阅读说明：本技术 一种智能绝缘毯放置柜 (Cabinet is placed to insulating blanket of intelligence ) 是由 郝晨光 赵健 赵玉琰 陈忠军 侯华滨 杜志强 方武 曹振华 杜克强 张俊岐 杜绍 于 2020-06-30 设计创作，主要内容包括：本发明公开了一种智能绝缘毯放置柜,包括放置柜本体,所述放置柜本体内从上至下均匀设有多个抽斗,所述抽斗内设有抽板,所述抽板内放置绝缘毯,所述抽斗的两端分别固定在升降机构上,所述升降机构运行时使抽斗在放置柜本体内做垂直上下运动,所述抽板在抽斗内做水平抽拉运动,所述抽斗的外侧设有红外对射发射器与红外对射接收器,所述红外对射发射器固定在抽斗的上框架上,所述红外对射接收器固定在抽斗的下框架上,所述抽板上设有红外对射检测孔；该智能绝缘毯放置柜能够远程监测绝缘毯是否放置到位,放置箱内部抽斗高度自动可调,且内部便于通风,保持绝缘毯干燥,整体结构稳定,使用方便,适合推广使用。(The invention discloses an intelligent insulating blanket placement cabinet, which comprises a placement cabinet body, wherein a plurality of drawers are uniformly arranged in the placement cabinet body from top to bottom, a drawer plate is arranged in each drawer, an insulating blanket is placed in each drawer plate, two ends of each drawer are respectively fixed on a lifting mechanism, the drawers are vertically moved up and down in the placement cabinet body when the lifting mechanisms operate, the drawer plates are horizontally drawn and pulled in the drawers, infrared correlation transmitters and infrared correlation receivers are arranged on the outer sides of the drawers, the infrared correlation transmitters are fixed on an upper frame of each drawer, the infrared correlation receivers are fixed on a lower frame of each drawer, and infrared correlation detection holes are formed in the drawer plates; this cabinet is placed to insulating blanket of intelligence can whether place the target in place by remote monitoring insulating blanket, places incasement portion drawer height automatic adjustment, and the inside ventilation of being convenient for, keeps insulating blanket dry, overall structure is stable, and convenient to use is fit for using widely.)

1. The utility model provides a cabinet is placed to insulating blanket of intelligence, is including placing cabinet body (1), its characterized in that: the cabinet is characterized in that a plurality of drawers (2) are uniformly arranged in the cabinet body (1) from top to bottom, a drawer plate (22) is arranged in each drawer (2), an insulating blanket (23) is arranged in each drawer plate (22), two ends of each drawer (2) are respectively fixed on the lifting mechanism (3), the lifting mechanisms (3) enable the drawers (2) to vertically move up and down in the cabinet body (1) during operation, the drawer plates (22) and the drawers (2) are matched with each other through sliding blocks (25) and sliding rails (210) to enable the drawer plates (22) to horizontally pull and draw in the drawers (2), infrared correlation emitters (27) and infrared correlation receivers (28) are arranged on the outer sides of the drawers (2), the infrared correlation emitters (27) are fixed on upper frames of the drawers (2), and the infrared correlation receivers (28) are fixed on lower frames of the drawers (2), the drawing board (22) is provided with an infrared correlation detection hole (29), infrared rays emitted by the infrared correlation emitter (27) irradiate the infrared correlation receiver (28) through the infrared correlation detection hole (29) on the drawing board (22), when the insulation blanket (23) is in the drawing board (22), the insulation blanket (23) shields the infrared correlation detection hole (29) and blocks the infrared rays, at the moment, the signal is disconnected, the insulation blanket (23) is sensed to be in the drawing board (22), when the insulation blanket (23) is not in the drawing board (22), the infrared rays irradiated by the infrared correlation emitter (27) irradiate the infrared correlation receiver (28) through the infrared correlation detection hole (29) on the drawing board (22), and at the moment, the signal is connected, the insulation blanket (23) is sensed not to be in the drawing board (22).

