CN214217816U - Elevator self-adaptation operation control system - Google Patents

Abstract

The utility model belongs to the technical field of elevator control system and specifically relates to an elevator self-adaptation operation control system is related to, including the cabinet body with install in the internal control panel of cabinet, cabinet body wherein one side is the open structure setting, the opening part articulates there is the cabinet door, the side that articulated department was kept away from to the cabinet door is equipped with the connecting plate, the side that the cabinet body is close to the connecting plate is equipped with the mount pad, mount pad and connecting plate butt when the cabinet door is in the closed condition, be equipped with first locking subassembly in the mount pad, the work portion that is used for restricting the first locking subassembly of cabinet door upset is protractile mount pad or retractable mount pad setting, the connecting plate is close to the side of mount pad and sets up the work portion male connecting hole that supplies first locking subassembly, the work portion of first locking subassembly stretches out the mount pad and is to insert the connecting hole when the cabinet door is in the closed condition and sets up. The application has the effect of improving the safety of the control system.

Description

Elevator self-adaptation operation control system

Technical Field

The application relates to the field of elevator control systems, in particular to an elevator self-adaptive operation control system.

Background

An elevator operation control system is an electric control device which is used for installing various electronic devices and electric appliance elements in a cabinet-shaped structure with a safety protection function.

In the related art, the elevator self-adaptive operation control system comprises a cabinet body and a control panel arranged in the cabinet body, wherein various electronic devices are arranged on the control panel and are used for completing operation control of an elevator. The cabinet body is installed on the wall body, and the side that the wall body was kept away from to the cabinet body is the open structure setting, and the cabinet body articulates there is the cabinet door that is used for closing or opening the cabinet body, and the cabinet door is located open structure department, and the side that articulated department was kept away from to the cabinet door passes through magnet and cabinet body coupling.

To the correlation technique among the above-mentioned, the inventor thinks if magnet damages, the cabinet door is difficult for keeping the state of closing, leads to the cabinet door to open by accident easily, has caused the lower defect of control system security.

SUMMERY OF THE UTILITY MODEL

In order to improve the safety of the control system, the application provides an elevator self-adaptive operation control system.

The application provides an elevator self-adaptation operation control system adopts following technical scheme:

the utility model provides an elevator self-adaptation operation control system, includes the cabinet body and installs in the internal control panel of cabinet, the opening has been seted up to one of them side of the cabinet body, the opening part articulates there is the cabinet door, the side that articulated department was kept away from to the cabinet door is equipped with the connecting plate, the side that the articulated department of cabinet door was kept away from to the cabinet body is equipped with the mount pad, mount pad and connecting plate butt when the cabinet door is in the closed condition, be equipped with first locking subassembly in the mount pad, be used for the restriction the working part of the first locking subassembly of cabinet door upset is protractile mount pad or retracts the mount pad setting, the connecting plate is close to the side of mount pad and sets up the work part male connecting hole that supplies first locking subassembly, the working part of first locking subassembly stretches out the mount pad and is and inserts the connecting hole and sets up when the cabinet door is in the closed condition.

Through adopting above-mentioned technical scheme, behind the work portion of first locking subassembly inserted the connecting hole, play the effect of restriction cabinet door upset, realize the locking, reduced the unexpected condition of opening of cabinet door to control system's security has been improved.

Optionally, the first locking component comprises a locking rod, a first spring and a sliding sheet, the mounting seat is horizontally arranged and provided with a mounting hole, the mounting holes are arranged at two ends of the mounting seat in a penetrating way, when the connecting plate is abutted against the mounting seat, two ends of the mounting holes are respectively close to and far away from the connecting plate, the locking rod is horizontally arranged and is connected with the mounting hole in a sliding way, the aperture of the middle part of the mounting hole is larger than the apertures of the two ends of the mounting hole, the sliding sheet is vertically arranged, the sliding sheet is sleeved and fixed on the locking rod, the sliding sheet is slidably connected to the middle part of the mounting hole, the first spring is sleeved on the locking rod and positioned in the middle of the mounting hole, the sliding sheet is positioned between the connecting plate and the first spring for applying thrust to the sliding sheet when the cabinet door is in a closed state, one end of the locking rod, which is close to the connecting plate, is arranged in the mounting seat in a manner of being capable of extending out or retracting into the mounting seat.

