CN218415725U - Cross line lid structure and intelligent cabinet - Google Patents

Abstract

The utility model belongs to the technical field of intelligent cabinet, especially, relate to a cross line lid structure and intelligent cabinet. The wire passing cover structure comprises a cover body, an upper inclined plate and a lower inclined plate, wherein the upper inclined plate and the lower inclined plate are connected with the cover body; the upper inclined plate is provided with a wire passing hole for cables to pass through in a centralized manner, is positioned above the lower inclined plate and is connected with the lower inclined plate at a preset inclined angle; the inclined height of the upper inclined plate is increased upwards from one end connected with the lower inclined plate to one end far away from the lower inclined plate, and the inclined height of the lower inclined plate is decreased downwards from one end connected with the upper inclined plate to one end far away from the upper inclined plate; the cover body, the upper inclined plate and the lower inclined plate enclose an inward-concave inclined groove for draining water. The utility model discloses in, when the rainwater is integrated on last swash plate, because the action of gravity of rainwater self, will follow the swash plate and slide to swash plate down on, follow down the swash plate at last and flow out indent inclined groove, avoided the rainwater to enter into the cabinet internal through crossing the line hole, improved this waterproof performance of crossing the line lid structure.

Description

Cross line lid structure and intelligent cabinet

Technical Field

The utility model belongs to the technical field of intelligent cabinet, especially, relate to a cross line lid structure and intelligent cabinet.

Background

Express delivery is also called express delivery or express delivery, and refers to that a logistics enterprise sends a file or a package entrusted by a user from a sender to a receiver quickly and safely through an independent network of the logistics enterprise or in a joint operation mode.

With the rapid development of the internet, more and more users select online shopping, and the rapid development of the express industry is promoted. For the district in the city, because most of people are on duty in daytime, the express delivery sent by the courier cannot be received in time, at this time, an express cabinet needs to be arranged in the district, the courier places the express in the express cabinet, and people can get the own express from the express cabinet by themselves when going home from work.

The express cabinet is usually formed by splicing a main cabinet and a plurality of auxiliary cabinets, a control device is arranged in the main cabinet, and the control device is electrically connected with each auxiliary cabinet through a cable, so that the main cabinet can control quick closing of each auxiliary cabinet and the like. In the prior art, wiring holes for cables to pass through are formed in the main cabinet and the auxiliary cabinet; due to the fact that a gap exists between the cable and the wiring hole, rainwater can enter the cabinet body through the gap, and therefore accidents such as package wetting and equipment failure in the cabinet are caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses walk the line hole to express delivery cabinet among the prior art and arouse the rainwater easily and get into the internal technical problem of cabinet, provide a cross line lid structure and intelligent cabinet.

In view of the above technical problems, an embodiment of the present invention provides a wire passing cover structure, which includes a cover body, and an upper inclined plate and a lower inclined plate connected to the cover body; the upper inclined plate is provided with a wire passing hole for cables to pass through in a concentrated manner, and the upper inclined plate is positioned above the lower inclined plate and is connected with the lower inclined plate at a preset inclined angle; the inclined height of the upper inclined plate is increased upwards from one end connected with the lower inclined plate to one end far away from the lower inclined plate, and the inclined height of the lower inclined plate is decreased downwards from one end connected with the upper inclined plate to one end far away from the upper inclined plate; the cover body, the upper inclined plate and the lower inclined plate enclose an inward concave inclined groove for draining water;

the opening area of the wire passing hole accounts for 20-80% of the total area of the upper inclined plate.

Optionally, the preset inclination angle is 10 to 170 degrees.

Optionally, the included angle between the upper inclined plate and the horizontal plane is a first included angle, the first included angle is greater than 30 degrees and less than 90 degrees, and the lower inclined plate and the second included angle between the horizontal plane are equal to the difference between the preset inclination angle and the first included angle.

Optionally, the wire passing cover structure further comprises a transition plate, and the upper inclined plate is connected with the lower inclined plate through the transition plate;

the cover body further comprises a first panel and a second panel which are arranged on two opposite sides of the upper inclined plate, and the upper inclined plate, the lower inclined plate and the transition plate are connected between the first panel and the second panel; the concave inclined groove is enclosed among the upper inclined plate, the transition plate, the lower inclined plate, the first panel and the second panel.

Optionally, the upper inclined plate and the lower inclined plate are symmetrically arranged with a horizontal plane as a symmetry plane.

Optionally, the concave depth of the concave inclined groove is 10 mm-50 mm.

Optionally, the wire passing hole is a square hole.

Optionally, the wire passing cover structure further comprises a sealing plate for sealing the wire passing hole, and the sealing plate covers the wire passing hole.

Optionally, the wire passing cover structure further includes a sealing layer disposed between the sealing plate and the upper inclined plate, and the sealing layer is configured to seal a gap between the sealing plate and the upper inclined plate.

