CN110715147A - Intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease and operation method - Google Patents

Abstract

The invention relates to an intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease, which comprises a supporting base and a connecting column which is longitudinally arranged; the lower end of the connecting column is horizontally and rotatably connected with the supporting base and is provided with a horizontal rotating mechanism; a connecting seat connected with a display is arranged on the side surface of the connecting column in a penetrating way; a linear driving mechanism and a control panel for driving the connecting seat to move longitudinally are arranged in the connecting column; a controller is arranged on the supporting base or the connecting column; an annular sleeve is fixedly arranged on the supporting base, an annular cover is rotatably sleeved outside the annular sleeve, and the annular cover is sleeved outside the lower end of the connecting column and is coaxially and fixedly connected with the connecting column; during the operation, only need operate the controller, the controller will send instruction control straight line actuating mechanism and horizontal rotary mechanism to move, the rotation angle of realization display that can be quick and the regulation of going up and down, and rely on annular sleeve and annular cover cooperation location, stability when can ensure horizontal rotation, the wholeness is good.

Description

Intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease and operation method

Technical Field

The invention relates to the technical field of display adjustment, in particular to an intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease and an operation method.

Background

The traditional display base in the market is designed by adopting a spring or a hardware such as a coil spring, the manual adjustment is carried out after a positioning piece is opened by a hand during the adjustment, the positioning piece needs to be positioned again after the adjustment is in place, the adjustment operation is very laborious, and the aim can be achieved by frequently adjusting for many times.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent display base capable of preventing lumbar spondylosis and cervical spondylosis aiming at the defects in the prior art; a method of operation is also provided.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease is constructed, and comprises a supporting base and a connecting column which is longitudinally arranged; the lower end of the connecting column is horizontally and rotatably connected with the supporting base, and a horizontal rotating mechanism for driving the connecting column and the supporting base to rotate relatively is arranged; a connecting seat connected with a display and a movable groove for the connecting seat to move longitudinally are arranged on the side surface of the connecting column in a penetrating manner; a linear driving mechanism for driving the connecting seat to move longitudinally along the movable groove and a control panel for controlling the horizontal rotating mechanism and the linear driving mechanism are arranged in the connecting column; the supporting base or the connecting column is provided with a controller corresponding to the control panel; the support base is fixedly provided with an annular sleeve, the rotatable cover in the outer portion of the annular sleeve is provided with an annular cover, and the annular cover is sleeved on the outer portion of the lower end of the connecting column and is fixedly connected with the connecting column in a coaxial mode.

The intelligent display base capable of preventing the lumbar vertebra disease shoulder and neck diseases comprises a linear driving mechanism, a driving mechanism and a driving mechanism, wherein the linear driving mechanism comprises a first driving motor, a screw rod and a reduction gear assembly; the reduction gear assembly is connected with and drives the first driving motor and the screw rod; the connecting seat is driven by the screw rod to move longitudinally; the connecting column is internally provided with a mounting bracket for mounting the linear driving mechanism, and the mounting bracket is provided with a guide rail for guiding the connecting seat in motion.

The intelligent display base capable of preventing the lumbar vertebra disease shoulder and neck diseases is characterized in that the movable end of the first driving motor is longitudinally arranged and fixedly connected with a worm; the reduction gear assembly comprises a first gear which is correspondingly meshed with the worm, a second gear which is coaxially and fixedly connected with the first gear, a third gear which is meshed with the second gear and a fourth gear which is coaxially and fixedly connected with the third gear; the fourth gear is meshed with a screw rod shaft of the screw rod; the radius of the second gear is smaller than that of the third gear; the first gear and the fourth gear have a radius equivalent to each other.

The intelligent display base capable of preventing the lumbar vertebra disease shoulder neck disease is characterized in that a first mounting area for mounting the first driving motor, a second mounting area for mounting the reduction gear assembly and a third mounting area for mounting the guide rail and the screw rod are arranged in the mounting bracket; the upper end of the worm and the lower end of the screw shaft both extend into the second mounting area; the mounting bracket is positioned at the upper end and the lower end of the screw rod and is respectively provided with an upper in-place detection switch and a lower in-place detection switch for detecting the up-down in-place position of a screw rod nut of the screw rod.

The intelligent display base capable of preventing the lumbar vertebra disease shoulder neck disease is characterized in that two guide rails are arranged and are respectively positioned on two inner walls of the first installation area; the screw rod nut of the screw rod is arranged in a T shape, the two side surfaces of the longitudinal edge of the T shape are respectively connected with the two guide rails in a sliding manner, and the transverse edge of the T shape is connected with the connecting seat; a positioning convex strip is arranged in the middle of the outer side surface of the T-shaped transverse edge of the feed screw nut; the connecting seat comprises a first connecting arm and a second connecting arm which are locked by screws; two L-shaped connecting pieces are symmetrically arranged at one end of the first connecting arm, which is far away from the second connecting arm, the L-shaped longitudinal edge of each connecting piece is tightly attached to the side surface of the positioning raised line, and the L-shaped transverse edge of each connecting piece is fixedly connected with the T-shaped transverse edge of the screw rod nut; the display is detachably connected with the second connecting arm; the movable grooves are provided with two grooves which are respectively matched with the L-shaped longitudinal edges of the two connecting sheets.

The intelligent display base capable of preventing the lumbar spondylosis and the shoulder and neck diseases is characterized in that the connecting column is made of a light-transmitting or semi-light-transmitting material, lifting height display scales for displaying the lifting height of the connecting column are arranged on the outer surface of the connecting column, and a first light-emitting component matched with the lifting height display scales is arranged in the connecting column; the connecting seat is fixedly connected with the first light-emitting component through a connecting strip.

