CN114405022A - Traceable energy-saving built-in stage suspender device - Google Patents

Abstract

The invention discloses a traceable energy-saving built-in stage suspender device, which comprises a base and an automatic maintenance system of a stage suspender, and is characterized in that: the novel multifunctional electric water heater is characterized in that a connecting plate is fixed on one side of the base, a supporting barrel and a connecting shaft are fixed on the left side of the connecting plate, the connecting shaft is located inside the supporting barrel, a motor is fixed on the left side of the connecting shaft, a speed reducer is fixed on an output shaft of the motor, a winding barrel is fixed on an output shaft of the speed reducer on the left side, the right side of the winding barrel is connected with the connecting plate through a bearing, the winding barrel is sleeved on the outer surface of the supporting barrel, expansion plates are fixed on the upper side and the lower side of the supporting barrel, annular plates are fixed at the tail ends of the expansion plates, the annular plates are in contact with the surface of the motor, an oil cavity is formed in the winding barrel, a plurality of oil holes are formed in the bottom of the winding barrel, and the oil holes penetrate through the oil cavity.

Description

Traceable energy-saving built-in stage suspender device

Technical Field

The invention is applied to the background of a stage suspender device and is named as a traceable energy-saving built-in stage suspender device.

Background

The stage jib is the instrument that places such as movie theater, auditorium, club, studio, multi-functional room and gymnasium hung lamps and lanterns and scenery, and the stage jib is the horizontal pole that is used for hanging various backdrop or curtain, runs through whole stage, can go up and down, hangs at ordinary times on the position that spectator can not see above the stage, just falls so that fixed hanging object when only arranging the stage.

However, the existing stage boom devices fall into two broad categories: vertical and horizontal, both expose motor, speed reducer in the outside, occupation space is big, along with the miniaturization of theater, multi-functional room, traditional jib machine has been unable to satisfy the demand, and current stage jib device is inside to be difficult to the maintenance lubrication, and leads to inside easy damage and improper operation.

Therefore, it is necessary to provide a traceable energy-saving built-in stage suspender device, which can achieve the effects of space saving and automatic lubrication and maintenance.

Disclosure of Invention

The invention aims to provide a traceable energy-saving built-in stage suspender device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a built-in stage jib device of energy-conservation based on can pursuit, contains base and stage jib automatic maintenance system, its characterized in that: one side of base is fixed with the connecting plate, the left side of connecting plate is fixed with a supporting cylinder and a connecting axle, the connecting axle is located the inside of a supporting cylinder, the left side of connecting axle is fixed with the motor, the output shaft of motor is fixed with the speed reducer, the left side output shaft of speed reducer is fixed with the reel, the right side and the connecting plate of reel are connected for the bearing, the reel cover is at the surface of a supporting cylinder.

In one embodiment, telescopic plates are fixed on the upper side and the lower side of the supporting cylinder, annular plates are fixed at the tail ends of the telescopic plates, the annular plates are in contact with the surface of a motor, an oil cavity is formed in the winding cylinder, a plurality of oil holes are formed in the bottom of the winding cylinder, the oil holes penetrate through the oil cavity, a valve is connected to the joint of the oil holes and the oil cavity, and an arc plate is slidably connected to the inside of the connecting plate.

In one embodiment, the automatic maintenance system for the stage suspender comprises a detection module, a logic judgment module and a maintenance module, wherein the detection module comprises an ejection submodule, a distance detection submodule and a pressure sensor, the logic judgment module comprises an analysis submodule, a telescopic submodule, a switch submodule and a prompt submodule, the ejection submodule is located on one side, close to the arc plate, of the connecting plate, the distance detection submodule is located on the left side of the connecting plate, the pressure sensor is located on one side, close to the motor, of the annular plate, the telescopic submodule is electrically connected with the telescopic plate, and the switch submodule is electrically connected with the valve.