2. The intelligent insulation blanket cabinet as recited in claim 1, wherein: the lifting mechanism (3) comprises a motor (31), a chain (32), a driving gear (33), driven gears (34), a lead screw (35), a bearing (36) and a hinge (37), the motor (31) is arranged at the top of the cabinet body (1), a motor shaft of the motor (31) extends downwards and is in transmission connection with the driving gear (33), the driven gears (34) are arranged at the tops of the cabinet body (1) on the two sides of the driving gear (33), the driving gear (33) and the two driven gears (34) are in transmission connection through the chain (32), the lead screw (35) extending downwards is arranged in the driven gears (34), the lead screw (35) penetrates through the side wall of the drawer (2) and is in rotatable connection with the bearing (36) at the bottom, the hinge (37) is arranged on the two sides of the inner cavity of the cabinet body (1), and the two ends of the drawer (2) are fixed on the node of the hinge (37), the motor (31) rotates, the screw rod (35) rotates in the drawer (2) through transmission of the driving gear (33), the driven gear (34) and the chain (32), and the drawer (2) moves up and down through the hinge (37) when the screw rod (35) rotates.

3. An intelligent insulation blanket cabinet according to claim 2, wherein: the motor (31) runs to drive the lifting mechanism (3) to run, and the plurality of drawers (2) are uniformly supported through the hinges (37) and are equally spaced.

4. An intelligent insulation blanket cabinet according to claim 2, wherein: the top of the hinge (37) is fixed on the inner wall of the cabinet body (1), and the bottom of the hinge (37) is suspended in the cabinet body (1).

5. The intelligent insulation blanket cabinet as recited in claim 1, wherein: the drawing plate (22) is provided with a drawing plate vent hole (26) which leads the insulation blanket (23) to be convected with air.

6. An intelligent insulation blanket cabinet according to any one of claims 1-2, wherein: the top of placing cabinet body (1) is equipped with LED ornament lamp (4), the bottom of placing cabinet body (1) is equipped with places cabinet ventilation hole (5), LED ornament lamp (4) all communicate with the power with motor (31).

7. The intelligent insulation blanket cabinet as recited in claim 1, wherein: the outer side of the drawing plate (22) is also provided with a drawing handle (21) and a positioning indicator lamp (24).

Technical Field

The invention relates to the technical field of placement cabinets, in particular to an intelligent insulation blanket placement cabinet.

Background

Insulation blankets are an important tool necessary for distribution live working. Because the line is apart from being little, live working personnel home range is narrow, in order to ensure operating personnel's personal safety, except that operating personnel equip whole body insulating helmet, insulating clothing (shawl), insulating shoes and insulating gloves, still will wrap up electrified body and the insulating blanket for the earthing body, prevent that operating personnel's health from touchhing electrified body and earthing body etc. and ensure personal safety. Because the insulating blankets are frequently used, the insulating blankets are only stacked and placed in a conventional state and are not easy to store and use; the traditional insulation blanket placing cabinet only collects insulation blankets in a centralized manner, the collected insulation blankets cannot be placed regularly, whether the insulation blankets are placed in place or not cannot be detected during storage, the insulation blankets are not easy to take when being used again, and the emergency repair time is delayed in an emergency; when the insulating blanket is wet, the normal performance of the insulating blanket can be influenced by reuse of the insulating blanket, potential safety hazards exist, and the insulating blanket is inconvenient to use.

Disclosure of Invention

The invention aims to solve the problems and provide the intelligent insulating blanket placement cabinet which can remotely monitor whether an insulating blanket is placed in place, the height of a drawer in a placement box is automatically adjustable, the interior of the placement box is convenient to ventilate, the insulating blanket is kept dry, and the overall structure is stable.

