CN210081747U - Machine room inspection robot - Google Patents

Abstract

The utility model discloses a machine room inspection robot, include: the body comprises a shell and a boss, the shell is in a semi-cylindrical shape, the front end of the shell is provided with a rotatable object placing plate, and the outer side of the object placing plate is provided with a touch display screen; rotatable support rods are symmetrically arranged at the rear side of the object placing plate, and the bottom ends of the bosses are flush with the bottom end of the shell and equal to the diameter of the shell; a lifting device is arranged in the middle of the joint of the boss and the bottom end of the shell; the top end of the base is provided with a rotating column, and the middle part of the rotating column is provided with a lifting device; a plurality of fourth grooves are formed in the periphery of the base, auxiliary supporting assemblies are arranged in the fourth grooves, and the rotation directions of the auxiliary supporting assemblies are the same; the bottom of the base is provided with a traveling mechanism. The utility model discloses when making computer lab managers carry out long time's data entry on touch display screen, through boss, supporter and elevating gear's adjustment, it is more comfortable when making computer lab managers use the robot to assist the work carrier, is favorable to improving computer lab managers's work efficiency.

Description

Machine room inspection robot

Technical Field

The utility model relates to a robot equipment technical field especially relates to a machine room patrols and examines robot.

Background

With the development of the times, the internet is increasingly popular, an internet data center (internet data center) for short IDC for managing the internet is the telecom department, establishes a standardized telecom professional computer room environment by utilizing the existing internet communication line and bandwidth resources, and provides all-round services in the aspects of server hosting, renting, related value adding and the like for enterprises and governments; in order to ensure the normal operation of data in a machine room, machine room managers are required to perform patrol uninterruptedly day and night, and the labor intensity of the machine room managers is high due to more equipment and more patrol data; the robot can move in a machine room, and meanwhile, a machine room manager can move on the robot, so that the machine room manager can record data conveniently.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.

The utility model discloses it is still another purpose to provide a machine room patrols and examines robot, when making the computer room managers carry out long time's data entry on touch display screen, through boss, supporter and elevating gear's adjustment, it is more comfortable when making the computer room managers use the robot to assist the work carrier, is favorable to improving computer room managers's work efficiency.

In order to realize the objects and other advantages in accordance with the present invention, there is provided a machine room inspection robot, comprising:

the body comprises a shell and a boss, the shell is in a semi-cylindrical shape, a step surface penetrating through the shell is arranged at the position, close to the top end of the shell, of the front end of the shell from left to right, and the width and height of the step surface are 20-25 cm and 2-3 cm respectively; the step surface is provided with an object placing plate which is matched with the step surface and is connected to the side edge of the top end of the shell in a rotatable mode, a first groove is formed in the outer side of the object placing plate, and a touch display screen is arranged in the first groove; one surface of the object placing plate, which is opposite to the outer side of the object placing plate, is symmetrically provided with second grooves, rotatable supporting rods are arranged in the second grooves, and one side, corresponding to the rotatable supporting rods, of the step surface is provided with a plurality of holes which are arranged from top to bottom; the bottom end of the boss is flush with the bottom end of the shell and is equal to the diameter of the shell, and the height of the boss is set to be 25-35 cm; and a lifting device is arranged in the middle of the joint of the boss and the bottom end of the shell.

A third groove is formed in the top end of the base corresponding to the position of the shell, a rotating column matched with the third groove is arranged in the third groove, a through hole is formed in the middle of the rotating column, and the lifting device is arranged in the through hole; the periphery of the base is provided with a plurality of fourth grooves surrounding the base, auxiliary supporting components connected in a rotatable mode are arranged in the fourth grooves, and the rotating directions of the auxiliary supporting components are clockwise or anticlockwise; the bottom symmetry of base sets up the fifth recess, set up running gear in the fifth recess.

Preferably, the base is a cylinder, the diameter of the base is set to be 35-45 cm, and the height of the base is set to be 15-20 cm.

Preferably, the number of the fourth grooves is 3 to 4.

