CN111417280B

CN111417280B - Detection apparatus for electrical automation equipment

Info

Publication number: CN111417280B
Application number: CN202010336546.XA
Authority: CN
Inventors: 叶贵强
Original assignee: Dongguan Technician College (dongguan Senior Technical School)
Current assignee: Dongguan Technician College (dongguan Senior Technical School)
Priority date: 2020-05-22
Filing date: 2020-05-22
Publication date: 2021-02-02
Anticipated expiration: 2040-05-22
Also published as: CN111417280A

Abstract

The invention discloses a detection device of electrical automation equipment, which structurally comprises: the invention realizes the clearance fit between the wire mesh pin plate groove and the detection inner square groove, forms the sliding connection effect of the sliding-pasting lining plate and the pin inserting plate after pin butt joint when the electric automation node detection in the detection inner square groove forms integrated relay block inner control data through the disc electric plate and the pin lining plate seat, ensures the later node out-of-control port to realize the secondary circulation double-wire conduction effect of a standby circuit while realizing the relay feedback output and the regulation deviation value of the later node, ensures the integrity and the connectivity of an integral data block, avoids the self-adaptive regulation and control of blank external circuit detection, improves the protection effect of the electric plate of a secondary wire frame, and ensures that a singlechip and a programmable controller of the electric automation can input and output power grids wired by a plurality of nodes, the working efficiency of the apparatus can be stabilized.

Description

Detection apparatus for electrical automation equipment

Technical Field

The invention relates to a detection device of electrical automation equipment, belonging to the field of automation equipment.

Background

Electric automation equipment is the electric control mode equipment commonly used such as intelligent machine hand and intelligent workshop, lets the integration assembly line work of equipment high-efficient, and avoids the long-term high load board programming control of staff, promotes whole electric automation equipment's independently work and independently detects the butt joint effect, and the public shortcoming of treating the optimization of prior art has:

the automatically controlled spacing node of electric automation equipment needs to cooperate pneumatic output volume to form a stable data difference and independently regulate and control the effect, and the check out test set of electric automation equipment butt joint is often connected in series and the mode of taking over leads to the fact and incorporate the regulation and control when the output node misplaces, thereby the out of control that corresponds the node is taken over the treatment effect, nevertheless often disturb the one-way return circuit of feedback data, thereby cause the blank phenomenon of block node data of electric automation equipment, lead to the data link and the signal of telecommunication rupture of the whole compilation of later stage, disturb the stability of the electric automation detection adaptation of later stage, cause the data deletion phenomenon of electric automation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a detection device of electrical automation equipment, which solves the problems that an electric control limit node of the electrical automation equipment needs to be matched with pneumatic output quantity to form a stable data difference and an autonomous regulation and control effect, and the detection equipment butted with the electrical automation equipment is usually merged into the regulation and control when an output node is dislocated in a serial-parallel connection mode, so that the out-of-control succession processing effect of a corresponding node is falsified, but a one-way conduction loop of feedback data is often interfered, so that the block node data blank phenomenon of the electrical automation equipment is caused, a data chain and an electric signal which are integrally compiled in the later period are broken, the stability of later-period electrical automation detection adaptation is interfered, and the data missing phenomenon of the electrical automation is caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: a detection device of an electric automation apparatus structurally comprises: the detection device comprises an electric control cabinet, a telescopic rod frame, a wire mesh pin plate groove, a drawing coaming, a detection inner square groove, a thick-wall frame opening and a storage box base, wherein the wire mesh pin plate groove is arranged inside the detection inner square groove and is positioned on the same vertical surface, the drawing coaming is in clearance fit with the detection inner square groove through the thick-wall frame opening, the detection inner square groove is arranged on the top of the storage box base, the detection inner square groove and the electric control cabinet are in an integral structure and are positioned on the same vertical surface, the drawing coaming is mechanically connected with the detection inner square groove through the telescopic rod frame, the bottom surface of the electric control cabinet is tightly attached to the top surface of the storage box base, the thick-wall frame opening is nested on the front side of the detection inner square groove, the wire mesh pin plate groove is provided with a telescopic lock frame rod, a support rod frame, a rack groove seat, a disc electric plate, a pin lining seat, a roller bow frame seat and a plate inner groove, the telescopic lock frame rod, the disc electroplates are provided with two supporting rod frames and are respectively installed on the upper side and the lower side of the supporting rod frame and the rack groove seat, the supporting rod frames and the rack groove seat are tightly attached together and are located on the same horizontal plane, the telescopic lock rod frames are mechanically connected with the pin lining plate seats, the roller bow frame seats are provided with two supporting rod frames and are respectively nested on the upper side and the lower side of the plate frame inner grooves, the pin lining plate seats are provided with more than two supporting rod frames and are respectively inserted and embedded on the left side and the right side of the plate frame inner grooves, the plate frame inner grooves and the supporting rod frames are of an integrated structure, and the plate frame inner grooves are installed inside the detection inner.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the telescopic lock frame rod consists of a folding hook lifting rod, a sliding frame groove and a lock pin inclined rod, the folding hook lifting rod and the lock pin inclined rod are buckled together and are positioned on the same inclined line, and the folding hook lifting rod and the sliding frame groove are in interference fit.