Through adopting above-mentioned technical scheme, when the connecting plate was relative with the mount pad, unclamped the locking lever, first spring applys thrust to the gleitbretter for the locking lever removes towards the connecting plate, and the one end that the locking lever is close to the connecting plate stretches out the mount pad and inserts in the connecting hole, and then restricts the upset of cabinet door through the cooperation of locking lever and connecting hole, thereby is favorable to locking the cabinet door fast.

Optionally, one end of the locking rod penetrating through the connecting hole is provided with a second locking assembly, and the second locking assembly is detachably connected with the side face, far away from the mounting seat, of the connecting plate.

Through adopting above-mentioned technical scheme, after the locking lever passed the connecting hole, second locking subassembly can be dismantled with the connecting plate and be connected to further strengthen the locking, make the cabinet door easily opened by accident.

Optionally, the second locking subassembly includes two magnet boards, the magnet board is the setting of rectangle platelike, one of them minor face of magnet board articulates in the tip that the locking lever is close to the connecting rod, the length of magnet board minor face is less than the diameter of locking lever, two magnet boards are when the connecting hole is passed to the one end that the locking lever is close to the connecting plate, the side that the mount pad was kept away from to the connecting plate is equipped with two second iron sheets, be used for with two magnet board complex two second iron sheets are close to the connecting hole.

Through adopting above-mentioned technical scheme, after the locking lever passed the connecting hole, two magnet boards of upset for two magnet boards respectively with two second iron sheets butt, magnet board suction tightly second iron sheet realizes the effect of locking, thereby has strengthened being connected of locking lever and connecting plate.

Optionally, a sliding groove is formed in the top surface of the cabinet body, two ends of the sliding groove are close to and far away from the opening of the cabinet body respectively, a sliding block is connected in the sliding groove, the top surface of the sliding block is connected with a third locking assembly used for further limiting the turnover of the cabinet door, and the third locking assembly is arranged on the side face of the cabinet door, which is tightly abutted to the cabinet door and far away from the cabinet body, when the cabinet door is in a closed state.

Through adopting above-mentioned technical scheme, close the cabinet door after, remove the slider and be close to the cabinet door, and then make the third locking subassembly be close to the cabinet door, the side that the cabinet body was kept away from to the third locking subassembly again supports tightly, realizes the locking to reduce the unexpected condition of opening of cabinet door, improve control system's security.

Optionally, the third locking subassembly includes the horizontal plate, supports tight pole and baffle, the horizontal plate wherein one end is connected in the top surface of slider, the horizontal plate is kept away from the one end of slider towards the opening part of the cabinet body, the slide opening has been seted up to the horizontal plate, the slide opening is close to in the one end that the slider was kept away from to the horizontal plate, support the pole and be vertical setting and sliding connection in slide opening, support the pole both ends and all be located outside the slide opening, the baffle is the level setting, the baffle cover is established and is fixed in and supports tight pole, the baffle is located the top of horizontal plate, during the locking support the tight pole is and supports the side setting that the cabinet door kept away from the cabinet body.

Through adopting above-mentioned technical scheme, close the cabinet door after, remove the slider for the horizontal plate removes towards the cabinet door, and makes to support the top that tight pole is located the cabinet door, and the tight pole is supported in the downstream, makes to support tight pole and the side butt that the cabinet body was kept away from to the cabinet door, realizes the locking, thereby further reduces the unexpected condition of opening of cabinet door.

Optionally, a second spring is arranged in the sliding groove, two ends of the second spring are respectively fixed to the side face, away from the cabinet body opening, of the sliding block and the groove wall, away from the cabinet body opening, of the sliding groove, and the second spring is arranged in a contraction trend when the tightening rod tightens against the side face, away from the cabinet body, of the cabinet door.

