CN217256290U - Upper cover subassembly and have its robot - Google Patents
Upper cover subassembly and have its robot Download PDFInfo
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- CN217256290U CN217256290U CN202122895075.9U CN202122895075U CN217256290U CN 217256290 U CN217256290 U CN 217256290U CN 202122895075 U CN202122895075 U CN 202122895075U CN 217256290 U CN217256290 U CN 217256290U
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Abstract
The application provides an upper cover assembly and a robot with the same, wherein the upper cover assembly is suitable for the robot and is characterized in that the upper cover assembly is arranged above a cabin body assembly of the robot, the cabin body assembly comprises a cabin body, and one side of the cabin body, which is close to the upper cover assembly, is provided with a maintenance opening; the upper cover assembly includes: an upper cover and a support member positioned below the upper cover for supporting the upper cover; the main control board is connected with the supporting piece and is positioned on one side, far away from the supporting piece, of the mounting board surface, far away from the supporting piece, of the supporting piece, wherein the mounting board surface is provided with a plurality of electronic components, and the electronic components on the main control board are maintained or disassembled through a maintenance opening in a cabin body of the robot. The capsule assembly solves the problem that the upper cover assembly needs to be integrally disassembled when electronic elements in the upper cover assembly of the robot are maintained or disassembled in the prior art.
Description
Technical Field
The application relates to the technical field of intelligent robots, in particular to an upper cover assembly and a robot with the same.
Background
Nowadays, more and more restaurants, restaurants and the like start to try to use an intelligent AGV recycling robot to replace a waiter to push a trolley to pick up tableware, in the scene, the recycling robot replaces part of physical work of the waiter of the restaurants, and the waiter only needs to send a recycling instruction to machine equipment to enable the machine equipment to reach a designated area to pick up the tableware and kitchen wastes.
However, electronic components such as a control board of an existing artificial intelligence type recycling robot and related products are generally mounted on an upper cover assembly, the upper cover assembly is mounted at the top end of a cabin body of the robot, when the electronic components such as the control board need to be maintained, the upper cover assembly needs to be integrally detached, due to the requirement of aesthetic degree, exposed bolt screws and the like cannot be arranged at the connecting part between the upper cover assembly and a shell and a cabin body of the robot, the connecting structure is relatively complex and hidden, the daily maintenance and maintenance operation of the electronic components such as the control board and the like is difficult and time is consumed, bad experience is brought to users of restaurants, eateries and the like, the using mode of the electronic components is not humanized, and the products cannot be applied to the market in a large quantity.
SUMMERY OF THE UTILITY MODEL
The main objective of the present application is to provide an upper cover assembly and a robot having the same, so as to solve the problem in the prior art that the upper cover assembly needs to be integrally disassembled when an electronic component in the upper cover assembly of the robot is repaired or disassembled.
In order to achieve the above object, according to one aspect of the present application, there is provided an upper cover assembly adapted to a robot, the upper cover assembly being disposed above a cabin assembly of the robot, the cabin assembly including a cabin, a maintenance opening being disposed on a side of the cabin close to the upper cover assembly; the upper cover assembly includes: an upper cover and a support member positioned below the upper cover for supporting the upper cover; the main control board is connected with the supporting piece and is positioned below the supporting piece; the mounting plate face of the main control board, which is provided with a plurality of electronic components, is arranged towards one side far away from the supporting member, so that the electronic components on the main control board can be maintained or disassembled through a maintenance hole in the cabin body of the robot.
Further, the main control board is pre-assembled on the upper cover assembly, and then the upper cover assembly is assembled above the cabin assembly.
Further, the upper cover assembly includes: a control screen module, at least part of which is located between the upper cover and the support, to control the action of the robot by sliding of the user on the control screen of the control screen module; and/or a gesture sensing module, at least part of which is positioned between the upper cover and the supporting piece and is used for receiving gesture instructions sent by a user to control the action of the robot; and/or a physical key module, at least part of which is positioned between the upper cover and the support, and is used for sensing the key action of a user to control the action of the robot; and/or a voice module, at least part of which is positioned between the upper cover and the support, for receiving voice commands issued by a user to control the actions of the robot.
The robot further comprises a main control board, wherein the main control board is connected with the control screen module and used for receiving the control signal from the control screen module and controlling the action of the robot according to the control signal; and/or the main control board is connected with the gesture sensing module and is used for receiving the gesture sensing signal from the control screen module and controlling the action of the robot according to the gesture sensing signal; and/or the main control board is connected with the physical key module and is used for receiving the gesture sensing signal from the control screen module and controlling the action of the robot according to the gesture sensing signal; and/or the main control board is connected with the voice module and used for receiving the sensing signal from the voice module and controlling the action of the robot according to the sensing signal.
According to another aspect of the application, a robot is provided and comprises an AGV trolley, a shell assembly, a cabin body assembly and an upper cover assembly, wherein the shell assembly is located above the AGV trolley, the cabin body assembly is located inside the shell assembly, the upper cover assembly is located above the shell assembly, and the upper cover assembly is the upper cover assembly.
Further, the nacelle assembly comprises: the cabin body is provided with a maintenance port at one side close to the upper cover assembly so as to maintain or replace electronic components on the main control board through the maintenance port; and the maintenance plate is detachably or movably arranged at the maintenance opening on the cabin body and is used for opening or closing the maintenance opening.