In order to achieve the purpose, the technical scheme of the invention is as follows: an intelligent insulation blanket placement cabinet comprises a placement cabinet body, wherein a plurality of drawers are uniformly arranged in the placement cabinet body from top to bottom, a drawer plate is arranged in each drawer, an insulation blanket is placed in each drawer plate, two ends of each drawer are respectively fixed on a lifting mechanism, each drawer is vertically moved up and down in the placement cabinet body when the lifting mechanisms operate, the drawer plates are horizontally drawn and pulled in the drawers by the mutual matching of sliders and sliding rails between the drawer plates and the drawers, an infrared correlation transmitter and an infrared correlation receiver are arranged on the outer sides of the drawers, the infrared correlation transmitter is fixed on an upper frame of each drawer, the infrared correlation receiver is fixed on a lower frame of each drawer, infrared correlation detection holes are formed in the drawer plates, infrared rays emitted by the infrared correlation transmitter irradiate onto the infrared correlation receiver through the infrared correlation detection holes in the drawer plates, when the insulating blanket is in the drawing plate, the insulating blanket blocks the infrared correlation detection hole and blocks infrared rays, the insulating blanket is sensed to be in the drawing plate after signal disconnection, when the insulating blanket is not in the drawing plate, the infrared rays irradiated by the infrared correlation emitter are irradiated on the infrared correlation receiver through the infrared correlation detection hole in the drawing plate, and at the moment, the insulating blanket is not sensed to be in the drawing plate after signal communication.

Preferably, elevating system includes motor, chain, driving gear, driven gear, lead screw, bearing and hinge, the motor is established at the top of placing the cabinet body, but the motor shaft downwardly extending of motor is connected with the driving gear transmission, but the both sides of driving gear are equipped with driven gear at the top of placing the cabinet body, but the driving gear passes through the chain transmission with two driven gear and is connected, but be equipped with downwardly extending's lead screw in the driven gear, the lead screw passes the lateral wall of drawer and is connected with the bearing rotation of bottom, it is equipped with the hinge to place cabinet body inner chamber both sides, the both ends of drawer are fixed on the node of hinge, the motor rotates and makes the lead screw at the drawer internal rotation through driving gear, driven gear and chain transmission, the lead screw makes the drawer through the chain up-and-down motion when rotating.

Preferably, the motor operates to drive the lifting mechanism to operate, and the plurality of drawers are uniformly supported by the hinges at the same time and are equally spaced.

Preferably, the top of the hinge is fixed on the inner wall of the cabinet body, and the bottom of the hinge is suspended in the cabinet body.

Preferably, the drawing plate is provided with a drawing plate vent hole for convection of the insulating blanket and air.

Preferably, the top of placing the cabinet body is equipped with the LED ornament lamp, the bottom of placing the cabinet body is equipped with places the cabinet ventilation hole, the LED ornament lamp all communicates with the power with the motor.

Preferably, the outer side of the drawing plate is also provided with a drawing handle and a positioning indicator lamp.

Compared with the prior art, the intelligent insulating blanket placement cabinet has the beneficial effects that: when the insulating blanket is in the drawing plate, the insulating blanket shields the infrared correlation detection hole and blocks infrared rays, and at the moment, the signal disconnection induces that the insulating blanket is in the drawing plate; when the insulation blanket is not in the drawing plate, infrared rays emitted by the infrared correlation emitter irradiate on the infrared correlation receiver through the infrared correlation detection hole on the drawing plate, and at the moment, signal communication induces that the insulation blanket is not in the drawing plate; whether the insulation board is placed in place can be remotely detected in real time.

The motor shaft drives the driving gear to rotate, the driving gear rotates to drive the driven gears on two sides to rotate through the chain, the driven gears rotate to drive the lead screws extending downwards to rotate, the lead screws are connected with the side walls of all the drawers through threads, two side faces of the drawers are also fixed on the nodes of the hinges, and when the lead screws rotate, the drawers are enabled to vertically move up and down in the cabinet body through the hinges, the height between the upper and lower adjacent drawers is convenient to adjust, and a user can conveniently store or take the insulating blankets in the drawer panel.