The intelligent display base capable of preventing the lumbar vertebra disease shoulder and neck diseases comprises a horizontal rotating mechanism, a vertical rotating mechanism and a horizontal rotating mechanism, wherein the horizontal rotating mechanism comprises a second driving motor which is arranged in an inverted manner; the lower end part of the connecting column is provided with a mounting groove, and the lower end of the connecting column is fixedly connected with an annular rotating plate for sealing the mounting groove; the second driving motor is arranged at the inner top of the mounting groove, the movable end of the second driving motor is coaxially and fixedly connected with a turntable through a connecting shaft, and the turntable penetrates through an inner hole of the rotating plate; a positioning groove corresponding to the rotary table is arranged on the supporting base; the bottom of the positioning groove is provided with a plurality of clamping holes, and the turntable is provided with a plurality of clamping columns which are in one-to-one correspondence with the clamping holes; the connecting shaft is provided with an induction sheet, and the control panel is provided with a left in-place detection switch and a right in-place detection switch which respectively sense the left position and the right position of the induction sheet.

The intelligent display base capable of preventing the lumbar spondylosis and the shoulder and neck diseases comprises a base plate and a cylindrical connecting section, wherein the base plate and the cylindrical connecting section are detachably connected; the connecting section is connected with the connecting shaft and penetrates through an inner hole of the rotating plate; the connecting section is matched with the size of an inner hole of the rotating plate, an annular flange is arranged on the side surface of the connecting section, which is positioned below the rotating plate, and an annular positioning ring is arranged on the lower surface of the rotating plate; the inner wall of the annular positioning ring is provided with an annular accommodating groove corresponding to the flange; damping fins are arranged on the upper surface and the lower surface of the part of the flange extending into the accommodating groove; the chassis is in a round table shape, the side surface of the chassis is provided with an annular convex edge, and the positioning groove is matched with the chassis in shape; the chassis is provided with a plurality of through holes which are in one-to-one correspondence with the clamping columns.

The intelligent display base capable of preventing the lumbar spondylosis and the shoulder and neck diseases is characterized in that two sides of the lower end of the connecting column are respectively provided with a lifting control plate for controlling the linear driving mechanism and a rotary control plate for controlling the horizontal rotating mechanism, and the lifting control plate and the rotary control plate are electrically connected with and controlled by the control plates; a first step for installing the rotary control plate and a second step for installing the lifting control plate are respectively arranged on two sides of the lower end of the connecting column;

the positioning groove is positioned in the annular sleeve and is coaxial with the positioning groove; the outer surface of the annular sleeve is provided with a horizontal rotation scale mark; the annular sleeve is made of transparent or semitransparent materials; the annular cover is made of transparent or semitransparent materials; a second light-emitting assembly corresponding to the horizontal rotation scale mark is arranged on the rotating plate;

the second light-emitting assembly comprises a lamp panel and a light shield, and a plurality of LED lamp beads distributed in a circular arc shape are arranged on the lamp panel; the light shield is positioned above the lamp panel and is fixedly connected with the inner wall of the annular sleeve; the bottom surface of the light shield is provided with a plurality of arc-shaped light inlet grooves matched with the LED lamp beads, one side, close to the annular sleeve, of each light inlet groove is communicated with the side surface of the light shield, the side wall of each light inlet groove is provided with two longitudinal light shield strips, and the width between the two light shield strips is matched with one LED lamp bead.

An operation method is provided, according to the intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease, wherein the controller comprises a conventional adjusting controller and a preset adjusting controller;

the conventional adjusting controller comprises an upper direction control key, a lower direction control key, a left direction control key and a right direction control key, and the four direction control keys are respectively used for controlling ascending, descending, left turning and right turning;

the preset adjusting controller comprises a first function key, a second function key, a third function key and a plurality of memory keys;

the first function key, the second function key and the third function key respectively and correspondingly execute a preset display adjusting program for one time:

when the first function key is pressed down once, the base program is executed to move up by 8-12mm every 4-6 minutes, move up by 24-36mm totally, then start to move down, move down after reaching the set position, the movement distance is 24-36mm, and the process is circulated continuously;

pressing the first function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then starting to move down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating;

pressing the first function key again, moving the base program up by 8-12mm every 0.5-1.5 minutes, moving up by 24-36mm in total, then moving down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating;

pressing the first function key once again to stop the action;

when the second function key is pressed once, the base program executes right turning for 8-12 degrees every 4-6 minutes, totally turns for 16-24 degrees, then starts left turning, continues left turning after reaching the set position, turns for 16-24 degrees, and continuously circulates in this way;

pressing the second function key once again, enabling the base program to execute right turning for 8-12 degrees every 3 minutes, turning for 16-24 degrees in total, then starting left turning, continuing left turning after reaching the set position, and enabling the turning angle to be 16-24 degrees, thus continuously circulating;

pressing the second function key once again, and enabling the base to rotate rightwards 8-12 degrees every 0.5-1.5 minutes, rotating rightwards 16-24 degrees totally, then starting to rotate leftwards, continuing to rotate leftwards after reaching the set position, wherein the rotation angle is 16-24 degrees, and continuously circulating in this way;

pressing the second function key once again to stop the action;

