CN109365448B - Novel container brush device for chemical experiments - Google Patents

Abstract

The invention relates to teaching experiment correlation, in particular to a novel container brush device for chemical experiments, which comprises an automatic brush mechanism, a container fixing column, a power mechanism, a device shell I, a drying mechanism, a device telescopic mechanism, a wastewater collecting mechanism, a device shell II, a container fixing frame, a fixing frame lifting mechanism and a fixing frame displacement mechanism. The automatic brush mechanism is connected with the first device shell in a welding mode, the container fixing column is connected with the first device shell in a welding mode, the power mechanism is connected with the first device shell through a fastening screw, the first device shell is connected with the drying mechanism, the first device shell is connected with the telescopic mechanism through a fastening bolt, and the telescopic mechanism is connected with the second device shell through a fastening bolt.

Description

Novel container brush device for chemical experiments

Technical Field

The invention relates to teaching experiment correlation, in particular to a novel container brush device for a chemical experiment.

Background

In the in-process of chemical experiment, the most commonly used is glass container such as test tube, because the waste liquid that the chemical experiment produced is not convenient for directly wash with the hand, often need use the instrument to carry out manual handling, nevertheless can not avoid the waste liquid to spatter on hand, for better protection human body to and reach better clearance effect, so design a neotype container for chemical experiment brush device and solve this problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel container brush device for chemical experiments, which integrates cup brushing, wiping and drying, can collect generated waste liquid in a centralized manner, can be retracted and conveniently arranged and carried, and is provided with a container hanger on the top layer, so that the containers can be temporarily arranged.

In order to solve the technical problems, the invention relates to a teaching experiment correlation, in particular to a novel container brush device for a chemical experiment, which comprises an automatic brush mechanism, a container fixing column, a power mechanism, a first device shell, a drying mechanism, a device telescopic mechanism, a wastewater collecting mechanism, a second device shell, a container fixing frame, a fixing frame lifting mechanism and a fixing frame displacement mechanism.

The automatic brush mechanism comprises a track rod, a rotating gear, a first connecting short rod, a connecting shell, a first servo, an automatic steering joint, a container hairbrush and a container wiping brush, wherein the track rod is connected with the first device shell in a welding mode, the track rod is matched with the connecting shell through a through hole, the connecting shell is matched with the first connecting short rod through a through hole, the first connecting short rod is connected with the rotating gear in a welding mode, the connecting shell is connected with the first servo through a fastening screw, the first servo is matched with the track rod through a groove, the automatic steering joint is arranged at the bottom of the first connecting short rod, the number of the automatic steering joints is two, one automatic steering joint is connected with the container hairbrush, and the container wiping brush is connected with the other automatic steering joint;

the power mechanism comprises an engine fixing cover, an engine and a distance-increasing gear, the engine is matched with the first device shell through a groove, the engine is connected with the engine fixing cover through a fastening screw, the engine fixing cover is connected with the first device shell through the fastening screw, the distance-increasing gear is connected with the first device shell, and the distance-increasing gear is meshed with the engine;

the drying mechanism comprises a second servo, a moving gear, a first gear, a second gear, a fan, an electric heating rod and a storage battery, wherein the second servo is matched with the first device shell through a groove, the second servo is connected with the moving gear, the moving gear is meshed with the first gear, the first gear is connected with the first device shell, the first gear is connected with the second gear through a gear chain, the second gear is connected with the first device shell, the second gear is connected with the fan, the electric heating rod is located below the fan and connected with the storage battery, and the storage battery is matched with the first device shell through a groove;

the device telescopic mechanism comprises a folding support rod and a double-sided gas strut, the folding support rod and the double-sided gas strut are connected through a fastening bolt, the folding support rod is connected with a first device shell through the fastening bolt, and the other folding support rod is connected with a second device shell through the fastening bolt;

the waste water collecting mechanism comprises a waste liquid container, a gravity sensor, a sensor and a prompting device, wherein the waste liquid container is matched with the two ends of the device shell through grooves, the gravity sensor is fixed right below the waste liquid container, the sensor is fixed right below the gravity sensor, and the sensor is connected with the prompting device;