The utility model also provides an intelligent cabinet, which comprises a cabinet body and the wire passing cover structure; the cabinet body is provided with a mounting opening, the cover body is mounted on the edge of the mounting opening, and the upper inclined plate and the lower inclined plate penetrate through the mounting opening and extend into the cabinet body.

Optionally, the periphery of the mounting opening is formed with a flange recessed towards the inside of the cabinet body, the cover body comprises a flange connecting the upper inclined plate and the lower inclined plate, and the cover body is mounted on the edge of the mounting opening of the cabinet body through the recessed edge and the flange which are connected with each other.

In the utility model, the wire passing cover structure comprises a cover body and an upper inclined plate and a lower inclined plate which are connected with the cover body; the upper inclined plate is provided with a wire passing hole for cables to pass through in a concentrated manner, and the upper inclined plate is positioned above the lower inclined plate and is connected with the lower inclined plate at a preset inclined angle; the inclined height of the upper inclined plate is increased upwards from one end connected with the lower inclined plate to one end far away from the lower inclined plate, and the inclined height of the lower inclined plate is decreased downwards from one end connected with the upper inclined plate to one end far away from the upper inclined plate; the cover body, the upper inclined plate and the lower inclined plate enclose an inward concave inclined groove for draining water. The line-passing cover structure is installed on the cabinet body through the cover body, when rainwater is integrated on the upper inclined plate, the rainwater slides from the upper inclined plate to the lower inclined plate under the action of gravity of the rainwater, and finally flows out of the inner concave inclined groove from the lower inclined plate, so that the drainage work of the line-passing cover structure is completed, the rainwater is prevented from entering the cabinet body through the line-passing hole, and the waterproof performance of the line-passing cover structure is improved.

In addition, the lower inclined plate and the lower inclined plate are inclined towards the inside of the cabinet body, so that the damage of the external environment to the wire passing cover structure is reduced, and the service life of the wire passing cover structure is prolonged; and the inclined height of the upper inclined plate is upwards raised from one end connected with the lower inclined plate to the end far away from the lower inclined plate, so that the lower inclined plate is hidden in the cabinet body, rainwater is difficult to enter the upper inclined plate, and the rainwater is further prevented from entering the cabinet body through the wire passing hole in the upper inclined plate.

In addition, the opening area of the wire passing hole accounts for 20-80% of the total area of the upper inclined plate. Specifically, pass through the cable is concentrated between two cabinets bodies the line hole is crossed to the direction, need not to set up a plurality of solitary line holes of crossing to the efficiency and the convenience of cable connection between two cabinets bodies have been improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of a wire passing cover structure according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent cabinet according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent cabinet according to another embodiment of the present invention;

fig. 4 is a schematic partial structural diagram of another view angle of the intelligent cabinet according to an embodiment of the present invention;

fig. 5 is a schematic view of a part of the structure of the cabinet body of the intelligent cabinet according to an embodiment of the present invention.

The reference numerals in the specification are as follows:

1. a wire passing cover structure; 11. a cover body; 111. a first panel; 112. a second panel; 12. an upper sloping plate; 121. a wire passing hole; 13. a lower sloping plate; 14. an inwardly concave inclined groove; 15. a transition plate; 16. closing the plate; 17. flanging; 2. a cabinet body; 21. an installation port; 22. and (5) concave edges.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", "middle", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing and simplifying the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 and fig. 2, a wire passing cover structure 1 according to an embodiment of the present invention includes a cover 11, and an upper inclined plate 12 and a lower inclined plate 13 connected to the cover 11; the upper inclined plate 12 is provided with a wire passing hole 121 for concentrated passing of cables, and the upper inclined plate 12 is positioned above the lower inclined plate 13 and is connected with the lower inclined plate 13 at a preset inclined angle; the inclined height of the upper inclined plate 12 is increased upwards from the end connected with the lower inclined plate 13 to the end far away from the lower inclined plate 13, and the inclined height of the lower inclined plate 13 is decreased downwards from the end connected with the upper inclined plate 12 to the end far away from the upper inclined plate 12; the cover 11, the upper inclined plate 12 and the lower inclined plate 13 enclose an inward concave inclined groove 14 for draining water. As can be understood, the wire passing cover structure 1 is mounted on the cabinet 2 through the cover body 11, and the upper inclined plate 12 and the lower inclined plate 13 are both inclined toward the inside of the cabinet 2; the upper end of the upper inclined plate 12 is higher than the lower end, and the lower end of the upper inclined plate 12 extends towards the inside of the cabinet body 2; the upper end of the lower sloping plate 13 is higher than the lower end, and the upper side of the lower sloping plate 13 extends toward the inside of the cabinet 2. Further, the inclined height of the upper inclined plate 12 gradually increases upward from the end connected with the lower inclined plate 13 toward the end away from the lower inclined plate 13, and the inclined height of the lower inclined plate 13 gradually decreases downward from the end connected with the upper inclined plate 12 toward the end away from the upper inclined plate 12.

