CN113003329A - Elevator control system - Google Patents

Abstract

The invention discloses a control system of a lifting machine, which structurally comprises a box door, a box body, an indicator light, a protective device, a controller and a vent hole.

Description

Elevator control system

Technical Field

The invention relates to the field of elevators, in particular to an elevator control system.

Background

The lifting machine is one of the most common equipment among the conveying equipment, can effectively realize the position from low to high of material and carry, and control system is as the brain of lifting machine, needs to control the operation of lifting machine in real time, protects the controller through protective element, when controlling the lifting machine, needs the place of improvement:

when controlling the lifting machine, carry out real time control to the operation of lifting machine through the controller, the lifting machine is at the operation in-process, can produce certain vibrations power, because the controller is fixed mounting on the lifting machine, make the controller shake because the vibrations that the lifting machine operation produced, it is not hard up to lead to inside spare part to appear, and the controller is inside to have more electric wire, generally all be directly with many electric wire piles on a position, lead to its inside electric wire confusion, if the inside circumstances such as short circuit that appears of controller, the staff can not in time maintain the controller, thereby influence the normal operating of lifting machine.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides an elevator control system, its structure includes chamber door, box, pilot lamp, protector, controller, vent, the chamber door passes through hinged joint with the box, install the pilot lamp on the box, box one side is equipped with two vents that are linked together with it, the inside protector that meets with it that is equipped with of box, protector links to each other with the controller, the controller passes through the connection of electric lines with the pilot lamp.

As a further optimization of the invention, the protection device comprises two flat cable assemblies, limiting members, a frame body, two placing grooves and protection assemblies, wherein the two flat cable assemblies are buckled on the frame body in parallel, the two flat cable assemblies mutually form two parallel lines, the frame body is provided with four limiting members connected with the frame body, the four limiting members are symmetrically arranged on the two placing grooves, one end of each placing groove is provided with the flat cable assembly, the other end of each placing groove is provided with the protection assembly, the two protection assemblies are sleeved on two ends of the inner wall of the frame body, the frame body is arranged in the box body, and the placing grooves are connected with the controller.

The flat cable assembly comprises three or more transmission cavities, wiring boards, fixing plates and partition plates, wherein the three or more transmission cavities are arranged on the fixing plates in an equidistant and transverse mode, the three or more transmission cavities are connected through the partition plates, the wiring boards communicated with the transmission cavities are arranged at two ends of the transmission cavities, one end, far away from the transmission cavities, of each wiring board is connected with the corresponding fixing plate, the fixing plates are buckled on the frame body, and the fixing plates are arranged on the placing grooves.

The wiring board comprises a contact plate, rollers, a tray body, connecting rods and wiring ports, wherein the contact plate is tightly attached to the inner wall of the tray body, the contact plate is provided with four connecting rods, the four connecting rods penetrate through the contact plate in an equidistant annular mode, the connecting rods are connected with the rollers through the contact plate, twelve rollers are clamped on the contact plate in an equidistant mode, one end of the tray body is installed on the transmission cavity, and the other end of the tray body is connected to the fixing plate.

The invention further optimizes the content, the conduction cavity comprises two baffles, a shell, supporting blocks, mutual propping pieces, a wire cavity and a mounting seat, the two baffles are symmetrically connected to two sides of the inner wall of the shell, three supporting blocks are respectively mounted at two ends of the shell far away from the baffles, the supporting blocks are connected with the mounting seat, the mounting seat is fixed on the shell, one end of the mounting seat far away from the shell is connected with the mutual propping pieces, the shell is mounted on a fixed plate, the shell is connected with a partition plate, and the mounting seat is communicated with the disk body through the shell.

The mutual propping piece comprises a moving piece, a curved arc plate, a spring traction bar and a shell, wherein the spring traction bar connected with the moving piece is arranged in the moving piece, the curved arc plate is buckled at both ends of the moving piece, one end of the curved arc plate, which is far away from the moving piece, is contacted with the shell, and the shell is arranged on the mounting base.