In one embodiment, the detection module and the logic determination module comprise the following specific operation steps:

a1, starting a motor to work, and starting a speed reducer to work at the same time, so that the speed reducer drives a winding drum to rotate;

a2, because a gap is reserved between the winding drum and the supporting drum, the arc plate is ejected out of the connecting plate through the operation of the ejection submodule and then enters the gap, the moving distance of the arc plate in the gap is detected through the distance detection submodule, a signal is transmitted to the analysis submodule, and whether the winding drum and the supporting drum are rusted or not is analyzed;

a3, detecting the pressure of the motor on the annular plate through a pressure sensor, and judging the shaking degree of the motor;

and A4, transmitting the signal to an analysis submodule, and judging the working efficiency of the winding drum.

In one embodiment, the a3 comprises the following specific operation steps:

a31, when the pressure sensor detects that the pressure of the motor to the annular plate is a constant value, the motor does not shake;

a32, when the pressure sensor detects that the pressure of the motor to the annular plate is larger than a constant value, the motor starts to shake.

In one embodiment, the a4 comprises the following specific operation steps:

a41, when the rust does not exist between the winding drum and the supporting drum and the motor does not shake, the working efficiency of the winding drum is high;

a42, when no rust is generated between the winding drum and the supporting drum and the motor shakes, or when rust is generated between the winding drum and the supporting drum and the motor does not shake, the working efficiency of the winding drum is in a middle level;

a43, when rust is generated between the winding drum and the supporting drum and the motor shakes, the working efficiency of the winding drum is low.

In one embodiment, the maintenance module includes a blowing submodule, temperature sensors respectively located inside the support drum and outside the winding drum, and a calculation submodule located on the left inner wall of the winding drum.

In one embodiment, the maintenance module comprises the following specific operation steps:

s1, detecting the indoor temperature and the temperature of the supporting cylinder by the temperature sensor, transmitting the signal to the calculation submodule, and judging the temperature difference between the indoor temperature and the supporting cylinder, W_{Branch stand}-W_{Outer cover}P, wherein W_{Branch stand}To support the temperature of the drum surface, W_{Outer cover}Is the indoor temperature, P is the temperature difference between the indoor temperature and the supporting cylinder, and the temperature is in centigrade when 0<When P is less than or equal to 2, the temperature difference between the indoor space and the supporting cylinder at the same time is proved to be small, so that the heat exchange speed of hot air is low, namely, the heat dissipation is low, and when P is less than or equal to 2>2, the temperature difference between the indoor space and the supporting cylinder is proved to be large at the same moment, so that the heat exchange speed is high, and the heat dissipation is high;

and S2, when the heat dissipation is slow, transmitting the signal to the blowing submodule.

Compared with the prior art, the invention has the following beneficial effects: according to the stage suspender device, the prompting submodule is arranged, when the winding drum and the supporting drum are rusted and the motor shakes, the working efficiency of the winding drum is indicated to be low, a signal is transmitted to the prompting submodule to give an alarm, and workers can know the condition of the stage suspender device in advance.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view showing an overall sectional structure of the present invention;

FIG. 3 is a side view of the connection plate of the present invention;

FIG. 4 is a two-dimensional view of an exemplary support cylinder of the present invention;

fig. 5 is a schematic view of the stage boom automatic maintenance system of the present invention;

in the figure: 1. a base; 2. a connecting plate; 3. a support cylinder; 4. a connecting shaft; 5. a motor; 6. a speed reducer; 7. a reel; 8. an oil chamber; 9. an oil hole; 10. a retractable plate; 11. an annular plate; 12. a circular arc plate.

Detailed Description

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a built-in stage jib device of energy-conservation based on can pursuit, contains base 1 and stage jib automatic maintenance system, its characterized in that: one side of base 1 is fixed with connecting plate 2, the left side of connecting plate 2 is fixed with a supporting cylinder 3 and a connecting axle 4, connecting axle 4 is located the inside of a supporting cylinder 3, connecting axle 4 is concentric state with a supporting cylinder 3, the left side of connecting axle 4 is fixed with motor 5, the output shaft of motor 5 is fixed with speed reducer 6, motor 5 is concentric state with speed reducer 6, the left side output shaft of speed reducer 6 is fixed with reel 7, the right side of reel 7 is connected for the bearing with connecting plate 2, reel 7 cover is at the surface of a supporting cylinder 3.

