CN217508003U - Mechanical and electrical automation equipment - Google Patents

Abstract

The utility model provides a mechanical electric automation device, which relates to the technical field of electric automation devices and comprises a lifting component and a control mechanism, wherein a spliced shell component is arranged at the inner side below the lifting component, the control mechanism for bolt assembly is arranged at the inner side of the shell component, and the control mechanism comprises an inner frame, a transformer and a power connection port; the utility model discloses mainly utilize the both sides at the spacer bar to utilize the wire guide arm to connect the upper sensor, make the spacer bar that sensor and wire run through be connected to the detection machine case, because external antenna is installed to one side of detection machine case, make the equipment that hangs under the staff closely contacts's that does not need state, utilize wireless network to carry out the communication control of teletransmission, the complex operation degree of staff has been reduced, the data that can utilize the detection machine case of equipment can be accurate simultaneously, help staff that can be timely carries out reasonable judgement.

Description

Mechanical and electrical automation equipment

Technical Field

The utility model relates to an electrical automation equipment technical field especially relates to a machinery electrical automation equipment.

Background

The electric automation mainly focuses on the control part of an electromechanical product, and comprises a control unit, software programming, a driving circuit and a control system.

Current electric automation equipment is difficult to real-time operating equipment in the use, and is comparatively loaded down with trivial details to the staff, the trouble scheduling problem of the reaction equipment that can not be accurate in time, consequently, the utility model provides a problem that exists in order to solve prior art is to mechanical electric automation equipment.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a mechanical electric automation equipment, this mechanical electric automation equipment mainly utilizes the wire guide arm to connect the upper sensor in the both sides of isolation rod, make the isolation rod that sensor and wire run through be connected to the detection machine case, because external antenna is installed to one side of detection machine case, make the equipment that hangs under the state that the staff that does not need closely contacts, utilize wireless network to carry out the communication control of teletransmission, staff's complex operation degree has been reduced, the data that can utilize the detection machine case of equipment can accurate reaction output equipment problem simultaneously, help staff that can be timely carries out reasonable judgement.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a mechanical electric automation device comprises a lifting assembly and a control mechanism, wherein a shell member which is inserted is arranged on the inner side below the lifting assembly, and the control mechanism assembled by bolts is arranged on the inner side of the shell member;

control mechanism includes internal frame, transformer, connects electric mouth, separated time clamp, insulation board, air electric brake, sensor, signal conductor, isolation rod, detection machine case and external antenna, internal frame bolted connection is in housing member's inboard, be provided with the transformer on the internal frame, the one end top of transformer is provided with electric connection's the electric mouth that connects, the other end top of transformer is provided with electric connection's separated time clamp, the rear side that the separated time pressed from both sides is provided with the insulation board, the top that the separated time pressed from both sides is provided with electric connection's air electric brake, the top of air electric brake is provided with electric connection's sensor, the top side of sensor is provided with signal conductor, the rear side of sensor runs through the isolation rod is connected with the detection machine case, just one side of detecting the machine case is provided with the external antenna of pegging graft.

The transformer is further improved in that the outer side of the transformer is of a multi-group fin structure, and the insulating plate is of a double-group porous structure.

The detection case and the external antenna are symmetrically distributed at two ends of the rear side of the isolation rod, and the sensor and the signal wire are symmetrically distributed at two ends of the front side of the isolation rod.

The improved structure is characterized in that the lifting assembly comprises a screw upper plate, a circuit box, a pneumatic telescopic rod, a suspension plate and a telescopic sleeve rod, wherein the circuit box is arranged on one side of the screw upper plate, the suspension plate is connected to the circuit box through the output end of the pneumatic telescopic rod, and the telescopic sleeve rod is arranged above the periphery of the suspension plate.