when the third function key is pressed down once, the base program is executed to move up by 8-12mm every 4-6 minutes, move up by 24-36mm totally, then start to move down, move down after reaching the set position, the movement distance is 24-36mm, and the process is circulated continuously; when the up-and-down movement is executed, the base program also executes the right rotation of 8 to 12 degrees every 4 to 6 minutes, the right rotation of 16 to 24 degrees totally, then the left rotation is started, the left rotation is continued after the setting position is reached, the rotation angle is 16 to 24 degrees, and the process is circulated continuously;

pressing the third function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then starting to move down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating; when the up-and-down movement is executed, the base program also executes right rotation for 8-12 degrees every 2-4 minutes, totally rotates for 16-24 degrees right, then starts left rotation, continues left rotation after reaching the set position, and rotates for 16-24 degrees, thus continuously circulating;

pressing the third function key once again, moving the base upwards by 8-12mm every 0.5-1.5 minutes, moving the base upwards by 24-36mm in total, then starting to move the base downwards, moving the base downwards after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating; when the up-and-down movement is executed, the base program also executes the right rotation of 8-12 degrees every 0.5-1.5 minutes, totally rotates the right rotation of 16-24 degrees, then starts the left rotation, continues the left rotation after reaching the set position, rotates the angle of 16-24 degrees, and continuously circulates in the way;

pressing the third function key once again to stop the action;

one of the first function key, the second function key and the third function key is used as a memory setting key, after the display is adjusted to a proper position through the conventional adjusting controller, the memory setting key and one memory key are pressed simultaneously to perform position memory storage, and after the memory storage, the corresponding memory key is pressed to automatically adjust the display to a memorized position.

The invention has the beneficial effects that: during the operation, only need operate the controller, the controller will send instruction to control panel control straight line actuating mechanism and horizontal rotation mechanism and move, the rotation angle of realization display that can be quick and the regulation of going up and down, and when carrying out horizontal rotation, rely on the annular cover cooperation location of fixed annular sleeve and the coaxial fixed of spliced pole on the support base, stability when can guaranteeing horizontal rotation, and the wholeness is good, and the outward appearance is pleasing to the eye.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is an overall view of a base of an intelligent monitor for preventing lumbar spondylosis and shoulder-neck disease in accordance with a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the base of the intelligent display for preventing lumbar spondylosis and cervical spondylosis in accordance with the preferred embodiment of the present invention;

FIG. 3 is a schematic view of a half-disassembled mounting post of a base of an intelligent display for preventing lumbar spondylosis and shoulder-neck disease in accordance with a preferred embodiment of the present invention;

FIG. 4 is a schematic view of a linear driving mechanism of a base of an intelligent display for preventing lumbar spondylosis and shoulder-neck disease according to a preferred embodiment of the present invention;

FIG. 5 is an enlarged view of the base mounting post, annular shield and annular sleeve of the smart monitor for preventing lumbar spondylosis and shoulder-neck disease in accordance with the preferred embodiment of the present invention;

FIG. 6 is an enlarged view of the base of the smart monitor base for preventing lumbar spondylosis and shoulder-neck disease in accordance with the preferred embodiment of the present invention;

FIG. 7 is an enlarged view of the assembly of the horizontal rotation mechanism of the base of the intelligent monitor for preventing lumbar spondylosis and shoulder-neck disease in accordance with the preferred embodiment of the present invention;

FIG. 8 is an exploded view of the base turntable of the smart monitor for preventing lumbar spondylosis in shoulder and neck in accordance with the preferred embodiment of the present invention;

FIG. 9 is a sectional view of the base turntable and the rotating plate of the intelligent display for preventing lumbar spondylosis and shoulder-neck disease according to the preferred embodiment of the present invention;

FIG. 10 is a circuit diagram of a conventional adjustment controller for a base of a smart monitor for preventing cervical and shoulder lumbar spondylosis in accordance with a preferred embodiment of the present invention;

FIG. 11 is a circuit diagram of a preset adjustment controller of a base of an intelligent monitor for preventing lumbar spondylosis in shoulder and neck in accordance with a preferred embodiment of the present invention;

FIG. 12 is a circuit diagram of a power supply circuit of the base of the smart monitor for preventing lumbar spondylosis and shoulder-neck disease in accordance with the preferred embodiment of the present invention;

FIG. 13 is a circuit diagram of the control circuit of the lifting motor of the base of the intelligent monitor for preventing lumbar vertebra shoulder and neck diseases in accordance with the preferred embodiment of the present invention;

FIG. 14 is a circuit diagram of the control of the left and right motors of the base of the intelligent display for preventing lumbar spondylosis and shoulder-neck disease in accordance with the preferred embodiment of the present invention;

FIG. 15 is a circuit diagram of the first and second light emitting devices of the smart display base for preventing lumbar spondylosis in a cervical and shoulder area according to the preferred embodiment of the present invention;

