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CN210185494U - Power transmission device of mopping robot - Google Patents

Power transmission device of mopping robot Download PDF

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Publication number
CN210185494U
CN210185494U CN201920471941.1U CN201920471941U CN210185494U CN 210185494 U CN210185494 U CN 210185494U CN 201920471941 U CN201920471941 U CN 201920471941U CN 210185494 U CN210185494 U CN 210185494U
Authority
CN
China
Prior art keywords
flange
hinge
lead screw
screw
mopping
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201920471941.1U
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Chinese (zh)
Inventor
Dongzhen Xu
徐东镇
Mingxian Li
李明贤
Wei'an Chen
陈伟安
Jun Huang
黄�俊
Ran Liu
刘然
Jianping Zhou
周建平
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hefei University of Technology
Original Assignee
Hefei University of Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hefei University of Technology filed Critical Hefei University of Technology
Priority to CN201920471941.1U priority Critical patent/CN210185494U/en
Application granted granted Critical
Publication of CN210185494U publication Critical patent/CN210185494U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a power transmission of mopping robot mainly comprises vertical bearing, flange, T8 lead screw, gear motor, crawler wheel device, hinge, disc, mop head motor, mop head. The power transmission device of the mopping robot of the utility model has the advantages that the speed reduction motor is connected with the lead screw through the shaft coupling to transmit the rotary motion, the flange connects the hinge with the motion of the lead screw to generate the lead screw motion to convert the rotary motion into the linear motion; the transverse movement speed of the connector is adjusted by controlling the rotating speed of the speed reducing motor, and finally the movement mode of the hinge is controlled through simulation, so that the hinge is stretched and contracted, and the long and narrow position is cleaned.