The improved structure is characterized in that the shell component comprises an inserting strip, a top plate, side plates, a bottom plate, air cushion balls, a rear plate, a line inlet, a door plate and a display screen, the inserting strip is inserted into the hanging plate, the top plate is assembled on the bolts below the inserting strip, the side plates are arranged below two ends of the top plate, the bottom plate is arranged below the side plates, and the air cushion balls assembled by the bolts are arranged below the periphery of the bottom plate.

The improved structure is characterized in that a rear plate is arranged on the rear side of the side plate, a line inlet is formed in the rear side of the rear plate, a door plate connected with a hinge is arranged on the front side of the side plate, and a display screen is arranged on the door plate.

The utility model has the advantages that:

the utility model discloses mainly utilize the both sides at the spacer bar to utilize the wire guide arm to connect the upper sensor, make the spacer bar that sensor and wire run through be connected to the detection machine case, because external antenna is installed to one side of detection machine case, make the equipment that hangs under the staff closely contacts's that does not need state, utilize wireless network to carry out the communication control of teletransmission, the complex operation degree of staff has been reduced, the data that can utilize the detection machine case of equipment can be accurate simultaneously, help staff that can be timely carries out reasonable judgement.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic bottom perspective view of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the control mechanism of the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the detection case and the external antenna of the present invention.

Wherein: 1. a lifting assembly; 101. a screw upper plate; 102. a circuit box; 103. a pneumatic telescopic rod; 104. a suspension plate; 105. a telescopic loop bar; 2. a housing member; 201. inserting strips; 202. a top plate; 203. a side plate; 204. a base plate; 205. an air cushion ball; 206. a back plate; 207. a line inlet; 208. a door panel; 209. a display screen; 3. a control mechanism; 301. an inner frame; 302. a transformer; 303. an electric connection port; 304. a wire distributing clip; 305. an insulating plate; 306. an air electric brake; 307. a sensor; 308. a signal conductor; 309. an isolation rod; 3010. detecting the chassis; 3011. and an external antenna.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the figures 1-4, the embodiment provides a mechanical electrical automation device, which comprises a lifting assembly 1 and a control mechanism 3, wherein a shell member 2 is arranged at the lower inner side of the lifting assembly 1 in an inserted manner, and the control mechanism 3 assembled by bolts is arranged at the inner side of the shell member 2;

the control mechanism 3 comprises an inner frame 301, a transformer 302, an electric interface 303, a branching clamp 304, an insulating plate 305, an air electric switch 306, a sensor 307, a signal wire 308, an isolating rod 309, a detection case 3010 and an external antenna 3011, the inner frame 301 is bolted on the inner side of the shell component 2, the transformer 302 is arranged on the inner frame 301, the electric connection port 303 is arranged above one end of the transformer 302, the wire distributing clamp 304 is arranged above the other end of the transformer 302, the insulating plate 305 is arranged on the rear side of the wire distributing clamp 304, the air electric brake 306 is arranged above the wire distributing clamp 304, the sensor 307 is arranged above the air electric brake 306, the signal wire 308 is arranged on the top side of the sensor 307, the rear side of the sensor 307 penetrates through the isolating rod 309 to be connected with the detection case 3010, and the external antenna 3011 is arranged on one side of the detection case 3010.

The outside of transformer 302 is the structure of multiunit fin formula, and insulating board 305 is two porous structures of group.

In this embodiment, when the housing member 2 is completely installed, the transformer 302 is installed inside the housing member 2 by the inner frame 301, the lines laid through the housing member 2 are connected by the electrical port 303 above one end of the transformer 302, and after the transformer 302 is transformed, the distribution clip 304 is electrically connected to the distribution clip 304 above the transformer 302 so that the distribution clip 304 is connected to the air switch 306 on the front side of the insulating plate 305, thereby controlling the circuit.

The detection case 3010 and the external antenna 3011 are symmetrically distributed at two ends of the rear side of the isolation rod 309, and the sensor 307 and the signal wire 308 are symmetrically distributed at two ends of the front side of the isolation rod 309.