The protection assembly comprises a clamping seat, a protection pad, elastic rings, a clamping ball, fastening plates, shock absorption elements and connecting plates, wherein the protection pad attached to the clamping seat is arranged at the top of the clamping seat, the protection pad is connected with the shock absorption elements through the clamping seat, the shock absorption elements are arranged in two numbers, the two shock absorption elements are symmetrically arranged on the clamping seat, one end, far away from the clamping seat, of the shock absorption elements is connected with the connecting plates, the two ends of the connecting plates are parallelly inserted and embedded in the clamping ball, the fastening plates sleeved with the clamping ball are arranged at the two ends of the clamping ball, one end, far away from the clamping ball, of the fastening plates is connected with the elastic rings, the elastic rings are fastened with the clamping seat, the clamping seat is arranged on a placing groove, and the clamping seat is sleeved at the two ends of the inner wall of a frame body.

The cushioning element comprises two laminated plates, a cavity, an expansion protection piece, a traction block, a tensioning plate and positioning guide blocks, wherein the two laminated plates are connected with the cavity, the positioning guide block connected with the two laminated plates is arranged in the middle of the inner part of the cavity, the traction block is arranged at one end, far away from the cavity, of the positioning guide block, the tensioning plate is arranged on each of two sides of the positioning guide block and movably clamped with the positioning guide block, one end, far away from the positioning guide block, of the tensioning plate is buckled with the expansion protection piece, one end, facing the tensioning plate, of the expansion protection piece is connected with the traction block, the top of the expansion protection piece is in contact with the inner wall of the cavity, the cavity is connected with a protection pad through a clamping seat, and the bottom of the cavity is connected with a connecting plate.

The expansion protection piece comprises two rigid elastic plates, two expansion plates, a high elastic piece, a connecting ring, a contact piece and a buckle plate, wherein the two rigid elastic plates are symmetrically buckled on two sides of the high elastic piece, two ends of the high elastic piece are respectively connected with two ends of the connecting ring, the two sides of the outer wall of the connecting ring are respectively provided with the expansion plates buckled with the connecting ring, one end, far away from the connecting ring, of each expansion plate is connected with the contact piece, the bottom of the contact piece is buckled with the buckle plate, the buckle plate is connected with the traction block and the opening-closing plate, and the top of the contact piece is contacted with the inner wall of the cavity.

Advantageous effects

The invention relates to a control system of a hoister, which has the following beneficial effects:

1. according to the invention, the controller is arranged on the placing groove in parallel through the combination of the controller, the limiting parts and the placing groove, the controller is limited through the limiting parts, the elastic parts are arranged in the two limiting parts, the controller can be movably adjusted according to the size of the controller, and the controller is effectively clamped and positioned on the placing groove.

2. According to the invention, through the combined arrangement of the conduction cavities, the wiring board, the fixing plate and the partition plates, the movable positions of the multiple conduction cavities are limited through the partition plates, the electric wires on the controller extend into the wiring board, and the multiple wires are dispersed on the multiple conduction cavities through the multiple wiring boards, so that the electric wires of the controller are classified and sorted effectively, and the equipment can be inspected and maintained by workers conveniently.

3. According to the invention, the controller is arranged on the placing groove through the combination of the clamping seat, the protective pad, the elastic ring, the clamping ball, the fastening plate, the cushioning element and the connecting plate, the outer wall of the controller is in contact with the protective pad, the protective pad is made of flexible materials, the outer wall of the controller can be effectively protected, and then the cushioning element and the connecting plate are mutually matched to absorb energy of vibration force generated by the movement of the elevator, so that the vibration force applied to the controller is effectively reduced, and the controller can stably control the operation of the elevator.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of a hoist control system according to the present invention;

fig. 2 is a schematic view of the internal structure of the protection device of the present invention.

Fig. 3 is a schematic view of the internal structure of the flat cable assembly of the present invention.

Fig. 4 is a schematic top view of the patch panel of the present invention.

Fig. 5 is a schematic top view of a conductive chamber according to the present invention.

Fig. 6 is an enlarged structural diagram of a in fig. 5.

Fig. 7 is a schematic view of the internal structure of the protection device of the present invention.

FIG. 8 is a cross-sectional view of a shock absorbing element according to the present invention.

Fig. 9 is a schematic cross-sectional view of an extended guard of the present invention.