fig. 16 is a circuit diagram of a control board of the base of the intelligent display for preventing lumbar spondylosis.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The intelligent display base capable of preventing lumbar vertebra disease shoulder and neck disease of the preferred embodiment of the invention is shown in fig. 1, and also refers to fig. 2-16, and comprises a supporting base 1 and a connecting column 2 which is longitudinally arranged; the lower end of the connecting column 2 is horizontally and rotatably connected with the supporting base 1, and a horizontal rotating mechanism 3 for driving the connecting column 2 and the supporting base 1 to rotate relatively is arranged; the side surface of the connecting column 2 is provided with a connecting seat 4 for connecting the display and a movable groove 20 for the connecting seat 4 to move longitudinally; a linear driving mechanism 5 for driving the connecting seat 4 to move longitudinally along the movable groove 20 and a control panel 21 for controlling the horizontal rotating mechanism 3 and the linear driving mechanism 5 are arranged in the connecting column 2; the supporting base 1 or the connecting column 2 is provided with a controller 6 corresponding to the control panel 21; an annular sleeve 10 is fixedly arranged on the supporting base 1, an annular cover 22 is rotatably sleeved outside the annular sleeve 10, and the annular cover 22 is sleeved outside the lower end of the connecting column 2 and is coaxially and fixedly connected with the connecting column; during the operation, only need operate controller 6, controller 6 will send instruction to control panel 21 control linear drive mechanism 5 and horizontal rotary mechanism 3 and move, the rotation angle of realization display that can be quick and the regulation of going up and down, and when carrying out horizontal rotation, rely on fixed annular sleeve 10 and the coaxial fixed annular cover 22 cooperation location of spliced pole 2 on the support base 1, stability when can guaranteeing horizontal rotation, and the wholeness is good, and the outward appearance is pleasing to the eye.

Preferably, a display screen 7 for displaying the lifting and rotating positions is arranged on the annular cover 22 and is electrically connected with the control panel 21; the wiring of the display screen 7 can be performed by arranging a wiring groove on the inner wall of the annular cover;

preferably, the linear driving mechanism 5 comprises a longitudinal first driving motor 50, a lead screw 51 and a reduction gear assembly 52; the reduction gear assembly 52 is connected with the first driving motor 50 and the screw rod 51; the connecting seat 4 is driven by the screw rod 51 to move longitudinally; a mounting bracket 23 for mounting the linear driving mechanism 5 is arranged in the connecting column 2, and a guide rail 230 for guiding the movement of the connecting seat 4 is arranged on the mounting bracket 23;

through the rotation of first driving motor 50, speed reduction gear assembly 52 carries out the transmission and slows down the increase moment, drives lead screw 51 motion, ensures the steady longitudinal motion of connecting seat 4 under the guide effect of guide rail 230.

Preferably, the movable end of the first driving motor 50 is longitudinally arranged and fixedly connected with a worm 53; the reduction gear assembly 52 comprises a first gear 520 correspondingly meshed with the worm 53, a second gear 521 coaxially and fixedly connected with the first gear 520, a third gear 522 meshed with the second gear 521 and a fourth gear 523 coaxially and fixedly connected with the third gear 522; the fourth gear 523 is engaged with the screw shaft of the screw 51; the radius of the second gear 521 is smaller than that of the third gear 522; the first gear 520 and the fourth gear 523 have a radius equivalent to each other; simple structure and small occupied space.

Preferably, a first mounting region for mounting the first driving motor 50, a second mounting region for mounting the reduction gear assembly 52, and a third mounting region for mounting the guide rail 230 and the lead screw 51 are provided in the mounting bracket 23; the upper end of the worm 53 and the lower end of the screw shaft both extend into the second mounting region; the mounting bracket 23 is provided with an upper in-place detection switch 234 and a lower in-place detection switch 235 which are respectively used for detecting the up-down in-place position of a screw nut of the screw rod 51 at the upper end and the lower end of the screw rod 51;

the mounting bracket 23 is divided into three areas, so that the mounting is convenient, and the mounting precision is guaranteed; the upper in-place detection switch 234 and the lower in-place detection switch 235 are electrically connected with the control panel 21, the upper in-place detection switch 234 and the lower in-place detection switch 235 can conveniently detect the position of the connecting seat 4 in place, and when the maximum position of ascending or descending is reached, the control panel 21 receives a signal to control the first driving motor 50 to stop or reversely rotate, so that damage caused by excessive operation is avoided;

optionally, a barrier may be disposed between adjacent regions for separation;

preferably, the guide rails 230 are provided with two and respectively located on two inner walls of the first installation area; the screw rod nut of the screw rod 51 is arranged in a T shape, the two side surfaces of the longitudinal edge of the T shape are respectively connected with the two guide rails 230 in a sliding way, and the transverse edge of the T shape is connected with the connecting seat 4; a positioning convex strip 510 is arranged in the middle of the outer side surface of the T-shaped transverse edge of the feed screw nut; the connecting seat 4 comprises a first connecting arm 40 and a second connecting arm 41 which are locked by screws; two L-shaped connecting pieces 400 are symmetrically arranged at one end of the first connecting arm 40, which is far away from the second connecting arm 41, the L-shaped longitudinal edge of each connecting piece 400 is clung to the side surface of the positioning convex strip 510, and the L-shaped transverse edge of each connecting piece 400 is fixedly connected with the T-shaped transverse edge of the screw nut; the display is detachably connected with the second connecting arm 41; two movable grooves 20 are arranged and are respectively matched with the L-shaped longitudinal edges of the two connecting sheets 400; during the installation, lead screw nut's both sides respectively through two guide rails 230 and lead, two connection pieces 400 of connecting seat 4 paste the both sides surface of tight location sand grip 510 and carry out fixed connection with screw nut, and two connection pieces 400 pass two movable slots 20 respectively, can provide great holding power for the display, and simple to operate, and stability is good.

Preferably, the connecting column 2 is made of a transparent or semi-transparent material, the outer surface of the connecting column is provided with a lifting height display scale 24 for displaying the lifting height of the connecting column, and a first light-emitting component 25 matched with the lifting height display scale 24 is arranged in the connecting column 2; the connecting seat 4 is fixedly connected with the first light-emitting component 25 through a connecting strip 26; first light emitting component 25 can be the LED lamp, drives first light emitting component 25 motion through connecting strip 26 when the connecting seat goes up and down, illuminates the corresponding scale position on the lift height display scale, reaches and shows the altitude variation effect.

