WO2022077667A1

WO2022077667A1 - Electromechanical monitoring device

Info

Publication number: WO2022077667A1
Application number: PCT/CN2020/127953
Authority: WO
Inventors: 彭加山; 彭晓芳
Original assignee: 苏州莱锦机电自动化有限公司
Priority date: 2020-10-15
Filing date: 2020-11-11
Publication date: 2022-04-21
Also published as: LU501831B1; DE212020000590U1; CN112285532B; CN112285532A

Abstract

An electromechanical monitoring device, which comprises a monitoring box body (1), wherein an electromechanical base (2) used for an electromechanical apparatus (3) to be mounted thereon is fixedly mounted on an inner side of the top part of the monitoring box body (1); a fixing frame (4) fixedly connected to the monitoring box body (1) is mounted on one side of the electromechanical apparatus (3); a fan (9) is mounted on the fixing frame (4); an air intake hole (5) is provided in one side of the monitoring box body (1), an air output hole (6) is provided in the other side thereof, and the air output hole (6) and the air intake hole (5) are both provided with a filtering mechanism (7) therein; and a circuit monitoring mechanism (12) and an environment monitoring mechanism (13) are respectively mounted on two sides of the electromechanical base (2). The electromechanical monitoring device can effectively perform the function of protection while monitoring, such that working efficiency is improved, the service life is prolonged, and the electromechanical monitoring device is more practical.

Description

An electromechanical monitoring device

technical field

The invention relates to the technical field of detection equipment, in particular to an electromechanical monitoring device.

Background technique

Mechanical and electrical equipment generally refers to machinery, electrical appliances and electrical automation equipment. It is different from hardware, which refers to finished products that can achieve certain functions. With the continuous improvement of people's living standards, people have more and more needs for electromechanical equipment in their daily life. From transportation to various household appliances, computers, printers, etc., they have become indispensable electromechanical products in people's lives.

technical problem

In order to ensure that the electromechanical equipment can work stably, the corresponding monitoring equipment is usually set up for monitoring. However, the current monitoring equipment has a single function, usually only detects the circuit, and cannot monitor the environment synchronously, which limits the application environment of the electromechanical equipment. Therefore, it is necessary to optimize.

technical solutions

The purpose of the present invention is to provide an electromechanical monitoring device to solve the above-mentioned problems in the background art.

To achieve the above object, the present invention provides the following technical solutions:

An electromechanical monitoring device includes a monitoring box body, an electromechanical base for installing electromechanical equipment is fixedly installed on the inner side of the top of the monitoring box body, and a fixing frame fixedly connected to the monitoring box body is installed on one side of the electromechanical equipment. A fan is installed on the frame, an air inlet hole is opened on one side of the monitoring box, and an air outlet hole is formed on the other side, and a filter mechanism is installed in the air outlet hole and the air inlet hole, and a No. 1 is installed in the electromechanical base. A lead and a second lead, one end of the first lead is connected to the electromechanical device, the other end is connected to the circuit monitoring mechanism, one end of the second lead is connected to the electromechanical device, and the other end is connected to the environmental monitoring mechanism, the environmental monitoring mechanism The circuit monitoring mechanism and the circuit monitoring mechanism are all arranged in the monitoring box and symmetrically arranged with respect to the monitoring box.

As a further technical solution of the present invention, the circuit monitoring mechanism includes a first casing, a first conductive plate slidably connected therewith is installed in the first casing, and a second conductive plate is installed under both ends of the first conductive plate. A first terminal that is fixedly connected to the housing, one end of the first terminal is connected to a first wire, a first sensor is installed on the first terminal, and the surface of the first conductive plate is sleeved with a fixed connection therewith A first magnet layer is installed above the first magnet layer, and a first electromagnet fixedly connected to the top of the first casing is installed, and a first battery and a first controller are fixedly installed inside the bottom of the first casing.