As a further improvement of the invention, the folding hook lifting rod comprises a piston column block, a frame plate groove frame, a sliding block plate frame and a folding hook buckle plate, wherein the piston column block is nested at the right upper corner of the frame plate groove frame, the axes of the piston column block and the frame plate groove frame are collinear, the frame plate groove frame and the sliding block plate frame are mechanically connected and are positioned on the same vertical surface, and the folding hook buckle plate is welded at the left lower corner of the frame plate groove frame and is mutually vertical.

As a further improvement of the invention, the disc electric plate comprises a wheel disc stacking seat, an armature lead screw, a frame disc seat and two magnet ball balls, wherein the two magnet ball balls are respectively nested at the upper side and the lower side of the frame disc seat, and the wheel disc stacking seat and the armature lead screw are both arranged inside the frame disc seat and are positioned on the same vertical surface.

As a further improvement of the invention, the wheel folding disc seat is composed of a copper wire disc body, a shaft wheel column, a curved buckle bending plate and a low lining disc wheel frame, wherein the copper wire disc body is mechanically connected with the shaft wheel column, and the copper wire disc body is buckled with the low lining disc wheel frame through the curved buckle bending plate and is positioned on the same vertical plane.

As a further improvement of the invention, the pin lining plate seat is composed of a node communicating pipe, a sliding lining plate and a pin inserting plate, wherein the sliding lining plate and the pin inserting plate are in clearance fit and are positioned on the same vertical surface, and the node communicating pipe is electrically connected with the pin inserting plate.

As a further improvement of the invention, the node communicating pipe consists of two pin blocks, a through pipe chamber, a bow-shaped wire rod and a shifting plate, wherein the two pin blocks are respectively inserted and embedded on the upper side and the lower side of the through pipe chamber, the bow-shaped wire rod is mechanically connected with the shifting plate, and the bow-shaped wire rod is inserted and embedded in the through pipe chamber and is positioned on the same vertical surface.

As a further improvement of the invention, the sliding and sticking lining plate consists of an aluminum foil disc groove, a concave buckling rod, a rotary brushing lining sheet and a square electric plate block, wherein the aluminum foil disc groove is mechanically connected with the rotary brushing lining sheet through the concave buckling rod and is positioned on the same vertical plane, and the rotary brushing lining sheet is tightly attached to the front side of the square electric plate block.

As a further improvement of the invention, the sliding block plate frame is of a plate frame structure with a sliding block diagonal rod piece inserting plate seat at the lower left corner, and the protection degree of the pin inserting gasket is ensured by the counter weight traction when the square plate rod piece slides telescopically, so that the poor contact of the inserting pin end groove is avoided, and the effect of bearing and protecting the backing plate is achieved.

As a further improvement of the invention, the low lining dish wheel carrier is of a wheel disc groove frame structure with a concave truss rod, so that the rotation effect of the whole bottom support locking frame is facilitated, and the operation effect of tension electromagnetic field traction force of the alignment power grid disc is improved.

As a further improvement of the invention, the arched lead rod is of an arched iron rod structure with a magnet ring at the middle section, so that the inner support frame can conveniently form a node relay distribution effect of up-down conduction, and the single-pair and single-detection regulation and control efficiency of electric automation is guaranteed.

As a further improvement of the invention, the rotary brush gasket is a composite sheet structure of a three-way hole trapezoidal plate with a folding angle, so that the effect of wrapping and clamping a pin end with ventilation and cushion protection performance formed by rotary winding of the integral fan brush is ensured, the node failure is avoided, the relay detection efficiency is improved, and the integral editing feedback effect of a standby operation protection database is also achieved.