When the lifting mechanism rises to the highest point, a large enough vertical space is reserved between every two layers of the drawer, and the cabinet vent holes and the drawer plate vent holes are arranged to facilitate convection of the insulating blanket and air, so that the insulating blanket can be ventilated to be air-dried, and the drying of the insulating blanket is kept.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent insulation blanket storage cabinet according to the present invention.

Fig. 2 is a schematic structural diagram of an intelligent insulation blanket storage cabinet according to the present invention.

Fig. 3 is a third schematic structural diagram of the intelligent insulation blanket storage cabinet according to the present invention.

Fig. 4 is a schematic structural diagram of an intelligent insulation blanket storage cabinet according to the present invention.

Fig. 5 is a top view of an intelligent insulation blanket cabinet of the present invention.

Fig. 6 is a schematic structural view of the drawer and the drawer plate of the present invention.

Fig. 7 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 8 is an enlarged view of the structure at B in fig. 3 according to the present invention.

Fig. 9 is a schematic view of the structure of fig. 3 at C according to the present invention.

In the figure: 1. a cabinet body is placed; 2. a drawer is drawn; 21. a pull handle; 22. drawing the plate; 23. an insulating blanket; 24. a positioning indicator light; 25. a slider; 26. a pumping plate vent hole; 27. an infrared correlation emitter; 28. an infrared correlation receiver; 29. an outer correlation detection hole; 210. a slide rail 3 and a lifting mechanism; 31. a motor; 32. a chain; 33. a driving gear; 34. a driven gear; 35. a screw rod; 36. a bearing; 37. a hinge; 4. an LED decorative lamp; 5. placing the cabinet vents.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1-9, an intelligent insulation blanket placement cabinet includes a placement cabinet body 1, a plurality of drawers 2 are uniformly arranged in the placement cabinet body 1 from top to bottom, a drawer plate 22 is arranged in each drawer 2, an insulation blanket 23 is arranged in each drawer plate 22, two ends of each drawer 2 are respectively fixed on a lifting mechanism 3, when the lifting mechanism 3 operates, each drawer 2 vertically moves in the placement cabinet body 1, the drawer plate 22 and each drawer 2 are matched with each other through a slider 25 and a slide rail 210 to horizontally draw and pull the drawer plate 22 in each drawer 2, an infrared correlation emitter 27 and an infrared correlation receiver 28 are arranged outside each drawer 2, the infrared correlation emitter 27 is fixed on an upper frame of each drawer 2, the infrared correlation receiver 28 is fixed on a lower frame of each drawer 2, the drawer plate 22 is provided with an infrared correlation detection hole 29, the infrared ray emitted by the infrared correlation emitter 27 irradiates the infrared correlation receiver 28 through the infrared correlation detection hole 29 on the drawing plate 22, when the insulation blanket 23 is in the drawing plate 22, the insulation blanket 23 blocks the infrared correlation detection hole 29 and blocks the infrared ray, at this time, signal disconnection will induce that the insulation blanket 23 is in the drawing plate 22, when the insulation blanket 23 is not in the drawing plate 22, the infrared ray irradiated by the infrared correlation emitter 27 irradiates the infrared correlation receiver 28 through the infrared correlation detection hole 29 on the drawing plate 22, at this time, signal connection will induce that the insulation blanket 23 is not in the drawing plate 22; the infrared correlation transmitter 27 and the infrared correlation receiver 28 are controlled and monitored by an external central control computer, and signals received or not received by the infrared correlation receiver 28 are transmitted to the central control computer through a signal line, so that whether the insulation blanket 23 is placed in the drawing plate 22 or not is remotely observed through the central control computer.