Preferably, the horizontal rotation mechanism 3 includes a second drive motor 30 disposed upside down; the lower end part of the connecting column 2 is provided with a mounting groove 27, and the lower end of the connecting column 2 is fixedly connected with a circular rotating plate 28 for sealing the mounting groove 27; the second driving motor 30 is installed at the inner top of the installation groove 27, the movable end of the second driving motor 30 is coaxially and fixedly connected with a turntable 32 through a connecting shaft 31, and the turntable 32 penetrates through an inner hole of the rotating plate 28; the supporting base 1 is provided with a positioning groove 11 corresponding to the turntable 32; the bottom of the positioning groove 11 is provided with a plurality of clamping holes 110, and the turntable 32 is provided with a plurality of clamping columns 320 which are in one-to-one correspondence with the clamping holes 110; the connecting shaft 31 is provided with an induction sheet 310, and the control panel 21 is provided with a left in-place detection switch 210 and a right in-place detection switch 211 which respectively induce the left and right positions of the induction sheet 310;

when the second driving motor 30 is rotated and adjusted, the movable end of the second driving motor 30 is fixed and the motor body rotates due to the connection of the turntable 32 and the support base 1, so as to drive the connecting column 2 to rotate; the rotation of the connecting column 2 can drive the rotating plate 28 to rotate, the left in-place detection switch 210 and the right in-place detection switch 211 can move along with the rotation of the rotating plate, and the sensing piece 310 on the connecting shaft 31 is not moved, so that the left in-place and right in-place detection can be carried out; the whole structure is simple, reasonable and compact.

Preferably, the turntable 32 comprises a detachably connected chassis 321 and a cylindrical connecting section 322; the connecting section 322 is connected with the connecting shaft 31 and penetrates through the inner hole of the rotating plate 28; the connecting section 322 is matched with the size of the inner hole of the rotating plate 28, an annular flange 3220 is arranged on the part, located below the rotating plate 28, of the side surface of the connecting section 322, and an annular positioning ring 280 is arranged on the lower surface of the rotating plate 28; the inner wall of the annular positioning ring 280 is provided with an annular accommodating groove 2800 corresponding to the flange 3220; damping pieces 3221 are arranged on the upper surface and the lower surface of the part, extending into the accommodating groove 2800, of the flange 3220; the chassis 321 is in a truncated cone shape, the side surface of the chassis is provided with an annular convex edge 3210, and the positioning groove 11 is matched with the chassis 321 in shape; a plurality of through holes 3211 corresponding to the clamping posts 320 one to one are formed in the chassis 321;

when the rotating plate 28 rotates, the connecting shaft 31 is fixed, the connecting section 322 is matched with the inner hole of the rotating plate 28 for positioning, and the flange 3220 on the connecting section 322 extends into the accommodating groove 2800 of the annular positioning ring 280 and is in damping fit with the accommodating groove, so that the stability during the rotating motion can be greatly enhanced.

Preferably, both sides of the lower end of the connecting column 2 are respectively provided with a lifting control plate 212 for controlling the linear driving mechanism 5 and a rotary control plate 213 for controlling the horizontal rotating mechanism 3, and the lifting control plate 212 and the rotary control plate 213 are electrically connected with and controlled by the control plate 21; a first step 214 for installing the rotating control plate 213 and a second step 215 for installing the lifting control plate 212 are respectively arranged at both sides of the lower end of the connecting column 2; the assembly is convenient, and the structure is reasonable and compact;

the positioning groove 11 is positioned in the annular sleeve 10 and is coaxial with the positioning groove 11; the outer surface of the annular sleeve 10 is provided with a horizontal rotation scale mark 100; the annular sleeve 10 is made of transparent or semitransparent material; the annular cover 22 is made of transparent or semitransparent material; the rotating plate 28 is provided with a second light emitting assembly corresponding to the horizontal rotation scale mark 100;

the second light-emitting assembly comprises a lamp panel 2810 and a light shield 2811, wherein the lamp panel 2810 is provided with a plurality of LED lamp beads 2812 distributed in an arc shape; the light shield 2811 is located above the lamp panel 2810 and is fixedly connected with the inner wall of the annular sleeve 10; the bottom surface of the light shield 2811 is provided with a circular arc-shaped light inlet groove 2813 matched with the plurality of LED lamp beads 2812, one side of the light inlet groove 2813 close to the annular sleeve 10 is communicated with the side surface of the light shield 2811, the side wall of the light inlet groove 2813 is provided with two longitudinal light shield bars 2814, and the width between the two light shield bars 2814 is matched with one LED lamp bead 2812.

