CN110286626B - Intelligent control desk - Google Patents

Abstract

The invention discloses an intelligent control console which comprises side legs, a lifting main frame, a lifting driver, a bedplate, a bottom cabinet, a screen, a display screen turnover mechanism and a front-back sliding mechanism. The lifting main frame comprises a beam bracket and lifting brackets which are respectively positioned at the left side and the right side of the intelligent control console and are assembled and connected with the beam bracket, and the lifting brackets at the same side can be assembled at the side feet in a lifting manner; the lifting drivers are respectively positioned at the left side and the right side of the intelligent control console, and the lifting drivers in the same side are assembled between the side legs and the lifting brackets; the bedplate is assembled on the beam bracket; the bottom cabinet is arranged below the bedplate and is assembled on the lifting bracket; the screen is positioned right above the bottom cabinet and can slide relative to the bottom cabinet along the front-back direction of the intelligent control console; the display screen tilting mechanism is assembled on the screen, the front and rear sliding mechanism is also assembled on the side wall of the bottom cabinet, and the screen is assembled on the output end of the front and rear sliding mechanism so as to adjust the positions of the screen and the bottom cabinet, so that the display screen assembled on the screen is at the most comfortable viewing angle.

Description

Intelligent control desk

Technical Field

The invention relates to an office appliance, in particular to an intelligent control console applied to office occasions.

Background

With the continuous development of economy and the continuous progress of society, various substance consumer products are provided for the life of people, and a console is one of the substance consumer products.

The control console for office occasions comprises a bedplate, side legs, a screen and a bottom cabinet, wherein the side legs are used for supporting the left side and the right side of the bedplate, the screen is assembled at the rear of the bedplate, the bottom cabinet is positioned below the bedplate, and the bottom cabinet is positioned in a space surrounded by the bedplate and the side legs. At this time, office supplies such as an external display screen, a keyboard, intercom equipment, a mouse and the like are placed on the bedplate, so that the display screen cannot be automatically adjusted by the conventional console.

Although a console capable of lifting a screen up and down appears on the market at present, the console can only lift the screen up and down, so that a display screen assembled on the screen is driven to lift along with the screen to meet the needs of users with different heights, but the console can only adjust the up and down positions of the display screen, but can not adjust the front and back positions and the turning angles of the display screen, so that the existing console cannot enable the display screen to be in the most comfortable viewing angle, and the defects of heavy burden and troublesome adjustment operation are caused by manual adjustment of the display screen by a user.

Accordingly, there is an urgent need for an intelligent console that can flexibly and reliably adjust a display screen to make the display screen at the most comfortable angle to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide an intelligent control console which can flexibly and reliably adjust a display screen to enable the display screen to be at the most comfortable angle.

In order to achieve the above purpose, the invention provides an intelligent control console, which comprises side legs, a lifting main frame, a lifting driver, a bedplate, a bottom cabinet, a screen, a front-back sliding mechanism and a display screen turnover mechanism for assembling and fixing a display screen positioned in front of the screen. The side legs are respectively positioned at the left side and the right side of the intelligent control console, the lifting main frame comprises beam brackets arranged along the left-right direction of the intelligent control console and lifting brackets respectively positioned at the left side and the right side of the intelligent control console and assembled and connected with the beam brackets, and the lifting brackets at the same side can be assembled at the side legs in a lifting manner; the lifting drivers are respectively positioned at the left side and the right side of the intelligent control console, and the lifting drivers in the same side are assembled between the side legs and the lifting support to selectively drive the lifting main frame to do up-down lifting motion relative to the side legs; the bedplate is assembled to the beam bracket; the bottom cabinet is positioned below the bedplate and assembled on the lifting bracket; the screen is positioned right above the bottom cabinet and can slide relative to the bottom cabinet along the front-back direction of the intelligent control console; the display screen overturning mechanism is assembled on the screen; the front and back sliding mechanisms are respectively positioned at the left side and the right side of the intelligent control console, the front and back sliding mechanisms are also assembled at the side wall of the bottom cabinet, and the screen is assembled at the output end of the front and back sliding mechanisms.