the container fixing frame comprises a first fixed gear, a supporting arm, a crawler belt, a second fixed gear, a manual adjusting gear, a container holder, a central shaft, a container holder mechanism and a steering gear, wherein the first fixed gear is connected with the supporting arm through a fastening bolt;

the container clamp mechanism comprises a track connecting piece, a clamp connecting rod, an arc-shaped clamp and an elastic buckle, wherein the track connecting piece and the supporting arm are matched through a groove;

the fixing frame lifting mechanism comprises a T-shaped supporting piece, a small engine, a folding lifting frame, a second connecting short rod, a connecting rod of an air support, a connecting fixing block and a lifting base, wherein the T-shaped supporting piece is matched with the small engine through a through hole, the small engine is meshed with a steering gear, the T-shaped supporting piece is matched with the steering gear through the through hole, the folding lifting frame is connected with the T-shaped supporting piece through welding, the folding lifting frame is matched with the lifting base through a groove, the bottom of the folding lifting frame is connected with the second connecting short rod through a fastening screw, the second connecting short rod is connected with the connecting rod of the air support through a fastening screw, the connecting rod of the air support is connected with the air support through a fastening bolt, the air support is connected with the lifting base through the fastening screw, the lifting base is connected with;

the fixed frame displacement mechanism comprises a hand-operated handle, a hand-operated gear, a transmission gear, a first displacement gear, a fixed crawler and a second displacement gear, wherein the hand-operated handle is meshed with the hand-operated gear through threads, the hand-operated gear is connected with the device shell II, the hand-operated gear is meshed with the transmission gear, the transmission gear is meshed with the first displacement gear, the first displacement gear is connected with the fixed crawler, and the fixed crawler is connected with the second displacement gear;

the automatic brush mechanism is connected with the first device shell in a welding mode, the container fixing column is connected with the first device shell in a welding mode, the power mechanism is connected with the first device shell through a fastening screw, the first device shell is connected with the drying mechanism, the first device shell is connected with the first device telescoping mechanism through a fastening bolt, the second device shell is connected with the second device shell through a fastening bolt, the container fixing frame is in movable contact connection with the fixing frame lifting mechanism, the fixing frame lifting mechanism is connected with the fixing frame displacement mechanism, and the wastewater collecting mechanism is installed on the second device shell.

As a further optimization of the technical scheme, the novel container brush device for the chemical experiment has two numbers of the rotating gear, the first connecting short rod, the first connecting shell, the first servo and the automatic steering joint.

As a further optimization of the technical scheme, the number of the folding supporting rods of the novel container brush device for the chemical experiment is four.

The novel container brush device for the chemical experiment has the beneficial effects that:

the novel container brush device for chemical experiments, provided by the invention, has the advantages that the brush cup, the wiping and the drying are integrated, the generated waste liquid can be collected in a centralized manner, the device can be retracted and put away, the arrangement, the placement and the carrying are convenient, and the container hanger is arranged on the top layer of the device, so that the temporary placement of the container is convenient.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a novel container brush device for chemical experiments according to the present invention.

Fig. 2 is a schematic structural diagram of an automatic brush mechanism 1 of a novel container brush device for chemical experiments.

Fig. 3 is a schematic structural diagram of a power mechanism 3 of a novel container brush device for chemical experiments according to the present invention.

Fig. 4 is a partially enlarged structural diagram of a in fig. 1.

Fig. 5 is a schematic structural diagram of the device telescoping mechanism 6 of the novel container brush device for chemical experiments.

Fig. 6 is a schematic structural diagram of a waste water collecting mechanism 7 of a novel container brush device for chemical experiments.

Fig. 7 is a schematic structural diagram of a container holder 9 of the container brush device for chemical experiments according to the present invention.

FIG. 8 is a schematic diagram of a container clamp mechanism 9-8 of the container brush device for chemical experiments according to the present invention.

Fig. 9 is a schematic structural diagram of a fixing frame lifting mechanism 10 of a novel container brush device for chemical experiments according to the present invention.