Furthermore, the maintenance port comprises a first cavity and a second cavity which are communicated, the first cavity is positioned on one side of the second cavity, which is far away from the upper cover assembly, and the size of the first cavity is larger than that of the second cavity; the maintenance plate comprises a first part positioned in the first cavity and a second part positioned in the second cavity, and the first part of the maintenance plate is detachably connected with the cabin.
Further, the maintenance plate and the cabin are connected through the maintenance plate fastener and/or the maintenance plate buckle.
Further, the upper cover assembly and the cabin body assembly are connected through a plurality of upper cover fasteners, and the cabin body assembly further comprises: a plurality of first columns are arranged on one side, close to the cabin body, of the upper cover assembly, the first columns and the upper cover fasteners are arranged in a one-to-one correspondence mode, and fastening holes for inserting the corresponding upper cover fasteners are formed in each first column; a plurality of second columns are arranged on one side, close to the upper cover assembly, of the cabin body, the second columns are arranged in one-to-one correspondence with the upper cover fasteners, and each second column is provided with a through hole for the corresponding upper cover fastener to penetrate through; each upper cover fastener is inserted into the corresponding fastening hole after passing through the corresponding through hole.
Further, the upper cover assembly and the cabin body assembly are connected through a plurality of upper cover buckles.
Further, the cabin body assembly further comprises an upper plate body which is covered above the cabin body, and a first through hole corresponding to the maintenance port is formed in the upper plate body so as to avoid maintenance or dismounting actions of electronic components in the upper cover assembly.
Further, the cabin body assembly further comprises an upper plate body arranged above the cabin body in a covering mode, a plurality of second through holes are formed in the upper plate body and are arranged in one-to-one correspondence with the second cylinders, and one end of each second cylinder penetrates through the corresponding second through hole and then reaches the upper portion of the upper plate body.
By applying the technical scheme, the upper cover assembly is suitable for the robot, the upper cover assembly is arranged above a cabin body assembly of the robot, the cabin body assembly comprises a cabin body, and a maintenance port is formed in one side, close to the upper cover assembly, of the cabin body; the upper cover assembly includes: an upper cover and a support member positioned below the upper cover for supporting the upper cover; the main control board is connected with the supporting piece and is positioned below the supporting piece; the mounting plate face of the main control board, which is provided with a plurality of electronic components, is arranged towards one side far away from the supporting member, so that the electronic components on the main control board can be maintained or replaced through a maintenance opening in a cabin body of the robot. Therefore, the problems that due to the fact that the upper cover assembly is connected with the shell assembly and the cabin body assembly, the maintenance or dismounting of electronic components such as a control panel and the like in the upper cover assembly needs to integrally dismount the upper cover assembly, and therefore operation is inconvenient and production efficiency is low are solved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:
fig. 1 shows a schematic view of the robot of the present application in a first orientation;
FIG. 2 shows a schematic view of the robot of the present application in a second orientation;
fig. 3 shows a schematic structural view of the robot of the present application in a third orientation;
fig. 4 shows a schematic view of the robot of the present application in a fourth orientation;
FIG. 5 shows a schematic structural view of the robot of the present application when it does not include a retrieval cassette;
FIG. 6 shows a front view of the robot of the present application when it does not include a recovery box;
FIG. 7 shows a close-up view of the robot shown in FIG. 6 at A;
FIG. 8 shows a partial cross-sectional view of the robot shown in FIG. 6 at B;
FIG. 9 shows a schematic view of the AGV configuration of the robot of FIG. 1;
FIG. 10 shows an exploded view of the housing assembly of the robot shown in FIG. 1;
FIG. 11 shows an exploded view of the upper cover assembly of the robot shown in FIG. 1;
FIG. 12 is a schematic view of the upper cover assembly of the robot shown in FIG. 1;
FIG. 13 illustrates a half-sectional view of the lid assembly shown in FIG. 12;
FIG. 14 illustrates a partial enlarged view at C of a half-sectional view of the lid assembly shown in FIG. 13;
FIG. 15 is a schematic structural view showing an eyecup holder of the upper cover assembly shown in FIG. 13;
FIG. 16 shows an exploded view of the cabin assembly of the robot shown in FIG. 1;
FIG. 17 shows a schematic structural view of the separator member shown in FIG. 1;
FIG. 18 shows an exploded view of the bulkhead component shown in FIG. 17;
FIG. 19 is a schematic view showing the construction of the retaining member of the partition member shown in FIG. 17;
FIG. 20 is a schematic view showing the construction of the recovery box of the robot shown in FIG. 1;
FIG. 21 is a schematic view showing the configuration of the tableware collected by the robot shown in FIG. 1; and
fig. 22 shows an exploded view of the image acquisition component shown in fig. 1.