Preferably, the intelligent control console further comprises hanging cabinets respectively positioned at the left side and the right side of the intelligent control console, the top wall of each hanging cabinet in the same side is fixedly connected with the lifting support, an upper driver and a lower driver with the output ends arranged upwards are assembled on each hanging cabinet, and the bottom cabinet is assembled at the output ends of the upper drivers and the lower drivers.

Preferably, the hanging cabinets on the same side are located right behind the lifting driver, the bottom cabinet is clamped between the hanging cabinets on the left side and the right side, an avoidance space for the screen to avoid in the front-back sliding process is formed in the rear of the bedplate, and the lower end of the screen is located in the avoidance space.

Preferably, at least one of the lifting driver and the upper and lower drivers is an electric push rod, an air cylinder, a hydraulic cylinder or a linear motor.

Preferably, the front-back sliding mechanism comprises a linear driver, a linear guide rail and a linear slide block, wherein the linear driver comprises a driver body and a sliding rod which slides and stretches relative to the driver body along the front-back direction of the intelligent control console, the driver body is hinged to the inner side wall of the bottom cabinet, the linear guide rail is parallel to the sliding rod and is positioned right above or right below the sliding rod, the linear slide block is slidably sleeved on the linear guide rail, one of the upper side and the lower side of the linear slide block is connected with the sliding rod in an assembling manner, and the other of the upper side and the lower side of the linear slide block is connected with the bottom of the screen in an assembling manner.

Preferably, the linear guide rail is a linear guide post, a linear bearing is assembled in the linear slider, and the linear slider is slidably sleeved on the linear guide post through the linear bearing.

Preferably, the front-back sliding mechanism further comprises an upper hinge shaft, a lower hinge shaft, an upper bolt, a lower bolt, a tail seat and a connecting block, wherein the tail seats are arranged on the inner side wall of the bottom cabinet at intervals up and down, the connecting block is positioned between the sliding rod and the linear sliding block, the tail end of the driver body is positioned between the tail seats, the upper hinge shaft and the lower hinge shaft penetrate through the tail seat and the tail end of the driver body, one end of the connecting block is assembled and connected with the upper side or the lower side of the linear sliding block, and the upper bolt and the lower bolt are detachably inserted into the other end of the connecting block and the sliding rod.

Preferably, the display screen tilting mechanism comprises a rotating wheel, a display screen fixing seat, a connecting rod and a linear driver which is arranged along the vertical direction of the intelligent control console, the rotating wheel is rotatably assembled at the position of the screen, the linear driver is assembled at the position of the screen and positioned at the rear of the rotating wheel, one end of the connecting rod is hinged with the output end of the linear driver, the other end of the connecting rod is fixedly connected with the rotating wheel, and the display screen fixing seat is positioned in front of the rotating wheel and is fixedly connected with the rotating wheel.

Preferably, the intelligent control console further comprises a platen heating module and a front-back turnover screen mechanism, wherein the platen heating module is assembled at the bottom of the platen, the front-back turnover screen mechanism comprises a front-back turnover seat, a linear driver, a push rod and a rotating shaft, the rotating shaft penetrates through the front-back turnover seat and the screen along the left-right direction of the intelligent control console, the linear driver and the push rod are arranged along the front-back direction of the intelligent control console, the linear driver is assembled at the bottom of the screen, the push rod is positioned below the front-back turnover seat, one end of the push rod is hinged with the output end of the linear driver, and the other end of the push rod is hinged with the bottom of the front-back turnover seat after crossing the rotating shaft from below.

Preferably, the side leg is provided with a cup placing area, the side leg is provided with a cup heating module for heating the cup in the cup placing area, and the corner of the bedplate is provided with an indicator lamp.