Through adopting above-mentioned technical scheme, the setting up of second spring makes to support the tight cabinet door of supporting that the tight pole is better to be favorable to better locking cabinet door.

Optionally, one end of the locking rod, which is far away from the cabinet door, is provided with a pull ring for being pulled by a worker.

Through adopting above-mentioned technical scheme, the setting of pull ring is convenient for the quick pulling locking lever of workman.

In summary, the present application includes at least one of the following beneficial technical effects:

after the working part of the first locking component is inserted into the connecting hole, the cabinet door is limited to overturn, locking is achieved, the condition that the cabinet door is accidentally opened is reduced, and therefore the safety of the control system is improved.

When the connecting plate is opposite to the mounting seat, the locking rod is loosened, the first spring applies thrust to the sliding sheet, the locking rod moves towards the connecting plate, one end, close to the connecting plate, of the locking rod extends out of the mounting seat and is inserted into the connecting hole, and then the cabinet door is limited to overturn through the matching of the locking rod and the connecting hole, so that the cabinet door is favorably and quickly locked.

After closing the cabinet door, remove the slider for the horizontal plate moves towards the cabinet door, and makes to support the top that tight pole is located the cabinet door, and the downstream supports tight pole, makes to support tight pole and the side butt that the cabinet body was kept away from to the cabinet door, realizes the locking, thereby further reduces the unexpected condition of opening of cabinet door.

Drawings

Fig. 1 is a sectional view of an elevator adaptive operation control system in the present embodiment.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic diagram of the overall structure of an elevator adaptive operation control system in the embodiment.

Fig. 4 is another angle sectional view of an adaptive operation control system of an elevator in this embodiment.

Fig. 5 is a partially enlarged schematic view of a portion B in fig. 4.

Description of reference numerals: 1. a cabinet body; 2. a control panel; 3. a wall body; 4. an opening; 5. a cabinet door; 6. a first iron piece; 7. a magnet block; 8. a connecting plate; 9. a mounting seat; 10. connecting holes; 11. a locking lever; 12. a first spring; 13. sliding blades; 14. mounting holes; 15. a pull ring; 16. a magnet plate; 17. a second iron piece; 18. a chute; 19. a slider; 20. a horizontal plate; 21. a tightening rod; 22. a baffle plate; 23. a slide hole; 24. a second spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an elevator self-adaptation operation control system. Referring to fig. 1 and 2, an elevator self-adaptation operation control system comprises a cabinet body 1 and a control panel 2 installed in the cabinet body 1, wherein one side surface of the cabinet body 1 is fixed on a wall body 3, an opening 4 is formed in the side surface, far away from the wall body 3, of the cabinet body 1, and a cabinet door 5 used for closing or opening the cabinet body 1 is hinged to the opening 4. The cabinet body 1 is a hollow rectangular square body, and the cabinet body 1 is vertical. The cabinet door 5 is rectangular plate-shaped and is fitted to the opening 4. One of the long sides of the cabinet door 5 is hinged to the long side of the opening 4. The side that the wall body 3 was kept away from to the cabinet body 1 is fixed with first iron sheet 6, and the articulated department of cabinet door 5 is kept away from to first iron sheet 6, and opening 4 is located between cabinet door 5 articulated department and the first iron sheet 6, and cabinet door 5 is close to the side of the cabinet body 1 and inlays and be equipped with magnet piece 7, and the articulated department of cabinet door 5 is kept away from to magnet piece 7, and when cabinet door 5 was the closed condition, magnet piece 7 and first iron sheet 6 butt and magnet piece 7 tightly inhaled first iron sheet 6.