Fig. 10 is a schematic structural diagram of a holder displacement mechanism 11 of a container brush device for chemical experiments according to the present invention.

Fig. 11 is a schematic perspective view of a folding support rod 6-1 of the container brush device for chemical experiments according to the present invention.

FIG. 12 is a schematic cross-sectional view of B-B in FIG. 1.

In the figure: an automatic brush mechanism 1; a track rod 1-1; rotating the gear 1-2; 1-3 of a connecting short rod I; connecting the shells 1-4; 1-5 of a server I; automatic steering joints 1-6; 1-7 parts of container brushes; 1-8 container wiping brushes; a container fixing column 2; a power mechanism 3; an engine fixing cover 3-1; an engine 3-2; 3-3 of a distance-increasing gear; a first device housing 4; a drying mechanism 5; a second server 5-1; a moving gear 5-2; 5-3 parts of a first gear; 5-4 parts of a second gear; 5-5 of a fan; 5-6 parts of an electric heating rod; 5-7 parts of storage battery; a device telescoping mechanism 6; folding the support rod 6-1; 6-2 of double-sided gas struts; a wastewater collection mechanism 7; a waste liquid container 7-1; a gravity sensor 7-2; a sensor 7-3; a prompting device 7-4; a second device housing 8; a container mount 9; fixing a first gear 9-1; a support arm 9-2; 9-3 of crawler belts; 9-4 parts of a fixed gear II; manually adjusting the gear 9-5; 9-6 parts of a container holder; a central shaft 9-7; a container clamp mechanism 9-8; a track connecting piece 9-8-1; 9-8-2 parts of a clamp connecting rod; 9-8-3 of an arc-shaped clamp; 9-8-4 parts of elastic buckle; steering gear 9-9; a fixed frame lifting mechanism 10; t-shaped support member 10-1; a small engine 10-2; folding the lifting frame 10-3; 10-4 of a second connecting short rod; 10-5 of a gas strut connecting rod; 10-6 parts of gas strut; connecting a fixed block 10-7; 10-8 of a lifting base; a fixed frame displacement mechanism 11; a hand-cranking handle 11-1; a hand gear 11-2; a transmission gear 11-3; a first displacement gear 11-4; a fixed track 11-5; and a second displacement gear 11-6.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12, and the invention relates to a teaching experiment-related, more specifically to a novel container brush device for chemical experiments, which comprises an automatic brush mechanism 1, a container fixing column 2, a power mechanism 3, a device shell I4, a drying mechanism 5, a device telescoping mechanism 6, a wastewater collection mechanism 7, a device shell II 8, a container fixing frame 9, a fixing frame lifting mechanism 10 and a fixing frame displacement mechanism 11.

The automatic brush mechanism 1 comprises a track rod 1-1, a rotating gear 1-2, a first connecting short rod 1-3, a connecting shell 1-4, a first servo machine 1-5, an automatic steering joint 1-6, a container brush 1-7 and a container wiping brush 1-8, wherein the track rod 1-1 is connected with the first device shell 4 through welding, the track rod 1-1 is matched with the connecting shell 1-4 through a through hole, the connecting shell 1-4 is matched with the first connecting short rod 1-3 through a through hole, the first connecting short rod 1-3 is connected with the rotating gear 1-2 through welding, the connecting shell 1-4 is connected with the first servo machine 1-5 through a fastening screw, the first servo machine 1-5 is matched with the track rod 1-1 through a groove, the automatic steering joint 1-6 is arranged at the bottom of the first connecting short rod 1-3, the number of the automatic steering joints 1-6 is two, wherein one automatic steering joint 1-6 is connected with a container brush 1-7, a container wiping brush 1-8 is connected with the other automatic steering joint 1-6, the container brush 1-7 is adjusted by the automatic steering joint 1-6 to enable the container brush 1-7 to be vertical to the upper part of a container opening, a servo machine I1-5 drives a connecting short rod I1-3 to move along a track rod 1-1 to enable a rotating gear 1-2 to be meshed with a pitch increasing gear 3-3, and a connecting shell 1-4 plays a role in connection;