Compared with the prior art, the lifting main frame, the bottom cabinet, the screen, the platen, the front-back sliding mechanism and the display screen turnover mechanism are driven to lift by the lifting driver, so that the height positions of the platen, the bottom cabinet and the screen can be adjusted; meanwhile, the front-back sliding mechanism is used for adjusting the front-back position of the screen relative to the bedplate, and the display screen overturning mechanism is used for adjusting the overturning angle of the display screen which is adjusted along with the upper-lower position and the front-back position of the screen, so that the display screen is automatically adjusted to the viewing angle position which is suitable for a user to watch, the burden of the user for adjusting operation is reduced, and the adjustment operation of the display screen is very convenient. In addition, because the front-back sliding mechanism is assembled at the side wall of the bottom cabinet, the screen is assembled at the output end of the front-back sliding mechanism, and the bottom cabinet is assembled at the lifting bracket, the design can prevent the front-back sliding mechanism from thickening of the bedplate caused by installation on the bedplate (the bedplate needs to bear the bearing force generated when the screen slides front and back, therefore, the bedplate needs to be thickened), and can provide reliable support for the front-back sliding mechanism, and prevent the front-back sliding mechanism from shaking in the process of driving the screen to slide front and back. In addition, the bottom cabinet can be lifted along with the lifting main frame and the screen, so that the defect that the wiring between the bottom cabinet and the screen is knotted due to the increase of the reserved length of the wiring between the bottom cabinet and the screen caused by the lifting of the screen can be avoided.

Drawings

Fig. 1 is a schematic perspective view of an intelligent control console of the present invention after a bottom cabinet is partially sealed.

Fig. 2 is a schematic perspective view of the intelligent console shown in fig. 1 after further hiding the platen.

Fig. 3 is a schematic perspective view of a front-rear sliding mechanism in the intelligent console of the present invention.

Fig. 4 is a schematic perspective exploded view of the front-rear sliding mechanism shown in fig. 3.

Fig. 5 is a schematic perspective view of the connecting block in the front-rear sliding mechanism shown in fig. 3.

Fig. 6 is a schematic perspective view of a side leg in the intelligent console of the present invention.

Fig. 7 is a schematic perspective view of a lifting main frame and a hanging cabinet assembled together in the intelligent control console of the present invention.

Fig. 8 is a schematic view of a perspective view of a platen in a smart console according to the present invention at an angle.

Fig. 9 is a schematic perspective view of the platen shown in fig. 8 at another angle.

Fig. 10 is a schematic perspective view of a front-to-rear tilting mechanism in the intelligent console of the present invention.

Fig. 11 is a schematic perspective view of a screen in the intelligent console of the present invention after concealing the cover plate.

Fig. 12 is a schematic perspective view of a display screen tilting mechanism in the intelligent console of the present invention.

Fig. 13a to 13d are schematic views of the intelligent control console of the present invention in an adjustment state when projected on the left side.

Detailed Description

In order to describe the technical content and constructional features of the present invention in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1,2, 7, 11 and 12, the intelligent control console 100 of the present invention includes a front-rear sliding mechanism 10, side legs 20, a lifting main frame 30, a lifting driver 40, a platen 50, a bottom cabinet 60, a screen 70 and a screen turning mechanism 90a for fixing a screen 200 in front of the screen 70. The side feet 20 are respectively positioned at the left side and the right side of the intelligent control console 100, and are used for enabling the intelligent control console 100 of the invention to stand on the ground; the lifting main frame 30 includes beam brackets 31 disposed along the left and right direction of the intelligent console 100 (i.e., indicated by double arrow a in fig. 1) and lifting brackets 32 disposed on the left and right sides of the intelligent console 100 and assembled with the beam brackets 31, and the lifting brackets 32 on the same side are assembled at the side feet 20 in a vertically lifting manner, preferably, the lifting brackets 32 are integrally fixed with the beam brackets 31, so as to improve the strength of the lifting main frame 30. the lifting drivers 40 are respectively located at the left and right sides of the intelligent console 100, the lifting drivers 40 in the same side are assembled between the side legs 20 and the lifting brackets 32, the lifting drivers 40 selectively drive the opposite side legs 20 of the lifting main frame 30 to move up and down, preferably, the lifting drivers 40 are electric push rods, the telescopic parts of the electric push rods are upwards arranged, the main body parts of the electric push rods are installed at the side legs 20, the telescopic parts of the electric push rods are fixedly connected with the lifting brackets 32, so that the lifting drivers 40 can accurately and reliably drive the lifting main frame 30 to lift up and down, and of course, according to actual needs, The lifting drive 40 may be an air cylinder, a hydraulic cylinder or a linear motor, and is not limited thereto. The platen 50 is mounted to the beam support 31, and the beam support 31 provides support for the platen 50. The bottom cabinet 60 is positioned under the platen 50 and is assembled to the lifting bracket 32 such that the bottom cabinet 60 can be lifted and lowered together with the lifting bracket 32. the screen 70 is located directly above the bottom cabinet 60 and can slide along the front-rear direction (i.e. indicated by double arrow C in fig. 1) of the intelligent control console 100 relative to the bottom cabinet 60, the front-rear sliding mechanisms 10 are respectively located at the left side and the right side of the intelligent control console 100, the front-rear sliding mechanisms 10 are also assembled at the side walls of the bottom cabinet 60, preferably at the inner side walls 61 of the bottom cabinet 60, the screen 70 is assembled at the output end (i.e. the sliding rod 11b described below) of the front-rear sliding mechanisms 10, so that the front-rear sliding mechanisms 10 and the screen 70 lift together with the bottom cabinet 60, and the front-rear sliding mechanisms 10 drive the screen 70 to slide back and forth relative to the bottom cabinet 60. The display screen tilting mechanism 90a is mounted on the screen 70, and is supported by the screen 70. Specifically, in order to enable the up-down adjustment between the lifting brackets 32 between the base cabinets 60, the intelligent control console 100 of the present invention further includes hanging cabinets 80 respectively located at the left side and the right side of the intelligent control console 100, the top wall 81 of the hanging cabinet 80 in the same side is fixedly connected with the lifting brackets 32, the hanging cabinet 80 is equipped with an up-down driver 82 with an output end 821 arranged upward, and the base cabinet 60 is mounted at the output end 821 of the up-down driver 82. More specifically, the following is:

As shown in fig. 1,2, 8 and 9, the hanging cabinets 80 on the same side are located right behind the lifting driver 40, the bottom cabinet 60 is clamped between the hanging cabinets 80 on the left side and the right side, an avoidance space 51 for the screen 70 to avoid in the front-back sliding process is formed at the rear of the bedplate 50, the lower end of the screen 70 is located in the avoidance space 51, and the bottom cabinet 60, the hanging cabinets 80 and the lifting driver 40 are arranged side by side in the front-back direction of the intelligent control console 100, so that the layout is more reasonable and compact; for example, the up-down driver 82 is an electric push rod, the telescopic part of the electric push rod is disposed upwards, the main body of the electric push rod is mounted at the hanging cabinet 80, and the telescopic part of the electric push rod is fixedly connected with the top of the bottom cabinet 60, so that the up-down driver 82 can accurately and reliably drive the bottom cabinet 60 to lift up and down, and of course, the up-down driver 82 can be an air cylinder, a hydraulic cylinder or a linear motor according to actual needs, so that the invention is not limited thereto.

As shown in fig. 2 to 5, the front-rear sliding mechanism 10 includes a linear actuator 11, a linear guide rail 12, and a linear slider 13. The linear driver 11 comprises a driver body 11a and a sliding rod 11b which slides and stretches relative to the driver body 11a along the front-back direction of the intelligent control console 100, wherein the driver body 11a is hinged with the inner side wall 61 of the bottom cabinet 60, so that the driver body 11a can pivot relative to the inner side wall 61; the linear guide rail 12 is parallel to the sliding rod 11b and is positioned right above the sliding rod 11b, so that the defect that the size of the screen 70 extending into the lifting bottom cabinet 60 is increased due to the fact that the linear guide rail 12 is positioned right below the sliding rod 11b can be reduced; the linear slide block 13 is slidably sleeved on the linear guide rail 12, so that the linear slide block 13 slides on the linear guide rail 12 more smoothly; since the linear guide rail 12 is located right above the sliding rod 11b, at this time, the lower side 132 of the linear slider 13 is assembled and connected with the sliding rod 11b, so that the linear slider 13 slides together with the sliding rod 11 b; the upper side 131 of the linear slider 13 is assembled with the screen 70 such that the linear slider 13 slides with the screen 70, and thus, the slide bar 11b slides with the screen 70 by means of the linear slider 13. For example, the linear guide rail 12 is a linear guide post, the linear bearing 14 is assembled in the linear slider 13, and the linear slider 13 is slidably sleeved on the linear guide post through the linear bearing 14, so as to further improve the smooth reliability of sliding of the linear slider 13 on the linear guide rail; the linear driver 11 is an electric push rod, so that the segment adjustment of the screen 70 is more reliable, and of course, the linear driver 11 may be an air cylinder, a hydraulic cylinder or a linear motor according to actual needs, which is not limited thereto. It should be understood that, when the linear guide 12 is located directly below the sliding rod 11b, the upper side 131 of the linear slider 13 is assembled with the sliding rod 11b, and correspondingly, the lower side 132 of the linear slider 13 is assembled with the screen 70, which is not limited to the above example. More specifically, the following is:

As shown in fig. 2 and 3, to improve the reliability of the hinge connection and the pivot connection of the driver body 11a and the inner sidewall 61, the front-rear sliding mechanism 10 further includes an upper hinge shaft 15, a lower hinge shaft 15, and a tailstock 16 disposed on the inner sidewall 61 at a distance from each other, and preferably, the tailstocks 16 are aligned in the up-down direction (i.e., indicated by double arrow B in fig. 1); the tail end of the driver body 11a is located between the tailstocks 16, and the upper hinge shaft 15 and the lower hinge shaft 15 are arranged at the tail ends of the tailstocks 16 and the driver body 11a in a penetrating manner, so that the driver body 11a is sensitive to pivot adjustment relative to the inner side wall 61 in the sliding and telescoping process of the sliding rod 11b relative to the driver body 11a, self-adaptive adjustment is better, and smooth sliding of the linear sliding block 13 on the linear guide rail 12 is better ensured, but the design is not limited to the above. In order to make the assembly and disassembly between the sliding rod 11b and the linear sliding block 13 more convenient and faster, the front-back sliding mechanism 10 further comprises an upper and lower bolt 17 and a connecting block 18 positioned between the sliding rod 11b and the linear sliding block 13, one end of the connecting block 18 is assembled and connected with the lower side 132 of the linear sliding block 13, and the upper and lower bolts 17 are detachably inserted into the other end of the connecting block 18 and the sliding rod 11 b; specifically, the connecting block 18 is U-shaped and plays a role in raising, so that the linear slide block 13 and the sliding rod 11b are staggered in the up-down direction; preferably, the connecting block 18 has a short arm 181 and a long arm 182, the long arm 182 is provided with an assembly hole 19 assembled and connected with the linear sliding block 13 and a plug hole 19b for inserting the upper and lower bolts 17, the short arm 181 is provided with an alignment hole 19c aligned with the plug hole 19b, and the upper and lower bolts 17 are inserted into the plug hole 19b and the alignment hole 19c, so that the connecting block 18 and the sliding rod 11b can be assembled and disassembled more conveniently. In order to make the linear guide rail 12 more reliably mounted on the inner side wall 61 and avoid the inner side wall 61 to block the linear slide block 13 sleeved on the linear guide rail 12 in the sliding process, the front-rear sliding mechanism 10 further comprises a shaft seat 19d arranged on the inner side wall 61 in a front-rear spaced manner, and the end part of the linear guide rail 12 is assembled in the shaft seat 19 d. When the linear guide 12 is located directly above the sliding rod 11b, one end of the connecting block 18 is assembled and connected to the upper side 131 of the linear slider 13, which is not limited thereto. The connection block 18 is fixedly connected to the linear slider 13 by a screw, and the tailstock 16 is also fixedly connected to the inner wall 61 by a screw, but not limited thereto.

The front and rear sliding mechanisms 10 are respectively arranged at the inner side walls 61 on the left side and the right side of the bottom cabinet 60, and comprise a linear driver 11, a linear guide rail 12 and a linear sliding block 13, wherein the linear driver 11 comprises a driver body 11a and a sliding rod 11b which slides and stretches relative to the driver body 11a along the front and rear direction of the intelligent control console 100, the driver body 11a is hinged with the inner side walls 61, the linear guide rail 12 is parallel to the sliding rod 11b and is positioned right above or right below the sliding rod 11b, the linear sliding block 13 is slidably sleeved on the linear guide rail 12, one of the upper side 131 and the lower side 132 of the linear sliding block 13 is connected with the sliding rod 11b in an assembling manner, and the other one of the upper side 131 and the lower side 132 of the linear sliding block 13 is connected with the screen 70 in an assembling manner; therefore, the screen 70 is driven by the linear drivers 11 on the left and right sides and guided by the linear guide rails 12 and the linear sliding blocks 13 on the left and right sides, so that the adjustment of the front and back sliding of the screen 70 is more flexible and reliable; more importantly, since the linear driver 11 drives the linear sliding block 13 to slide on the linear guide rail 12, and then the sliding linear sliding block 13 drives the screen 70 to slide back and forth, and the driver body 11a of the linear driver 11 is hinged with the inner side wall 61, when the sliding rod 11b slides and stretches relative to the driver body 11a, the position of the driver body 11a relative to the inner side wall 61 can be adaptively adjusted, so that the sliding rod 11b can drive the linear sliding block 13 to slide smoothly and smoothly on the linear guide rail 12 more flexibly and reliably, the accurate reliability of adjustment of the screen 70 is ensured, and the display screen 200 on the screen 70 is in the most comfortable viewing angle; in addition, since the linear guide rail 12 is parallel to the sliding rod 11b and is located directly above or directly below the sliding rod 11b, the layout of the front-rear sliding mechanism 10 on the inner side wall 61 is more reasonable, the thickness dimension of the inner side wall 61 is reduced, and the structure is more compact.