Referring to fig. 2 and 3, a connecting plate 8 which is vertically arranged is fixed on the side of the cabinet door 5 far away from the hinge, and a mounting seat 9 which is horizontally arranged is fixed on the side of the cabinet body 1 far away from the hinge of the cabinet door 5. The mounting seat 9 is provided in a rectangular parallelepiped shape, and when the cabinet door 5 is closed, the end of the mounting seat 9 abuts against the side surface of the connecting plate 8. A first locking component is arranged in the mounting seat 9, and a working part of the first locking component can extend out of the end part of the mounting seat 9 close to the connecting plate 8 or retract into the end part of the mounting seat 9 close to the connecting plate 8. The side of the connecting plate 8 close to the mounting seat 9 is provided with a connecting hole 10 for inserting the working part of the first locking component. When the cabinet door 5 is in a closed state, the working part of the first locking component extends out of the end part of the mounting seat 9 close to the connecting plate 8 and is inserted into the connecting hole 10 to limit the cabinet door 5 from turning over.

Referring to fig. 2, the first locking assembly includes a locking rod 11, a first spring 12 and a sliding piece 13, a mounting hole 14 is opened at one end of the mounting seat 9 close to the connecting plate 8, and the mounting hole 14 penetrates through one end of the mounting seat 9 far from the connecting plate 8. The locking rod 11 is horizontally arranged and is connected to the mounting hole 14 in a sliding mode, two ends of the locking rod 11 are far away from and close to the connecting plate 8 respectively, one end, close to the connecting plate 8, of the locking rod 11 can extend out of the mounting hole 14 or retract into the mounting hole 14, and one end, far away from the connecting plate 8, of the locking rod 11 is located outside the mounting hole 14. The aperture at the middle part of the mounting hole 14 is larger than the apertures at the two ends of the mounting hole 14, the sliding sheet 13 is vertically arranged, the sliding sheet 13 is sleeved and fixed on the locking rod 11, and the sliding sheet 13 is slidably connected with the middle part of the mounting hole 14. The first spring 12 is sleeved on the locking rod 11 and located in the middle of the mounting hole 14, and two ends of the first spring 12 are respectively fixed to the side face of the sliding piece 13 far away from the connecting plate 8 and one end of the middle of the mounting hole 14 far away from the connecting plate 8. When the cabinet door 5 is in a closed state, the sliding piece 13 is located between the connecting plate 8 and the first spring 12. The first spring 12 is disposed in an extending trend, which is beneficial to pushing the sliding sheet 13, so as to drive the locking rod 11 to be inserted into the connecting hole 10.

Referring to fig. 2 and 3, in order to facilitate the worker's pulling of the locking lever 11, a pull ring 15 providing a holding position for the worker is fixed to an end of the locking lever 11 remote from the attachment plate 8.

Referring to fig. 2, in order to strengthen the connection between the locking rod 11 and the connection hole 10, a second locking assembly is arranged at one end of the locking rod 11 penetrating through the connection hole 10, and the second locking assembly is detachably connected with the side of the connection plate 8 far away from the mounting seat 9.

Referring to fig. 2, the second locking assembly comprises two magnet plates 16, the two magnet plates 16 being arranged in an attractive manner. The magnet plate 16 is rectangular plate-shaped, one short side of the magnet plate 16 is hinged to the end portion of the locking rod 11 close to the connecting plate 8, and the two magnet plates 16 can be turned away from each other or turned close to each other. The magnet plate 16 has a short side with a length smaller than the diameter of the locking lever 11 so as to pass through the coupling hole 10 along with the locking lever 11. When one end of the locking rod 11 close to the connecting plate 8 passes through the connecting hole 10, the two magnet plates 16 are also arranged to pass through the connecting hole 10. Two second iron sheets 17 are fixed on the side of the connecting plate 8 far away from the mounting seat 9 and are used for matching with the two magnet plates 16. The two second iron sheets 17 are close to the connecting hole 10, and the connecting hole 10 is located between the two second iron sheets 17. When the connecting plate 8 is unlocked, the two magnet plates 16 are turned and tightly attracted to each other in a close manner, and a worker moves the locking rod 11 to retract the two magnet plates 16 into the mounting seat 9 through the mounting hole 14, so that unlocking is completed.