Preferably, the auxiliary support assembly comprises an auxiliary support rod and a support plate, one end of the auxiliary support rod is rotatably connected in the fourth groove, a fifth groove is formed in the bottom end of the other end of the auxiliary support rod, and the support plate is rotatably connected in the fifth groove.

Preferably, the auxiliary stay bar can be rotatably arranged in a specific manner that: one end of the auxiliary stay bar is provided with hinges for connecting the base and the auxiliary stay bar, and the number of the hinges is set to be 1-2.

Preferably, a bolt is arranged on the outer side of the other end of the auxiliary stay bar, and a clamping piece which is fixed on the base and is matched with the bolt is arranged at a position, adjacent to the other end of the auxiliary stay bar, on the outer side of the base.

Preferably, the lifting device is a cylinder.

Preferably, the running mechanism is a roller or a crawler belt, and a driving motor for driving the running mechanism to rotate is further arranged in the fifth groove.

The utility model discloses at least, include following beneficial effect:

the utility model discloses a set up the boss in casing planar one side, improve the position that the rest was taken a seat for computer lab managers, simultaneously when the base moved, computer lab managers can sit on the boss, along with the base removes and reaches the corresponding position of computer lab, and can be when data entry, with put thing board outward rotation, the bracing piece that expandes to put thing board rear side inserts the different hole with the bracing piece adaptation, so that put the thing board and fix to different angles, computer lab managers can be according to the demand of self position, adjust the angle of putting the thing board so that touch display screen is in the angle of suitable operation; the body is lifted to a height matched with the height of a machine room manager by combining with the lifting device, so that the machine room manager is more comfortable when using the touch display screen, and the arrangement of the lifting device is also convenient for expanding the visual field height of the robot for inspection; the movement of the robot is controlled through the operation of the travelling mechanism in the fifth groove; the rotation of the rotating column drives the body to rotate, so that the robot body is at a fixed position, and the inspection range of 360 degrees can be expanded; the robot is convenient to inspect, and great convenience is provided for machine room management personnel.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of the machine room inspection robot of the present invention;

fig. 2 is the structure schematic diagram of machine room patrol inspection robot after each structure expandes.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 and 2, the utility model provides a robot is patrolled and examined to computer lab, include:

the body 1 comprises a shell 11 and a boss 12, the shell 11 is semi-cylindrical, a step surface 13 penetrating through the shell 11 is arranged at the position, close to the top end of the shell 11, of the front end of the shell 11 from left to right, and the width and height of the step surface 13 are 20-25 cm and 2-3 cm respectively; an object placing plate 14 which is matched with the step surface 13 and is connected to the side edge of the top end of the shell 11 in a rotatable mode is arranged on the step surface 13, a first groove is formed in the outer side of the object placing plate 14, and a touch display screen 15 is arranged in the first groove; a second groove is symmetrically formed in one surface, opposite to the outer side of the object placing plate 14, a rotatable supporting rod 16 is arranged in the second groove, and a plurality of holes 17 arranged from top to bottom are formed in one side, corresponding to the rotatable supporting rod 16, of the step surface 13; the bottom end of the boss 12 is flush with the bottom end of the shell 11 and is equal to the diameter of the shell 11, and the height of the boss 12 is set to be 25-35 cm; and a lifting device 18 is arranged in the middle of the joint of the boss 12 and the bottom end of the shell 11.

A third groove is formed in the top end of the base 2 corresponding to the position of the shell 11, a rotating column 21 matched with the third groove is arranged in the third groove, a through hole is formed in the middle of the rotating column 21, and the lifting device 18 is arranged in the through hole; a plurality of fourth grooves 22 are formed in the periphery of the base 2 and surround the base 2, auxiliary supporting components 23 connected in a rotatable mode are arranged in the fourth grooves 22, and the rotating directions of the auxiliary supporting components 23 are clockwise or anticlockwise; the bottom symmetry of base 2 sets up the fifth recess, set up running gear in the fifth recess.