Wherein the figures include the following reference numerals:
1. an AGV trolley;
2. a housing assembly; 21. a front housing; 22. a front decorative panel; 23. a rear housing; 24. a left decorative panel; 25. a right decorative panel; 26. a voice output component; 261. a sound cavity; 262. a horn;
3. an upper cover assembly; 31. a support member; 311. a first groove; 312. a rear lamp panel; 313. an LED light strip; 32. an upper cover; 321. a cover body; 322. a leading edge; 33. a voice module; 331. a voice receiving section; 34. a scram switch; 35. a physical key module; 351. a touch panel; 352. a touch sensor; 36. a gesture sensing module; 361. a light-transmitting plate; 362. a gesture recognition sensor; 37. an expression screen module; 371. an expression screen; 372. an expression screen control panel; 373. an expression fixing box; 374. eye masks; 3741. a first side surface; 3742. a second side surface; 375. an eyeshade support; 3750. a main board body; 3751. a second groove; 3752. a screen avoiding hole; 3753. a side plate body; 3754. a first connecting plate body; 3755. a second connecting plate body; 3756. a flange; 3757. buckling; 3758. a card slot; 38. a control screen module; 381. a control screen; 382. a display box; 39. a main control board;
4. a cabin assembly; 41. a cabin body; 411. a support portion; 412. a limiting part; 413. a stopper portion; 42. a left plate body; 43. a right plate body; 44. an upper plate body; 441. a first through hole; 45. a clamping part; 451. a pin shaft; 452. a boss portion; 46. a maintenance opening; 461. a first cavity; 462. a second cavity; 47. maintaining the plate;
5. a partition member; 51. a partition plate; 52. a support plate; 53. a locking member; 531. a shaft portion; 532. a handle; 533. a hook is clamped; 5331. a card slot; 5332. the end part is open; 534. mounting a plate;
6. a recovery box;
7. an image acquisition section; 71. a depth camera; 72. a fixing plate;
8. a tableware.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.
As shown in fig. 5 to 7 and fig. 11 to 15, the present application provides an upper cover assembly suitable for a robot, the upper cover assembly is disposed above a cabin assembly 4 of the robot, the cabin assembly 4 includes a cabin 41, and a maintenance opening 46 is disposed on one side of the cabin 41 close to the upper cover assembly 3; the upper cover assembly includes: an upper cover 32 and a support 31 located below the upper cover 32 for supporting the upper cover 32; a main control board 39, wherein the main control board 39 is connected with the support member 31 and is positioned below the support member 31; the main control board 39 is provided with a plurality of electronic components on its mounting surface facing away from the support 31, so that the electronic components on the main control board 39 can be repaired or removed through the repair opening 46 in the robot body 41.
The upper cover assembly is suitable for the robot, the upper cover assembly is arranged above a cabin body assembly 4 of the robot, the cabin body assembly 4 comprises a cabin body 41, and a maintenance opening 46 is formed in one side, close to the upper cover assembly 3, of the cabin body 41; the upper cover assembly includes: an upper cover 32 and a support 31 located below the upper cover 32 for supporting the upper cover 32; a main control board 39, wherein the main control board 39 is connected with the support member 31 and is positioned below the support member 31; the mounting plate surface of the main control board 39 on which the plurality of electronic components are mounted is disposed facing a side away from the support member 31, so that the electronic components on the main control board 39 can be repaired or replaced through the repair opening 46 in the body 41 of the robot. Like this, solved because upper cover subassembly and shell subassembly, cabin body subassembly between connection structure's reason, the maintenance or the dismouting of electronic components such as control panel that are located upper cover subassembly 3 need be dismantled upper cover subassembly whole to the inconvenient and lower problem of production efficiency of operation.
Wherein the main control board 39 is pre-assembled on the upper cover assembly 3 and then the upper cover assembly 3 is assembled over the cabin assembly 4. As shown in fig. 5 to 7 and 16, the cabin assembly includes: the electronic components are not arranged in the cabin 41, and a maintenance opening 46 is arranged on one side of the cabin 41 close to the upper cover assembly 3, so that the electronic components in the upper cover assembly 3 can be maintained or disassembled through the maintenance opening 46; a service plate 47, the service plate 47 being detachably or movably provided at a service opening 46 on the nacelle 41 for opening or closing the service opening 46. Therefore, the problems that due to the fact that the upper cover assembly is connected with the shell assembly and the cabin body assembly, the maintenance or dismounting of electronic components such as a control panel and the like in the upper cover assembly 3 needs to integrally dismount the upper cover assembly, so that the operation is inconvenient and the production efficiency is low are solved.
In addition, the maintenance board 47 is arranged so that when a user washes or wipes the interior of the cabin 41 with water, the water does not directly flow to the electronic components in the upper cover assembly 3, thereby achieving a certain waterproof function.
Preferably, the cabin 41 is formed by an integral forming process.
Preferably, the tank 41 is made of a material that is easy to clean, such as at least one of plastic and metal, so as to clean the tank 41.
As shown in fig. 16, the cabin 41 includes a cabin top plate, a cabin bottom plate and a cabin side plate, the cabin top plate and the cabin bottom plate are arranged at intervals, and the cabin side plate is arranged around the space between the cabin top plate and the cabin bottom plate to jointly enclose a cabin space and a cabin opening communicated with the cabin space; wherein, the cabin body top plate and the cabin body bottom plate are welded or injection molded with the cabin body side plates to form an integral structure, and the maintenance port 46 and the maintenance plate 47 are arranged on the cabin body top plate to form a closed structure outside the cabin body opening so as to prevent water leakage during cleaning.