the power mechanism 3 comprises an engine fixing cover 3-1, an engine 3-2 and a distance-increasing gear 3-3, the engine 3-2 is adapted to a first device shell 4 through a groove, the engine 3-2 is connected with the engine fixing cover 3-1 through a fastening screw, the engine fixing cover 3-1 is connected with the first device shell 4 through the fastening screw, the distance-increasing gear 3-3 is connected with the first device shell 4, the distance-increasing gear 3-3 is meshed with the engine 3-2, the engine fixing cover 3-1 plays a role in fixing and sealing, and the engine 3-2 provides power for the device;

the drying mechanism 5 comprises a second servo 5-1, a second moving gear 5-2, a first gear 5-3, a second gear 5-4, a fan 5-5, an electric heating rod 5-6 and a storage battery 5-7, wherein the second servo 5-1 is matched with the first device shell 4 through a groove, the second servo 5-1 is connected with the first moving gear 5-2, the first moving gear 5-2 is meshed with the first gear 5-3, the first gear 5-3 is connected with the first device shell 4, the first gear 5-3 is connected with the second gear 5-4 through a gear chain, the second gear 5-4 is connected with the first device shell 4, the second gear 5-4 is connected with the fan 5-5, the electric heating rod 5-6 is positioned below the fan 5-5, and the electric heating rod 5-6 is connected with the storage battery 5-7, the storage battery 5-7 is adapted to the first device shell 4 through the groove, the second servo motor 5-1 is adjusted, the moving gear 5-2 is meshed with the engine 3-2 and the first gear 5-3 at the same time, and therefore the engine 3-2 drives the fan 5-5 to rotate to generate wind power, the wind power is changed into hot wind through the electric heating rod 5-6, and the container is dried;

the device telescopic mechanism 6 comprises a folding support rod 6-1 and a double-sided gas strut 6-2, the folding support rod 6-1 is connected with the double-sided gas strut 6-2 through a fastening bolt, the folding support rod 6-1 is connected with a device shell I4 through a fastening bolt, the other folding support rod 6-1 is connected with a device shell II 8 through a fastening bolt, the double-sided gas strut 6-2 is started, and the double-sided gas strut 6-2 supports the folding support rod 6-1 to enable the device to be unfolded;

the waste water collecting mechanism 7 comprises a waste liquid container 7-1, a gravity sensor 7-2, a sensor 7-3 and a prompting device 7-4, the waste liquid container 7-1 is matched with a second device shell 8 through a groove, the gravity sensor 7-2 is fixed under the waste liquid container 7-1, the sensor 7-3 is fixed under the gravity sensor 7-2, the sensor 7-3 is connected with the prompting device 7-4, the gravity sensor 7-2 detects the weight of waste liquid in the waste liquid container 7-1, when the weight reaches the standard, the weight is transmitted to the prompting device 7-4 through the sensor 7-3, and the prompting device 7-4 sends out a prompting sound;

the container fixing frame 9 comprises a first fixed gear 9-1, a supporting arm 9-2, a crawler 9-3, a second fixed gear 9-4, a manual adjusting gear 9-5, a container holder 9-6, a central shaft 9-7, a container clamp mechanism 9-8 and a steering gear 9-9, wherein the first fixed gear 9-1 is connected with the supporting arm 9-2 through a fastening bolt, the first fixed gear 9-1 is connected with the crawler 9-3, the second fixed gear 9-4 is connected with the supporting arm 9-2 through a fastening bolt, the container clamp mechanism 9-8 is adapted to the supporting arm 9-2 through a groove, the manual adjusting gear 9-5 is connected with the supporting arm 9-2 through a fastening bolt, and the manual adjusting gear 9-5 is meshed with the second fixed gear 9-4, the supporting arm 9-2 is connected with the container support 9-6 through welding, the central shaft 9-7 is matched with the T-shaped supporting piece 10-1 through a through hole, the steering gear 9-9 is connected with the container support 9-6 through welding, the manual adjusting gear 9-5 is manually rotated, the manual adjusting gear 9-5 drives the fixed gear II 9-4, the fixed gear II 9-4 drives the crawler belt 9-3, the crawler belt 9-3 rotates clockwise to drive the container clamp mechanism 9-8 to move downwards, the bottom of the container is in contact connection with the container support 9-6, and the fixed gear I9-1 plays a role in fixing the crawler belt 9-3;