In an operation method, according to the above-mentioned intelligent display base for preventing lumbar vertebra disease shoulder and neck disease, as shown in fig. 6, the controller 6 comprises a conventional adjusting controller 60 and a preset adjusting controller 61;

the conventional adjustment controller 60 includes four azimuth control keys 600, i.e., up, down, left, and right, for controlling up, down, left, and right rotations, respectively;

a preset adjustment controller 61 including a first function key 610, a second function key 611, a third function key 612, and a plurality of memory keys 613;

preferably, the supporting base is provided with a plurality of supporting legs, and the conventional adjusting controller and the preset adjusting controller are respectively arranged on the two supporting legs at the front side;

the first function key, the second function key and the third function key respectively and correspondingly execute a preset display adjusting program for one time:

when the first function key is pressed down for one time, the base program is executed to move upwards by 8-12mm every 4-6 minutes, move upwards by 24-36mm totally, then start to move downwards, move downwards after reaching the set position, the moving distance is 24-36mm, and the process is circulated continuously;

pressing the first function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then moving down, moving down after reaching the set position, and moving down by 24-36mm, thus continuously circulating;

pressing the first function key again, moving the base program up by 8-12mm every 0.5-1.5 minutes, moving up by 24-36mm, then moving down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and the above steps are repeated continuously;

pressing the first function key once again to stop the action;

when the base drives the display to move up and down, the display can move up and down along with the display to adjust the self sitting posture for people to continuously move up and down, so that the aim of preventing lumbar spondylosis is fulfilled;

when a second function key is pressed down once, the base program executes right turning for 8-12 degrees every 4-6 minutes, totally turns for 16-24 degrees, then starts left turning, continues left turning after reaching the set position, turns for 16-24 degrees, and continuously circulates in this way;

pressing the second function key once again, rotating the base program to the right by 8-12 degrees every 3 minutes, rotating the base program to the right by 16-24 degrees totally, then starting to rotate the base program to the left, continuing to rotate the base program to the set position, and rotating the base program by 16-24 degrees, thus continuously circulating;

pressing the second function key once again, and enabling the base to rotate rightwards 8-12 degrees every 0.5-1.5 minutes, rotating rightwards 16-24 degrees totally, then starting to rotate leftwards, continuing to rotate leftwards after reaching the set position, wherein the rotation angle is 16-24 degrees, and continuously circulating in this way;

pressing the second function key once again to stop the action;

when the base drives the display to rotate left and right, the optimal use effect is achieved, the user can move left and right along with the display to adjust the self sitting posture, so that the user can move left and right continuously, and the purpose of preventing shoulder and neck diseases is achieved;

when the third function key is pressed down once, the base program is executed to move up by 8-12mm every 4-6 minutes, move up by 24-36mm totally, then start to move down, move down after reaching the set position, the movement distance is 24-36mm, and the process is circulated continuously; when the up-and-down movement is executed, the base program also executes the right rotation of 8 to 12 degrees every 4 to 6 minutes, the right rotation of 16 to 24 degrees totally, then the left rotation is started, the left rotation is continued after the setting position is reached, the rotation angle is 16 to 24 degrees, and the process is circulated continuously;

pressing the third function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then moving down, moving down after reaching the set position, and moving down by 24-36mm, thus continuously circulating; when the up-and-down movement is executed, the base program also executes right rotation for 8-12 degrees every 2-4 minutes, totally rotates for 16-24 degrees right, then starts left rotation, continues left rotation after reaching the set position, and rotates for 16-24 degrees, thus continuously circulating;

pressing the third function key once again, moving the base upwards by 8-12mm every 0.5-1.5 minutes, moving the base upwards by 24-36mm in total, then moving the base downwards, moving the base downwards after the base reaches the set position, wherein the moving distance is 24-36mm, and continuously circulating the steps; when the up-and-down movement is executed, the base program also executes the right rotation of 8-12 degrees every 0.5-1.5 minutes, totally rotates the right rotation of 16-24 degrees, then starts the left rotation, continues the left rotation after reaching the set position, rotates the angle of 16-24 degrees, and continuously circulates in the way;

pressing the third function key once again to stop the action;

when the base drives the display to move up, down, left and right, the best use effect is achieved artificially, the display can move up, down, left and right to adjust the movement of the waist, the shoulders and the neck, so that different parts of a person move up, down, left and right without stop, and the aim of preventing lumbar shoulder and cervical spondylosis is fulfilled;

one of the first function key, the second function key and the third function key is used as a memory setting key, after the display is adjusted to a proper position through a conventional adjusting controller, the memory setting key and one memory key are pressed simultaneously to perform position memory storage, and after the memory storage, the corresponding memory key is pressed to automatically adjust the display to a memorized position;

in the application, the control panel adopts an MCU, a No. 4 pin and a No. 6 pin of the MCU are respectively and electrically connected with the conventional regulation controller 60 and the preset regulation controller 61 correspondingly to receive control signals, and after the control signals are processed by the MCU, the control signals respectively drive and control the first driving motor L2 and the second driving motor L1 through a control IC (U3) and a control IC (U2); the input and output ends of the control IC (U3) are respectively connected with a No. 1 pin and a No. 3 pin of the MCU, and the input and output ends of the control IC (U2) are respectively connected with a No. 16 pin and a No. 14 pin of the MCU; SW12 and SW11 are upper in-place detection switches and lower in-place detection switches, are respectively connected with the No. 7 pin and the No. 8 pin of the MCU, and send signals to the MCU after in-place detection; SW14 and SW16 are a left in-place detection switch and a right in-place detection switch which are respectively connected with a No. 9 pin and a No. 11 pin of the MCU, and send signals to the MCU after in-place detection; optionally, the additional SW13 is connected with pin number 10 of the MCU, and is used for in-place detection of the middle position of horizontal rotation; the UP/DOWN _ LED is a first light-emitting component, the L/R _ LED is a second light-emitting component, and the UP/DOWN _ LED and the L/R _ LED are respectively connected with a No. 13 pin and a No. 12 pin of the MCU and are subjected to light-emitting control.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. An intelligent display base capable of preventing lumbar spondylosis and shoulder-neck disease comprises a supporting base and a connecting column which is longitudinally arranged; the device is characterized in that the lower end of the connecting column is horizontally and rotatably connected with the supporting base, and a horizontal rotating mechanism for driving the connecting column and the supporting base to rotate relatively is arranged; a connecting seat connected with a display and a movable groove for the connecting seat to move longitudinally are arranged on the side surface of the connecting column in a penetrating manner; a linear driving mechanism for driving the connecting seat to move longitudinally along the movable groove and a control panel for controlling the horizontal rotating mechanism and the linear driving mechanism are arranged in the connecting column; the supporting base or the connecting column is provided with a controller corresponding to the control panel; the support base is fixedly provided with an annular sleeve, the rotatable cover in the outer portion of the annular sleeve is provided with an annular cover, and the annular cover is sleeved on the outer portion of the lower end of the connecting column and is fixedly connected with the connecting column in a coaxial mode.