The upper side and the lower side of the supporting cylinder 3 are fixedly provided with telescopic plates 10, the tail ends of the telescopic plates 10 are fixedly provided with annular plates 11, the annular plates 11 are in surface contact with the motor 5, an oil cavity 8 is formed in the winding drum 7, a plurality of oil holes 9 are formed in the bottom of the winding drum 7, the oil holes 9 penetrate through the oil cavity 8, a valve is connected to the joint of the oil holes 9 and the oil cavity 8, and an arc plate 12 is slidably connected to the inside of the connecting plate 2.

The automatic maintenance system for the stage suspender comprises a detection module, a logic judgment module and a maintenance module, the detection module comprises an ejection submodule, a distance detection submodule and a pressure sensor, the logic judgment module comprises an analysis submodule, a telescopic submodule, a switch submodule and a prompt submodule, the ejection submodule is located on one side, close to an arc plate 12, of the inside of a connecting plate 2, the distance detection submodule is located on the left side of the connecting plate 2, the pressure sensor is located on one side, close to a motor 5, of an annular plate 11, the telescopic submodule is electrically connected with a telescopic plate 10, and the switch submodule is electrically connected with a valve.

The ejection submodule is used for controlling the arc plate 12 to move between the connecting plates 2, the distance detection submodule is used for detecting the distance of the arc plate 12, the pressure sensor is used for detecting the pressure of the motor 5 on the annular plate 11 when rotating, the analysis submodule is used for analyzing the working efficiency of the winding drum 7, the telescopic submodule is used for controlling the telescopic plate 10 to stretch, the switch submodule is used for controlling the valve to be opened or closed, and the prompt submodule is used for giving an alarm.

The detection module and the logic judgment module comprise the following specific operation steps:

a1, starting the motor 5 to work, and simultaneously starting the speed reducer 6 to work, so that the speed reducer 6 drives the winding drum 7 to rotate;

a2, because a gap is reserved between the winding drum 7 and the supporting drum 3, the arc plate 12 is ejected from the inside of the connecting plate 2 through the operation of the ejection submodule and then enters the gap, the moving distance of the arc plate 12 in the gap is detected through the distance detection submodule, a signal is transmitted to the analysis submodule, whether rust happens between the winding drum 7 and the supporting drum 3 is analyzed, when the distance that the arc plate 12 enters the gap is greater than or equal to 80% of the length of the supporting drum 3, when the distance that the arc plate 12 enters the gap is smaller than 80% of the length of the supporting drum, the two sides of the gap are indicated to be rusted, and a bump is caused;

a3, detecting the pressure of the motor 5 on the annular plate 11 through a pressure sensor, and judging the shaking degree of the motor 5;

a4, transmitting the signal to an analysis submodule, judging the working efficiency of the winding drum 7, and carrying out corresponding processing.

A3 comprises the following specific operation steps:

a31, when the pressure sensor detects that the pressure of the motor 5 to the annular plate 11 is a constant value, the motor 5 is indicated not to shake;

a32, when the pressure sensor detects that the pressure of the motor 5 on the annular plate 11 is larger than a constant value, it indicates that the motor 5 starts to shake, and the rotating quality of the winding drum 7 is affected.

A4 comprises the following specific operation steps:

a41, when no rust is formed between the winding drum 7 and the support drum 3 and the motor 5 is not shaken, it means that the working efficiency of the winding drum 7 is high;

a42, when rust does not occur between the winding drum 7 and the supporting drum 3 and the motor 5 shakes, or when rust occurs between the winding drum 7 and the supporting drum 3 and the motor 5 does not shake, the working efficiency of the winding drum 7 is in a middle level, when rust does not occur between the winding drum 7 and the supporting drum 3 and the motor 5 shakes, a signal is transmitted to the telescopic sub-module, the telescopic plate 10 is controlled to extend, and the annular plate 11 is made to clamp the motor 5 up and down, so that the stability of the motor is improved; when the winding drum 7 and the supporting drum 3 rust and the motor 5 does not shake, a signal is transmitted to the switch sub-module to control the valve to be opened, so that the oil in the oil cavity 8 also flows to a gap through the oil hole 9, friction between the winding drum 7 and the supporting drum 3 due to a rusty bump is reduced, and the working efficiency of the winding drum 7 is improved;

a43, when rustting between reel 7 and the support section of thick bamboo 3, and motor 5 rocks, show that the work efficiency of reel 7 is low-level, give the suggestion submodule piece with signal transmission, make it report to the police, the staff of being convenient for knows the condition of stage jib device in advance.