In the above solution, the boss 12 is arranged on one side of the plane of the housing 11, so as to provide a resting and seating position for a machine room manager, and when the base 2 moves, the machine room manager can sit on the boss 12, and reach a corresponding position of a machine room along with the movement of the base 2, and can rotate the object placing plate 14 outwards when data is recorded, and the support rod 16 at the rear side of the object placing plate 14 is unfolded to be inserted into different holes 17 adapted to the support rod 16, so as to fix the object placing plate 14 at different angles, and the machine room manager can adjust the angle of the object placing plate 14 according to the position requirement to make the touch display screen 15 at an angle suitable for operation; the body 1 is lifted to a height matched with the height of a machine room manager by combining with the lifting device 18, so that the machine room manager is more comfortable when using the touch display screen 15, and the arrangement of the lifting device 18 is also convenient for expanding the visual field height of the robot for inspection; the movement of the robot is controlled through the operation of the travelling mechanism in the fifth groove; the rotation of the rotating column 21 drives the body 1 to rotate, so that the robot body 1 is at a fixed position, and the inspection range of 360 degrees can be expanded; the robot is convenient to inspect, and great convenience is provided for machine room management personnel.

In a preferable scheme, the base 2 is a cylinder, the diameter of the base 2 is set to be 35-45 cm, and the height of the base 2 is set to be 15-20 cm.

In the above scheme, base 2 sets up to the cylinder, prevents that base 2 from producing the collision because of self corner at the removal in-process, base 2's diameter sets up 35-45 centimetres, and the cylinder diameter that casing 11 and boss 12 are constituteed of the cylinder diameter of base 2 who makes will be big to make body 1 and base 2's contact more stable, the setting of base 2 height is when guaranteeing to remove the stability of in-process, and the height when computer lab managers seat is on boss 12 is more suitable.

In a preferred embodiment, the number of the fourth grooves 22 is 3-4.

In the above scheme, the fourth groove 22 is used for accommodating the auxiliary support component 23, the number of the fourth groove 22 is 3-4, that is, the number of the auxiliary support component 23, so that the stable support for the body 1 is formed, and the instability generated when the body 1 rises is effectively avoided.

In a preferred embodiment, the auxiliary supporting assembly 23 includes an auxiliary supporting rod 24 and a supporting plate 25, one end of the auxiliary supporting rod 24 is rotatably connected in the fourth groove 22, a bottom end of the other end of the auxiliary supporting rod 24 is provided with a fifth groove, and the supporting plate 25 is rotatably connected in the fifth groove.

In the above scheme, after the auxiliary stay bar 24 accommodated in the fourth groove 22 is rotated outwards to the maximum angle, the support plate 25 in the fifth groove is rotated to the position perpendicular to the ground, the rotatable connection of the support plate 25 is also through hinge connection, the support plate 25 is perpendicularly contacted with the ground to form support for the auxiliary stay bar 24, the support area of the base 2 is increased after the auxiliary stay bars 24 are unfolded, and the unfolding and accommodating operations of the auxiliary stay bar 24 are simple and convenient.

In a preferred embodiment, the auxiliary stay 24 can be rotatably disposed in the following specific manner: one end of the auxiliary stay bar 24 is provided with hinges for connecting the base 2 and the auxiliary stay bar 24, and the number of the hinges is set to be 1-2.

In the above scheme, one end of the auxiliary stay bar 24 is connected to the base 2 outside the fourth groove 22 through hinges, so that the auxiliary stay bar 24 can rotate around the side of the fourth groove 22 while being accommodated in the fourth groove 22, and the number of the hinges is set so as to achieve stable rotation of the auxiliary stay bar.

In a preferable scheme, a bolt is arranged on the outer side of the other end of the auxiliary stay bar 24, and a clamping piece which is fixed on the base 2 and is matched with the bolt is arranged at a position on the outer side of the base 2 adjacent to the other end of the auxiliary stay bar 24.