Referring to fig. 4 and 5, the top surface of the cabinet 1 is provided with a sliding slot 18, and two ends of the sliding slot 18 are respectively close to and far away from the opening 4 of the cabinet 1. A slide block 19 is slidably connected in the slide groove 18, and the top surface of the slide block 19 is flush with the notch of the slide groove 18. The slider 19 top surface is connected with the third locking subassembly, and when cabinet door 5 was in the closed condition, the third locking subassembly supported the side that cabinet door 5 kept away from the cabinet body 1 tightly, locked cabinet door 5 to further inject the upset of cabinet door 5.

Referring to fig. 5, the third locking assembly includes a horizontal plate 20, a tightening rod 21 and a baffle 22, wherein one end of the horizontal plate 20 is fixed on the top surface of the sliding block 19, and one end of the horizontal plate 20 away from the sliding block 19 faces the opening 4 of the cabinet 1. The top surface of the horizontal plate 20 is provided with a slide hole 23, and the slide hole 23 is close to one end of the horizontal plate 20 far away from the slide block 19. Support pole 21 and be vertical setting and sliding connection in slide opening 23, support pole 21 and be and pass the setting of horizontal plate 20, when slider 19 is close to opening 4's side and spout 18 and is close to opening 4's one end butt, support pole 21 and the side butt that the cabinet body 1 was kept away from to cabinet door 5. The baffle 22 is horizontally disposed, the baffle 22 is sleeved on and fixed to the abutting rod 21, and the baffle 22 is located above the horizontal plate 20 and used for blocking the abutting rod 21 from separating from the sliding hole 23. When the abutting rod 21 abuts against the cabinet door 5, the bottom surface of the baffle 22 abuts against the top surface of the horizontal plate 20.

Referring to fig. 5, in order to enhance the force of the abutting rod 21 abutting against the cabinet door 5, a second spring 24 is fixed in the sliding groove 18, the second spring 24 is horizontally disposed, and two ends of the second spring 24 are respectively fixed on the side surface of the sliding block 19 away from the opening 4 and the groove wall of the sliding groove 18 away from the opening 4. When the resisting rod 21 resists against the side surface of the cabinet door 5 far away from the cabinet body 1, the second spring 24 is arranged in a contraction trend.

The implementation principle of the elevator self-adaptive operation control system in the embodiment of the application is as follows: after closing cabinet door 5, magnet piece 7 tightly inhales first iron sheet 6, connecting plate 8 and mount pad 9 butt, loosen pull ring 15 this moment, first spring 12 applys thrust to gleitbretter 13, make locking lever 11 remove towards connecting plate 8, locking lever 11 stretches out mount pad 9 and inserts in connecting hole 10 near the one end of connecting plate 8, two magnet boards 16 pass behind connecting hole 10, open two magnet boards 16, and respectively with two second iron sheets 17 cooperations, then remove slider 19, make horizontal plate 20 remove towards cabinet door 5, and make the tight pole 21 of supporting be located the top of cabinet door 5, vertical downstream supports tight pole 21, make the side butt that the cabinet body 1 was kept away from to tight pole 21 and cabinet door 5, realize the locking, the unexpected condition of opening of cabinet door 5 has been reduced, thereby control system's installation nature has been improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an elevator self-adaptation operation control system, includes the cabinet body (1) and installs control panel (2) in the cabinet body (1), opening (4) have been seted up to one of them side of the cabinet body (1), opening (4) department articulates there is cabinet door (5), its characterized in that: the side of keeping away from articulated department in cabinet door (5) is equipped with connecting plate (8), the side of keeping away from articulated department in cabinet door (5) in the cabinet body (1) is equipped with mount pad (9), mount pad (9) and connecting plate (8) butt when cabinet door (5) are in the closure state, be equipped with first locking subassembly in mount pad (9), be used for the restriction the work portion of the first locking subassembly of cabinet door (5) upset is scalable mount pad (9) or retractile mount pad (9) sets up, the side that connecting plate (8) are close to mount pad (9) is seted up the work portion male connecting hole (10) that supplies first locking subassembly, the work portion of first locking subassembly stretches out mount pad (9) and is and inserts and set up in connecting hole (10) when cabinet door (5) are in the closure state.

