CN214714334U - Simply assemble remote-controlled robot - Google Patents

Abstract

The utility model relates to the technical field of remote-controlled robots, in particular to a simply assembled remote-controlled robot, which comprises a first combined shell, a second combined shell, a third combined shell, a crawler belt, a driving wheel, a transmission part, a sawtooth groove, an arm, a gear hole, a replacement part, a first connecting part, a first line hole, a camera hole, a luminous hole, a second connecting part, a third connecting part, a second line hole, a third line hole, a buckle, a first driving device, a remote-control circuit board, a fourth connecting part, a fourth line hole, a transmission shaft, a charging port, a second driving device, a fifth connecting part and a sixth connecting part, the simply assembled remote-controlled robot can be assembled by the hands of teenagers, when the robot is used after being installed, the second driving device is started to control the transmission shaft to drive the crawler belt through remote control of a remote controller, so that the robot can move, through starting first drive arrangement, drive the gear hole to make the arm reciprocate, there is not little promotion to teenagers' hands-on ability and benefit intelligence.

Description

Simply assemble remote-controlled robot

Technical Field

The utility model relates to a remote-controlled robot technical field especially relates to a simply assemble remote-controlled robot.

Background

The remote-controlled robot is the toy of benefiting intelligence, can use and overcome various environment actions, uses various instruments to carry etc. is of value to teenagers and extends knowledge, and is very useful, and current remote-controlled robot mostly is the finished product and sells, only plays the effect alone, lacks the enjoyment that lets teenagers experience oneself and assemble.

Prior patent 201721545722.0 discloses a DIY education triangle track robot toy based on programmable controller, including robot controller body, two action wheels and two driving motors for driving the action wheels, but the robot disclosed in this patent is single in structure and troublesome in assembly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simply assemble remote-controlled robot for solve the inconvenient problem of assembling by teenagers' own hands of current robot.

The utility model provides a simply assembled remote-controlled robot, which comprises a first combined shell, a second combined shell, a third combined shell, a track, a driving wheel, a mechanical arm, a gear hole, a replacement part, a first connecting part, a first wire hole, a second connecting part, a third connecting part, a second wire hole, a third wire hole, a first driving device, a remote-control circuit board, a fourth connecting part, a fourth wire hole, a transmission shaft and a second driving device, wherein the first connecting part is positioned below the first combined shell, the first wire hole is positioned in the middle of the first connecting part, the first connecting part is combined with the second connecting part, the first connecting part is positioned above the second connecting part, the second connecting part is positioned above the second combined shell, the second wire hole is positioned in the middle of the second connecting part, the third connecting part is positioned below the second combined shell, the third line hole is positioned in the middle of the third connecting part, the first driving device is installed inside the second combined shell, the remote control circuit board is installed below the first driving device, the mechanical arm is installed outside the second combined shell, one side of the second combined shell is provided with a hollow hole corresponding to the mechanical arm, the tail end of the mechanical arm at one side is provided with a gear hole, a gear on the first driving device is connected with the gear hole, the front end of the mechanical arm is provided with a fifth connecting part, the rear end of the replacement part is provided with a sixth connecting part, the mechanical arm and the replacement part are connected together through the fifth connecting part, and the third connecting part and the fourth connecting part are combined together, the third connecting part is arranged above the fourth connecting part, the fourth connecting part is arranged above the third combined shell, the fourth wire hole is arranged in the middle of the fourth connecting part, the second driving device is arranged in the third combined shell, the transmission shaft is arranged on the second driving device, the transmission wheel is connected with the transmission shaft together, and the crawler is arranged on the outer side of the transmission wheel.

Preferably, the fourth wire hole is T-shaped, so that when the second combined housing is combined with the third combined housing, the electric wire extending from the third wire hole can extend into the fourth wire hole without being caught by the third combined housing when combined.

Preferably, a transmission part is arranged in the middle of the transmission wheel and is a sawtooth strip, a sawtooth groove is formed in the middle of the inner part of the crawler and is matched with the transmission part on the transmission wheel, and the crawler and the transmission wheel are not easy to fall off after being connected.

Preferably, a pair of buckles is arranged in the second combined shell, and the remote control circuit board can be fixed.

Preferably, the replacement parts are forklift parts, carrying parts and forklift parts, and different vehicle type combinations can be provided.

Preferably, the first combination housing is provided with an image pickup hole and a light emitting hole, and a camera and a light emitting unit may be mounted in the first combination housing.

Preferably, a charging port is arranged behind the third combined shell, so that charging can be carried out.

Preferably, the second drive means is two independent drive means, such that the two drive means can be operated in different directions.