Description

Power transmission device of mopping robot
Technical Field
The invention relates to a mopping machine device, in particular to a power transmission device of a mopping robot for cleaning places with more gaps, such as large machine rooms.
Background
With the continuous development of modern life science and technology, various robots are developed rapidly, and particularly, related products of household floor sweeping robots are abundant. However, in the existing cleaning robots, the number of robots capable of realizing the automatic intelligent floor mopping function is not large, and most of the robots have the defects of small cleaning range and low cleaning degree. We propose a humanoid mopping mechanism to compensate for the defect.
Related patent documents are found, most of cleaning machine devices at present adopt cleaning devices similar to rotary disc brush heads, the structure of the invention is improved on the basis of the related patent documents, the structure of the invention is firstly proposed in related fields, and the cleaning of a long and narrow space is realized by adopting a mode of driving the rotary disc brush heads by virtue of hinge contraction; the invention overcomes the defect that a single turntable brush head cannot clean a long and narrow space, and can effectively clean the ground by human-like mopping motion.
Disclosure of Invention
The invention provides a power transmission device of a mopping robot, and aims to solve the problem that a traditional cleaning robot cannot effectively clean a long and narrow space of a specific place.
The power transmission device of the mopping robot comprises a left crawler wheel device, a left vertical bearing, a left flange, a T8 left screw, a disc, a left speed reducing motor, a right speed reducing motor, a T8 right screw, a right flange, a right vertical bearing, a hinge and a right crawler wheel device; the left flange and the right flange move left and right along with the positive and negative rotation of the T8 left lead screw and the T8 right lead screw; the left flange and the right flange are special structural parts obtained by 3D printing, so that the hinge can freely stretch and retract under the left-right movement of the flanges; it is characterized in that: the mechanism consists of a lead screw transmission mechanism part and a hinge floor mopping mechanism part;
the screw transmission mechanism part consists of a left vertical bearing, a left flange, a T8 left screw, a left speed reducing motor, a right speed reducing motor, a T8 right screw, a right flange, a right vertical bearing and a hinge; the left speed reducing motor and the right speed reducing motor are respectively connected with a T8 left lead screw and a T8 right lead screw through a left coupling and a right coupling; the left flange and the T8 left screw form screw transmission, the right flange and the T8 right screw also form screw transmission, and rotary motion is converted into linear motion;
the hinge floor mopping mechanism part consists of a left flange, a right flange and a hinge; the left flange is connected with the left section of the hinge to form a revolute pair; the right flange is connected with the right end of the hinge to form a revolute pair; the telescopic and cleaning paths of the hinge floor mopping mechanism are controlled by adjusting the transverse motion of the left end and the right end of the hinge; the top end of the mop head motor is connected with the mop head motor to control the cleaning circuit of the rotary mop head.
The beneficial effects of the invention are: the hinge is combined with the screw rod, and then the rotating speed of the motor is adjusted to simulate the mop head and control the motion track of the mop head. And the path control of the moving crawler trolley is added, so that the coordination of the moving path and the moving direction of the mop head is realized, the function of gap sweeping is realized, and the cleaning degree and the cleaning effect of the mopping robot are improved.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Description of reference numerals: the crawler-belt wheel device comprises a left crawler-belt wheel device 1, a left vertical bearing 2, a left flange 3, a left lead screw 4T8, a disc 5, a left speed reducing motor 6, a right speed reducing motor 7, a right lead screw 8T8, a right flange 9, a right vertical bearing 10, a hinge 11 and a right crawler-belt wheel device 12.
Detailed Description
The invention is further described by way of example with reference to the accompanying drawings in which: see fig. 1.
The intelligent mopping mechanism provided by the invention comprises a lead screw transmission mechanism and a hinge mopping mechanism, wherein the lead screw transmission mechanism mainly comprises a left vertical bearing 2, a left flange 3, a T8 left lead screw 4, a left speed reducing motor 6, a right speed reducing motor 7, a T8 right lead screw 8, a right flange 9, a right vertical bearing 10 and a hinge 11; the left speed reducing motor 6 and the right speed reducing motor 7 are respectively connected with a T8 left lead screw 4 and a T8 right lead screw 8 through left and right couplers; the left flange 3 and the T8 left lead screw 4 form lead screw transmission, the right flange 9 and the T8 right lead screw 8 also form lead screw transmission, and rotary motion is converted into linear motion. The hinge mopping mechanism part consists of a left flange 3, a right flange 9 and a hinge 11; the left flange 3 is connected with the left section of the hinge 11 to form a revolute pair; the right flange 9 is connected with the right end of the hinge 11 to form a revolute pair; the extension and contraction of the hinge floor mopping mechanism are controlled by adjusting the transverse movement of the left end and the right end of the hinge 11.
The mechanism during operation, left gear motor 6 and the circular telegram of right gear motor 7, left gear motor 6 drives the 4 anticlockwise rotations of T8 left lead screw through left shaft coupling, right gear motor 7 drives the 8 clockwise rotations of T8 right lead screw through right shaft coupling, the 4 anticlockwise drives flange 2 and removes to being close to left gear motor 6 direction of T8 left lead screw, T8 right lead screw 8 drives flange 9 clockwise and removes to being close to left gear motor 6 direction, the hinge stretches out, limit switch control motor on the motor stops rotatoryly simultaneously, accomplish the process of stretching out of hinge.
When the hinge finishes work and needs to be withdrawn, the left speed reducing motor 6 and the right speed reducing motor 7 are powered off, the left speed reducing motor 6 drives the T8 left lead screw 4 to rotate clockwise through the left coupler, the right speed reducing motor 7 drives the T8 right lead screw 8 to rotate anticlockwise through the right coupler, the T8 left lead screw 4 drives the flange 2 clockwise to move towards the direction away from the left speed reducing motor 6, the T8 right lead screw 8 drives the flange 9 anticlockwise to move towards the direction away from the left speed reducing motor 6, the hinge is withdrawn, the limit switch control motor stops rotating, and the hinge restores to the original position. The mechanisms are relatively fixed on the disc 5, and the left crawler wheel device 1 and the right crawler wheel device 12 are used for carrying out integral movement of the device.