The maintenance module comprises a blowing submodule, a temperature sensor and a calculation submodule, the temperature sensor is respectively positioned inside the supporting cylinder 3 and outside the winding drum 7, and the blowing submodule is positioned on the left inner wall of the winding drum 7;

the blowing submodule is used for blowing, the temperature sensor is used for detecting the temperature of the surface of the supporting cylinder 3, and the calculating submodule is used for judging the use quality of the stage suspender device.

The maintenance module comprises the following specific operation steps:

s1, detecting the indoor temperature and the temperature of the supporting cylinder 3 through the temperature sensor, transmitting the signal to the calculation submodule, and judging the temperature difference between the indoor temperature and the supporting cylinder 3, W_{Branch stand}-W_{Outer cover}P, wherein W_{Branch stand}To support the temperature of the surface of the drum 3, W_{Outer cover}Is the indoor temperature, P is the temperature difference between the indoor temperature and the supporting cylinder 3, and the temperature is in centigrade when 0<When P is less than or equal to 2, the temperature difference between the indoor space and the supporting cylinder 3 at the same time is proved to be small, so that the hot gas exchange speed is low, which means that the heat dissipation is slow, and when P is less than or equal to 2>2, the temperature difference between the indoor space and the supporting cylinder 3 is proved to be large at the same time, so that the heat exchange speed is high, and the heat dissipation is high;

s2, when the heat dissipation is slow, the signal is transmitted to the blowing submodule to enable the blowing submodule to blow air, so that the air circulation inside the supporting cylinder 3 can be improved, and the heat dissipation effect is improved;

the maintenance module further comprises the following specific operation steps:

when the heat dissipation is slow and the operating efficiency of the drum 7 is medium, the operating quality of the stage boom device is low, and the step a42 and the step S2 are repeated together, so that the operating efficiency of the drum is improved while the heat is dissipated, and the operating quality of the stage boom device can be improved.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; may be directly connected, may be internal to the two elements or may be in an interactive relationship with the two elements. The above terms are understood in the present application by those of ordinary skill in the art as appropriate.

The above detailed description is provided for a cleaning device provided in the embodiments of the present application, and the principle and the implementation of the present application are explained in the present application by applying specific examples, and the description of the above embodiments is only used to help understanding the technical solution and the core idea of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims (8)

1. The utility model provides a built-in stage jib device of energy-conservation based on can pursuit, contains base (1) and stage jib automatic maintenance system, its characterized in that: one side of base (1) is fixed with connecting plate (2), the left side of connecting plate (2) is fixed with a support section of thick bamboo (3) and connecting axle (4), connecting axle (4) are located the inside of a support section of thick bamboo (3), the left side of connecting axle (4) is fixed with motor (5), the output shaft of motor (5) is fixed with speed reducer (6), the left side output shaft of speed reducer (6) is fixed with reel (7), the right side of reel (7) is connected for the bearing with connecting plate (2), reel (7) cover is at the surface of a support section of thick bamboo (3).

2. The traceable, energy-saving, built-in stage boom assembly of claim 1, wherein: the upper and lower both sides of a support section of thick bamboo (3) are fixed with expansion plate (10), the end of expansion plate (10) all is fixed with annular plate (11), the surface contact of annular plate (11) and motor (5), oil pocket (8) have been seted up to the inside of reel (7), a plurality of oilholes (9) have been seted up to the bottom of reel (7), run through mutually with oil pocket (8) of oilhole (9), oilhole (9) are connected with the valve with the junction of oil pocket (8), the inside sliding connection of connecting plate (2) has circular arc board (12).