In the figure: the door 1, the cabinet 2, the indicator light 3, the protective device 4, the controller 5, the vent 6, the cable assembly 41, the limit piece 42, the frame 43, the placement slot 44, the protective assembly 45, the conduction cavity 411, the wiring board 412, the fixing plate 413, the partition 414, the contact plate 121, the roller 122, the tray 123, the link 124, the wiring port 125, the baffle 111, the housing 112, the support block 113, the abutting piece 114, the wire cavity 115, the mounting seat 116, the movable piece Q1, the curved plate Q2, the elastic pulling bar Q3, the housing Q4, the clamping seat 451, the protective pad 452, the elastic ring 453, the clamping ball 454, the fastening plate 455, the cushioning element 456, the engaging plate 457, the overlapping plate 561, the cavity 562, the expanding guard 563, the pulling block 564, the opening and closing plate 565, the positioning guide block 566, the rigid elastic plate R1, the expanding plate R2, the high elastic member R3, the R4, the connecting ring R5, and the R6.

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.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an elevator control system, its structure includes chamber door 1, box 2, pilot lamp 3, protector 4, controller 5, vent 6, chamber door 1 passes through hinged joint with box 2, install pilot lamp 3 on the box 2, 2 one side of box are equipped with two vents 6 that are linked together with it, 2 inside protectors 4 that are equipped with it and meet of box, protector 4 links to each other with controller 5, controller 5 passes through the connection of electric lines with pilot lamp 3.

Referring to fig. 2, the protection device 4 includes two flat cable assemblies 41, two limiting members 42, a frame 43, two placement slots 44, and two protection assemblies 45, where the two flat cable assemblies 41 are fastened to the frame 43 in parallel, the two flat cable assemblies 41 form two parallel lines, the frame 43 is provided with four limiting members 42 connected to the frame 43, the four limiting members 42 are symmetrically installed on the two placement slots 44, one end of each placement slot 44 is provided with the flat cable assembly 41, the other end of each placement slot 44 is provided with the protection assembly 45, the two protection assemblies 45 are sleeved on two ends of the inner wall of the frame 43, the frame 43 is installed inside the box 2, and the placement slots 44 are connected to the controller 5.

The limiting member 42 is used for matching with the placing groove 44, the controller 5 is installed on the placing groove 44, the limiting member 42 assists the placing groove 44 to clamp and limit two ends of the controller 5, and the controller 5 is prevented from displacement during operation.

Referring to fig. 3, the flat cable assembly 41 includes three or more conductive cavities 411, a wiring board 412, a fixing plate 413, and partition plates 414, where the conductive cavities 411 are disposed, the three or more conductive cavities 411 are equidistantly and transversely arranged on the fixing plate 413, the three or more conductive cavities 411 are connected through the partition plates 414, the two ends of the conductive cavities 411 are respectively disposed with the wiring board 412 connected thereto, one end of the wiring board 412 far from the conductive cavities 411 is connected with the fixing plate 413, the fixing plate 413 is fastened to the frame 43, and the fixing plate 413 is disposed on the placement groove 44.

Referring to fig. 4, the wiring board 412 includes a contact plate 121, rollers 122, a tray body 123, connecting rods 124, and a wiring port 125, the contact plate 121 is tightly attached to the inner wall of the tray body 123, four connecting rods 124 are disposed on the contact plate 121, the four connecting rods 124 are annularly penetrated on the contact plate 121 at equal intervals, the connecting rods 124 are connected to the rollers 122 through the contact plate 121, twelve rollers 122 are disposed on the contact plate 121, twelve rollers are equidistantly clamped on the contact plate 121, one end of the tray body 123 is mounted on the conductive cavity 411, and the other end is connected to the fixing plate 413.

The roller 122 is used for matching the wire connection port 125, the wire is inserted into the wire connection port 125, the side wall of the wire is contacted with the roller 122, and the roller 122 rolls along with the movement of the wire, so that the downward conduction of the wire is facilitated.

Referring to fig. 5, the conducting cavity 411 includes two baffles 111, a housing 112, two supporting blocks 113, a supporting member 114, a conducting wire cavity 115, and a mounting seat 116, the two baffles 111 are symmetrically connected to two sides of an inner wall of the housing 112, three supporting blocks 113 are mounted at two ends of the housing 112 away from the baffles 111, the supporting blocks 113 are connected to the mounting seat 116, the mounting seat 116 is fixed on the housing 112, one end of the mounting seat 116 away from the housing 112 is connected to the supporting member 114, the housing 112 is mounted on a fixing plate 413, the housing 112 is connected to a partition 414, and the mounting seat 116 is connected to the tray body 123 through the housing 112.