In the above solution, when the auxiliary stay 24 is accommodated in the fourth groove 22, the outer side of the auxiliary stay 24 is flush with the outer side of the base 2, a latch is disposed at the outer end of the side of the auxiliary stay 24 that is not connected, and the latch is inserted into a fastener disposed on the outer side of the base 2, so as to fix the auxiliary stay 24 in the fourth groove 22, and prevent the auxiliary stay 24 from moving when the robot moves.

In a preferred embodiment, the lifting device 18 is a cylinder.

In the scheme, the air cylinder is convenient to use and install, the lifting requirement is met, the cost is low, and the later-stage maintenance and replacement are convenient; the lifting of the body 1 fixed at the top end of the cylinder is driven by the lifting of the cylinder, so that the lifting of the body 1 is convenient and labor-saving.

In a preferable scheme, the traveling mechanism is a roller or a crawler belt, and a driving motor for driving the traveling mechanism to rotate is further arranged in the fifth groove.

In the above scheme, running gear can set up to the gyro wheel and also can set up to the track, and the first half setting of gyro wheel or track is in the fifth recess for it is more stable when the roll of gyro wheel or track, drives the rotation of gyro wheel or track through driving motor, makes the robot walk controllable.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (8)

1. The utility model provides a machine room inspection robot which characterized in that includes:

the body comprises a shell and a boss, the shell is in a semi-cylindrical shape, a step surface penetrating through the shell is arranged at the position, close to the top end of the shell, of the front end of the shell from left to right, and the width and height of the step surface are 20-25 cm and 2-3 cm respectively; the step surface is provided with an object placing plate which is matched with the step surface and is connected to the side edge of the top end of the shell in a rotatable mode, a first groove is formed in the outer side of the object placing plate, and a touch display screen is arranged in the first groove; one surface of the object placing plate, which is opposite to the outer side of the object placing plate, is symmetrically provided with second grooves, rotatable supporting rods are arranged in the second grooves, and one side, corresponding to the rotatable supporting rods, of the step surface is provided with a plurality of holes which are arranged from top to bottom; the bottom end of the boss is flush with the bottom end of the shell and is equal to the diameter of the shell, and the height of the boss is set to be 25-35 cm; a lifting device is arranged in the middle of the joint of the boss and the bottom end of the shell;

a third groove is formed in the top end of the base corresponding to the position of the shell, a rotating column matched with the third groove is arranged in the third groove, a through hole is formed in the middle of the rotating column, and the lifting device is arranged in the through hole; the periphery of the base is provided with a plurality of fourth grooves surrounding the base, auxiliary supporting components connected in a rotatable mode are arranged in the fourth grooves, and the rotating directions of the auxiliary supporting components are clockwise or anticlockwise; the bottom symmetry of base sets up the fifth recess, set up running gear in the fifth recess.

2. The machine room inspection robot according to claim 1, wherein the base is a cylinder, the diameter of the base is set to 35-45 cm, and the height of the base is set to 15-20 cm.

3. The machine room inspection robot according to claim 1, wherein 3 to 4 fourth grooves are provided.

4. The machine room inspection robot according to claim 1, wherein the auxiliary support assembly comprises an auxiliary stay bar and a support plate, one end of the auxiliary stay bar is rotatably connected in the fourth groove, a fifth groove is formed in the bottom end of the other end of the auxiliary stay bar, and the support plate is rotatably connected in the fifth groove.

5. The machine room inspection robot according to claim 4, wherein the auxiliary stay bar is rotatably arranged in a specific manner that: one end of the auxiliary stay bar is provided with hinges for connecting the base and the auxiliary stay bar, and the number of the hinges is set to be 1-2.

6. The machine room inspection robot according to claim 4, wherein a bolt is arranged on the outer side of the other end of the auxiliary stay bar, and a clamping piece which is fixed on the base and is matched with the bolt is arranged at a position, adjacent to the other end of the auxiliary stay bar, on the outer side of the base.

7. The machine room inspection robot according to claim 1, wherein the lifting device is a cylinder.

8. The machine room inspection robot according to claim 1, wherein the traveling mechanism is provided as a roller or a crawler, and a driving motor for driving the traveling mechanism to rotate is further disposed in the fifth groove.

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