2. The intelligent display base capable of preventing lumbar spondylosis and shoulder and neck diseases according to claim 1, wherein the linear driving mechanism comprises a longitudinal first driving motor, a screw rod and a reduction gear assembly; the reduction gear assembly is connected with and drives the first driving motor and the screw rod; the connecting seat is driven by the screw rod to move longitudinally; the connecting column is internally provided with a mounting bracket for mounting the linear driving mechanism, and the mounting bracket is provided with a guide rail for guiding the connecting seat in motion.

3. The intelligent display base capable of preventing lumbar spondylosis and shoulder and neck diseases according to claim 2, wherein a worm is longitudinally arranged at the movable end of the first driving motor and fixedly connected with the movable end of the first driving motor; the reduction gear assembly comprises a first gear which is correspondingly meshed with the worm, a second gear which is coaxially and fixedly connected with the first gear, a third gear which is meshed with the second gear and a fourth gear which is coaxially and fixedly connected with the third gear; the fourth gear is meshed with a screw rod shaft of the screw rod; the radius of the second gear is smaller than that of the third gear; the first gear and the fourth gear have a radius equivalent to each other.

4. The intelligent display base capable of preventing lumbar spondylosis shoulder and neck diseases according to claim 3, wherein a first mounting area for mounting the first driving motor, a second mounting area for mounting the reduction gear assembly, and a third mounting area for mounting the guide rail and the screw rod are arranged in the mounting bracket; the upper end of the worm and the lower end of the screw shaft both extend into the second mounting area; the mounting bracket is positioned at the upper end and the lower end of the screw rod and is respectively provided with an upper in-place detection switch and a lower in-place detection switch for detecting the up-down in-place position of a screw rod nut of the screw rod.

5. The intelligent display base capable of preventing lumbar spondylosis and shoulder and neck diseases according to claim 4, wherein the two guide rails are arranged on two inner walls of the first installation area; the screw rod nut of the screw rod is arranged in a T shape, the two side surfaces of the longitudinal edge of the T shape are respectively connected with the two guide rails in a sliding manner, and the transverse edge of the T shape is connected with the connecting seat; a positioning convex strip is arranged in the middle of the outer side surface of the T-shaped transverse edge of the feed screw nut; the connecting seat comprises a first connecting arm and a second connecting arm which are locked by screws; two L-shaped connecting pieces are symmetrically arranged at one end of the first connecting arm, which is far away from the second connecting arm, the L-shaped longitudinal edge of each connecting piece is tightly attached to the side surface of the positioning raised line, and the L-shaped transverse edge of each connecting piece is fixedly connected with the T-shaped transverse edge of the screw rod nut; the display is detachably connected with the second connecting arm; the movable grooves are provided with two grooves which are respectively matched with the L-shaped longitudinal edges of the two connecting sheets.

6. The intelligent display base capable of preventing the lumbar spondylosis and the shoulder and neck diseases according to any one of claims 1 to 5, wherein the connecting column is made of a light-transmitting or semi-light-transmitting material, lifting height display scales for displaying the lifting height of the connecting column are arranged on the outer surface of the connecting column, and a first light-emitting assembly matched with the lifting height display scales is arranged in the connecting column; the connecting seat is fixedly connected with the first light-emitting component through a connecting strip.

7. The intelligent display base capable of preventing lumbar spondylosis and shoulder and neck diseases according to any one of claims 1 to 5, wherein the horizontal rotating mechanism comprises a second driving motor which is arranged in an inverted manner; the lower end part of the connecting column is provided with a mounting groove, and the lower end of the connecting column is fixedly connected with an annular rotating plate for sealing the mounting groove; the second driving motor is arranged at the inner top of the mounting groove, the movable end of the second driving motor is coaxially and fixedly connected with a turntable through a connecting shaft, and the turntable penetrates through an inner hole of the rotating plate; a positioning groove corresponding to the rotary table is arranged on the supporting base; the bottom of the positioning groove is provided with a plurality of clamping holes, and the turntable is provided with a plurality of clamping columns which are in one-to-one correspondence with the clamping holes; the connecting shaft is provided with an induction sheet, and the control panel is provided with a left in-place detection switch and a right in-place detection switch which respectively sense the left position and the right position of the induction sheet.

8. The intelligent display base capable of preventing lumbar spondylosis and shoulder and neck diseases according to claim 7, wherein the turntable comprises a base plate and a cylindrical connecting section which are detachably connected; the connecting section is connected with the connecting shaft and penetrates through an inner hole of the rotating plate; the connecting section is matched with the size of an inner hole of the rotating plate, an annular flange is arranged on the side surface of the connecting section, which is positioned below the rotating plate, and an annular positioning ring is arranged on the lower surface of the rotating plate; the inner wall of the annular positioning ring is provided with an annular accommodating groove corresponding to the flange; damping fins are arranged on the upper surface and the lower surface of the part of the flange extending into the accommodating groove; the chassis is in a round table shape, the side surface of the chassis is provided with an annular convex edge, and the positioning groove is matched with the chassis in shape; the chassis is provided with a plurality of through holes which are in one-to-one correspondence with the clamping columns.