The baffle 111 is used for being matched with the wire cavity 115, the electric wires are conveyed to the wire cavity 115, and the baffle 111 is in an arc triangle structure, so that the positions of the electric wires can be effectively limited, and the electric wires are prevented from being clamped on the shell 112 in the conveying process.

Referring to fig. 6, the supporting member 114 includes a movable member Q1, a curved arc plate Q2, an elastic pulling bar Q3, and an outer shell Q4, the movable member Q1 is provided with the elastic pulling bar Q3 therein, two ends of the movable member Q1 are respectively buckled with the curved arc plate Q2, one end of the curved arc plate Q2 far away from the movable member Q1 contacts with the outer shell Q4, and the outer shell Q4 is mounted on the mounting base 116.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an elevator control system, its structure includes chamber door 1, box 2, pilot lamp 3, protector 4, controller 5, vent 6, chamber door 1 passes through hinged joint with box 2, install pilot lamp 3 on the box 2, 2 one side of box are equipped with two vents 6 that are linked together with it, 2 inside protectors 4 that are equipped with it and meet of box, protector 4 links to each other with controller 5, controller 5 passes through the connection of electric lines with pilot lamp 3.

Referring to fig. 2, the protection device 4 includes two flat cable assemblies 41, two limiting members 42, a frame 43, two placement slots 44, and two protection assemblies 45, where the two flat cable assemblies 41 are fastened to the frame 43 in parallel, the two flat cable assemblies 41 form two parallel lines, the frame 43 is provided with four limiting members 42 connected to the frame 43, the four limiting members 42 are symmetrically installed on the two placement slots 44, one end of each placement slot 44 is provided with the flat cable assembly 41, the other end of each placement slot 44 is provided with the protection assembly 45, the two protection assemblies 45 are sleeved on two ends of the inner wall of the frame 43, the frame 43 is installed inside the box 2, and the placement slots 44 are connected to the controller 5.

The limiting member 42 is used for matching with the placing groove 44, the controller 5 is installed on the placing groove 44, the limiting member 42 assists the placing groove 44 to clamp and limit two ends of the controller 5, and the controller 5 is prevented from displacement during operation.

Referring to fig. 7, the protection assembly 45 includes a clamping seat 451, a protection pad 452, an elastic ring 453, a ball 454, a fastening plate 455, two cushioning members 456 and a connecting plate 457, the protection pad 452 is disposed on the top of the clamping seat 451 and is attached to the clamping seat 451, the protection pad 452 is connected to the cushioning member 456 through the clamping seat 451, the two cushioning members 456 are symmetrically mounted on the clamping seat 451, one end of the cushioning member 456 far from the clamping seat 451 is connected to the connecting plate 457, two ends of the connecting plate 457 are inserted in the ball 454 in parallel, the fastening plates 455 are disposed at two ends of the ball 454 and are connected to the clamping seat 454, one end of the fastening plate 455 far from the ball 454 is connected to the elastic ring 453, the elastic ring 453 is fastened to the clamping seat 451, the clamping seat 451 is disposed on the placement groove 44, and the clamping seat 451 is sleeved on two ends of the inner wall of the frame 43.

The above-mentioned ball 454 is used for matching with the connection plate 457, two ends of the connection plate 457 are inserted and embedded on two balls 454 in parallel, the position of the ball 454 is limited by two fastening plates 455, and the balance of the connection plate 457 is effectively kept.

Referring to fig. 8, the cushioning element 456 includes two stacked plates 561, a cavity 562, an expansion guard 563, a drag block 564, an opening and closing plate 565, and a positioning guide block 566, where the stacked plate 561 is connected to the cavity 562, the positioning guide block 566 connected to the stacked plate 561 is disposed in the middle of the cavity 562, the drag block 564 is mounted at one end of the positioning guide block 566 far away from the cavity 562, the two opening and closing plates 565 are disposed on two sides of the positioning guide block 566 and movably engaged with each other, one end of the opening and closing plate 565 far away from the positioning guide block 566 is fastened to the expansion guard 563, one end of the expansion guard 563 facing the opening and closing plate 565 is connected to the drag block 564, the top of the expansion guard 563 is in contact with the inner wall of the cavity 562, the protection cavity 562 is connected to the pad 452 through the card seat 451, and the bottom of the cavity 562 is connected to the engagement plate 457.