the container clamp mechanism 9-8 comprises a track connecting piece 9-8-1, a clamp connecting rod 9-8-2, an arc-shaped clamp 9-8-3 and an elastic buckle 9-8-4, the track connecting piece 9-8-1 is matched with the supporting arm 9-2 through a groove, the track connecting piece 9-8-1 is connected with the clamp connecting rod 9-8-2 through welding, the clamp connecting rod 9-8-2 is connected with the arc-shaped clamp 9-8-3 through a fastening screw, the arc-shaped clamp 9-8-3 is matched with the clamp connecting rod 9-8-2 through a groove, the arc-shaped clamp 9-8-3 is matched with the elastic buckle 9-8-4 through a through hole, and the track connecting piece 9-8-1 plays a connecting role, the arc-shaped clamp 9-8-3 plays a role in fixing the container, and the elastic buckle 9-8-4 plays a role in tightening the arc-shaped clamp 9-8-3;

the fixed frame lifting mechanism 10 comprises a T-shaped supporting piece 10-1, a small engine 10-2, a folding lifting frame 10-3, a second connecting short rod 10-4, a gas strut connecting rod 10-5, a gas strut 10-6, a connecting fixing block 10-7 and a lifting base 10-8, wherein the T-shaped supporting piece 10-1 is adapted to the small engine 10-2 through a through hole, the small engine 10-2 is occluded with a steering gear 9-9, the T-shaped supporting piece 10-1 is adapted to the steering gear 9-9 through the through hole, the folding lifting frame 10-3 is connected with the T-shaped supporting piece 10-1 through welding, the folding lifting frame 10-3 is adapted to the lifting base 10-8 through a groove, the bottom of the folding lifting frame 10-3 is connected with the second connecting short rod 10-4 through a fastening screw, the second connecting short rod 10-4 is connected with the gas strut connecting rod 10-5 through a fastening screw, the gas strut connecting rod 10-5 is connected with the gas strut 10-6 through a fastening bolt, the gas strut 10-6 is connected with the lifting base 10-8 through a fastening screw, the lifting base 10-8 is connected with the connecting fixed block 10-7 through welding, the connecting fixed block 10-7 is fixedly connected with the fixed crawler 11-5, the gas strut 10-6 contracts, the gas strut connecting rod 10-5 is pulled, and the gas strut connecting rod 10-5 pulls the second connecting short rod 10-4 to contract, so that the folding lifting frame 10-3 extends, the T-shaped supporting piece 10-1 ascends, and the small engine 10-2 drives the steering gear 9-9 to rotate;

the fixed frame displacement mechanism 11 comprises a hand crank 11-1, a hand gear 11-2, a transmission gear 11-3, a displacement gear I11-4, a fixed crawler 11-5 and a displacement gear II 11-6, wherein the hand crank 11-1 is meshed with the hand gear 11-2 through threads, the hand gear 11-2 is connected with a device shell II 8, the hand gear 11-2 is meshed with the transmission gear 11-3, the transmission gear 11-3 is meshed with the displacement gear I11-4, the displacement gear I11-4 is connected with the fixed crawler 11-5, the fixed crawler 11-5 is connected with the displacement gear II 11-6, the hand gear 11-2 is rotated through the hand crank 11-1, the hand gear 11-2 drives the transmission gear 11-3, the transmission gear 11-3 drives the first displacement gear 11-4, the first displacement gear 11-4 drives the fixed crawler 11-5, and the fixed crawler 11-5 is connected with the fixed block 10-7, so that the second displacement gear 11-6 and the first displacement gear 11-4 on the other displacement side of the fixed frame lifting mechanism 10 play a role in fixing the fixed crawler 11-5;