Advantageous effects

The invention relates to a detection device of electric automation equipment, a worker inserts a circuit board in a storage box base into a detection inner square groove in a telescopic rod frame and a drawing coaming plate by starting an electric control cabinet, frames a roller bow frame seat and a plate frame inner groove of a wire net pin plate groove through a thick-wall frame opening, inserts a telescopic lock frame rod into one side of a disc electric plate and a pin lining plate seat to form a drawing communication effect, drives a rack groove seat to form an effect of separating a working chamber from top to bottom in the whole detection inner groove, leads a copper wire coil body of a wheel-stacked disc seat to form an assembly effect of an electric grid plate which is separated from top to bottom by rotating and connecting an arc buckling bent plate and a low-lining disc wheel frame around an axial wheel column, leads magnet balls at the upper end and the lower end of the frame disc seat to impact the telescopic lock frame rod to pull a sliding and pasting lining plate at one side of the pin coaming plate, and leads an aluminum foil disc groove to be embedded into the square electric plate under the pressing buckle of a concave buckle rod and a rotary brush gasket to form an auxiliary pad secondary butting protection, the pin block of the node communicating pipe is embedded in the cavity of the communicating pipe in a pressing mode, the interlocking bow-shaped conducting wire rod is longitudinally communicated with the circuit to form a data feedback loop, a steady flow is formed through the shifting sheet plate, the data detection stability of the node end is guaranteed, and the double-rotation circuit relay standby operation effect of the detection device of the electric automation equipment is improved.

The invention has the following advantages after operation:

application gauze pin board groove and detection interior square groove clearance fit, through when letting electric automatization node detection become integrated relay piece internal control data through disc electroplax and pin welt seat in detecting the interior square groove, form the smooth welt of pasting after the pin butt joint and the smooth effect of connecing of pin plugboard inside lining, let later stage node port of losing control realize spare circuit secondary cycle double-line conduction effect when can relay feedback output and regulation and control the deviation value, guarantee holistic data block's wholeness and connectivity, avoid blank external circuit to detect independently adaptation regulation and control, promote secondary line frame electroplax protection effect, guarantee electric automatization's singlechip and programmable controller when a plurality of node wiring electric wire netting input output, can the work efficiency of stabilizing equipment.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a detection device of an electrical automation apparatus according to the present invention.

FIG. 2 is a detailed cross-sectional structure diagram of the wire mesh pin plate slot, the retractable lock frame rod, the disc electric plate and the pin lining plate seat of the present invention.

Fig. 3 is a schematic cross-sectional enlarged structure view of the folding hook lifting rod in the working state.

Fig. 4 is an enlarged structural schematic view of the cross section of the laminated wheel disc seat in the working state.

Fig. 5 is a schematic view of a cross-sectional enlarged structure of the working state of the node communicating pipe of the present invention.

FIG. 6 is a schematic cross-sectional view of the slip liner of the present invention in its working state.

