CN221140759U - Intelligent energy-saving controller for elevator - Google Patents

Abstract

The utility model relates to the technical field of elevators, in particular to an intelligent energy-saving controller for an elevator, which comprises a mounting part, wherein the mounting part comprises a mounting frame, a first chute is vertically arranged on the inner side wall of the mounting frame, a second chute is horizontally arranged on the inner side wall of the mounting frame, the top end of the first chute is mutually communicated with the second chute, a disassembly part is arranged on the inner wall of the mounting frame, the disassembly part comprises a controller main body, an infrared camera is arranged at the upper part of the front end of the controller main body, a through hole is horizontally arranged on the side wall of the controller main body, a telescopic rod is arranged in the through hole, the telescopic rod can slide relative to the through hole, and one end of the telescopic rod is fixedly connected with a vertical rod.

Description

Intelligent energy-saving controller for elevator

Technical Field

The utility model relates to the technical field of elevators, in particular to an intelligent energy-saving controller for an elevator.

Background

The elevator is a vertical elevator taking a motor as power, is provided with a box-shaped nacelle and is used for carrying passengers or goods in a multi-storey building, the elevator also has a step type, a step plate is arranged on a track to continuously run, commonly called an escalator or a moving walk, and serves as fixed lifting equipment of a specified floor.

The elevator among the related art is mostly with the mode of button to control the motor, and the button is damaged easily, inconvenient later maintenance, consequently needs intelligent controller to control the motor, and current elevator's intelligent controller still is in the working condition of awakening when unmanned the taking, leads to the resource to be wasted futile to when breaking down, inconvenient dismantlement maintenance.

Disclosure of utility model

The utility model aims to solve the defects in the prior art, and provides an intelligent energy-saving controller for an elevator.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides an intelligent energy-saving controller for elevator, includes installation component, installation component includes the installation frame, the inside lateral wall of installation frame is vertical to be provided with first spout, the inside lateral wall level of installation frame is provided with the second spout, the top of first spout with the second spout communicates each other, the inner wall of installation frame is installed and is dismantled the part, it includes the controller main part to dismantle the part, the front end upper portion of controller main part is provided with infrared camera, the lateral wall level of controller main part is provided with the through-hole, the internally mounted of through-hole has the telescopic link, the telescopic link can for the through-hole slides, the one end fixedly connected with montant of telescopic link, the other end level of telescopic link runs through the through-hole, the other end level of telescopic link extends to the inside of first spout, the outer wall cover of telescopic link has the spring, the one end of spring with the lateral wall level fixed connection of controller main part, the other end of spring with the lateral wall level fixed connection of montant, locking part is installed to the upper end of controller main part.

Further, the mounting component comprises mounting feet arranged at the rear end of the mounting frame, and the number of the mounting feet is four.

Further, the detaching part comprises a limiting block arranged at the rear side of the controller main body, and a handle is arranged at the front side of the controller main body.

Further, the cross section of the second chute is triangular.

Further, the locking part comprises a transverse plate, the transverse plate is horizontally arranged at the upper end of the controller main body, the transverse plate can horizontally slide relative to the controller main body, a handle is horizontally arranged on the outer side wall of the transverse plate, a cylinder is horizontally arranged on the top end of the front side of the mounting frame, a safety post is movably connected to the outer wall of the cylinder, the safety post can vertically rotate relative to the cylinder, and the bottom end of the safety post is located at the outer side wall of the transverse plate.

Further, the vertical diameter of the cross plate is equal to the vertical diameter of the first chute.

Further, a sum of a vertical diameter of the cross plate and a vertical diameter of the controller main body is equal to an inner vertical diameter of the mounting frame.

The utility model has the following beneficial effects:

Compared with the prior art, the intelligent energy-saving controller for the elevator, provided by the utility model, has the advantages that the controller main body is vertically moved upwards through the first sliding groove, the second sliding groove, the telescopic rod, the vertical rod and the spring, meanwhile, the end part of the telescopic rod slides upwards to the top end in the first sliding groove, the controller main body is pulled horizontally, the end part of the telescopic rod is enabled to be horizontally and smoothly discharged along the second sliding groove, the second sliding groove is used for horizontally extruding the telescopic rod in the process of horizontally discharging the telescopic rod, the telescopic rod drives the vertical rod to horizontally move to the limiting block, the spring is gradually stretched from a normal state until the telescopic rod slides out of the second sliding groove, namely, the controller main body is taken out, compared with the prior device, the device is inconvenient to disassemble and maintain, the device is simple to operate, can enable the controller main body to be quickly disassembled, is convenient to maintain and the maintenance efficiency is improved.