the automatic brush mechanism 1 is connected with a first device shell 4 through welding, the container fixing column 2 is connected with the first device shell 4 through welding, the power mechanism 3 is connected with the first device shell 4 through fastening screws, the first device shell 4 is connected with the drying mechanism 5, the first device shell 4 is connected with the telescopic mechanism 6 through fastening bolts, the telescopic mechanism 6 is connected with a second device shell 8 through fastening bolts, the container fixing frame 9 is movably connected with a fixing frame lifting mechanism 10 in a contact mode, the fixing frame lifting mechanism 10 is connected with a fixing frame displacement mechanism 11, and the wastewater collecting mechanism 7 is installed on the second device shell 8.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, where there are two numbers of the rotating gears 1-2, the connecting short rods 1-3, the connecting housings 1-4, the servos 1-5, and the automatic steering joints 1-6.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the number of the folding support rods 6-1 is four.

The use method of the device comprises the following steps: the container is filled with the cleaned liquid, the double-sided gas strut 6-2 is started, and the double-sided gas strut 6-2 supports the folding support rod 6-1, so that the device is unfolded.

Adjusting the elastic buckle 9-8-4 to separate the two arc-shaped clamps 9-8-3, placing the top end of the container between the two arc-shaped clamps 9-8-3, screwing the elastic buckle 9-8-4 to fix the top end of the container, manually rotating the manual adjusting gear 9-5, driving the fixed gear two 9-4 by the manual adjusting gear 9-5, driving the track 9-3 by the fixed gear two 9-4, and driving the container clamp mechanism 9-8 to move downwards by clockwise rotation of the track 9-3 to contact and connect the bottom of the container with the container support 9-6, so as to fix the container.

The automatic steering joint 1-6 adjusts the container brush 1-7 to enable the container brush 1-7 to be vertical to the position right above a container opening, the servo machine I1-5 drives the connecting short rod I1-3 to move along the track rod 1-1 to enable the rotating gear 1-2 to be meshed with the distance increasing gear 3-3, at the moment, the engine 3-2 is started, the engine 3-2 drives the distance increasing gear 3-3 to enable the container brush 1-7 to rotate, the gas strut 10-6 contracts to pull the gas strut connecting rod 10-5, the gas strut connecting rod 10-5 pulls the connecting short rod II 10-4 to contract to enable the folding lifting frame 10-3 to extend, and therefore the T-shaped supporting piece 10-1 rises to enable the container brush 1-7 to penetrate into the container to be cleaned.

A hand crank handle 11-1 is used for rotating a hand gear 11-2, the hand gear 11-2 is used for driving a transmission gear 11-3, the transmission gear 11-3 is used for driving a displacement gear 11-4, the displacement gear 11-4 is used for driving a fixed crawler 11-5, the fixed crawler 11-5 is connected with a fixed block 10-7, so that the other side of the displacement of a fixed frame lifting mechanism 10 is started, a small engine 10-2 is started, the small engine 10-2 is used for driving a steering gear 9-9 to rotate, a container support 9-6 is rotated, the container is inclined, liquid in the container is poured into a waste water collecting mechanism 7, the rotation gear 1-2 is separated from a distance increasing gear 3-3 at the moment, and the container is wiped by container wiping brushes 1-8 through the same operation.

And adjusting the second servo motor 5-1 to enable the moving gear 5-2 to be meshed with the engine 3-2 and the first gear 5-3 simultaneously, so that the engine 3-2 drives the fan 5-5 to rotate to generate wind power, the wind power is changed into hot wind through the electric heating rod 5-6 to dry the container, and the dried container is taken down and placed on the container fixing column 2 to be convenient to take.

The gravity sensor 7-2 detects the weight of the waste liquid in the waste liquid container 7-1, when the weight reaches the standard, the weight is transmitted to the prompting device 7-4 through the sensor 7-3, and the prompting device 7-4 gives out a prompting sound.