Description of reference numerals: an electric control cabinet-1, a telescopic rod frame-2, a wire mesh pin plate groove-3, a drawing coaming-4, a detection inner square groove-5, a thick-wall frame opening-6, a storage box base-7, a telescopic lock frame rod-3A, a brace rod frame-3B, a rack groove seat-3C, a disc electroplate-3D, a pin lining plate seat-3E, a roller bow frame seat-3F, a plate frame inner groove-3G, a folding hook lifting rod-3A 1, a sliding frame groove-3A 2, a lock pin oblique rod-3A 3, a piston column block-3A 11, a frame plate groove frame-3A 12, a sliding block plate frame-3A 13, a folding hook buckle plate-3A 14, a folding wheel disc seat-3D 1, an armature lead screw-3D 2, a frame disc seat-3D 3, a magnet ball-3D 4, a copper wire coil body-3D 11, a thick-wall frame opening-6, the device comprises a shaft wheel column-3D 12, an arc buckle bent plate-3D 13, a low lining dish wheel frame-3D 14, a node communicating pipe-3E 1, a sliding sticking lining plate-3E 2, a pin insertion plate-3E 3, a pin block-3E 11, a through pipe chamber-3E 12, a bow wire guide rod-3E 13, a plectrum plate-3E 14, an aluminum foil disc groove-3E 21, a concave buckle rod-3E 22, a rotary brush lining-3E 23 and a square electric plate block-3E 24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 6, the present invention provides a detecting device for an electrical automation apparatus, which includes: the detection device comprises an electric control cabinet 1, a telescopic rod frame 2, a wire mesh pin plate groove 3, a drawing coaming 4, a detection inner square groove 5, a thick-wall frame opening 6 and a storage box base 7, wherein the wire mesh pin plate groove 3 is installed inside the detection inner square groove 5 and is located on the same vertical surface, the drawing coaming 4 is in clearance fit with the detection inner square groove 5 through the thick-wall frame opening 6, the detection inner square groove 5 is installed on the top of the storage box base 7, the detection inner square groove 5 and the electric control cabinet 1 are of an integral structure and are located on the same vertical surface, the drawing coaming 4 is mechanically connected with the detection inner square groove 5 through the telescopic rod frame 2, the bottom surface of the electric control cabinet 1 is tightly attached to the top surface of the storage box base 7, the thick-wall frame opening 6 is nested on the front side of the detection inner square groove 5, and the wire mesh pin plate groove 3 is provided with a telescopic lock 3A, a support rod frame 3B, a rack groove seat, A pin lining plate seat 3E, a roller bow frame seat 3F and a plate frame inner groove 3G, wherein the telescopic lock frame rod 3A is mechanically connected with a disc electric plate 3D and is positioned on the same vertical surface, the two disc electric plates 3D are respectively arranged at the upper and lower sides of the brace rod frame 3B and the rack groove seat 3C, the support rod frame 3B and the rack groove seat 3C are tightly attached together and are positioned on the same horizontal plane, the telescopic lock frame rod 3A is mechanically connected with the pin liner plate seat 3E, the two roller bow frame seats 3F are respectively nested on the upper side and the lower side of the plate frame inner groove 3G, the pin lining plate seats 3E are more than two and are respectively inserted and embedded at the left side and the right side of the plate frame inner groove 3G, the plate frame inner grooves 3G and the stay bar frames 3B are of an integral structure, and the plate frame inner grooves 3G are installed inside the detection inner square grooves 5 and are located on the same vertical plane.

Referring to fig. 2, the disc electric plate 3D is composed of a laminated disc seat 3D1, an armature lead screw 3D2, a frame disc seat 3D3, and a magnet ball 3D4, the two magnet ball 3D4 are respectively nested on the upper and lower sides of the frame plate seat 3D3, the laminated wheel seat 3D1 and the armature lead screw 3D2 are both arranged inside the frame wheel seat 3D3 and are on the same vertical plane, the pin lining plate seat 3E consists of a node communicating pipe 3E1, a sliding sticking lining plate 3E2 and a pin plugging plate 3E3, the sliding patch lining plate 3E2 and the pin plug board 3E3 are in clearance fit and are positioned on the same vertical surface, the node communicating pipe 3E1 is electrically connected with the pin plug board 3E3, the horizontal potential breakdown conduction effect of upper and lower electric wire netting interweaving is formed in the pin plugboard 3E3 through armature lead screw 3D2 counterpoint, and the self-detection efficiency of the whole electric automation equipment is improved.

Referring to fig. 4, the overlapped wheel disc seat 3D1 is composed of a copper wire disc body 3D11, an axle wheel column 3D12, an arc buckle bent plate 3D13, and a low lining disc wheel frame 3D14, the copper wire disc body 3D11 is mechanically connected with the axle wheel column 3D12, the copper wire disc body 3D11 is buckled with the low lining disc wheel frame 3D14 through the arc buckle bent plate 3D13 and is located on the same vertical plane, the low lining disc wheel frame 3D14 is a wheel disc slot frame structure with a concave truss rod, so that the rotation effect of the whole bottom support lock frame is facilitated, the operation effect of the tension electromagnetic field traction force of the alignment electric network disc is improved, the electromagnetic network twisting and pressing distribution is formed by the up-and-down alignment rotation of the copper wire disc body 3D11 along the axle wheel column 3D12, the magnetic induction line track surrounding effect of dissociative electrons is improved, and the systematization effect of the electric automatic electric signal data feedback and whole editing detection is ensured.