As shown in fig. 11 and 12, the display screen turning mechanism 90a includes a turning wheel 91, a display screen fixing seat 92, a connecting rod 93 and a linear driver 94 arranged along the up-down direction of the intelligent console 100, wherein the turning wheel 91 is rotatably assembled at the screen 70, the screen 70 provides support for the turning wheel 91, and the turning wheel 91 can turn back and forth relative to the screen 70; the linear driver 94 is assembled on the screen 70 and is positioned at the rear of the rotating wheel 91, one end of the connecting rod 93 is hinged with the output end 941 of the linear driver 94, the other end of the connecting rod 93 is fixedly connected with the rotating wheel 91, the display screen fixing seat 92 is positioned at the front of the rotating wheel 91 and is fixedly connected with the rotating wheel 91, and the rotating wheel 91 and the display screen fixing seat 92 are driven by the linear driver 94 to turn back and forth together through the connecting rod 93 so as to realize the angle adjustment of the display screen 200 on the display screen fixing seat 92; for example, the linear driver 94 is selected to be electrically driven, at this time, the telescopic portion of the electric push rod (i.e. the output end 941 of the linear driver 94) is disposed upwards, and the main body portion of the electric push rod is hinged to the screen 70, so that the linear driver 94 can more precisely and reliably drive the display screen 200 to turn back and forth, and of course, the linear driver 94 may be selected to be an air cylinder, a hydraulic cylinder or a linear motor according to practical needs, which is not limited thereto.

As shown in fig. 1, 8, 9 and 10, the intelligent control console 100 of the present invention further includes a platen heating module 90b and a front-to-rear roll-over screen mechanism 90c. A platen heating module 90b is fitted at the bottom of the platen 50 for heating the platen 50 to operate at a comfortable temperature for the user. The front-rear turning screen mechanism 90c comprises a front-rear turning seat 95, a linear driver 96, a push rod 97 and a rotating shaft 98, wherein the rotating shaft 98 penetrates through the front-rear turning seat 95 and the screen 70 along the left-right direction of the intelligent console 100, so that the front-rear turning seat 95 can turn back and forth relative to the screen 70 around the rotating shaft 98; the linear driver 96 and the push rod 97 are arranged along the front-rear direction of the intelligent console 100, the linear driver 96 is assembled at the bottom of the screen 70, the push rod 97 is positioned below the front-rear overturning seat 95, one end of the push rod 97 is hinged with the output end 961 of the linear driver 96, and the other end of the push rod 97 passes through the rotating shaft 98 from below and is hinged with the bottom of the front-rear overturning seat 95, so that the linear driver 96 can more reliably drive the front-rear overturning seat 95 to overturn forwards and backwards around the rotating shaft 98; for example, the linear driver 96 is a linear motor, a cylinder, a hydraulic cylinder or an electric push rod, but not limited thereto.

As shown in fig. 1,2 and 6, the side leg 20 is provided with a cup placement area 21, and the side leg 20 is provided with a cup heating module 22 for heating the cup in the cup placement area 21, so as to perform a heating function; the corner of the platen 50 is provided with an indication lamp 52 for indication, but is not limited thereto.