The device has the advantages that the cup brushing, the wiping and the drying are integrated, the generated waste liquid can be collected in a centralized mode, the device can be retracted and put in order and carried, the container hanger is arranged on the top layer of the device, and the container can be put temporarily.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides a neotype container for chemistry experiments brush device, includes automatic brush mechanism (1), container fixed column (2), power unit (3), device shell (4), stoving mechanism (5), device telescopic machanism (6), wastewater collection mechanism (7), device shell two (8), container mount (9), mount elevating system (10), mount displacement mechanism (11), its characterized in that: the automatic brush mechanism (1) comprises a track rod (1-1), a rotating gear (1-2), a first connecting short rod (1-3), a connecting shell (1-4), a first servo machine (1-5), an automatic steering joint (1-6), a container brush (1-7) and a container drying brush (1-8), wherein the track rod (1-1) is connected with the first device shell (4) in a welding manner, the track rod (1-1) is matched with the connecting shell (1-4) through a through hole, the connecting shell (1-4) is matched with the first connecting short rod (1-3) through a through hole, the first connecting short rod (1-3) is connected with the rotating gear (1-2) in a welding manner, the connecting shell (1-4) is connected with the first servo machine (1-5) through a fastening screw, the servo machine I (1-5) is matched with the track rod I (1-1) through a groove, the automatic steering joints (1-6) are arranged at the bottom of the connecting short rod I (1-3), the number of the automatic steering joints (1-6) is two, one automatic steering joint (1-6) is connected with the container brush (1-7), and the container wiping brush (1-8) is connected with the other automatic steering joint (1-6);

the power mechanism (3) comprises an engine fixing cover (3-1), an engine (3-2) and a distance-increasing gear (3-3), the engine (3-2) is matched with the first device shell (4) through a groove, the engine (3-2) is connected with the engine fixing cover (3-1) through a fastening screw, the engine fixing cover (3-1) is connected with the first device shell (4) through the fastening screw, the distance-increasing gear (3-3) is connected with the first device shell (4), and the distance-increasing gear (3-3) is meshed with the engine (3-2);

the drying mechanism (5) comprises a second servo (5-1), a first gear (5-2), a first gear (5-3), a second gear (5-4), a fan (5-5), an electric heating rod (5-6) and a storage battery (5-7), wherein the second servo (5-1) is matched with the first device shell (4) through a groove, the second servo (5-1) is connected with the second gear (5-2), the first gear (5-2) is meshed with the first gear (5-3), the first gear (5-3) is connected with the first device shell (4), the first gear (5-3) is connected with the second gear (5-4) through a gear chain, the second gear (5-4) is connected with the first device shell (4), the second gear (5-4) is connected with the fan (5-5), the electric heating rod (5-6) is positioned below the fan (5-5), the electric heating rod (5-6) is connected with the storage battery (5-7), and the storage battery (5-7) is matched with the first device shell (4) through the groove;

the device telescopic mechanism (6) comprises a folding supporting rod (6-1) and a double-sided gas support (6-2), the folding supporting rod (6-1) is connected with the double-sided gas support (6-2) through a fastening bolt, the folding supporting rod (6-1) is connected with a first device shell (4) through a fastening bolt, and the other folding supporting rod (6-1) is connected with a second device shell (8) through a fastening bolt;

the waste water collecting mechanism (7) comprises a waste liquid container (7-1), a gravity sensor (7-2), a sensor (7-3) and a prompting device (7-4), the waste liquid container (7-1) and a second device shell (8) are matched through a groove, the gravity sensor (7-2) is fixed under the waste liquid container (7-1), the sensor (7-3) is fixed under the gravity sensor (7-2), and the sensor (7-3) is connected with the prompting device (7-4);

the container fixing frame (9) comprises a fixed gear I (9-1), a supporting arm (9-2), a crawler belt (9-3), a fixed gear II (9-4), a manual adjusting gear (9-5), a container support (9-6), a central shaft (9-7), a container clamp mechanism (9-8) and a steering gear (9-9), wherein the fixed gear I (9-1) is connected with the supporting arm (9-2) through a fastening bolt, the fixed gear I (9-1) is connected with the crawler belt (9-3), the fixed gear II (9-4) is connected with the supporting arm (9-2) through a fastening bolt, the container clamp mechanism (9-8) is matched with the supporting arm (9-2) through a groove, and the manual adjusting gear (9-5) is connected with the supporting arm (9-2) through a fastening bolt, the manual adjusting gear (9-5) is meshed with the fixed gear II (9-4), the supporting arm (9-2) is connected with the container support (9-6) through welding, the central shaft (9-7) is matched with the T-shaped support (10-1) through a through hole, and the steering gear (9-9) is connected with the container support (9-6) through welding;