Referring to fig. 5, the node communicating tube 3E1 is composed of two pin blocks 3E11, a through tube chamber 3E12, a bow wire rod 3E13, and a shifting plate 3E14, the two pin blocks 3E11 are respectively inserted into the upper and lower sides of the through tube chamber 3E12, the bow wire rod 3E13 is mechanically connected to the shifting plate 3E14, the bow wire rod 3E13 is inserted into the through tube chamber 3E12 and located on the same vertical surface, the bow wire rod 3E13 is a bow-shaped iron rod structure with a magnet ring in the middle section, so that the inner support frame forms a node relay distribution effect of vertical conduction, the single-pair single detection regulation efficiency of electrical automation is guaranteed, and a current stabilizing effect of node end detection is formed by the bow wire rod 3E13 longitudinally communicating circuit and matching with the shifting plate 3E14 winding.

Referring to fig. 6, the sliding lining plate 3E2 is composed of an aluminum foil tray 3E21, a concave buckle rod 3E22, a rotary brush facing 3E23, and a square electric plate 3E24, the aluminum foil tray 3E21 is mechanically connected to a rotary brush facing 3E23 through the concave buckle rod 3E22 and is located on the same vertical plane, the rotary brush facing 3E23 is tightly attached to the front side of the square electric plate 3E24, the rotary brush facing 3E23 is a composite plate structure of a three-way hole trapezoidal plate with a folding angle, so that the integral fan brush is wound to form a ventilation pad protective wrapping pin end effect, thereby avoiding node failure, improving detection relay efficiency, and achieving a backup operation protection database integral editing feedback effect, and the rotary brush facing 3E23 is inserted and wrapped at the edge of the aluminum foil tray 3E21 to form a short tube to connect the pin tubes, thereby ensuring the node adaptation stability of electrical automation.

The working process is as follows: a worker starts the electric control cabinet 1 and then inserts a circuit board in a storage box base 7 into a detection inner square groove 5 in a telescopic rod frame 2 and a pull coaming 4, a roller bow frame seat 3F and a plate frame inner groove 3G of a wire net pin plate groove 3 are framed through a thick-wall frame opening 6, a telescopic lock frame rod 3A is inserted into one side of a disc electric plate 3D and a pin coaming seat 3E to form a pull communication effect, a strut frame 3B drives a rack groove seat 3C to form an effect of separating a working chamber from top to bottom in the whole detection inner groove, a copper wire 3D11 of a disc-stacked disc coil seat 3D1 surrounds a shaft wheel column 3D12 traction arc buckle bent plate 3D13 and a low-lining disc wheel frame 3D14 to rotate to meet an armature lead screw 3D2 to form an electric grid plate assembling effect which is separated from top to bottom, and a magnet ball 3D4 at the upper end and the lower end of the disc coil seat 3D3 is enabled to impact the telescopic lock frame rod 3A to pull a pin slide rack 3E3 to be attached to a lining plate 2, an auxiliary supporting pad secondary protection butt joint effect is formed by embedding an aluminum foil disc groove 3E21 into a square electric plate 3E24 under the pressing and buckling of a concave buckling rod 3E22 and a rotary brushing lining 3E23, a pin block 3E11 of a node communicating pipe 3E1 is pressed and embedded into a pipe chamber 3E12 to form a data feedback circuit through a longitudinal communicating circuit of an interlocking bow-shaped lead rod 3E13, and then a stable current is formed through a shifting plate 3E14, so that the data detection stability of a node end is guaranteed, and the double-rotary circuit relay standby operation effect of a detection device of electric automation equipment is improved.

Example two:

referring to fig. 1 to 6, the present invention provides a detecting apparatus for an electrical automation device, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the telescopic frame bar 3A is composed of a hook lifting rod 3A1, a sliding frame groove 3A2, and a locking pin inclined rod 3A3, the hook lifting rod 3A1 and the locking pin inclined rod 3A3 are fastened together and are located on the same inclined line, the hook lifting rod 3A1 and the sliding frame groove 3A2 are in interference fit, and the hook lifting rod 3A1 is unhooked along the locking pin inclined rod 3A3 to form an extension pushing effect, so that a lining board butted by secondary protection pins forms a receiving and clamping effect, electric leakage and node block data loss are avoided, and the feedback degree of the whole node stable composite power grid is ensured.