As shown in fig. 7, the service opening 46 includes a first cavity 461 and a second cavity 462 communicating with each other, the first cavity 461 is located on a side of the second cavity 462 away from the upper cover assembly 3, and the size of the first cavity 461 is larger than that of the second cavity 462; the service plate 47 includes a first portion positioned within the first cavity 461 and a second portion positioned within the second cavity 462, with the first portion of the service plate 47 being removably coupled to the nacelle 41.
The first cavity 461 and the second cavity 462 are rectangular cavities, and the "size of the first cavity 461 is larger than that of the second cavity 462" means that: the length of the first cavity 461 is greater than the length of the second cavity 462, and the width of the first cavity 461 is greater than the width of the second cavity 462.
Optionally, the service plate 47 and the nacelle 41 are snap-connected by a service plate fastener and/or a service plate.
As shown in fig. 16, the upper cover assembly 3 and the cabin assembly are connected by a plurality of upper cover fasteners, and the cabin assembly further comprises: a plurality of first columns are arranged on one side, close to the cabin body 41, of the upper cover assembly 3, the plurality of first columns and the plurality of upper cover fasteners are arranged in a one-to-one correspondence manner, and fastening holes for inserting the corresponding upper cover fasteners are formed in each first column; a plurality of second cylinders are arranged on one side, close to the upper cover assembly 3, of the cabin body 41, the second cylinders are arranged in one-to-one correspondence with the upper cover fasteners, and each second cylinder is provided with a through hole for the corresponding upper cover fastener to pass through; each upper cover fastener is inserted into the corresponding fastening hole after passing through the corresponding through hole.
In addition, the upper cover assembly 3 and the cabin assembly can be connected through a plurality of upper cover buckles.
As shown in fig. 16, the cabin assembly further includes an upper plate 44 covering the cabin 41, and the upper plate 44 is provided with a first through hole 441 corresponding to the maintenance opening 46 to avoid the maintenance or disassembly operation of the electronic components in the upper cover assembly 3.
As shown in fig. 16, the cabin assembly further includes an upper plate 44 covering the cabin 41, the upper plate 44 is provided with a plurality of second through holes, the second through holes and the second columns are arranged in a one-to-one correspondence, and one end of each second column passes through the corresponding second through hole and then reaches the upper side of the upper plate 44.
As shown in fig. 16, the cabin assembly further includes a left plate 42 and a right plate 43 respectively disposed on two opposite sides of the cabin 41 and connected to the cabin 41, the upper sides of the left plate 42 and the right plate 43 are fixedly connected to the upper plate 44, and the lower sides of the left plate 42 and the right plate 43 are fixedly connected to the AGV trolley 1 of the robot, so as to fix the cabin 41 on the AGV trolley 1.
As shown in fig. 1 to 22, the present application provides a robot, which includes an AGV cart 1, a shell assembly 2, a cabin assembly 4 and an upper cover assembly 3, wherein the shell assembly 2 is located above the AGV cart 1, the cabin assembly 4 is located inside the shell assembly 2, the upper cover assembly 3 is located above the shell assembly 2, a plurality of electronic components are arranged in the upper cover assembly 3, and the upper cover assembly 3 is assembled above the shell assembly 2 after the plurality of electronic components are pre-assembled in the upper cover assembly 3; the tank assembly 4 further comprises a partition member 5, wherein the partition member 5 is detachably mounted in the tank 41 for cleaning the tank 41.
Wherein, a supporting portion 411 is disposed in the cabin space of the cabin 41, and the supporting portion 411 includes two supporting protrusions respectively disposed on two opposite sides of the cabin 41 for supporting the partition 51.
The robot of this application is an intelligence tableware recovery robot, and the main scene of using is occasions such as dining room, restaurant, tea-house, and drive wheel and universal wheel are installed to 1 bottom of AGV dolly, can walk according to the automatic of predetermined control procedure to the realization is to the recovery of tableware.
Preferably, the number of the supporting parts 411 is M, and a plurality of the supporting parts 411 are arranged at intervals along the extending direction of the cabin 41; n partition parts 5 are provided, M is more than or equal to N and more than or equal to 1, and the N partition parts 5 can be selectively and respectively placed on any N supporting parts 411 in the M supporting parts 411 to divide the cabin body 41 into (N +1) containing spaces. Therefore, the function of partition adjustment of the cabin space is realized by adjusting the number and the positions of the partition plate parts 5, and the problem that the cabin space cannot be utilized to the maximum extent due to irregular distribution and poor smoothness in the cabin, so that the space is limited when the recovered tableware is placed is solved.
Specifically, a locking member 53 is arranged on one of the partition plate 51 and the cabin body 41, a clamping portion 45 is arranged on the other of the partition plate 51 and the cabin body 41, and the locking member 53 is movably arranged, so that the clamping groove 5331 on the locking member 53 is connected with or separated from the clamping portion 45, and the partition plate 51 and the cabin body 41 are locked or unlocked, thereby solving the problem that a recovery cabin supporting plate or a partition plate of a robot in the prior art is not easy to disassemble and assemble, and enabling the partition plate component to be more convenient to clean.
Wherein, retaining member 53 and joint portion 45 all are located the below of baffle 51 to avoid the object that prevents above baffle 51.
In at least one embodiment of the present application, the retaining member 53 is disposed on the partition member 5, and the retaining portion 45 is disposed on the cabin 41.