Compared with the prior art, the intelligent energy-saving controller for the elevator, provided by the utility model, has the advantages that through the arranged infrared camera, when passengers enter the elevator car, the infrared camera transmits the induction signal to the controller main body, so that the controller main body is converted into the awakening mode from the sleep mode, and is used by the passengers in a touching manner, and compared with the existing device which is still in the awakening working state when no passenger takes, the intelligent energy-saving controller for the elevator is wasteful in resources, and the device can avoid the long-time work of the controller main body when no passenger takes, and saves energy.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of an intelligent energy-saving controller for an elevator according to the present utility model;

Fig. 2 is a schematic view of a part of the structure of an intelligent energy-saving controller for an elevator according to the present utility model;

Fig. 3 is a schematic view of the internal part of an intelligent energy-saving controller for an elevator according to the present utility model;

fig. 4 is a schematic diagram of a disassembly component of an intelligent energy-saving controller for an elevator according to the present utility model.

Legend description:

100. A mounting member; 110. a mounting frame; 120. a first chute; 130. a second chute; 140. a mounting foot; 200. disassembling the component; 210. a controller main body; 220. an infrared camera; 230. a through hole; 240. a telescopic rod; 250. a vertical rod; 260. a spring; 270. a limiting block; 280. a handle; 300. a locking member; 310. a cross plate; 320. a handle; 330. a cylinder; 340. and a safety post.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, if there is a word description such as "a plurality" or the like, the meaning of a plurality means two or more ways, and greater than, less than, exceeding, etc. are understood to exclude the present number, and above, below, within, etc. are understood to include the present number.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Example 1

Referring to fig. 1-4, the present utility model provides an intelligent energy-saving controller for an elevator: including a mounting member 100, a dismounting member 200, and a locking member 300.

The installation component 100 is used for installing and fixing inside the elevator car, specifically, the installation component 100 includes the installation frame 110, the inside lateral wall of installation frame 110 is vertical to be provided with first spout 120, the inside lateral wall level of installation frame 110 is provided with second spout 130, the top and the second spout 130 intercommunication of first spout 120, the installation foot 140 of setting at the installation frame 110 rear end, the quantity of installation foot 140 is four, the transversal triangle-shaped of personally submitting of second spout 130, during specific use, carry out fixed connection with the inside of elevator car with the installation foot 140 through the bolt, thereby fix the installation frame 110 to the inside of elevator car, the tip that first spout 120 and second spout 130 that sets up are used for supplying telescopic link 240 is inside vertical and horizontal slip, because the action of gravity, controller main part 210 drives telescopic link 240 and is in the bottom of first spout 120, first spout 120 can restrict the telescopic link 240 and carry out the removal of horizontal direction, thereby fix the inside of installation frame 110 with controller main part 210.

The disassembly part 200 can enable the controller main body 210 to be disassembled quickly, and is convenient for maintenance, and in particular, the disassembly part 200 comprises a controller main body 210, an infrared camera 220 is arranged at the upper part of the front end of the controller main body 210, a through hole 230 is horizontally arranged on the side wall of the controller main body 210, a telescopic rod 240 is arranged in the through hole 230, the telescopic rod 240 can slide relative to the through hole 230, one end of the telescopic rod 240 is fixedly connected with a vertical rod 250, the other end of the telescopic rod 240 horizontally penetrates through the through hole 230, the other end of the telescopic rod 240 horizontally extends to the inside of the first sliding groove 120, a spring 260 is sleeved on the outer wall of the telescopic rod 240, one end of the spring 260 is horizontally and fixedly connected with the side wall of the controller main body 210, the other end of the spring 260 is horizontally and fixedly connected with the side wall of the vertical rod 250, a limiting block 270 is arranged at the rear side of the controller main body 210, a handle 280 is arranged at the front side of the controller main body 210, the controller main body 210 is a touch screen controller, the infrared camera 220 is used for sensing passengers to enter the elevator car, when the passengers enter the elevator car, the infrared camera 220 transmits sensing signals to the controller main body 210, so that the controller main body 210 is converted into a wake-up mode from a sleep mode for touching the passengers, long-time work without passengers is avoided, energy is saved, when the controller main body 210 breaks down and needs maintenance, the safety post 340 rotates on the post 330, the bottom end of the post 330 leaves the transverse plate 310, then the transverse plate 310 is horizontally pulled out through the handle 320, the controller main body 210 is vertically upwards moved through the handle 280, meanwhile, the end part of the telescopic rod 240 is upwards slid to the top end in the first sliding groove 120, the controller main body 210 is horizontally pulled, the end part of the telescopic rod 240 is horizontally slid out along the second sliding groove 130, in the process of horizontally sliding out the telescopic rod 240, the second sliding chute 130 will squeeze the telescopic rod 240 horizontally, so that the telescopic rod 240 drives the vertical rod 250 to move horizontally to the limiting block 270, the spring 260 is gradually stretched from the normal state until the telescopic rod 240 slides out of the second sliding chute 130, that is, the controller main body 210 is taken out, and the spring 260 drives the telescopic rod 240 to horizontally restore through the vertical rod 250.