2. An elevator adaptive run control system according to claim 1, characterized in that: first locking Assembly includes locking lever (11), first spring (12) and gleitbretter (13), mount pad (9) are the level and set up and seted up mounting hole (14), mounting hole (14) are the both ends setting that runs through mount pad (9), the both ends of mounting hole (14) are close to respectively and keep away from connecting plate (8) when connecting plate (8) and mount pad (9) butt, locking lever (11) are level setting and sliding connection in mounting hole (14), the aperture at mounting hole (14) middle part is greater than the aperture at mounting hole (14) both ends, gleitbretter (13) are vertical setting, gleitbretter (13) cover is established and is fixed in locking lever (11), gleitbretter (13) sliding connection in mounting hole (14) middle part, locking lever (11) are located and are located mounting hole (14) middle part to first spring (12) cover, gleitbretter (13) are located connecting plate (8) and are used for gleitbretter (5) when being in the closed condition (13) And one end of the locking rod (11) close to the connecting plate (8) is arranged in the mounting seat (9) in a manner of extending out or retracting into the mounting seat (9) between the first springs (12) for applying thrust.

3. An elevator adaptive run control system according to claim 2, characterized in that: one end of the locking rod (11) penetrating through the connecting hole (10) is provided with a second locking assembly, and the second locking assembly is detachably connected with the side face, far away from the mounting seat (9), of the connecting plate (8).

4. An elevator adaptive run control system according to claim 3, characterized in that: the second locking assembly comprises two magnet plates (16), the magnet plates (16) are arranged in a rectangular plate shape, one short edge of each magnet plate (16) is hinged to the end portion, close to the connecting plate (8), of the locking rod (11), the length of the short edge of each magnet plate (16) is smaller than the diameter of the locking rod (11), the two magnet plates (16) are arranged in a mode that the connecting holes (10) are penetrated when one end, close to the connecting plate (8), of the locking rod (11) penetrates through the connecting holes (10), two second iron sheets (17) are arranged on the side face, far away from the mounting seat (9), of the connecting plate (8), and the second iron sheets (17) are close to the connecting holes (10) and matched with the magnet plates (16).

5. An elevator adaptive run control system according to claim 1, characterized in that: the cabinet body (1) top surface has been seted up spout (18), the both ends of spout (18) are close to respectively and keep away from opening (4) department of the cabinet body (1), sliding connection has slider (19) in spout (18), slider (19) top surface is connected with the third locking Assembly who is used for further injecing cabinet door (5) upset, third locking Assembly is to the side setting of keeping away from the cabinet body (1) of tight cabinet door (5) when cabinet door (5) is in the closed condition.

6. An elevator adaptive run control system according to claim 5, characterized in that: the third locking component comprises a horizontal plate (20), a tightening rod (21) and a baffle plate (22), one end of the horizontal plate (20) is connected with the top surface of the sliding block (19), one end of the horizontal plate (20) far away from the sliding block (19) faces the opening (4) of the cabinet body (1), the horizontal plate (20) is provided with a sliding hole (23), the sliding hole (23) is close to one end of the horizontal plate (20) far away from the sliding block (19), the abutting rod (21) is vertically arranged and is connected with the sliding hole (23) in a sliding way, the two ends of the abutting rod (21) are positioned outside the sliding hole (23), the baffle (22) is horizontally arranged, baffle (22) cover is established and is fixed in and supports tight pole (21), baffle (22) are located the top of horizontal plate (20), during the locking support tight pole (21) are to support the side setting that cabinet door (5) kept away from cabinet body (1).

7. An elevator adaptive run control system according to claim 6, characterized in that: be equipped with second spring (24) in spout (18), the both ends of second spring (24) are fixed in slider (19) respectively and keep away from the side of the cabinet body (1) opening (4) and spout (18) and keep away from the cell wall of the cabinet body (1) opening (4), second spring (24) are the shrink trend and set up when supporting tight pole (21) and supporting cabinet door (5) and keeping away from the side of the cabinet body (1).

8. An elevator adaptive run control system according to claim 2, characterized in that: one end of the locking rod (11) far away from the cabinet door (5) is provided with a pull ring (15) pulled by a worker.

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