The adjustment process of the intelligent console of the present invention will be described with reference to fig. 13a to 13 d: firstly, the lifting driver 40 drives the lifting main frame 30 to lift upwards along the direction indicated by the arrow beside the bottom cabinet 60 in fig. 13a, so that the lifting main frame 30 drives the hanging cabinet 80, the upper and lower drivers 82 on the hanging cabinet 80, the bottom cabinet 60, the screen 70 and the display screen turning mechanism 90a in the screen 70 to lift together, and when the lifting driver 40 slides the lifting main frame 30, the hanging cabinet 80, the upper and lower drivers 82 on the hanging cabinet 80, the bottom cabinet 60, the screen 70 and the display screen turning mechanism 90a in the screen 70 to the limit position, the upper and lower drivers 82 at this time drive the bottom cabinet 60, the screen 70 and the display screen turning mechanism 90a in the screen 70 to slide to the limit position again, and the state is shown in fig. 13 b; then, the front-rear sliding mechanism 10 drives the screen 70 to slide along with the display screen turning mechanism 90a in the screen 70 along the direction indicated by the arrow beside the display screen 200 in fig. 13b, and the sliding to the limit state is shown in fig. 13 c; then, the display screen turning mechanism 90a turns the display 200 in the direction indicated by the arrow beside the display 200 in fig. 13c, and at the same time, the front-rear turning mechanism 90c turns the front-rear turning seat 95 in the direction indicated by the arrow beside the front-rear turning seat 95 in fig. 13c, so that the electronic device 300 on the front-rear turning seat 95 is turned, and the state is shown in fig. 13 d. It should be noted that the above-mentioned process is only illustrative, but the adjustment process of the intelligent console 100 of the present invention is not limited thereto.

Compared with the prior art, the lifting main frame 30, the bottom cabinet 60, the screen 70, the bedplate 50, the front-back sliding mechanism 10 and the display screen overturning mechanism 90a are driven to lift by the lifting driver 40, so as to adjust the height positions of the bedplate 50, the bottom cabinet 60 and the screen 70; meanwhile, the front-rear sliding mechanism 10 is used for adjusting the front-rear position of the screen 70 relative to the bedplate 50, and the display screen overturning mechanism 90a is used for adjusting the overturning angle of the display screen 200 which is adjusted along with the up-down and front-rear positions of the screen 70, so that the display screen 200 is automatically adjusted to the viewing angle position suitable for the user to watch, the burden of the user for adjusting operation is reduced, and the adjustment operation of the display screen 200 is very convenient. In addition, since the front-rear sliding mechanism 10 is mounted on the side wall 61 of the bottom cabinet 60, the screen 70 is mounted on the output end of the front-rear sliding mechanism 10, and the bottom cabinet 60 is mounted on the lifting bracket 32, the design can prevent the front-rear sliding mechanism 10 from being mounted on the bedplate 50 to cause the thickening of the bedplate 50 (this is because the bedplate 50 needs to bear the bearing force generated when the screen 70 slides forwards and backwards, therefore, the bedplate 50 needs to be thickened), and can provide reliable support for the front-rear sliding mechanism 10 to prevent the front-rear sliding mechanism 10 from shaking in the process of driving the screen 70 to slide forwards and backwards. In addition, since the bottom cabinet 60 can be lifted along with the lifting main frame 30 and the screen 70, the defect of knotting between wires caused by the increase of the reserved length of the wires between the bottom cabinet 60 and the screen 70 due to the lifting of the screen 70 can be avoided.

The foregoing disclosure is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. An intelligent control console, comprising:

The side feet are respectively positioned at the left side and the right side of the intelligent control console;

the lifting main frame comprises a beam bracket arranged along the left-right direction of the intelligent control console and lifting brackets which are respectively positioned at the left side and the right side of the intelligent control console and are in assembled connection with the beam bracket, and the lifting brackets at the same side can be assembled at the side feet in an up-down lifting manner;

the lifting drivers are respectively positioned at the left side and the right side of the intelligent control console, and the lifting drivers in the same side are assembled between the side legs and the lifting support to selectively drive the lifting main frame to do up-and-down lifting motion relative to the side legs;

a platen assembled to the beam bracket;

The bottom cabinet is positioned below the bedplate and is assembled on the lifting bracket;

the screen is positioned right above the bottom cabinet and can slide relative to the bottom cabinet along the front-back direction of the intelligent control console;

The display screen turnover mechanism is used for assembling and fixing a display screen positioned in front of the screen and is assembled on the screen; and

The front and back sliding mechanisms are respectively positioned at the left side and the right side of the intelligent control console, the front and back sliding mechanisms are also assembled at the side wall of the bottom cabinet, and the screen is assembled at the output end of the front and back sliding mechanisms.