Learn through the above-mentioned scheme, the utility model relates to a simply assemble remote-controlled robot can be by teenagers 'own hands-on equipment, when using after the installation is accomplished, through the remote controller remote control, starts second drive arrangement control transmission shaft and drives the track, makes the robot remove, through starting first drive arrangement, drives the gear hole to make the arm reciprocate, have not few promotion to teenagers' hands-on ability and benefit intelligence.

Drawings

For the purpose of better illustrating the technical solution of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic structural view of a simply assembled remote-controlled robot according to the present invention;

fig. 2 is a schematic structural view of a first combined housing of a simply assembled remote-controlled robot according to the present invention;

fig. 3 is a schematic structural view of a second combined housing of the remote-controlled robot according to the present invention;

fig. 4 is a sectional view of a second combined housing structure of the remote-controlled robot according to the present invention;

fig. 5 is a schematic view of a third combined housing of the remote-controlled robot with simple assembly according to the present invention;

fig. 6 is a schematic structural view of a second driving device of a simply assembled remote-controlled robot according to the present invention;

fig. 7 is a schematic structural view of a forklift part in a simply assembled remote-controlled robot replacement part according to the present invention;

fig. 8 is a schematic structural view of a scraper in a simply assembled replacement for a remote-controlled robot according to the present invention;

fig. 9 is a schematic structural view of a forklift in a simply assembled replacement for a remote-controlled robot according to the present invention;

description of reference numerals:

1. a first combined housing, 2, a second combined housing, 3, a third combined housing, 4, a track, 5, a driving wheel, 6, a driving part, 7, a sawtooth groove, 8, a mechanical arm, 9, a gear hole, 10, a replacement, 11, a first connecting component, 12, a first wire hole, 13, a camera shooting hole, 14, a light emitting hole, 21, a second connecting component, 22, a third connecting component, 23, a second wire hole, 24, a third wire hole, 25, a buckle, 26, a first driving device, 27, a remote control circuit board, 31, a fourth connecting component, 32, a fourth wire hole, 33, a transmission shaft, 34, a charging port, 35, a second driving device, 81, a fifth connecting component, 101, a sixth connecting component

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1, 2, 3, 4, 5, 6, 7, 8, and 9 for a simply assembled remote-controlled robot, the present invention provides a simply assembled remote-controlled robot, which includes a first combined housing 1, a second combined housing 2, a third combined housing 3, a track 4, a driving wheel 5, a mechanical arm 8, a gear hole 9, a replacement 10, a first connecting part 11, a first wire hole 12, a second connecting part 21, a third connecting part 22, a second wire hole 23, a third wire hole 24, a first driving device 26, a remote-controlled circuit board 27, a fourth connecting part 31, a fourth wire hole 32, a transmission shaft 33, and a second driving device 35, wherein the first connecting part 11 is located under the first combined housing 1, the first wire hole 12 is located in the middle of the first connecting part 11, the first connecting part 11 is combined with the second connecting part 21, the first connecting part 11 is located above the second connecting part 21, the second connecting part 21 is located above the second combined housing 2, the second wire hole 23 is located in the middle of the second connecting part 21, the third connecting part 22 is located below the second combined housing 2, the third wire hole 24 is located in the middle of the third connecting part 22, the first driving device 26 is installed inside the second combined housing 2, the remote control circuit board 27 is installed below the first driving device 26, the mechanical arm 8 is installed outside the second combined housing 2, a hollow hole is formed in one side of the second combined housing 2 corresponding to the mechanical arm 8, a gear hole 9 is formed at the tail end of the mechanical arm 8, and a gear on the first driving device 26 is connected with the gear hole 9, the front end of the mechanical arm 8 is provided with a fifth connecting part 81, the rear end of the replacement part 10 is provided with a sixth connecting part 101, the mechanical arm 8 and the replacement part 10 are connected together through the fifth connecting part 81 and the sixth connecting part 101, the third connecting part 22 is combined with the fourth connecting part 31, the third connecting part 22 is located above the fourth connecting part 31, the fourth connecting part 31 is located above the third combined housing 3, the fourth wire hole 32 is located in the middle of the fourth connecting part 31, the second driving device 35 is arranged in the third combined housing 3, the transmission shaft 33 is arranged on the second driving device 35, the transmission wheel 5 is connected together with the transmission shaft 33, and the crawler 4 is arranged on the outer side of the transmission wheel 5. The fourth wire hole 32 is T-shaped, so that when the second combination housing 2 and the third combination housing 3 are combined, the wire extending from the third wire hole 24 can extend into the fourth wire hole 32 and will not be caught by the third combination housing 3 during the combination. The middle of the driving wheel 5 is provided with a driving part 6, the driving part 6 is a sawtooth strip, a sawtooth groove is formed in the middle of the inner part of the crawler 4 and matched with the driving part 6 on the driving wheel 5, so that the crawler 4 is not easy to fall off after being connected with the driving wheel 5. A pair of buckles 25 are arranged in the second combined shell 2, and a remote control circuit board 27 can be fixed. The replacement part 10 is a forklift part, a carrying part and a forklift part, and can be combined by different vehicle types. The first combined housing 1 is provided with a camera hole 13, and a camera can be installed in the first combined housing 1. The first combination housing 1 is provided with a light emitting hole 14, and a light emitting part can be mounted in the first combination housing 1. A charging port 34 is provided behind the third combination housing 3 to enable charging. The second drive means 35 are two separate drive means allowing the two drive means to be operated in different directions.