In this embodiment, when the air switch 306 connects the line to control the circuit, it is connected to the door panel 208 through the air switch 306 by using the sensor 307, so as to transmit information to the display screen 209, and observe the device, and then it runs through the isolation rod 309 by using the wire through the sensor 307 to electrically connect the detection case 3010, so as to control and detect the device in real time, and the external antenna 3011 is inserted into one side of the detection case 3010, so that the device can use the wireless network to perform remote inspection and control on the device data.

The lifting assembly 1 comprises a screw upper plate 101, a circuit box 102, a pneumatic telescopic rod 103, a suspension plate 104 and a telescopic loop bar 105, wherein the circuit box 102 is arranged on one side of the screw upper plate 101, the suspension plate 104 is connected to the circuit box 102 through the output end of the pneumatic telescopic rod 103, and the telescopic loop bar 105 is arranged above the periphery of the suspension plate 104.

In the present embodiment, the line box 102 is bolted to the ceiling of the work site by the screw upper plate 101, the line is laid in the line box 102 in advance so that the line is connected to the upper housing member 2 through the line inlet 207, and the housing member 2 is lowered by the power output from the air telescopic rod 103, so that the upper telescopic rod 105 is engaged with the travel path of the suspension plate 104.

The shell component 2 comprises a plug strip 201, a top plate 202, side plates 203, a bottom plate 204, air cushion balls 205, a rear plate 206, a line inlet 207, a door plate 208 and a display screen 209, the plug strip 201 is plugged on the suspension plate 104, the top plate 202 is assembled on the bolts below the plug strip 201, the side plates 203 are arranged below two ends of the top plate 202, the bottom plate 204 is arranged below the side plates 203, and the air cushion balls 205 assembled by the bolts are arranged below the periphery of the bottom plate 204.

In this embodiment, then on the dead slot of hanging board 104, peg graft through grafting strip 201 for grafting strip 201 can bolted connection roof 202, utilizes curb plate 203 bolted connection to get up like this through the both sides below of roof 202, because curb plate 203 below passes through bottom plate 204 bolted connection air cushion ball 205, when making equipment accident fall, can play absorbing effect, places the equipment and damages.

A rear plate 206 is arranged at the rear side of the side plate 203, a line inlet 207 is arranged at the rear side of the rear plate 206, a door plate 208 connected with a hinge is arranged at the front side of the side plate 203, and a display screen 209 is arranged on the door plate 208.

In this embodiment, the rear plate 206 is installed through the rear side of the side plate 203, and the rear side of the rear plate 206 is used to connect external lines through the line inlet 207, so that the apparatus is opened by the door plate 208 on the front side of the side plate 203, the assembly of the apparatus is performed, and the apparatus is observed through the display screen 209 on the door plate 208.

The mechanical and electrical automation equipment has the working principle that: firstly, a line box 102 is bolted by using a screw upper plate 101 on a ceiling of a working place, a line is laid in the line box 102 in advance, the line is connected with an upper shell member 2 through a line inlet 207, the shell member 2 descends under the output power of a pneumatic telescopic rod 103, the running track of a suspension plate 104 can be limited by matching with an upper telescopic sleeve 105, then the line is spliced on a hollow groove of the suspension plate 104 through a splicing strip 201, the splicing strip 201 can be bolted with a top plate 202, the two sides of the top plate 202 are bolted through side plates 203, the air cushion balls 205 are bolted through a bottom plate 204 under the side plates 203, the device can play a role of shock absorption when accidentally falling, the device is placed to be damaged, a rear plate 206 is installed on the rear side of the side plates 203, the rear side of the rear plate 206 is connected with an external line through the line inlet 207, thus, the equipment is opened by the door plate 208 at the front side of the side plate 203, the equipment is assembled, the equipment is observed through the display screen 209 on the door plate 208, when the housing member 2 is installed, the transformer 302 is installed by the inner frame 301 in the housing member 2, the circuit laid by the housing member 2 is connected by the electric interface 303 above one end of the transformer 302, after the transformer 302 is transformed, the branching clamp 304 is electrically connected with the branching clamp 304 above the transformer 302 so that the branching clamp 304 is connected with the air electric brake 306 at the front side of the insulation plate 305, the control of the circuit is formed, when the air electric brake 306 is connected with the circuit to control the circuit, the information is transmitted to the display screen 209 by the air electric brake 306 through the sensor 307 and then the equipment is observed, the sensor 307 penetrates through the insulation rod 309 through the wire to be connected with the detection case 3010, the device can be controlled and detected in real time, and the external antenna 3011 is inserted into one side of the detection case 3010, so that the device can use a wireless network to remotely check and control device data.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a machinery electrical automation equipment, includes lifting unit (1) and control mechanism (3), its characterized in that: a shell component (2) which is inserted is arranged on the inner side below the lifting component (1), and a control mechanism (3) assembled by bolts is arranged on the inner side of the shell component (2);

