided on the hinge point 22, bilaterally symmetrical fixed clamping blocks 29 are provided on an upper end surface of the clamp base 20, a rotary clamping block 30 is hinged on the fixed clamping block 29, a first clamping link 28 is hinged between the rotary clamping block 30 on the left side and the triangular disc 21, a second clamping link 18 is hinged between the rotary clamping block 30 on the right side and the triangular disc 21, the rotary clamping block 30 is rotated by rotation of the triangular disc 21, so as to clamp the rotary clamping block 30 and the fixed clamping block 29, the box body 11 is provided with a slide glass device 902, the slide glass device 902 comprises a placing fixed block 48 fixedly connected with the upper wall surface of the inner cavity 12, a placing sliding groove 51 is arranged in the placing fixed block 48, a placing sliding block 52 is arranged in the placing sliding groove 51 in a vertical sliding manner, a placing push rod 50 is fixedly arranged on the upper wall surface of the placing sliding block 52, a placing switch 49 is fixedly arranged on the upper wall surface of the placing push rod 50, a placing hinged seat 53 is fixedly arranged on the lower wall surface of the placing sliding block 52, a carrier disc fixed block 15 is fixedly arranged on the right wall surface of the inner cavity 12, a carrier disc sliding groove 79 is arranged in the carrier disc fixed block 15, a carrier disc sliding block 16 is arranged in the carrier disc sliding groove 79 in a front-back sliding manner, a carrier disc hinged seat 14 is fixedly arranged on the upper wall surface of the carrier disc sliding block 16, a placing connecting rod 13 is hinged between the carrier disc hinged seat 14, a customizing device 903 is arranged in the inner cavity 12, the customizing device 903 comprises a workbench 19 fixedly connected with the lower wall surface of the inner cavity 12, a first fixed block 73 is fixedly arranged on the upper end surface of the workbench 19, a first sliding chute 74 is arranged in the first fixed block 73, a first sliding block 76 is arranged in the first sliding chute 74 in a front-back sliding manner, a first inductor 75 is fixedly arranged on the rear wall surface of the first sliding chute 74, a first push rod 77 is fixedly arranged on the front end surface of the first sliding block 76, a first push block 78 is fixedly arranged on the front end surface of the first push rod 77, a second fixed block 55 is fixedly arranged on the upper end surface of the workbench 19, a second sliding chute 54 is arranged in the second fixed block 55, a second sliding block 57 is arranged in the second sliding chute 54 in a left-right sliding manner, a second inductor 56 is fixedly arranged on the left wall surface of the second sliding block 57, and a second push rod 58 is fixedly arranged on the right, the fixed second ejector pad 59 that is equipped with of second push rod 58 right-hand member face, the fixed third fixed block 61 that is equipped with of workstation 19 upper end face, be equipped with third spout 64 in the third fixed block 61, it is equipped with third slider 63 to slide around in the third spout 64, the fixed third inductor 65 that is equipped with of wall in the third slider 63, the fixed third push rod 62 that is equipped with of third slider 63 rear end face, the fixed third ejector pad 60 that is equipped with of third push rod 62 rear end face, through first ejector pad 78, second ejector pad 59, the removal of third ejector pad 60 constitutes a size template of preparation earphone lid, be equipped with testing arrangement 904 on the box 11, testing arrangement 904 include with inner chamber 12 upper wall fixed connection's GPU control 47, through GPU control 47 comes the corresponding gene sequence of discernment.

Beneficially, the fixture device 901 further includes a clamping attachment block 26 fixedly connected to the lower bottom surface of the inner cavity 12, the clamping attachment block 26 is hinged to an attachment rod 27, the right end surface of the attachment rod 27 is fixedly provided with an extension rod 25, the lower left corner of the triangular plate 21 is hinged to a groove rod 23, a rod groove 24 slidably connected to the extension rod 25 is arranged in the groove rod 23, the right wall surface of the rod groove 24 is fixedly provided with a magnet 84, the right wall surface of the extension rod 25 is fixedly provided with an induction iron 82, a connection spring 83 is connected between the right wall surface of the induction iron 82 and the left wall surface of the magnet 84, and the triangular plate 21 is driven to rotate by the movement of the groove rod 23.

Beneficially, the slide device 902 further comprises a slide rod 80 fixedly connected to the left wall surface of the slide block 16, a slide rack 81 is fixedly arranged on the front end surface of the slide rod 80, a gene slide 17 is placed in an inner groove of the slide rack 81, and the gene slide 17 is pushed to a pre-clamping position by the slide rack 81 and then clamped.

Beneficially, still include in the customization device 903 with fixed earflap block 85 of wall fixed connection on the workstation 19, the fixed mirror holder fixed block 66 that is equipped with of wall on the workstation 19, be equipped with mirror holder spout 67 in the mirror holder fixed block 66, be equipped with mirror holder on the mirror holder fixed block 66 and attach groove 72, the mirror holder attaches the inslot 72 horizontal slip and is equipped with attaches groove slider 71, horizontal slip is equipped with mirror holder slide bar 70 in the mirror holder spout 67, mirror holder slide bar 70 rear wall with attach and be equipped with servo spring 68 between the groove slider 71 front end face, mirror holder slide bar 70 right wall is fixed and is equipped with mirror holder push rod 69, makes through servo spring 68 attach groove slider 71 with mirror holder slide bar 70 moves simultaneously.