2. The intelligent control console of claim 1, further comprising a hanging cabinet located at the left side and the right side of the intelligent control console, wherein the top wall of the hanging cabinet in the same side is fixedly connected with the lifting support, an upper driver and a lower driver with upward output ends are arranged on the hanging cabinet, and the bottom cabinet is arranged at the output ends of the upper driver and the lower driver.

3. The intelligent control console of claim 2, wherein the wall cabinets on the same side are located right behind the lifting drive, the bottom cabinet is clamped between the wall cabinets on the left side and the right side, an avoidance space for the screen to avoid in the front-back sliding process is formed in the rear of the bedplate, and the lower end of the screen is located in the avoidance space.

4. The intelligent control console of claim 2, wherein at least one of the lift drive and the up-down drive is an electric pushrod, cylinder, hydraulic cylinder, or linear motor.

5. The intelligent control console according to claim 1, wherein the front-rear sliding mechanism comprises a linear driver, a linear guide rail and a linear slider, the linear driver comprises a driver body and a sliding rod which slides and stretches relative to the driver body along the front-rear direction of the intelligent control console, the driver body is hinged to the inner side wall of the bottom cabinet, the linear guide rail is parallel to the sliding rod and is located right above or right below the sliding rod, the linear slider is slidably sleeved on the linear guide rail, one of the upper side and the lower side of the linear slider is connected with the sliding rod in an assembling manner, and the other one of the upper side and the lower side of the linear slider is connected with the bottom of the screen in an assembling manner.

6. The intelligent control console of claim 5, wherein the linear guide is a linear guide post, a linear bearing is assembled in the linear slider, and the linear slider is slidably sleeved on the linear guide post through the linear bearing.

7. The intelligent control console according to claim 5, wherein the front-rear sliding mechanism further comprises an upper hinge shaft, a lower hinge shaft, an upper latch, a lower latch, a tail seat and a connecting block, wherein the tail seat is arranged on the inner side wall of the bottom cabinet at intervals up and down, the connecting block is positioned between the sliding rod and the linear sliding block, the tail end of the driver body is positioned between the tail seat, the upper hinge shaft and the lower hinge shaft penetrate through the tail end of the tail seat and the driver body, one end of the connecting block is assembled and connected with the upper side or the lower side of the linear sliding block, and the upper latch and the lower latch are detachably inserted into the other end of the connecting block and the sliding rod.

8. The intelligent control console of claim 1, wherein the display screen tilting mechanism comprises a rotating wheel, a display screen fixing seat, a connecting rod and a linear driver arranged along the vertical direction of the intelligent control console, the rotating wheel is rotatably assembled at the screen, the linear driver is assembled at the screen and positioned at the rear of the rotating wheel, one end of the connecting rod is hinged with the output end of the linear driver, the other end of the connecting rod is fixedly connected with the rotating wheel, and the display screen fixing seat is positioned in front of the rotating wheel and is fixedly connected with the rotating wheel.

9. The intelligent control console according to claim 1, further comprising a platen heating module and a front-rear turning screen mechanism, wherein the platen heating module is assembled at the bottom of the platen, the front-rear turning screen mechanism comprises a front-rear turning seat, a linear driver, a push rod and a rotating shaft, the rotating shaft penetrates through the front-rear turning seat and the screen along the left-right direction of the intelligent control console, the linear driver and the push rod are arranged along the front-rear direction of the intelligent control console, the linear driver is assembled at the bottom of the screen, the push rod is positioned below the front-rear turning seat, one end of the push rod is hinged with the output end of the linear driver, and the other end of the push rod passes through the rotating shaft from below and is hinged with the bottom of the front-rear turning seat.

10. The intelligent control console of claim 1, wherein the side legs have a cup placement area, a cup heating module for heating a cup in the cup placement area is provided on the side legs, and an indicator light is provided at a corner of the platen.