Preferably, the quantity of retaining member 53 and joint portion 45 is two, and two retaining members 53 and two joint portions 45 are equally divided and are located the relative both sides of baffle 51 respectively.
As shown in fig. 8, the locker 53 includes: a mounting plate 534 for mounting on the partition plate 51 or the nacelle 41; a shaft portion 531 rotatably provided on the mounting plate 534; the hook 533 is connected to the shaft 531 to rotate with the shaft 531, and the slot 5331 is located on the hook 533 to move with the hook 533.
Preferably, the locking member 53 further comprises a handle 532, and the handle 532 is connected to the hook 533 so that the hook 533 can be rotated by the handle 532.
Specifically, the hook 533 is further provided with an end opening 5332 communicating with the slot 5331, so that the clamping portion 45 enters or leaves the slot 5331 through the end opening 5332.
When the clamping portion 45 enters the clamping groove 5331 and the handle 532 does not rotate, the groove body of the arc-shaped groove body can keep the relative position of the clamping portion 45 and the clamping groove 5331 unchanged so as not to be pulled out of the clamping groove 5331; the locking groove 5331 further includes an avoiding opening facing a side away from the partition 51, and the avoiding opening is an arc-shaped opening, so that when a part of the locking portion 45 is located in the locking groove 5331, the hook 533 can move relative to the locking portion 45 under the driving of the handle 532.
As shown in fig. 8, the fastening portion 45 includes a protrusion portion 452 and a pin 451, the protrusion portion 452 is disposed on the cabin 41 and located on the inner side of the cabin 41, and the pin 451 is disposed on the protrusion portion 452 and spaced from the inner wall surface of the cabin 41, so that a side wall surface of the fastening groove 5331 passes through the pin 451.
When the partition board 5 and the cabin 41 need to be locked, no matter the hook 533 is driven by the handle 532 to rotate around the axis of the shaft portion 531 in the forward direction or in the reverse direction, one end of the pin 451 can enter the slot 5331 through the end opening 5332 at one end of the slot 5331; when the partition member 5 and the cabin 41 need to be unlocked, no matter the hook 533 is driven by the handle 532 to rotate around the axis of the shaft portion 531 in the forward direction or in the reverse direction, the one end of the pin 451 can leave the slot 5331 through the end opening 5332 located at one end of the slot 5331. Like this, the partition plate part 5 of this application simple structure, operation and easy dismounting are favorable to realizing fast partition plate part 5 and locking and unblock between, improve partition plate part 5's cleaning efficiency.
As shown in fig. 16, a limiting portion 412 is disposed in the cabin space of the cabin 41, the limiting portion 412 is disposed corresponding to the supporting portion 411, the limiting portion 412 is disposed above the corresponding supporting portion 411 at an interval, and the limiting portion 412 includes two limiting protrusions respectively disposed on two opposite sides of the cabin 41 to limit the movement of the partition board 51 in the direction away from the supporting portion 411.
Preferably, the number of the supporting portions 411 and the limiting portions 412 is multiple, and the supporting portions 411 and the limiting portions 412 are arranged at intervals along the extending direction of the cabin 41.
As shown in fig. 16, the cabin 41 has a cabin opening spatially communicated with the cabin, a stopping portion 413 is disposed on a wall surface of a side of the cabin 41 far away from the cabin opening, the stopping portion 413 is disposed corresponding to the supporting portion 411 and above the corresponding supporting portion 411, and the partition board component 5 is placed on the supporting portion 411 through the cabin opening and abuts against the stopping portion 413.
Preferably, the number of the supporting portions 411 and the stopping portions 413 is plural, and the plural supporting portions 411 and the plural stopping portions 413 are arranged at intervals along the extending direction of the nacelle 41.
As shown in fig. 17 and 18, the partition member 5 further includes a support plate 52 disposed below the partition 51, the support plate 52 being connected to the partition 51. To support the partition plate 51 to reinforce the strength of the partition plate 51.
As shown in fig. 2 to 4 and 20, a recovery box 6 for containing the recovered dishes 8 is further provided in the chamber 41, and the recovery box 6 is placed on the partition member 5 to support the recovery box 6 by the partition member 5.
As shown in fig. 11 and 13, the robot of the present application includes: a manipulation screen module 38 to control the motion of the robot by the sliding of the user on a manipulation screen 381 of the manipulation screen module 38; and/or a gesture sensing module 36, configured to receive a gesture command issued by a user to control an action of the robot; and/or a physical key module 35 for sensing a key motion of a user to control a motion of the robot; and/or a voice module 33 for receiving voice commands issued by the user to control the actions of the robot. Like this, when user's both hands often can be by the tableware, when kitchen is dirty so that be not convenient for operate control screen 381, the user still can control the action of control robot through gesture response module 36 and/or physics button module 35 and/or voice module 33, the problem of recovery robot among the prior art need clean the touch panel that can only be operated when making dirty or making wet hand has been solved, it is comparatively single also to have solved the operation mode of tableware recovery robot among the prior art, can not adapt to the daily complicated changeable service environment of catering trade.
As shown in fig. 11 and 13, the robot comprises a cover assembly 3, wherein at least part of the dashboard module 38 is located within the cover assembly 3; and/or at least part of the gesture sensing module 36 is located within the upper cover assembly 3; and/or at least part of the physical key module 35 is located within the upper cover assembly 3; and/or at least part of the speech module 33 is located within the cover assembly 3.