Claims (3)

1.一种拖地机器人的动力传动装置,包括左履带车轮装置(1)、左立式轴承(2)、左法兰(3)、T8左丝杠(4)、圆盘(5)、左减速电机(6)、右减速电机(7)、T8右丝杠(8)、右法兰(9)、右立式轴承(10)、铰链(11)、右履带车轮装置(12);所述左法兰(3)与所述右法兰(9)随所述T8左丝杠(4)与所述T8右丝杠(8)的正反转动发生左右移动;所述左法兰(3)与所述右法兰(9)是3D打印而得的特殊结构零件,使将得所述铰链(11)在所述法兰(9)的左右移动下,可以自由伸缩;其特征在于该机构由丝杠传动机构部分和铰链拖地机构部分组成。1. A power transmission device for a mopping robot, comprising a left crawler wheel device (1), a left vertical bearing (2), a left flange (3), a T8 left screw (4), a disc (5), Left gear motor (6), right gear motor (7), T8 right screw (8), right flange (9), right vertical bearing (10), hinge (11), right track wheel device (12); The left flange (3) and the right flange (9) move left and right with the forward and reverse rotation of the T8 left screw (4) and the T8 right screw (8); the left flange (3) The right flange (9) and the right flange (9) are special structural parts obtained by 3D printing, so that the hinge (11) can freely expand and contract under the left and right movement of the flange (9). It is that the mechanism consists of a lead screw transmission mechanism part and a hinge mopping mechanism part. 2.根据权利要求1所述的一种拖地机器人的动力传动装置,其特征在于所述的丝杠传动机构部分由左立式轴承(2)、左法兰(3)、T8左丝杠(4)、左减速电机(6)、右立式轴承(10)、右法兰(9)、T8右丝杠(8)、右减速电机(7)、铰链(11)组成;其中所述左减速电机(6)与所述右减速电机(7)通过左右联轴器分别于与所述T8左丝杠(4)和所述T8右丝杠(8)连接;所述左法兰(3)与所述T8左丝杠(4)组成丝杠传动,所述右法兰(9)与所述T8右丝杠(8)也组成丝杠传动,将回转运动转化为直线运动。2. The power transmission device of a mopping robot according to claim 1, wherein the lead screw transmission mechanism is partially composed of a left vertical bearing (2), a left flange (3), a T8 left lead screw (4), the left deceleration motor (6), the right vertical bearing (10), the right flange (9), the T8 right screw (8), the right deceleration motor (7), and the hinge (11); The left deceleration motor (6) and the right deceleration motor (7) are respectively connected with the T8 left lead screw (4) and the T8 right lead screw (8) through left and right couplings; the left flange ( 3) A lead screw transmission is formed with the T8 left lead screw (4), and the right flange (9) and the T8 right lead screw (8) are also constituted as a lead screw transmission to convert rotary motion into linear motion. 3.根据权利要求1所述的一种拖地机器人的动力传动装置,其特征在于所述的铰链拖地机构部分由左法兰(3)、右法兰(9)、铰链(11)组成;所述左法兰(3)与所述铰链(11)左段连接,形成转动副;所述右法兰(9)与所述铰链(11)右端连接,也形成转动副;通过对所述铰链(11)左右两端的横向运动调节,来控制所述铰链拖地机构的伸缩与清洁路径。3. The power transmission device of a mopping robot according to claim 1, wherein the hinge mopping mechanism part is composed of a left flange (3), a right flange (9) and a hinge (11) ; The left flange (3) is connected with the left section of the hinge (11) to form a rotating pair; the right flange (9) is connected with the right end of the hinge (11) to form a rotating pair; The lateral movement of the left and right ends of the hinge (11) is adjusted to control the telescopic and cleaning paths of the hinge mopping mechanism.
CN201920471941.1U 2019-04-09 2019-04-09 Power transmission device of mopping robot Expired - Fee Related CN210185494U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920471941.1U CN210185494U (en) 2019-04-09 2019-04-09 Power transmission device of mopping robot

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920471941.1U CN210185494U (en) 2019-04-09 2019-04-09 Power transmission device of mopping robot

Publications (1)

Publication Number Publication Date
CN210185494U true CN210185494U (en) 2020-03-27

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ID=69877736

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920471941.1U Expired - Fee Related CN210185494U (en) 2019-04-09 2019-04-09 Power transmission device of mopping robot

Country Status (1)

Country Link
CN (1) CN210185494U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113695282A (en) * 2021-09-16 2021-11-26 杨其波 Cleaning device for flat space

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113695282A (en) * 2021-09-16 2021-11-26 杨其波 Cleaning device for flat space

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200327

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