As a further technical solution of the present invention: the first sensor includes a voltage sensor and a current sensor, a first limit chute is opened on the inner wall of the first housing, and a first limit chute is installed in the first limit chute. The first sliding rod is slidably connected, and one end of the first sliding rod is fixedly connected with the first magnet layer.

As a further technical solution of the present invention, the environmental monitoring mechanism includes a second casing, a second sensor is fixedly installed outside the second casing, and a second conductive plate slidably connected to the second casing is installed in the second casing. A second connecting post fixedly connected to the second casing is installed under both ends of the second conductive plate, one end of the second connecting post is connected to the second wire, and the surface of the second conductive plate is sleeved with a fixed connection therewith The second magnet layer above the second magnet layer is installed with a second electromagnet fixedly connected to the top of the second casing, and the inner side of the bottom of the second casing is fixedly installed with a second battery and a second controller.

As a further technical solution of the present invention: the second sensor includes a temperature sensor, a humidity sensor and a dust sensor, a second limit chute is provided on the inner wall of the second housing, and the second limit chute is A second sliding rod is installed in sliding connection therewith, and one end of the second sliding rod is fixedly connected with the second magnet layer.

As a further technical solution of the present invention, an alarm device is fixedly connected to the outer side of the top of the monitoring box, and the alarm device is respectively connected to the first controller and the second controller.

As a further technical solution of the present invention: the alarm is an acousto-optic alarm.

As a further technical solution of the present invention: the filter mechanism includes a first filter plate and a second filter plate, the first filter plate is provided with a plurality of uniformly distributed first filter holes, and the first filter plate has a A plurality of evenly distributed first protrusions are fixedly installed on the side, the first protrusions are staggered from the first filter holes, and the second filter plate is provided with second filter holes matched with the first protrusions, A second protrusion matched with the first filter hole is fixedly installed on the second filter plate.

beneficial effect

Compared with the prior art, the present invention has the beneficial effects that the synchronous monitoring of the circuit and the environment is realized by setting up the circuit monitoring mechanism and the environment monitoring mechanism, and when the circuit is abnormal and the working environment is poor, the power can be cut off in time, and the electromechanical system can be cut off in time. The equipment can be protected, in addition, an alarm can occur to notify the staff that even if it is processed, the monitoring is more thorough, and it can also effectively protect while monitoring, thereby improving work efficiency and service life, and it is more practical.

Description of drawings

Fig. 1 is the front sectional view of electromechanical monitoring device;

Figure 2 is a side sectional view of the electromechanical monitoring device;

Fig. 3 is the front sectional view of the circuit monitoring mechanism in the electromechanical monitoring device;

4 is a schematic structural diagram of a first conductive plate in the electromechanical monitoring device;

Fig. 5 is the front sectional view of the environmental monitoring mechanism in the electromechanical monitoring device;

Fig. 6 is the side view of the first filter plate in the electromechanical monitoring device;

7 is a side view of the second filter plate in the electromechanical monitoring device;

Figure 8 is a side view of the filter mechanism in the electromechanical monitoring device.

In the picture: 1-monitoring box, 2-electromechanical base, 3-electromechanical equipment, 4-fixing frame, 5-air inlet, 6-air outlet, 7-filter mechanism, 8-alarm, 9-fan, 10 -First wire, 11-Second wire, 12-Circuit monitoring mechanism, 13-Environment monitoring mechanism, 14-First housing, 15-First electromagnet, 16-First limit chute, 17-First Conductive plate, 18-first terminal, 19-first battery, 20-first controller, 21-first sensor, 22-first magnet layer, 23-first sliding rod, 24-second shell, 25-Second conductive plate, 26-Second electromagnet, 27-Second sensor, 28-Second magnet layer, 29-Second limit chute, 30-Second binding post, 31-Second sliding rod, 32-Second battery, 33-Second controller, 34-First filter plate, 35-First filter hole, 36-First protrusion, 37-Second filter plate, 38-Second filter hole, 39- Second bulge.