The upper cover assembly 3 comprises an upper cover 32 and a support 31 for supporting the upper cover 32, wherein the upper cover 32 is provided with a control screen avoiding hole for avoiding the control screen module 38 for operation of a user; and/or the upper cover 32 is provided with a gesture sensing avoidance hole for avoiding the gesture sensing module 36 so that the gesture sensing module 36 can sense the operation of the user; and/or the upper cover 32 is provided with a physical key avoidance hole for avoiding the physical key module 35 for the user to operate; and/or the upper cover 32 is provided with a voice avoiding hole for avoiding the voice module 33 so that the voice module 33 can receive the voice command of the user.
As shown in fig. 11 and 13, the dashboard module 38 includes a dashboard 381 and a display box 382, and the dashboard 381 is mounted on the upper cover assembly 3 through the display box 382.
As shown in fig. 11 and 13, the gesture sensing module 36 includes a gesture recognition sensor 362 disposed in the upper cover assembly 3 and a transparent plate 361 covering the gesture recognition sensor 362, and the gesture recognition sensor 362 receives a gesture image of a user from the outside of the upper cover assembly 3 through the transparent plate 361. Thus, when the user does not conveniently touch the robot, the user can control the moving direction or start and stop actions of the robot by being close to the light-transmitting plate 361.
As shown in fig. 11 and 13, the physical key module 35 includes a touch pad 351 and a touch sensor 352, and the user controls the motion of the robot by contacting the positions of different keys on the touch pad 351.
As shown in fig. 11 and 13, the voice module 33 includes a voice receiving part 331 and a voice output part 26, and the robot performs voice interaction with the user through the voice receiving part 331 and the voice output part 26. Therefore, when the user is inconvenient to contact the robot, the user can control the motion direction or start and stop actions of the robot through voice at intervals.
As shown in fig. 11 and fig. 13, the robot further includes a main control board 39, wherein the main control board 39 is connected to the control panel module 38 for receiving the control signal from the control panel module 38 and controlling the action of the robot according to the control signal; and/or the main control board 39 is connected with the gesture sensing module 36, and is used for receiving the gesture sensing signal from the control screen module 38 and controlling the motion of the robot according to the gesture sensing signal; and/or the main control board 39 is connected with the physical key module 35, and is used for receiving the gesture sensing signal from the control screen module 38 and controlling the action of the robot according to the gesture sensing signal; and/or the main control board 39 is connected to the voice module 33, and is configured to receive sensing signals from the console module 38 and/or the gesture sensing module 36 and/or the physical button module 35 and/or the voice module 33, and control the robot to move according to the sensing signals.
Specifically, the robot includes an upper cover assembly 3, and a main control board 39 is provided inside the upper cover assembly 3. Wherein the main control board 39 is fixed in the support member 31 and is located at one side of the support member 31 close to the cabin assembly 4 of the robot.
As shown in fig. 11 to 14, the robot further includes an expression screen module 37 for simulating various expressions of the human.
Specifically, the emoticon module 37 includes: the expression screen 371 is used for displaying various expressions; the expression screen control panel 372, the expression screen control panel 372 is connected with the expression screen 371 to control the display content of the expression screen 371.
Specifically, the robot includes upper cover subassembly 3, and expression screen module 37 still includes expression fixed box 373, and expression screen 371 and expression screen control panel 372 are all fixed in upper cover subassembly 3 through expression fixed box 373.
As shown in fig. 11 to 15, the upper cover assembly 3 of the present application further includes an eyecup member provided between the upper cover 32 and the support 31 for supporting the upper cover 32 in the upper cover assembly 3 of the robot, the eyecup member including: an eye cover 374 covering the outside of the screen inside the upper cover assembly 3; an eye cup holder 375 disposed between the upper cover 32 and the support 31 for supporting the eye cup 374; wherein, one of the upper cover 32 and the support 31 is provided with a first groove 311, and the first side of the eyecup 374 is inserted in the first groove 311; one side of the eye mask bracket 375 close to the other one of the upper cover 32 and the support 31 is provided with a second groove 3751, the second side of the eye mask 374 is inserted into the second groove 3751 so as to fix the eye mask 374 through the first groove 311 and the second groove 3751, and the problem that the front eye mask of the expression screen of the robot in the prior art is generally fixed on the robot through a screw structure, exposed screws can damage the attractiveness of the overall appearance of the robot, and the problem that the front eye mask of the expression screen of the robot in the prior art is inconvenient to disassemble in the installation mode is also solved.
Specifically, a side of the eye-cup holder 375 close to the first side of the eye cup 374 and the first side of the eye cup 374 are commonly inserted in the first groove 311; the side of the eye cup holder 375 adjacent to the second side of the eye cup 374 is snapped onto the upper cover 32 or the support 31.
As shown in fig. 13 and 14, the first groove 311 is provided on the support 31 and the notch of the first groove 311 is provided toward the upper cover 32 for insertion of the first side of the eye cup 374; second recess 3751 is located on a side of eyecup holder 375 adjacent upper cover 32 and the notch of second recess 3751 is disposed toward support 31 for insertion of the second side of eyecup 374.