The stacked plate 561 is used for matching with the cavity 562, the cavity 562 retracts inwards when being subjected to vibration force generated by a lifter, and the stacked plate 561 retracts along with the movement of the cavity 562, so that the vibration force applied to the cavity 562 is effectively dispersed.

Referring to fig. 9, the expansion guard 563 includes two rigid elastic plates R1, two expansion plates R2, two high elastic members R3, a connection ring R4, a contact member R5, and a buckle plate R6, the two rigid elastic plates R1 are symmetrically buckled on two sides of the high elastic member R3, two ends of the high elastic member R3 are respectively connected to two ends of the connection ring R4, two sides of an outer wall of the connection ring R4 are respectively provided with expansion plates R2 buckled with the connection ring R4, one end of the expansion plate R2 far away from the connection ring R4 is connected to the contact member R5, a bottom of the contact member R5 is buckled with the buckle plate R6, the buckle plate R6 is connected to the drag block 564 and the engagement plate 565, and a top of the contact member R5 is contacted with an inner wall of the cavity 562.

The rigid elastic plate R1 is used for matching with a high elastic piece R3, the high elastic piece R3 can contract inwards along with the deformation of the connecting ring R4, after the high elastic piece R3 contracts inwards, the two rigid elastic plates R1 can deform along with the movement of the high elastic piece R3, the rigid elastic plate R1 is made of rigid materials, and can generate large elastic force after being pressed to a certain degree, so that the rigid elastic plate R1 is effectively matched with the high elastic piece R3 to support and push out the contact piece R5.

The working principle of the above technical solution is explained as follows:

when the elevator control system is used, the controller 5 is positioned and protected through the protection device 4, so that the controller 5 can be stably controlled, and the elevator is controlled through the controller 5, so that the stability of the elevator in operation is ensured.

When the hoist is controlled, the controller 5 is placed on the placing groove 44 in parallel, two ends of the controller 5 can contact with the limiting pieces 42, the limiting pieces 42 are made of elastic materials and have good elasticity, the position of the controller 5 can be effectively limited, the controller 5 is stably installed on the placing groove 44, a worker classifies a plurality of wires inside the controller 5, the classified wires penetrate through the wiring port 125, the side walls of the wires can contact with the rollers 122, the movement of the wires is used as the power for the rotation of the rollers 122, the rollers 122 can rotate along with the movement of the wires, the wires are effectively conveyed downwards to the wire cavity 115, the positions of the wires extending into the wire cavity 115 are limited through the baffle 111, the wires are kept on the middle block of the wire cavity 115, and the wires are prevented from being clamped on the side of the wire cavity 115 in the moving process, the wires are conveyed downwards to the wire cavity 115, the outer wall of each wire is in contact with the outer shells Q4 on two sides, after the two outer shells Q4 are subjected to the extrusion force of the wires, the extrusion force is conveyed to the curved arc plate Q2, the curved arc plate Q2 retracts inwards along with the pressing of the outer shell Q4, the pressure is conveyed downwards to the movable piece Q1, the movable piece Q1 is pressed to contract downwards and is overlapped, the elastic traction strip Q3 can correspondingly and inwards drag the movable piece Q1, so that the two curved arc plates Q2 can collide and buckle, the distance inside the wire cavity 115 is effectively enlarged, the side walls of the wires are not in contact with the outer shells Q4 to generate friction in the conduction process, the wires are effectively conveyed downwards stably to the bottom wiring board 412, the wires are guided out through the rollers 122 in the bottom wiring board 412 in a matching mode, the wires in the controller 5 can be classified and rectified quickly, and the controller 5 can be conveniently inspected and maintained by workers in the later stage, the timeliness of the maintenance of the controller 5 is improved, and therefore the running state of the hoister is guaranteed.