Beneficially, still include in the testing arrangement 904 with left wall fixed connection's test fixed block 31, be equipped with test chute 32 in the test fixed block 31, the horizontal slip is equipped with test slider 33 in the test chute 32, the fixed test connecting rod 35 that is equipped with of test slider 33 back wall, the fixed test push rod 34 that is equipped with of test connecting rod 35 left end face, the fixed test jig 45 that is equipped with of test connecting rod 35 right end face, it has test gene slide 46 to place in the test jig 45, the fixed temperature fixed block 39 that is equipped with of inner chamber 12 upper wall, be equipped with temperature spout 40 in the temperature fixed block 39, the horizontal slip is equipped with temperature slider 38 in the temperature spout 40, the fixed temperature pole 44 that is equipped with of temperature slider 38 right wall, the fixed temperature groove 43 that is equipped with on the temperature pole 44, the fixed defeated cold pipe 42 that is equipped with of box 11 upper wall, the fixed refrigeration case 41 that is equipped with of defeated, an expansion ball 37 is arranged on the left wall surface of the temperature slide block 38 in a propping mode, a temperature sensing ball 36 is fixedly arranged on the lower end surface of the expansion ball 37, the temperature sensing ball 36 senses the internal temperature, and the expansion ball 37 expands with heat and contracts with cold to complete the left and right movement of the temperature slide block 38.

In the initial state, the leftmost end of the slot rod 23, the rearmost end of the carrier slider 16, the uppermost end of the placement slider 52, the leftmost end of the test slider 33, the expansion ball 37, the leftmost end of the temperature slider 38, the leftmost end of the second slider 57, the uppermost end of the first push rod 77, the lowermost end of the third slider 63, and the rightmost end of the frame slide rod 70.

In a preparation state, the placing switch 49 is pushed to move downwards, the placing push rod 50 moves downwards, the placing slide block 52 moves downwards, the placing hinge seat 53 moves downwards, the placing connecting rod 13 swings, the carrying disc hinge seat 14 moves forwards, the carrying disc slide block 16 moves forwards, the shelf rod 80 moves forwards, the shelf 81 moves forwards, the gene slide 17 moves forwards, the induction iron 82 is magnetized, the magnet 84 is far away from the induction iron 82, the groove rod 23 moves rightwards, the triangular disc 21 rotates, the first clamping connecting rod 28 swings, the second clamping connecting rod 18 swings, and the two clamping blocks 30 which rotate to swing and clamp.

In the working state, the test push rod 34 is pushed to move rightwards, the test connecting rod 35 moves rightwards, the test sliding block 33 moves rightwards, the test frame 45 moves rightwards, the test gene slide 46 moves rightwards, the GPU monitor 47 senses gene data on the test gene slide 46, the second push block 59 and the third push block 60 are adjusted, the first push block 78 is in the initial state, and the test GPU monitor 47 mechanism can normally run;

pushing the test push rod 34 to move left to the test gene slide 46 and back to the original position, the GPU monitors 47 the test, when the earlobe gene exists, the third inductor 65 is magnetized, the third sliding block 63 moves downwards, the third push rod 62 moves downwards, the third push block 60 moves downwards, and when the big earlobe gene exists, the second inductor 56 is magnetized, the second sliding block 57 moves to the left, the second push rod 58 moves to the right, the second push block 59 moves to the right, when the gene of the upper ear is existed, the first inductor 75 is magnetized, the first slide block 76 moves upwards, the first push rod 77 moves upwards, the first push block 78 moves upwards, at this time, if the person is not wearing glasses, the push rod 69 of the spectacle frame moves leftwards, the slide bar 70 of the spectacle frame moves leftwards, the slide block 71 of the auxiliary groove moves leftwards, the first push block 78 is abutted against the slide bar 70 of the spectacle frame, thus, a customized size made of the first push block 78 or the spectacle frame slide bar 70, the second push block 59, the third push block 60 and an earphone sleeve for fixing the earflap block 85 is formed;