As shown in fig. 15, the eyecup holder 375 includes: a main board body 3750, the main board body 3750 is located between the eyecup 374 and the screen, and a side board body 3753 is located on one side of the main board body 3750 away from the screen and on one side of the main board body 3750 close to the second side of the eyecup 374; a first connecting plate 3754 parallel to the side plate 3753 and located on one side of the main plate 3750 close to the side plate 3753; a second connecting plate 3755 parallel to the main plate 3750 and located on the side of the side plate 3753 close to the main plate 3750; the main board body 3750, the first connecting board body 3754, the second connecting board body 3755 and the side board body 3753 are sequentially connected to form a second recess 3751.
Specifically, the upper cover 32 includes a cover body 321 and a front edge 322, the front edge 322 is located at one side of the cover body 321 close to the support 31, wherein one side of the side plate body 3753 away from the main plate body 3750 is provided with a flange 3756 for abutting against the inner side of the front edge 322; and/or one of the side plate 3753 and the front edge 322 is provided with a buckle 3757, and the other of the side plate 3753 and the front edge 322 is provided with a projection for snap-fitting with the snap 3758 of the buckle 3757, so that the eyecup holder 375 is fixed on the upper cover 32 by the cooperation of the buckle 3757 and the projection.
In at least one embodiment of the present application, the snap 3757 is disposed on the side plate 3753 and located on a side of the side plate 3753 away from the main plate 3750, and the protrusion is disposed on the front edge 322 and located inside the front edge 322; and/or the number of the catches 3757 and the protrusions is multiple, and the multiple catches 3757 and the multiple protrusions are arranged at intervals along the extending direction of the second groove 3751.
As shown in fig. 15, the eyecup holder 375 includes a main plate 3750 between the eyecup 374 and the screen, the main plate 3750 is provided with a screen escape hole 3752 for escaping the screen, and light emitted from the screen passes through the screen escape hole 3752 and reaches the eyecup 374.
As shown in fig. 11, the eye cover 374 is made of a transparent or translucent material; and/or the eyecup 374 is a curved plate including a first curved surface and a second curved surface located at a side of the first curved surface close to the inside of the upper cover assembly 3, both the first curved surface and the second curved surface protruding toward the outside of the upper cover assembly 3.
Specifically, the eye cup 374 includes a first side surface 3741 and a second side surface 3742 provided around the circumference of the main body of the eye cup 374, the first side surface 3741 being located on a first side of the eye cup 374, the second side surface 3742 being located on a second side of the eye cup 374, both ends in the extending direction of the first side surface 3741 being connected to both ends in the extending direction of the second side surface 3742, respectively, to together enclose the outer circumferential surface of the main body of the eye cup 374; the distance between the first lateral surface 3741 and the second lateral surface 3742 gradually decreases from the middle of the first lateral surface 3741 toward the two ends or from the middle of the second lateral surface 3742 toward the two ends.
The attachment sequence of the ocular shield components of the present application is as follows:
first, the upper side of eyecup 374 is inserted into second recess 3751 of eyecup holder 375; then, the upper side of the eyecup holder 375 is embedded in the upper cover 32; then, the eyecup 374 and the underside of the eyecup holder 375 are fitted into the first groove 311; finally, the eyecup holder 375 and the support 31 are connected by a fastener.
As shown in fig. 10, the housing assembly 2 includes a front housing 21, a rear housing 23, a left decorative plate 24 and a right decorative plate 25 connected in sequence to jointly form a housing space for accommodating the cabin assembly 4, and a front decorative plate 22 is further disposed on the front housing 21.
As shown in fig. 11, an emergency stop switch 34 is further provided on the upper cover assembly 3 for starting and stopping the robot in an emergency.
As shown in fig. 11, the cover assembly 3 further includes a rear lamp plate 312 and an LED strip 313 provided between the cover 32 and the support 31, the rear lamp plate 312 and the LED strip 313 being located on a side of the cover assembly 3 close to the rear case 23 of the housing assembly 2, and the eyecup member being located on a side of the cover assembly 3 close to the front case 21 of the housing assembly 2.
As shown in fig. 1, the housing assembly 2 is provided with an image acquisition part 7 for acquiring image information of the outside of the robot; as shown in fig. 22, the image pickup section 7 includes a depth camera 71 and a fixing plate 72, the fixing plate 72 being mounted on the front case 21, the depth camera 71 being mounted on the fixing plate 72.
As shown in fig. 10, the housing assembly 2 is provided with a voice output part 26 for outputting voice to the outside; wherein, the voice output part 26 comprises a voice cavity 261 and a loudspeaker 262, and the voice output part 26 is arranged on both the front shell 21 and the rear shell 23 to realize multi-directional voice output.
From the above description, it can be seen that the above-described embodiments of the present application achieve the following technical effects:
the upper cover assembly is suitable for the robot, the upper cover assembly is arranged above a cabin body assembly 4 of the robot, the cabin body assembly 4 comprises a cabin body 41, and a maintenance opening 46 is formed in one side, close to the upper cover assembly 3, of the cabin body 41; the upper cover assembly includes: an upper cover 32 and a support 31 located below the upper cover 32 for supporting the upper cover 32; a main control board 39, wherein the main control board 39 is connected with the support 31 and is positioned below the support 31; the main control board 39 is provided with a plurality of electronic components on its mounting surface facing away from the support member 31, so that the electronic components on the main control board 39 can be repaired or replaced through a repair opening 46 in the robot body 41. Therefore, the problems that due to the fact that the upper cover assembly is connected with the shell assembly and the cabin body assembly, the maintenance or dismounting of electronic components such as a control panel and the like in the upper cover assembly 3 needs to integrally dismount the upper cover assembly, so that the operation is inconvenient and the production efficiency is low are solved.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
In the description of the present application, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience of description and simplicity of description only, and in the case of not making a reverse description, these directional terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be considered as limiting the scope of the present application; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.