When the controller 5 controls the elevator, the elevator lifts and transports materials, a certain vibration force is generated in the transportation process, the box body 2 directly receives the vibration force generated by the elevator, the box body 2 disperses and transmits the vibration force to the inside of the frame body 43, the frame body 43 transmits the vibration force to the card seats 451 at two ends, the cavity 562 directly receives the vibration force on the card seats 451, the cavity 562 is transmitted to the lamination plate 561 after being stressed, the lamination plate 561 retracts inwards along with the change of the cavity 562, after the cavity 562 retracts inwards, the two contact members R5 can expand outwards under the action of the opening and closing plate 565 after being subjected to the downward retracting extrusion force of the cavity 562, two ends of the drag block 564 are connected to the two contact members R5, the drag block 564 is of a V-shaped structure and is made of an elastic material, the two contact members R5 can be effectively dragged, and the drag block 564 is positioned by the positioning guide block 564, the contact R5 can stably abut against the cavity 562 and is not easy to shift, two contact R5 can flatly abut against the cavity 562 after expanding outwards, the contact R5 can retract inwards after being subjected to extrusion force of the cavity 562 and the opening and closing plate 565, the two expanding plates R2 can expand outwards along with retraction of the contact R5 and vertically guide pressure to the connecting ring R4, the connecting ring R4 is of a quadrilateral structure, so that the stability of the connecting ring R4 is poor, the connecting ring R4 can retract inwards after being pressed, the pressure is guided to the high-elasticity piece R3, two ends of the high-elasticity piece R3 are of a curved arc shape, the two ends can be bent inwards to abut against each other after being pressed, the rigid elastic plates R1 on two sides of the high-elasticity piece R3 can bend outwards along with the movement of the high-elasticity piece R3 to form an arched structure, the elastic plates R1 are made of rigid materials, the high-elasticity piece R1 has high elasticity and is good in elasticity and can be generated upwards after being pressed to a certain limit, the expansion plate R2 is pushed out outwards by matching with the high elastic piece R3, the cavity 562 is expanded and pushed out by the auxiliary contact piece R5 of the traction block 564, the vibration force generated by the elevator can be effectively relieved by the collision of the elasticity generated by the rigid elastic plate R1 and the external vibration force and the mutual action principle of the force, the two forces are simultaneously dissipated after being collided together, the vibration force generated by the elevator can be effectively relieved by the cavity 562, the position of the clamping ball 454 is limited by the protection action of the elastic ring 453 and the fastening plate 455, the clamping ball 454 can stably match with the connection plate 457 to move up and down, the balance of the connection plate 457 is ensured, the vibration relieving elements 456 at the two ends of the connection plate 457 can effectively relieve the vibration force, the controller 5 is in operation and directly contacts the outer wall of the controller 5 through the protection pad 452, the protection pad 452 is made of a flexible material, the vibration force generated by the elevator is blocked, and the vibration force is prevented from being directly transmitted to the controller 5, so that the controller 5 can perform efficient and stable control on the hoist.

In summary, the invention adopts a combined arrangement of the box door, the box body, the indicator light, the protective device, the controller and the vent to form a new elevator control system, when the elevator is controlled, the controller is placed on the placing groove in parallel, the position of the controller is limited by the limiting part, the controller is stably installed on the placing groove, the wires of the controller are classified and sorted by the cooperation of the guide cavity and the wiring board, the controller is convenient for workers to inspect and maintain at the later stage, the external vibration force is blocked by the cooperation of the protective pad and the cushioning element, and the vibration force is prevented from being directly transmitted to the controller, so that the controller can efficiently and stably control the elevator.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a lifting machine control system, its structure includes chamber door (1), box (2), pilot lamp (3), protector (4), controller (5), vent (6), its characterized in that:

the box door (1) is connected with the box body (2) through a hinge, the box body (2) is provided with an indicator lamp (3), the box body (2) is communicated with a ventilation opening (6), the box body (2) is connected with a protection device (4), the protection device (4) is connected with a controller (5), and the controller (5) is connected with the indicator lamp (3) through an electric wire;

the protection device (4) comprises a flat cable assembly (41), a limiting part (42), a frame body (43), a placing groove (44) and a protection assembly (45), wherein the flat cable assembly (41) is buckled on the frame body (43), the limiting part (42) is arranged on the frame body (43), the limiting part (42) is installed on the placing groove (44), the flat cable assembly (41) and the protection assembly (45) are arranged on the placing groove (44), the protection assembly (45) is sleeved on the frame body (43), the frame body (43) is installed on the box body (2), and the placing groove (44) is connected with the controller (5).