Examples

As in fig. 1-4:

The locking component 300 is used for carrying out movable limit to the controller main part 210, prevent unexpected roll-off, specifically, the locking component 300 includes diaphragm 310, diaphragm 310 horizontal installation is in the upper end of controller main part 210, diaphragm 310 can be for controller main part 210 horizontal slip, the lateral wall level of diaphragm 310 is provided with handle 320, the front side top of installing frame 110 is provided with cylinder 330 horizontally, the outer wall swing joint of cylinder 330 has insurance post 340, insurance post 340 can be for the vertical rotation of cylinder 330, insurance post 340's bottom is located diaphragm 310 lateral wall department, diaphragm 310's vertical diameter equals first spout 120's vertical diameter, diaphragm 310's vertical diameter and controller main part 210's vertical diameter's sum equals the inside vertical diameter of installing frame 110, during the specific use, diaphragm 310 is used for carrying out the spacing of vertical direction to controller main part 210, cylinder 330 and insurance post 340 are used for protecting diaphragm 310, prevent the unexpected roll-off of diaphragm 310 level.

Working principle: when the elevator car is specifically used, the mounting feet 140 are fixedly connected with the inside of the elevator car through bolts, the mounting frame 110 is fixed to the inside of the elevator car, the controller main body 210 is a touch screen controller, when passengers enter the inside of the elevator car, the infrared camera 220 transmits induction signals to the controller main body 210, the controller main body 210 is converted into a wake-up mode from a sleep mode, thereby being used by the passengers for touching, long-time work without passengers is avoided, energy is saved, when the controller main body 210 breaks down and needs to be maintained, the safety post 340 rotates on the cylinder 330, the bottom end of the cylinder 330 leaves the transverse plate 310, then the transverse plate 310 is horizontally pulled out through the handle 320, the controller main body 210 is vertically upwards moved through the handle 280, meanwhile, the end of the telescopic rod 240 slides up to the top end in the first sliding groove 120, and then the controller main body 210 is horizontally pulled, the end of the telescopic rod 240 horizontally slides out along the second sliding groove 130, in the process of the telescopic rod 240 horizontally sliding out, the second sliding groove 130 extrusions the telescopic rod 240 horizontally, the vertical rod 240 is driven by the safety post 340, the telescopic rod 270 is gradually moved to the vertical rod 260, and the telescopic rod 250 is gradually pulled out of the vertical rod 260 through the normal sliding groove 260, namely, and the telescopic rod is normally pulled out of the vertical rod 260, and the telescopic rod is gradually pulled out of the vertical rod 260, and the telescopic rod is normally pulled out of the vertical rod 260, and the telescopic rod is horizontally pulled by the vertical rod 240.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. An intelligent energy-saving controller for an elevator, comprising a mounting part (100), characterized in that: the mounting component (100) comprises a mounting frame (110), a first chute (120) is vertically arranged on the inner side wall of the mounting frame (110), a second chute (130) is horizontally arranged on the inner side wall of the mounting frame (110), the top end of the first chute (120) is mutually communicated with the second chute (130), a dismounting component (200) is arranged on the inner wall of the mounting frame (110), the dismounting component (200) comprises a controller main body (210), an infrared camera (220) is arranged on the upper portion of the front end of the controller main body (210), a through hole (230) is horizontally arranged on the side wall of the controller main body (210), a telescopic rod (240) is mounted in the through hole (230), the telescopic rod (240) can slide relative to the through hole (230), one end of the telescopic rod (240) is fixedly connected with a vertical rod (250), the other end of the telescopic rod (240) horizontally penetrates through the through hole (230), the other end of the telescopic rod (240) horizontally extends to the inner side of the first chute (120), a spring sleeve (260) is horizontally connected with the side wall (260) of the telescopic rod (260), a locking member (300) is mounted on the upper end of the controller main body (210).

2. An intelligent energy-saving controller for an elevator as set forth in claim 1, wherein: the mounting component (100) comprises mounting feet (140) arranged at the rear end of the mounting frame (110), and the number of the mounting feet (140) is four.

3. An intelligent energy-saving controller for an elevator as set forth in claim 1, wherein: the dismounting component (200) comprises a limiting block (270) arranged on the rear side of the controller main body (210), and a handle (280) is arranged on the front side of the controller main body (210).

4. An intelligent energy-saving controller for an elevator as set forth in claim 1, wherein: the cross section of the second sliding groove (130) is triangular.

5. An intelligent energy-saving controller for an elevator as set forth in claim 1, wherein: the locking component (300) comprises a transverse plate (310), the transverse plate (310) is horizontally arranged at the upper end of the controller main body (210), the transverse plate (310) can horizontally slide relative to the controller main body (210), a handle (320) is horizontally arranged on the outer side wall of the transverse plate (310), a cylinder (330) is horizontally arranged on the top end of the front side of the mounting frame (110), a safety post (340) is movably connected with the outer wall of the cylinder (330), the safety post (340) can vertically rotate relative to the cylinder (330), and the bottom end of the safety post (340) is positioned at the outer side wall of the transverse plate (310).

6. An intelligent energy-saving controller for an elevator as set forth in claim 5, wherein: the vertical diameter of the cross plate (310) is equal to the vertical diameter of the first chute (120).

7. An intelligent energy-saving controller for an elevator as set forth in claim 6, wherein: the sum of the vertical diameter of the cross plate (310) and the vertical diameter of the controller main body (210) is equal to the inner vertical diameter of the mounting frame (110).