Spatially relative terms, such as "above … …", "above … …", "above … …, on a surface", "above", and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of protection of the present application is not to be construed as being limited.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (10)
1. An upper cover assembly is suitable for a robot, and is arranged above a cabin body assembly of the robot, the cabin body assembly comprises a cabin body, and one side of the cabin body, which is close to the upper cover assembly, is provided with a maintenance opening; the upper cover assembly includes:
an upper cover and a support member located below the upper cover for supporting the upper cover;
the main control board is connected with the supporting piece and is positioned below the supporting piece;
the mounting panel face orientation that is provided with a plurality of electronic components of main control board is kept away from one side setting of supporting part, in order to pass through on the cabin body of robot the maintenance mouth is right electronic components on the main control board maintains or the dismouting.
2. The lid assembly of claim 1, wherein the lid assembly comprises:
a dashboard module, at least a portion of the dashboard module being located between the upper cover and the support to control the motion of the robot by sliding of a user on a dashboard of the dashboard module;
the gesture sensing module is at least partially positioned between the upper cover and the supporting piece and used for receiving gesture instructions sent by a user to control the action of the robot; and/or
A physical key module, at least part of which is located between the upper cover and the support, for sensing a key motion of a user to control a motion of the robot; and/or
A voice module, at least a portion of the voice module being located between the upper cover and the support, for receiving voice commands issued by a user to control the actions of the robot.
3. The cover assembly of claim 2, wherein the robot further comprises a master control board, wherein,
the main control board is connected with the control screen module and used for receiving control signals from the control screen module and controlling the action of the robot according to the control signals; and/or
The main control board is connected with the gesture sensing module and used for receiving a gesture sensing signal from the control screen module and controlling the action of the robot according to the gesture sensing signal; and/or
The main control board is connected with the physical key module and is used for receiving gesture sensing signals from the control screen module and controlling the robot to act according to the gesture sensing signals; and/or
The main control board is connected with the voice module and used for receiving the induction signals from the voice module and controlling the robot to act according to the induction signals.
4. A robot comprising an AGV cart, a housing assembly, a pod assembly, and an upper cover assembly, the housing assembly being located above the AGV cart, the pod assembly being located inside the housing assembly, the upper cover assembly being located above the housing assembly, the upper cover assembly being as claimed in any one of claims 1 to 3.
5. The robot of claim 4, wherein the capsule assembly comprises:
a maintenance opening is formed in one side, close to the upper cover assembly, of the cabin body, so that electronic components on the main control board can be maintained or replaced through the maintenance opening;
a service plate detachably or movably provided at the service opening on the cabin for opening or closing the service opening.
6. Robot according to claim 5,
the maintenance opening comprises a first cavity and a second cavity which are communicated, the first cavity is positioned on one side of the second cavity, which is far away from the upper cover assembly, and the size of the first cavity is larger than that of the second cavity;
the maintenance plate comprises a first part positioned in the first cavity and a second part positioned in the second cavity, and the first part of the maintenance plate is detachably connected with the cabin.
7. A robot according to claim 5, characterized in that the service plate and the cabin are connected by service plate fasteners and/or service plate snap connections.
8. The robot of claim 5, wherein the upper cover assembly and the pod assembly are connected by a plurality of upper cover fasteners, the pod assembly further comprising:
a plurality of first columns are arranged on one side, close to the cabin body, of the upper cover assembly, the first columns and the upper cover fasteners are arranged in a one-to-one correspondence mode, and fastening holes for inserting the corresponding upper cover fasteners are formed in each first column;
a plurality of second columns are arranged on one side, close to the upper cover assembly, of the cabin body, the second columns are arranged in one-to-one correspondence with the upper cover fasteners, and each second column is provided with a through hole for the corresponding upper cover fastener to penetrate through;
and each upper cover fastener is inserted into the corresponding fastening hole after passing through the corresponding through hole.
9. The robot of claim 5, wherein the capsule assembly further comprises an upper plate body covering the capsule, and the upper plate body is provided with a first through hole corresponding to the maintenance port to avoid maintenance or disassembly of electronic components in the upper cover assembly.
10. The robot of claim 8, wherein the cabin assembly further comprises an upper plate body covering the cabin, the upper plate body is provided with a plurality of second through holes, the second through holes are arranged in one-to-one correspondence with the second columns, and one end of each second column passes through the corresponding second through hole and then reaches the upper part of the upper plate body.
Priority Applications (1)
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CN202122895075.9U CN217256290U (en) | 2021-11-23 | 2021-11-23 | Upper cover subassembly and have its robot |
Applications Claiming Priority (1)
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CN202122895075.9U CN217256290U (en) | 2021-11-23 | 2021-11-23 | Upper cover subassembly and have its robot |
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