Embodiments of the present invention

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

The electromechanical monitoring device as shown in Figures 1-5 includes a monitoring box 1, and an electromechanical base 2 for installing the electromechanical equipment 3 is fixedly installed on the inside of the top of the monitoring box 1, preferably by clip connection, which is convenient for disassembly and monitoring at the same time. The box body 1 is preferably an existing structure with a cover, which is convenient for switching operations such as maintenance; a fixing frame 4 fixedly connected to the monitoring box body 1 is installed on one side of the electromechanical device 3, and a fan 9 is installed on the fixing frame 4. That is, by setting the fan 9 to rotate, the mechanical and electrical equipment 3 is air-cooled and dissipated when necessary, so as to prevent the long-term working temperature from being too high. There is an air outlet 6, and a filter mechanism 7 is installed in the air outlet 6 and the air inlet hole 5, that is, when dissipating heat, through the action of the fan 9, the external wind is filtered by the filter mechanism 7 of the air inlet hole 5 and then enters the monitoring system. Inside the box 1, after passing through the surface of the electromechanical equipment 3, it is discharged from the filter mechanism 7 in the air outlet 6, so as to effectively dissipate heat while preventing dust; the electromechanical base 2 is installed with a first wire 10 and a second wire 11, One end of the first wire 10 is connected to the electromechanical device 3 , the other end is connected to the circuit monitoring mechanism 12 , one end of the second wire 11 is connected to the electromechanical device 3 , and the other end is connected to the environmental detection mechanism 13 , and the environmental monitoring mechanism 13 The circuit monitoring mechanism 12 and the circuit monitoring mechanism 12 are both arranged in the monitoring box 1 and symmetrically arranged with respect to the monitoring box 1, that is, by setting the circuit monitoring mechanism 12 to cooperate with the environmental monitoring mechanism 13, not only the circuit of the electromechanical equipment 3 is monitored, but also the monitoring of the electrical and mechanical equipment 3 is realized. The monitoring of the working environment greatly reduces the possibility of abnormality, the monitoring effect is good, and the use is safer.

Further, the circuit monitoring mechanism 12 includes a first housing 14, and a first conductive plate 17 is installed in the first housing 14 in a sliding connection with the first conductive plate 17. The first terminal 18 is fixedly connected to the first housing 14 , one end of the first terminal 18 is connected to the first wire 10 , and the first sensor 21 is installed on the first terminal 18 , that is, through the first sensor 21 To monitor the circuit operation, preferably, the first sensor 21 includes a voltage sensor and a current sensor, and monitors the working voltage and current in real time; the surface of the first conductive plate 17 is sleeved with a first magnet that is fixedly connected to it. Layer 22, the first electromagnet 15 fixedly connected to the top of the first casing 14 is installed above the first magnet layer 22, and the first battery 19 and the first controller are fixedly installed inside the bottom of the first casing 14 20. When the first sensor 21 detects an abnormality, the first controller 20 controls the first electromagnet 15 to work, thereby sucking up the first conductive plate 17 with the first magnet layer 22 for circuit protection, and the first battery 19 is used for power supply, and its circuit connection is well known in the art, and will not be repeated. In addition, in order to ensure that the first conductive plate 17 can slide up and down stably, a first limit chute 16 is opened on the inner wall of the first housing 14, A first sliding rod 23 slidably connected therewith is installed in the first limiting chute 16 , and one end of the first sliding rod 23 is fixedly connected with the first magnet layer 22 , that is, the first sliding rod 23 is The sliding groove 16 cooperates to realize the stable sliding of the first conductive plate 17 .