3. The traceable, energy-saving, built-in stage boom assembly of claim 2, wherein: stage jib automatic maintenance system is including detection module, logic judgement module and maintenance module, detection module is including launching the submodule piece, apart from detecting submodule piece and pressure sensors, logic judgement module is including analysis submodule piece, flexible submodule piece, switch submodule piece and suggestion submodule piece, launch one side that the submodule piece is located the inside of connecting plate (2) and is close to circular arc board (12), apart from detecting one side that the submodule piece is located connecting plate (2), pressure sensors is located one side that annular plate (11) is close to motor (5), flexible submodule piece is connected for the electricity with expansion plate (10), the switch submodule piece is connected for the electricity with the valve.

4. The traceable, energy-saving, built-in stage boom assembly of claim 3, wherein: the detection module and the logic judgment module comprise the following specific operation steps:

a1, starting a motor (5) to work, and simultaneously starting a speed reducer (6) to work, so that the speed reducer (6) drives a winding drum (7) to rotate;

a2, because a gap is reserved between the winding drum (7) and the supporting drum (3), the arc plate (12) is ejected out of the connecting plate (2) through the operation of the ejection submodule and then enters the gap, the moving distance of the arc plate (12) in the gap is detected through the distance detection submodule, a signal is transmitted to the analysis submodule, and whether the winding drum (7) and the supporting drum (3) rust or not is analyzed;

a3, detecting the pressure of the motor (5) on the annular plate (11) through a pressure sensor, and judging the shaking degree of the motor (5);

a4, transmitting the signal to an analysis submodule to judge the working efficiency of the winding drum (7).

5. The traceable, energy-saving, built-in stage boom assembly of claim 4, wherein: the A3 comprises the following specific operation steps:

a31, when the pressure sensor detects that the pressure of the motor (5) to the annular plate (11) is a constant value, the motor (5) is not shaken;

a32, when the pressure sensor detects that the pressure of the motor (5) to the annular plate (11) is larger than a constant value, the motor (5) starts to shake.

6. The traceable, energy-saving, built-in stage boom assembly of claim 5, wherein: the A4 comprises the following specific operation steps:

a41, when no rust is formed between the winding drum (7) and the supporting drum (3) and the motor (5) does not shake, the working efficiency of the winding drum (7) is high;

a42, when no rust is generated between the winding drum (7) and the supporting drum (3) and the motor (5) shakes, or when rust is generated between the winding drum (7) and the supporting drum (3) and the motor (5) does not shake, the working efficiency of the winding drum (7) is in a middle level;

a43, when rust is generated between the winding drum (7) and the support drum (3) and the motor (5) shakes, it indicates that the operating efficiency of the winding drum (7) is low.

7. The traceable, energy-saving, built-in stage boom assembly of claim 6, wherein: the maintenance module comprises a blowing submodule, a temperature sensor and a calculation submodule, wherein the temperature sensor is respectively positioned inside the supporting barrel (3) and outside the winding barrel (7), and the blowing submodule is positioned on the inner wall of the left side of the winding barrel (7).

8. The traceable, energy-saving, built-in stage boom assembly of claim 7, wherein: the maintenance module comprises the following specific operation steps:

s1, detecting the indoor temperature and the temperature of the supporting cylinder (3) through the temperature sensor, transmitting the signal to the calculation submodule, and judging the temperature difference between the indoor temperature and the supporting cylinder (3), W_{Branch stand}-W_{Outer cover}P, wherein W_{Branch stand}To support the temperature of the surface of the drum (3), W_{Outer cover}Is the indoor temperature, P is the temperature difference between the indoor temperature and the supporting cylinder (3), the temperature is in centigrade when 0<When P is less than or equal to 2, the temperature difference between the indoor space and the supporting cylinder (3) at the same time is proved to be small, so that the heat exchange speed is slow, namely, the heat dissipation is slow, and when P is less than or equal to 2>2, the temperature difference between the indoor space and the supporting cylinder (3) is proved to be large at the same moment, so that the hot gas exchange speed is high, and the heat dissipation is high;

and S2, when the heat dissipation is slow, transmitting the signal to the blowing submodule.

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