the container clamp mechanism (9-8) comprises a track connecting piece (9-8-1) and a clamp connecting rod (9-8-2), the track connecting piece (9-8-1) is matched with the supporting arm (9-2) through a groove, the track connecting piece (9-8-1) is connected with the clamp connecting rod (9-8-2) through welding, the clamp connecting rod (9-8-2) is connected with the arc clamp (9-8-3) through a fastening screw, the arc clamp (9-8-3) is matched with the clamp connecting rod (9-8-2) through a groove, and the arc clamp (9-8-3) is matched with the elastic buckle (9-8-4) through a through hole;

the fixing frame lifting mechanism (10) comprises a T-shaped supporting piece (10-1), a small engine (10-2), a folding lifting frame (10-3), a connecting short rod II (10-4), a gas strut connecting rod (10-5), a gas strut (10-6), a connecting fixing block (10-7) and a lifting base (10-8), wherein the T-shaped supporting piece (10-1) is matched with the small engine (10-2) through a through hole, the small engine (10-2) is meshed with a steering gear (9-9), the T-shaped supporting piece (10-1) is matched with the steering gear (9-9) through a through hole, the folding lifting frame (10-3) is connected with the T-shaped supporting piece (10-1) through welding, the folding lifting frame (10-3) is matched with the lifting base (10-8) through a groove, the bottom of the folding lifting frame (10-3) is connected with a second connecting short rod (10-4) through a fastening screw, the second connecting short rod (10-4) is connected with an air support connecting rod (10-5) through a fastening screw, the air support connecting rod (10-5) is connected with an air support (10-6) through a fastening bolt, the air support (10-6) is connected with a lifting base (10-8) through a fastening screw, the lifting base (10-8) is connected with a connecting fixing block (10-7) through welding, and the connecting fixing block (10-7) is fixedly connected with a fixed crawler (11-5);

the fixed frame displacement mechanism (11) comprises a hand crank handle (11-1), a hand crank gear (11-2), a transmission gear (11-3), a first displacement gear (11-4), a fixed crawler belt (11-5) and a second displacement gear (11-6), wherein the hand crank handle (11-1) is meshed with the hand crank gear (11-2) through threads, the hand crank gear (11-2) is connected with a second device shell (8), the hand crank gear (11-2) is meshed with the transmission gear (11-3), the transmission gear (11-3) is meshed with the first displacement gear (11-4), the first displacement gear (11-4) is connected with the fixed crawler belt (11-5), and the fixed crawler belt (11-5) is connected with the second displacement gear (11-6);

the automatic brush mechanism (1) is connected with the first device shell (4) in a welding mode, the container fixing column (2) is connected with the first device shell (4) in a welding mode, the power mechanism (3) is connected with the first device shell (4) through fastening screws, the first device shell (4) is connected with the drying mechanism (5), the first device shell (4) is connected with the first device telescoping mechanism (6) through fastening bolts, the first device telescoping mechanism (6) is connected with the second device shell (8) through fastening bolts, the container fixing frame (9) is in movable contact connection with the fixing frame lifting mechanism (10), the fixing frame lifting mechanism (10) is connected with the fixing frame displacement mechanism (11), and the wastewater collecting mechanism (7) is installed on the second device shell (8).

2. The novel container brush device for chemical experiments as claimed in claim 1, wherein: the number of the rotating gears (1-2), the connecting short rods (1-3), the connecting shell (1-4), the servo machines (1-5) and the automatic steering joints (1-6) is two.

3. The novel container brush device for chemical experiments as claimed in claim 1, wherein: the number of the folding supporting rods (6-1) is four.

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