Further, the environment monitoring mechanism 13 includes a second housing 24, and a second sensor 27 is fixedly mounted on the outside of the second housing 24. Preferably, the second sensor 27 includes a temperature sensor, a humidity sensor, and a dust sensor, that is, By setting the temperature sensor, humidity sensor and dust sensor to monitor the temperature, humidity and dust in the working environment respectively, to prevent the working environment from being too bad and affecting the normal operation and service life of the electromechanical equipment 3; the second housing 24 is installed in the There is a second conductive plate 25 slidably connected to the second conductive plate 25 , and a second terminal 30 fixedly connected to the second housing 24 is installed under both ends of the second conductive plate 25 , and one end of the second terminal 30 is connected to the second The wires 11 are connected, the surface of the second conductive plate 25 is sleeved with a second magnet layer 28 that is fixedly connected to it, and a second electromagnet 26 that is fixedly connected to the top of the second housing 24 is installed above the second magnet layer 28 , the second battery 32 and the second controller 33 are fixedly installed on the inner side of the bottom of the second shell 24, that is, the second battery 32 is used to supply power to other electrical equipment in the second shell 24. When the monitoring working environment is relatively low When the difference is poor, the second controller 33 controls the second electromagnet 26 to work, and pulls up the second conductive plate 25 with the second magnet layer 28, so that the two second terminals 30 are disconnected, and the monitoring is carried out at the same time. Protection; in order to ensure that the second conductive plate 25 can slide up and down stably, a second limit chute 29 is opened on the inner wall of the second housing 24, and a second limit chute 29 is installed in the second limit chute 29 to be slidably connected to it. The second sliding rod 31 , one end of the second sliding rod 31 is fixedly connected with the second magnet layer 28 .

Further, in order to notify the staff to deal with the abnormal situation, an alarm device 8 fixedly connected to the top outside of the monitoring box 1 is installed, and the alarm device 8 is respectively connected with the first controller 20 and the second controller 33. , Preferably, the alarm device 8 is an acousto-optic alarm device, that is, an alarm is issued through the acousto-optic alarm device, and the staff is notified in time when the work is abnormal, so as to deal with the abnormal situation in time.

Example 2

This embodiment is further optimized on the basis of Embodiment 1. As shown in FIGS. 6-8 , the filter mechanism 7 includes a first filter plate 34 and a second filter plate 37 , and the first filter plate 34 is provided with a A plurality of evenly distributed first filter holes 35, a plurality of evenly distributed first protrusions 36 are fixedly installed on one side of the first filter plate 34, and the first protrusions 36 are staggered from the first filter holes 35, The second filter plate 37 is provided with a second filter hole 38 that cooperates with the first protrusion 36 , and the second filter plate 37 is fixedly installed with a second protrusion 39 that cooperates with the first filter hole 35 . , preferably, the first filter plate 34 is arranged on the inner side and is fixed with the monitoring box 1, the second filter plate 37 is arranged on the outer side and is slidably connected with the monitoring box 1, and the second filter plate 37 and the first filter plate during normal filtration 34 is separated, and the second filter plate 37 and the first filter plate 34 cooperate to filter the dust. When the machine is stopped, it is no longer necessary to dissipate heat. To prevent dust from entering, slide the second filter plate 37 to make it stick to the first filter plate 34. At this time, the first protrusion 36 and the second protrusion 39 enter the second filter hole 38 and the first filter hole 35 respectively to achieve sealing and effectively prevent dust.

It will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Therefore, the embodiments are to be regarded in all respects as illustrative and not restrictive, and the scope of the invention is to be defined by the appended claims rather than the foregoing description, which are therefore intended to fall within the scope of the claims. All changes within the meaning and scope of the equivalents of , are included in the present invention. Any reference signs in the claims shall not be construed as limiting the involved claim.

In addition, it should be understood that although this specification is described in terms of embodiments, not each embodiment only includes an independent technical solution, and this description in the specification is only for the sake of clarity, and those skilled in the art should take the specification as a whole , the technical solutions in each embodiment can also be appropriately combined to form other implementations that can be understood by those skilled in the art.