Referring to fig. 3, the hook lifting rod 3a1 is composed of a piston column block 3a11, a frame plate groove frame 3a12, a slider plate frame 3a13, and a hook buckle plate 3a14, the piston cylinder block 3A11 is nested in the upper right corner of the frame plate slot frame 3A12 and the axes are collinear, the frame rail 3a12 is mechanically connected to the slider rail frame 3a13 and is on the same vertical plane, the clasp plates 3A14 are welded at the lower left corner of the frame plate slot frame 3A12 and are vertical to each other, the sliding block plate frame 3A13 is a plate frame structure with a sliding block diagonal rod piece inserting plate seat at the lower left corner, and the protection degree of the pin inserting gasket is ensured by the counter weight traction when the square plate rod piece slides in a telescopic way, the poor contact of the inserting pin end grooves is avoided, and the effect of bearing and protecting the backing plate is achieved, the inner air pressure suction hook buckle plate 3A14 is pulled by the slider plate frame 3A13 to form a pushing impact force of unhooking pressure, and the flexible operation effect of the potential node is guaranteed.

The phenomenon of single-node disorder is formed by node feedback insertion in the working process of the electrical automation equipment in the earlier stage, when a power grid disc is aligned and rotates, a folding hook lifting rod 3A1 of a stretching telescopic lock frame rod 3A and a lock pin inclined rod 3A3 are separated from each other up and down in a sliding frame groove 3A2 and slide, so that a piston column block 3A11 presses a frame plate groove frame 3A12, a sliding block plate frame 3A13 draws a folding hook buckling plate 3A14 to be tripped, and a counter weight elastically impacts a pushing lining plate, the inertia pressure of secondary protection activity operation of pins is guaranteed, and the protection degree of each node is improved.

Through the combination of the components, the invention achieves the aim of utilizing the clearance fit of the wire mesh pin plate groove 3 and the detection inner square groove 5, forms the sliding connection effect of the sliding-pasting lining plate 3E2 and the pin plug-in board 3E3 after pin butt joint when the electric automation node in the detection inner square groove 5 detects the internal control data of the integrated relay composed of the disc electric board 3D and the pin lining plate seat 3E, ensures that the later-stage node out-of-control port can realize the secondary circulation double-wire conduction effect of the standby circuit while the relay feeds back and outputs and regulates the deviation value, ensures the integrity and the connectivity of the integral data block, avoids the autonomous adaptive regulation and control of blank external circuit detection, improves the protection effect of the electric board of the secondary wire frame, ensures that the working efficiency of the equipment can be stabilized when the single chip microcomputer and the programmable controller of the electric automation equipment are used for wiring the input and the output of a plurality of the electric grids, thereby solving the problem that the electric control limit node of According to poor and autonomous regulation and control effects, the detection equipment in butt joint with the electric automation equipment is usually connected in series and in parallel to cause merging regulation and control when an output node is staggered, so that the out-of-control succession processing effect of a corresponding node is falsified, but a one-way conduction loop of feedback data is often interfered, so that the block node data blank phenomenon of the electric automation equipment is caused, a data chain and an electric signal which are integrally compiled in a later period are broken, the stability of electric automation detection adaptation in the later period is interfered, and the problem of the data missing phenomenon of electric automation is caused.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims

1. A detection device of an electric automation apparatus structurally comprises: automatically controlled cabinet (1), telescopic link frame (2), gauze pin board groove (3), pull bounding wall (4), detection inside square groove (5), thick wall frame mouth (6), storage tank base (7), its characterized in that:

the wire mesh pin plate groove (3) is arranged inside the detection inner square groove (5), the pull coaming (4) is in clearance fit with the detection inner square groove (5) through a thick-wall frame opening (6), the detection inner square groove (5) is arranged on the top of the storage box base (7), the detection inner square groove (5) and the electric control cabinet (1) are of an integral structure, the pull coaming (4) is mechanically connected with the detection inner square groove (5) through a telescopic rod frame (2), the bottom surface of the electric control cabinet (1) is tightly attached to the top surface of the storage box base (7), and the thick-wall frame opening (6) is nested on the front side of the detection inner square groove (5);

the wire mesh pin plate groove (3) is provided with a telescopic lock frame rod (3A), a support rod frame (3B), a rack groove seat (3C), a disc electroplate (3D), a pin lining plate seat (3E), a roller bow frame seat (3F) and a plate frame inner groove (3G);