meanwhile, when the temperature in the inner cavity 12 is too high, the temperature sensing ball 36 senses the temperature, the expansion ball 37 expands, the temperature slide block 38 moves rightwards, the temperature rod 44 moves rightwards, the temperature groove 43 is communicated with the cold conveying pipe 42, cold air in the refrigeration box 41 enters the cold conveying pipe 42 and enters the inner cavity 12, and a low-temperature environment is protected at the gene in the inner cavity 12.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a biological sample identification equipment of GPU technique, includes the box, be equipped with the inner chamber in the box, the intracavity is equipped with fixture device, its characterized in that: the fixture device comprises a fixture seat fixedly connected with the lower wall surface of the inner cavity, the front end surface of the fixture seat is provided with a hinged joint, a triangular disc is rotatably arranged on the hinged joint, the upper end surface of the fixture seat is provided with bilaterally symmetrical fixed clamping blocks, the fixed clamping blocks are hinged with rotary clamping blocks, a first clamping connecting rod is hinged between the rotary clamping block and the triangular disc on the left side, a second clamping connecting rod is hinged between the rotary clamping block and the triangular disc on the right side, the box body is provided with a slide glass device, the slide glass device comprises a placing fixed block fixedly connected with the upper wall surface of the inner cavity, a placing chute is arranged in the placing fixed block, a placing slide block is arranged in the placing chute in a vertical sliding manner, a placing push rod is fixedly arranged on the upper wall surface of the placing slide block, a placing switch is fixedly arranged on the upper wall surface of the placing push rod, and a, a disk-carrying fixed block is fixedly arranged on the right wall surface of the inner cavity, a disk-carrying sliding groove is arranged in the disk-carrying fixed block, a disk-carrying sliding block is arranged in the disk-carrying sliding groove in a front-back sliding manner, a disk-carrying hinged seat is fixedly arranged on the upper wall surface of the disk-carrying sliding block, a placing connecting rod is hinged between the disk-carrying hinged seat and the placing hinged seat, a customizing device is arranged in the inner cavity and comprises a workbench fixedly connected with the lower wall surface of the inner cavity, a first fixed block is fixedly arranged on the upper end surface of the workbench, a first sliding groove is arranged in the first fixed block, a first sliding block is arranged in the first sliding groove in a front-back sliding manner, a first inductor is fixedly arranged on the rear wall surface of the first sliding groove, a first push rod is fixedly arranged on the front end surface of the first push rod, a first push block is fixedly arranged on the front end surface of the first push rod, a second, the utility model discloses a test bench, including workstation, wall, slide, wall, fixed and be equipped with the second slider, the fixed second push rod that is equipped with of second slider right-hand member face, the fixed second ejector pad that is equipped with of second push rod right-hand member face, the fixed third fixed block that is equipped with of workstation up end, be equipped with the third spout in the third fixed block, the third slider is equipped with in the third spout around sliding, the fixed third inductor that is equipped with of wall before the third slider, the fixed third push rod that is equipped with of third slider rear end face, the fixed third ejector pad that is equipped with of third push rod rear end face, be equipped with testing arrangement on the box, testing arrangement include with wall fixed connection's GPU control on the inner chamber.

2. A GPU-based biological sample identification device as claimed in claim 1, wherein: still include in the fixture device with bottom surface fixed connection's clamp is tightly attached the piece under the inner chamber, it attaches the piece articulated being equipped with of clamp and attaches the pole to press from both sides, attach the fixed extension rod that is equipped with of pole right-hand member face, the lower left corner of triangular plate articulates and is equipped with the groove pole, be equipped with in the groove pole with extension rod sliding connection's rod groove, the fixed magnet that is equipped with of rod groove right wall, the fixed response iron that is equipped with of extension rod right wall, response iron right wall with it is equipped with connecting spring to connect between the magnet left wall.

3. A GPU-based biological sample identification device as claimed in claim 2, wherein: the slide glass device is characterized by further comprising a slide glass rod fixedly connected with the left wall surface of the slide glass disc, a slide glass rack is fixedly arranged on the front end surface of the slide glass rod, and gene slide glass is placed in an inner groove of the slide glass rack.

4. A GPU-based biological sample identification device as claimed in claim 3, wherein: still include in the customization device with wall fixed connection's fixed earflap piece on the workstation, the fixed mirror holder fixed block that is equipped with of wall on the workstation, be equipped with the mirror holder spout in the mirror holder fixed block, it attaches the groove to be equipped with the mirror holder on the mirror holder fixed block, the mirror holder attaches inslot horizontal slip and is equipped with and attaches the groove slider, horizontal slip is equipped with the mirror holder slide bar in the mirror holder spout, behind the mirror holder slide bar wall with it is equipped with the servo spring to attach to connect between the groove slider preceding terminal surface, mirror holder slide bar right side wall is fixed and is equipped with the mirror holder push rod.

5. A GPU-technology biological sample identification device as claimed in claim 4, wherein: the testing device is characterized by further comprising a testing fixed block fixedly connected with the left wall surface, a testing chute is arranged in the testing fixed block, a testing slide block is arranged in the testing chute in a left-right sliding manner, a testing connecting rod is fixedly arranged on the rear wall surface of the testing slide block, a testing push rod is fixedly arranged on the left end surface of the testing connecting rod, a testing frame is fixedly arranged on the right end surface of the testing connecting rod, a testing gene slide is arranged in the testing frame, a temperature fixed block is fixedly arranged on the upper wall surface of the inner cavity, a temperature chute is arranged in the temperature fixed block, a temperature slide block is arranged in the temperature chute in a left-right sliding manner, a temperature rod is fixedly arranged on the right wall surface of the temperature slide block, a temperature groove is fixedly arranged on the temperature rod, a cold conveying pipe is fixedly arranged on the upper wall surface of the box body, and a temperature sensing ball is fixedly arranged on the lower end face of the expansion ball.

Images