Example 1

Referring to fig. 1, 2, 3, 4, 5, 6, and 7, a simple assembly remote controlled robot may be manually assembled by a teenager, the first connecting part 11 is combined with the second connecting part 21, the first driving device 26 is installed inside the second combined housing 2, the remote control circuit board 27 is connected to a power source, the remote control circuit board 27 is installed below the first driving device 26, the remote control circuit board 27 is connected to the first driving device 26 through a wire, the robot arm 8 is installed outside the second combined housing 2, one side of the second combined housing 2 is opened with a hollow hole corresponding to the robot arm 8, a gear hole 9 is formed at a terminal of the robot arm 8 at one side, a gear on the first driving device 26 is connected to the gear hole 9, the mechanical arm 8 and the replacement part 10 are connected together by a fifth connecting part 81 and a sixth connecting part 101, the third connecting part 22 and the fourth connecting part 31 are combined together, the second driving device 35 is arranged in the third combined housing 3, the second driving device 35 is connected with the remote control circuit board 27 by a fourth wire hole 32 and a third wire hole 24, when in combination, the electric wire is hidden in the third combined housing 3 by the T-shaped fourth wire hole 32, the transmission shaft 33 is arranged on the second driving device 35, the transmission wheel 5 is connected together with the transmission shaft 33, and the crawler 4 is arranged on the outer side of the transmission wheel 5.

When using after the installation is accomplished, through the remote controller remote control, start second drive arrangement 35 control transmission shaft 33 and drive track 4, make the robot remove, through starting first drive arrangement 26, drive gear hole 9 to make arm 8 can reciprocate, replacement 10 is forklift spare, makes up into the forklift. The electric wire passes through the second wire hole and the first wire hole from the remote control circuit board, can freely select to install the camera hole 13 of camera on first combination shell 1 additional, or install the luminescent part on the luminescent hole 14 on first combination shell 1 additional, to the improvement of teenagers' hands-on ability and benefit to intelligence not a little.

Example 2

Referring to fig. 1, 2, 3, 4, 5, 6, and 8, a simple assembly remote controlled robot may be manually assembled by a teenager, the first connecting part 11 is combined with the second connecting part 21, the first driving device 26 is installed inside the second combined housing 2, the remote control circuit board 27 is connected to a power source, the remote control circuit board 27 is installed below the first driving device 26, the remote control circuit board 27 is connected to the first driving device 26 through a wire, the robot arm 8 is installed outside the second combined housing 2, one side of the second combined housing 2 is opened with a hollow hole corresponding to the robot arm 8, a gear hole 9 is formed at a terminal of the robot arm 8 at one side, a gear on the first driving device 26 is connected to the gear hole 9, the mechanical arm 8 and the replacement part 10 are connected together by a fifth connecting part 81 and a sixth connecting part 101, the third connecting part 22 and the fourth connecting part 31 are combined together, the second driving device 35 is arranged in the third combined housing 3, the second driving device 35 is connected with the remote control circuit board 27 by a fourth wire hole 32 and a third wire hole 24, when in combination, the electric wire is hidden in the third combined housing 3 by the T-shaped fourth wire hole 32, the transmission shaft 33 is arranged on the second driving device 35, the transmission wheel 5 is connected together with the transmission shaft 33, and the crawler 4 is arranged on the outer side of the transmission wheel 5.

When the robot is used after being installed, the second driving device 35 is started to control the transmission shaft 33 to drive the crawler belt 4 through remote control of a remote controller, so that the robot moves, the first driving device 26 is started to drive the gear holes 9, the mechanical arm 8 can move up and down, and the replacement part 10 is a shoveling part and is combined into a shoveling vehicle. The electric wire passes through the second wire hole and the first wire hole from the remote control circuit board, can freely select to install the camera hole 13 of camera on first combination shell 1 additional, or install the luminescent part on the luminescent hole 14 on first combination shell 1 additional, to the improvement of teenagers' hands-on ability and benefit to intelligence not a little.