the telescopic lock frame rod (3A) is mechanically connected with a disc electric plate (3D), the disc electric plate (3D) is provided with two parts and is respectively installed on the upper side and the lower side of a support rod frame (3B) and a rack groove seat (3C), the support rod frame (3B) is tightly attached to the rack groove seat (3C), the telescopic lock frame rod (3A) is mechanically connected with a pin lining plate seat (3E), the roller bow frame seat (3F) is provided with two parts and is respectively nested on the upper side and the lower side of a plate frame inner groove (3G), the pin lining plate seat (3E) is provided with more than two parts and is respectively inserted and embedded on the left side and the right side of the plate frame inner groove (3G), the plate frame inner groove (3G) and the support rod frame (3B) are of an integrated structure, and the plate frame inner groove (3G) is installed inside a detection inner square groove (5).

2. The detection device of an electrical automation apparatus as set forth in claim 1, wherein: the telescopic lock frame rod (3A) is composed of a folding hook lifting rod (3A1), a sliding frame groove (3A2) and a lock pin inclined rod (3A3), the folding hook lifting rod (3A1) is buckled with the lock pin inclined rod (3A3), and the folding hook lifting rod (3A1) is in interference fit with the sliding frame groove (3A 2).

3. The detection device of an electrical automation apparatus as set forth in claim 2, wherein: the folding hook lifting rod (3A1) comprises a piston column block (3A11), a frame plate groove frame (3A12), a sliding block plate frame (3A13) and a folding hook buckle plate (3A14), wherein the piston column block (3A11) is nested at the upper right corner of the frame plate groove frame (3A12) and is collinear with the axis, the frame plate groove frame (3A12) is mechanically connected with the sliding block plate frame (3A13) and is positioned on the same vertical surface, and the folding hook buckle plate (3A14) is welded at the lower left corner of the frame plate groove frame (3A12) and is vertical to each other.

4. The detection device of an electrical automation apparatus as set forth in claim 1, wherein: disc electroplax (3D) comprises folding wheel dish seat (3D1), armature lead screw (3D2), frame dish seat (3D3), magnet ball (3D4), magnet ball (3D4) are equipped with two and nest respectively in the upper and lower both sides of frame dish seat (3D3), it all installs in the inside of frame dish seat (3D3) to fold wheel dish seat (3D1) and armature lead screw (3D 2).

5. The detection device of an electrical automation apparatus as set forth in claim 4, wherein: fold wheel disk seat (3D1) and detain bent plate (3D13), low lining dish wheel carrier (3D14) by copper silk thread disk body (3D11), axle wheel post (3D12), arc and constitute, copper silk thread disk body (3D11) and axle wheel post (3D12) mechanical connection, copper silk thread disk body (3D11) are detained bent plate (3D13) and low lining dish wheel carrier (3D14) through the arc and are buckled together.

6. The detection device of an electrical automation apparatus as set forth in claim 1, wherein: the pin bushing seat (3E) is composed of a node communicating pipe (3E1), a sliding-pasting lining plate (3E2) and a pin plugging plate (3E3), the sliding-pasting lining plate (3E2) is in clearance fit with the pin plugging plate (3E3), and the node communicating pipe (3E1) is electrically connected with the pin plugging plate (3E 3).

7. The detection device of an electrical automation apparatus as set forth in claim 6, wherein: the node communicating pipe (3E1) is composed of a pin block (3E11), a through pipe chamber (3E12), a bow-shaped lead wire rod (3E13) and a blade shifting plate (3E14), wherein the pin block (3E11) is provided with two pin blocks and is respectively inserted and embedded in the upper side and the lower side of the through pipe chamber (3E12), the bow-shaped lead wire rod (3E13) is mechanically connected with the blade shifting plate (3E14), and the bow-shaped lead wire rod (3E13) is inserted and embedded in the through pipe chamber (3E 12).

8. The detection device of an electrical automation apparatus as set forth in claim 6, wherein: smooth subsides welt (3E2) comprise aluminium foil dish groove (3E21), concave knot pole (3E22), brush facing soon (3E23), square electroplax piece (3E24), brush facing soon (3E23) are the compound sheet structure of three-way hole area dog-ear trapezoidal plate piece, aluminium foil dish groove (3E21) are through concave knot pole (3E22) and brush facing soon (3E23) mechanical connection, brush facing soon (3E23) hug closely in the front side of square electroplax piece (3E 24).