2. The elevator control system of claim 1 wherein: the flat cable component (41) comprises a conduction cavity (411), a wiring board (412), a fixing board (413) and a partition board (414), wherein the conduction cavity (411) is installed on the fixing board (413), the conduction cavity (411) is connected with the partition board (414), the wiring board (412) is arranged at each of two ends of the conduction cavity (411), the wiring board (412) is connected with the fixing board (413), the fixing board (413) is buckled on a frame body (43), and the fixing board (413) is arranged on a placing groove (44).

3. The elevator control system of claim 2 wherein: the wiring board (412) comprises a contact plate (121), rollers (122), a tray body (123), a connecting rod (124) and a wiring port (125), the contact plate (121) is tightly attached to the inner wall of the tray body (123), the connecting rod (124) penetrates through the contact plate (121), the connecting rod (124) is connected with the rollers (122) through the contact plate (121), the rollers (122) are movably clamped on the contact plate (121), and the tray body (123) is connected with a conduction cavity (411) and a fixing plate (413).

4. The elevator control system of claim 2 wherein: the transmission cavity (411) comprises a baffle (111), a shell (112), supporting blocks (113), mutual ejection pieces (114), a wire cavity (115) and a mounting seat (116), the baffle (111) is connected to the shell (112), the supporting blocks (113) are mounted on the shell (112), the supporting blocks (113) are connected with the mounting seat (116), the mounting seat (116) is connected with the shell (112) and the mutual ejection pieces (114), the shell (112) is mounted on a fixing plate (413), the shell (112) is connected with a partition plate (414), and the mounting seat (116) is communicated with a disk body (123) through the shell (112).

5. The elevator control system of claim 4 wherein: mutual ejecting piece (114) are including moving part (Q1), curved arc board (Q2), bullet draw back strip (Q3), shell (Q4), it draws back strip (Q3) to be equipped with the bullet on moving part (Q1), it has curved arc board (Q2) to have buckled on moving part (Q1), curved arc board (Q2) contacts with shell (Q4), shell (Q4) is installed on mount pad (116).

6. The elevator control system of claim 1 wherein: the protection component (45) comprises a clamping seat (451), a protection pad (452), an elastic ring (453), a clamping ball (454), a fastening plate (455), a shock absorption element (456) and a connecting plate (457), wherein the clamping seat (451) is attached to the protection pad (452), the shock absorption element (456) is installed on the clamping seat (451), the shock absorption element (456) is connected with the connecting plate (457), the connecting plate (457) is inserted and embedded on the clamping ball (454), the clamping ball (454) is sleeved with the fastening plate (455), the fastening plate (455) is connected with the elastic ring (453), the elastic ring (453) is fastened with the clamping seat (451), the clamping seat (451) is arranged on a placing groove (44), and the clamping seat (451) is sleeved on a frame body (43).

7. The elevator control system of claim 6 wherein: bradyseism component (456) is including folded sheet (561), cavity (562), extension protecting piece (563), drag piece (564), open and shut board (565), location guide block (566), folded sheet (561) meets with cavity (562), be equipped with location guide block (566) on cavity (562), install drag piece (564) on location guide block (566), location guide block (566) and opening and shutting board (565) activity block, extension protecting piece (563) meets with opening and shutting board (565), drag piece (564), extension protecting piece (563) contacts with cavity (562), cavity (562) passes through cassette (451) and links to each other with protection pad (452), cavity (562) bottom meets with linking plate (457).

8. The elevator control system of claim 7 wherein: expansion fender (563) including just playing board (R1), expand board (R2), high elastic component (R3), go-between (R4), contact (R5), buckle (R6), just play board (R1) lock joint is on high elastic component (R3), high elastic component (R3) is connected on go-between (R4), go-between (R4) both sides all are equipped with and expand board (R2), expand board (R2) and contact (R5) are connected, contact (R5) and buckle (R6) looks lock, buckle (R6) meet with traction block (564), opening and shutting board (565), contact (R5) contacts with cavity (562).

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