Example 3

Referring to fig. 1, 2, 3, 4, 5, 6, and 9, a simple assembly remote controlled robot may be manually assembled by a teenager, the first connecting part 11 is combined with the second connecting part 21, the first driving device 26 is installed inside the second combined housing 2, the remote control circuit board 27 is connected to a power source, the remote control circuit board 27 is installed below the first driving device 26, the remote control circuit board 27 is connected to the first driving device 26 through a wire, the robot arm 8 is installed outside the second combined housing 2, one side of the second combined housing 2 is opened with a hollow hole corresponding to the robot arm 8, a gear hole 9 is formed at a terminal of the robot arm 8 at one side, a gear on the first driving device 26 is connected to the gear hole 9, the mechanical arm 8 and the replacement part 10 are connected together by a fifth connecting part 81 and a sixth connecting part 101, the third connecting part 22 and the fourth connecting part 31 are combined together, the second driving device 35 is arranged in the third combined housing 3, the second driving device 35 is connected with the remote control circuit board 27 by a fourth wire hole 32 and a third wire hole 24, when in combination, the electric wire is hidden in the third combined housing 3 by the T-shaped fourth wire hole 32, the transmission shaft 33 is arranged on the second driving device 35, the transmission wheel 5 is connected together with the transmission shaft 33, and the crawler 4 is arranged on the outer side of the transmission wheel 5.

When using after the installation is accomplished, through the remote controller remote control, start second drive arrangement 35 control transmission shaft 33 and drive track 4, make the robot remove, through starting first drive arrangement 26, drive gear hole 9 to make arm 8 can reciprocate, replacement 10 is fork truck spare, makes up into fork truck. The electric wire passes through the second wire hole and the first wire hole from the remote control circuit board, can freely select to install the camera hole 13 of camera on first combination shell 1 additional, or install the luminescent part on the luminescent hole 14 on first combination shell 1 additional, to the improvement of teenagers' hands-on ability and benefit to intelligence not a little.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A simply assembled remote control robot comprises a crawler, a driving wheel, a mechanical arm, a first driving device, a remote control circuit board, a transmission shaft and a second driving device, and is characterized by further comprising a first combined shell, a second combined shell, a third combined shell, a gear hole, a replacement part, a first connecting part, a first wire hole, a second connecting part, a third connecting part, a second wire hole, a third wire hole, a fourth connecting part and a fourth wire hole, wherein the first connecting part is positioned below the first combined shell, the first wire hole is positioned in the middle of the first connecting part, the first connecting part and the second connecting part are combined together, the first connecting part is positioned above the second connecting part, the second connecting part is positioned above the second combined shell, and the second wire hole is positioned in the middle of the second connecting part, the third connecting part is positioned below the second combined shell, the third line hole is positioned in the middle of the third connecting part, the first driving device is installed inside the second combined shell, the remote control circuit board is installed below the first driving device, the mechanical arm is installed outside the second combined shell, one side of the second combined shell is provided with a hollow hole corresponding to the mechanical arm, the tail end of the mechanical arm at one side is provided with a gear hole, a gear on the first driving device is connected with the gear hole, the front end of the mechanical arm is provided with a fifth connecting part, the rear end of the replacement part is provided with a sixth connecting part, the mechanical arm and the replacement part are connected together through the fifth connecting part, and the third connecting part and the fourth connecting part are combined together, the third connecting part is arranged above the fourth connecting part, the fourth connecting part is arranged above the third combined shell, the fourth wire hole is arranged in the middle of the fourth connecting part, the second driving device is arranged in the third combined shell, the transmission shaft is arranged on the second driving device, the transmission wheel is connected with the transmission shaft together, and the crawler is arranged on the outer side of the transmission wheel.

2. The remote-controlled robot with easy assembly of claim 1, wherein the fourth wire hole is T-shaped.

3. The remotely controlled robot with easy assembly as claimed in claim 1, wherein a transmission part is provided in the middle of the transmission wheel.

4. The robot of claim 3, wherein the transmission part is a sawtooth rack.

5. The robot of claim 1, wherein the track has a saw-tooth groove in the middle to match with the driving part of the driving wheel.

6. The robot of claim 1, wherein a pair of fasteners are disposed in the second housing assembly.

7. The remote-controlled robot with easy assembly of claim 1, wherein the replacing component is a forklift component, a carrying component or a forklift component.

8. The robot of claim 1, wherein the first casing assembly comprises a camera hole and a light emitting hole.

9. The robot of claim 1, wherein a charging port is disposed behind the third casing assembly.

10. The robot of claim 1, wherein the second driving mechanism is two independent driving mechanisms.

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