the control mechanism (3) comprises an inner frame (301), a transformer (302), an electric connection port (303), a branching clamp (304), an insulating plate (305), an air electric switch (306), a sensor (307), a signal lead (308), an isolating rod (309), a detection case (3010) and an external antenna (3011), wherein the inner frame (301) is connected to the inner side of the shell component (2) through bolts, the transformer (302) is arranged on the inner frame (301), the electric connection port (303) is arranged above one end of the transformer (302), the branching clamp (304) is arranged above the other end of the transformer (302), the insulating plate (305) is arranged on the rear side of the branching clamp (304), the air electric switch (306) is arranged above the branching clamp (304), and the sensor (307) is arranged above the air electric switch (306), a signal wire (308) is arranged on the top side of the sensor (307), the rear side of the sensor (307) penetrates through the isolation rod (309) to be connected with a detection case (3010), and an external antenna (3011) which is connected in a plugging mode is arranged on one side of the detection case (3010).

2. The mechanical-electrical automation device of claim 1, wherein: the outer side of the transformer (302) is of a multi-group fin-shaped structure, and the insulating plate (305) is of a double-group porous structure.

3. The mechanical-electrical automation device of claim 1, wherein: the detection case (3010) and the external antenna (3011) are symmetrically distributed at two ends of the rear side of the isolation rod (309), and the sensor (307) and the signal wire (308) are symmetrically distributed at two ends of the front side of the isolation rod (309).

4. The mechanical-electrical automation device of claim 1, wherein: the lifting assembly (1) comprises a screw upper plate (101), a line box (102), a pneumatic telescopic rod (103), a suspension plate (104) and a telescopic sleeve rod (105), wherein the line box (102) is arranged on one side of the screw upper plate (101), the line box (102) is connected with the suspension plate (104) through the output end of the pneumatic telescopic rod (103), and the telescopic sleeve rod (105) is arranged above the periphery of the suspension plate (104).

5. The mechanical-electrical automation device of claim 4, wherein: the shell component (2) comprises an inserting strip (201), a top plate (202), side plates (203), a bottom plate (204), air cushion balls (205), a rear plate (206), a line inlet (207), a door plate (208) and a display screen (209), wherein the inserting strip (201) is inserted into the hanging plate (104), the top plate (202) is assembled on bolts below the inserting strip (201), the side plates (203) are arranged below two ends of the top plate (202), the bottom plate (204) is arranged below the side plates (203), and the air cushion balls (205) assembled by the bolts are arranged below the periphery of the bottom plate (204).

6. Mechanical-electrical automation device according to claim 5, characterized in that: the rear side of the side plate (203) is provided with a rear plate (206), the rear side of the rear plate (206) is provided with a line inlet (207), the front side of the side plate (203) is provided with a door plate (208) connected through a hinge, and the door plate (208) is provided with a display screen (209).

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