Claims

An electromechanical monitoring device, comprising a monitoring box (1), an electromechanical base (2) for installing an electromechanical device (3) is fixedly mounted on the inner side of the top of the monitoring box (1), and characterized in that: the electromechanical device ( 3) A fixing frame (4) fixedly connected with the monitoring box (1) is installed on one side, a fan (9) is installed on the fixing frame (4), and an inlet is opened on one side of the monitoring box (1). The air hole (5) is provided with an air outlet (6) on the other side. A filter mechanism (7) is installed in the air outlet (6) and the air inlet hole (5), and a filter mechanism (7) is installed in the electromechanical base (2). There are a first wire (10) and a second wire (11), one end of the first wire (10) is connected to the electromechanical device (3), the other end is connected to the circuit monitoring mechanism (12), the second wire (11) ) is connected to the electromechanical equipment (3) at one end, and is connected to the environmental monitoring mechanism (13) at the other end. Body (1) is set symmetrically.
The electromechanical monitoring device according to claim 1, characterized in that: the circuit monitoring mechanism (12) comprises a first casing (14), and a first casing (14) is installed in the first casing (14) slidably connected to the first casing (14). A conductive plate (17), a first terminal (18) fixedly connected to the first housing (14) is installed under both ends of the first conductive plate (17), one end of the first terminal (18) Connected to the first wire (10), the first terminal (18) is mounted with a first sensor (21), and the surface of the first conductive plate (17) is sleeved with a first magnet layer ( 22), a first electromagnet (15) fixedly connected to the top of the first casing (14) is installed above the first magnet layer (22), and a first electromagnet (15) is fixedly installed inside the bottom of the first casing (14). A battery (19) and a first controller (20).
The electromechanical monitoring device according to claim 2, characterized in that: the first sensor (21) comprises a voltage sensor and a current sensor, and a first limit chute ( 16), a first sliding rod (23) slidably connected therewith is installed in the first limit chute (16), and one end of the first sliding rod (23) is fixedly connected with the first magnet layer (22).
The electromechanical monitoring device according to claim 2, characterized in that: the environmental monitoring mechanism (13) comprises a second housing (24), and a second sensor (27) is fixedly mounted on the outside of the second housing (24), A second conductive plate (25) slidably connected thereto is installed in the second housing (24), and a second conductive plate (25) fixedly connected to the second housing (24) is installed under both ends of the second conductive plate (25). A second terminal (30), one end of the second terminal (30) is connected to the second wire (11), and a second magnet layer (28) fixedly connected to the surface of the second conductive plate (25) is sleeved ), a second electromagnet (26) fixedly connected to the top of the second casing (24) is installed above the second magnet layer (28), and a second electromagnet (26) is fixedly installed inside the bottom of the second casing (24). A battery (32) and a second controller (33).
The electromechanical monitoring device according to claim 4, characterized in that: the second sensor (27) comprises a temperature sensor, a humidity sensor, and a dust sensor, and a second limit is provided on the inner wall of the second housing (24). A sliding slot (29), a second sliding rod (31) slidably connected to the second limiting chute (29) is installed therein, and one end of the second sliding rod (31) is connected to the second magnet layer (28) Fixed connection.
The electromechanical monitoring device according to claim 4, characterized in that: an alarm device (8) fixedly connected to the outer side of the top of the monitoring box (1) is installed, and the alarm device (8) is respectively connected to the first controller. (20) is connected to the second controller (33).
The electromechanical monitoring device according to claim 6, characterized in that: the alarm (8) is an acousto-optic alarm.
The electromechanical monitoring device according to claim 1, characterized in that: the filtering mechanism (7) comprises a first filtering plate (34) and a second filtering plate (37), and the first filtering plate (34) is provided with openings There are a plurality of uniformly distributed first filter holes (35), and a plurality of uniformly distributed first protrusions (36) are fixedly installed on one side of the first filter plate (34), and the first protrusions (36) The second filter plate (37) is provided with a second filter hole (38) matched with the first protrusion (36), and the second filter plate (37) is staggered from the first filter hole (35). ) is fixedly installed with a second protrusion (39) matched with the first filter hole (35).