9. The intelligent display base capable of preventing the shoulder and neck diseases of the lumbar vertebra disease according to claim 7, wherein two sides of the lower end of the connecting column are respectively provided with a lifting control board for controlling the linear driving mechanism and a rotary control board for controlling the horizontal rotating mechanism, and the lifting control board and the rotary control board are electrically connected with and controlled by the control boards; a first step for installing the rotary control plate and a second step for installing the lifting control plate are respectively arranged on two sides of the lower end of the connecting column;

the positioning groove is positioned in the annular sleeve and is coaxial with the positioning groove; the outer surface of the annular sleeve is provided with a horizontal rotation scale mark; the annular sleeve is made of transparent or semitransparent materials; the annular cover is made of transparent or semitransparent materials; a second light-emitting assembly corresponding to the horizontal rotation scale mark is arranged on the rotating plate;

the second light-emitting assembly comprises a lamp panel and a light shield, and a plurality of LED lamp beads distributed in a circular arc shape are arranged on the lamp panel; the light shield is positioned above the lamp panel and is fixedly connected with the inner wall of the annular sleeve; the bottom surface of the light shield is provided with a plurality of arc-shaped light inlet grooves matched with the LED lamp beads, one side, close to the annular sleeve, of each light inlet groove is communicated with the side surface of the light shield, the side wall of each light inlet groove is provided with two longitudinal light shield strips, and the width between the two light shield strips is matched with one LED lamp bead.

10. An operating method of the intelligent display base capable of preventing the lumbar spondylosis and the cervical spondylosis as claimed in any one of claims 1 to 9, wherein the controller comprises a conventional adjusting controller and a preset adjusting controller;

the conventional adjusting controller comprises an upper direction control key, a lower direction control key, a left direction control key and a right direction control key, and the four direction control keys are respectively used for controlling ascending, descending, left turning and right turning;

the preset adjusting controller comprises a first function key, a second function key, a third function key and a plurality of memory keys;

the first function key, the second function key and the third function key respectively and correspondingly execute a preset display adjusting program for one time:

when the first function key is pressed down once, the base program is executed to move up by 8-12mm every 4-6 minutes, move up by 24-36mm totally, then start to move down, move down after reaching the set position, the movement distance is 24-36mm, and the process is circulated continuously;

pressing the first function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then starting to move down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating;

pressing the first function key again, moving the base program up by 8-12mm every 0.5-1.5 minutes, moving up by 24-36mm in total, then moving down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating;

pressing the first function key once again to stop the action;

when the second function key is pressed once, the base program executes right turning for 8-12 degrees every 4-6 minutes, totally turns for 16-24 degrees, then starts left turning, continues left turning after reaching the set position, turns for 16-24 degrees, and continuously circulates in this way;

pressing the second function key once again, enabling the base program to execute right turning for 8-12 degrees every 3 minutes, turning for 16-24 degrees in total, then starting left turning, continuing left turning after reaching the set position, and enabling the turning angle to be 16-24 degrees, thus continuously circulating;

pressing the second function key once again, and enabling the base to rotate rightwards 8-12 degrees every 0.5-1.5 minutes, rotating rightwards 16-24 degrees totally, then starting to rotate leftwards, continuing to rotate leftwards after reaching the set position, wherein the rotation angle is 16-24 degrees, and continuously circulating in this way;

pressing the second function key once again to stop the action;

when the third function key is pressed down once, the base program is executed to move up by 8-12mm every 4-6 minutes, move up by 24-36mm totally, then start to move down, move down after reaching the set position, the movement distance is 24-36mm, and the process is circulated continuously; when the up-and-down movement is executed, the base program also executes the right rotation of 8 to 12 degrees every 4 to 6 minutes, the right rotation of 16 to 24 degrees totally, then the left rotation is started, the left rotation is continued after the setting position is reached, the rotation angle is 16 to 24 degrees, and the process is circulated continuously;

pressing the third function key once again, moving the base program up by 8-12mm every 2-4 minutes, moving up by 24-36mm totally, then starting to move down, moving down after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating; when the up-and-down movement is executed, the base program also executes right rotation for 8-12 degrees every 2-4 minutes, totally rotates for 16-24 degrees right, then starts left rotation, continues left rotation after reaching the set position, and rotates for 16-24 degrees, thus continuously circulating;

pressing the third function key once again, moving the base upwards by 8-12mm every 0.5-1.5 minutes, moving the base upwards by 24-36mm in total, then starting to move the base downwards, moving the base downwards after reaching the set position, wherein the moving distance is 24-36mm, and continuously circulating; when the up-and-down movement is executed, the base program also executes the right rotation of 8-12 degrees every 0.5-1.5 minutes, totally rotates the right rotation of 16-24 degrees, then starts the left rotation, continues the left rotation after reaching the set position, rotates the angle of 16-24 degrees, and continuously circulates in the way;

pressing the third function key once again to stop the action;

one of the first function key, the second function key and the third function key is used as a memory setting key, after the display is adjusted to a proper position through the conventional adjusting controller, the memory setting key and one memory key are pressed simultaneously to perform position memory storage, and after the memory storage, the corresponding memory key is pressed to automatically adjust the display to a memorized position.

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