The lifting mechanism 3 comprises a motor 31, a chain 32, a driving gear 33, a driven gear 34, a lead screw 35, a bearing 36 and a hinge 37, the motor 31 is arranged at the top of the cabinet body 1, a motor shaft of the motor 31 extends downwards to be in transmission connection with the driving gear 33, the driven gears 34 are arranged at the top of the cabinet body 1 at two sides of the driving gear 33, the driving gear 33 is in transmission connection with the two driven gears 34 through the chain 32, the lead screw 35 extending downwards is arranged in the driven gear 34, the lead screw 35 penetrates through the side wall of the drawer 2 to be in rotatable connection with the bearing 36 at the bottom, the hinges 37 are arranged at two sides of the inner cavity of the cabinet body 1, two ends of the drawer 2 are fixed on the nodes of the hinges 37, the motor 31 rotates to enable the lead screw 35 to rotate in the drawer 2 through the transmission of the driving gear 33, the driven gear 34 and the chain 32, and the lead screw 35 enables the drawer 2, the motor 31 operates to drive the lifting mechanism 3 to operate, and the plurality of drawers 2 are uniformly supported at the same time through the hinges 37 and are equally spaced; the motor 31 is a stepping motor with the model number of 86HS85-BZ, the stepping motor is connected with the controller through a signal wire, when the controller receives a pulse signal, the motor 31 rotates by an angle, so that an operator can adjust the height between the drawers 2 in time, and the storage and the picking of the insulating blankets 23 in the drawer plate 22 are facilitated.

The top of hinge 37 is fixed at the inner wall of placing cabinet body 1, the bottom of hinge 37 is unsettled in placing cabinet body 1, be equipped with the board ventilation hole 26 of taking out that makes insulating blanket 23 and air convection current on the board of taking out 22, when elevating system 3 rose to the peak, there was enough big vertical space between every layer of drawer 2 to insulating blanket 23 can ventilate and air-dry, keeps insulating blanket 23's drying, the top of placing cabinet body 1 is equipped with LED ornament lamp 4, the bottom of placing cabinet body 1 is equipped with places cabinet ventilation hole 5, LED ornament lamp 4 all communicates with the power with motor 31, the outside of taking out board 22 still is equipped with pull handle 21 and location pilot lamp 24, and pull handle 21 is convenient for take out the pull of board 22 and location pilot lamp 24 is used for distinguishing each layer of drawer 2.

The use method of the lifting mechanism 3 in the intelligent insulating blanket placement cabinet comprises the following steps: starting the motor 31 and setting a pulse signal of the motor 31, wherein a rotating shaft of the motor 31 drives the driving gear 33 to rotate, the driving gear 33 rotates to drive the driven gears 34 at two sides to rotate through the chain 32, the driven gears 34 rotate to drive the lead screws 35 extending downwards to rotate, and as the lead screws 35 are connected with the side walls of the drawers 2 through threads, two side surfaces of the drawers 2 are also fixed on nodes of the hinges 37, and when the lead screws 35 rotate, the drawers 2 vertically move up and down in the cabinet body 1 through the hinges 37, so that the height between the adjacent drawers 2 up and down can be conveniently adjusted;

the working principle of the infrared correlation emitter 27 and the infrared correlation receiver 28 in the intelligent insulation blanket placement cabinet is as follows: when the insulation blanket 23 is in the drawing plate 22, the insulation blanket 23 blocks the infrared correlation detection hole 29 and blocks infrared rays, at this time, signal disconnection will sense that the insulation blanket 23 is in the drawing plate 22, when the insulation blanket 23 is not in the drawing plate 22, infrared rays irradiated by the infrared correlation transmitter 27 irradiate on the infrared correlation receiver 28 through the infrared correlation detection hole 29 on the drawing plate 22, at this time, signal connection will sense that the insulation blanket 23 is not in the drawing plate 22; the presence or absence of the insulation blanket 23 in the draw sheet 22 may be displayed on a central control computer to facilitate remote monitoring of whether the insulation blanket 23 is placed in the draw sheet 22.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.