Preferably, the wire through hole 121 is disposed at a central position of the upper inclined plate, and an opening area of the wire through hole accounts for 20% to 80% (e.g., 30%, 40%, 50%, 60%, 70%, etc.) of a total area of the upper inclined plate. Specifically, the two cabinets 2 are electrically connected and/or communicatively connected through cables which pass through the line passing holes 121 in the direction in a concentrated manner, and a plurality of independent line passing holes are not required, so that the efficiency and convenience of cable connection between the two cabinets 2 are improved.

In the utility model, the wire passing cover structure 1 comprises a cover body 11, and an upper inclined plate 12 and a lower inclined plate 13 which are connected with the cover body 11; the upper inclined plate 12 is provided with a wire passing hole 121 for cables to pass through in a concentrated manner, and the upper inclined plate 12 is positioned above the lower inclined plate 13 and is connected with the lower inclined plate 13 at a preset inclined angle; the inclined height of the upper inclined plate 12 is increased upwards from the end connected with the lower inclined plate 13 to the end far away from the lower inclined plate 13, and the inclined height of the lower inclined plate 13 is decreased downwards from the end connected with the upper inclined plate 12 to the end far away from the upper inclined plate 12; the cover 11, the upper inclined plate 12 and the lower inclined plate 13 enclose an inward concave inclined groove 14 for draining water. This cross line lid structure 1 and install on the cabinet body 2 through lid 11, when the rainwater is integrated when going up on the swash plate 12, because the action of gravity of rainwater self, avoided the rainwater to pass through cross line hole 121 and enter into in the cabinet body 2, improved this waterproof performance of crossing line lid structure 1.

In addition, the upper inclined plate 12 and the lower inclined plate 13 are inclined towards the inside of the cabinet body 2, so that the damage of the external environment to the wire passing cover structure 1 is reduced, and the service life of the wire passing cover structure 1 is prolonged; and the inclined height of the upper inclined plate 12 is upwards raised from the end connected with the lower inclined plate 13 toward the end far away from the lower inclined plate 13, so that the lower inclined plate 13 is hidden in the cabinet body 2, rainwater is difficult to enter the upper inclined plate 12, and further rainwater is prevented from entering the cabinet body 2 through the wire passing hole 121 in the upper inclined plate 12. In addition, the wire passing cover structure 1 is simple in structure, convenient to install and low in manufacturing cost.

In one embodiment, the preset inclination angle (i.e., the included angle between the upper inclined plate 12 and the lower inclined plate 13) is 10 degrees to 170 degrees (e.g., 30 degrees, 60 degrees, 90 degrees, 120 degrees, 150 degrees, etc.). It can be understood that the rainwater entering into the concave inclined groove 14 flows out of the concave inclined groove 14 through the downward inclined plate 13, so that the rainwater is prevented from entering into the inside of the cabinet 2 through the wire passing hole 121. Preferably, an included angle between the upper inclined plate 12 and a horizontal plane is a first included angle, the first included angle is greater than 30 degrees and less than 90 degrees (for example, the first included angle is set to be 45 degrees, 60 degrees, 75 degrees, and the like), and a second included angle between the lower inclined plate 13 and the horizontal plane is equal to a difference between the preset inclination angle and the first included angle; for example, the preset angle is 130 degrees, the angle between the upper inclined plate 12 and the horizontal plane is 60 degrees, and the angle between the lower inclined plate 13 and the horizontal plane is 70 degrees.

In an embodiment, as shown in fig. 1, the wire cover structure 1 further includes a transition plate 15, and the upper inclined plate 12 is connected to the lower inclined plate 13 through the transition plate 15. It can be understood that the upper inclined plate 12 is an upper surface of the wire passing cover structure 1, the lower inclined plate 13 is a lower surface of the wire passing cover structure 1, the transition plate 15 is a front surface of the wire passing cover structure 1, and the transition plate 15 is connected between the upper inclined plate 12 and the lower inclined plate 13.

In one embodiment, as shown in fig. 2 and 3, the cover 11 includes a first panel 111 and a second panel 112 disposed on opposite sides of the upper inclined plate 12, and the upper inclined plate 12, the lower inclined plate 13 and the transition plate 15 are connected between the first panel 111 and the second panel 112; the concave inclined groove 14 is defined by the upper inclined plate 12, the transition plate 15, the lower inclined plate 13, the first panel 111 and the second panel 112. As can be appreciated, the left side of the upper inclined plate 12, the left side of the lower inclined plate 13 and the left side of the transition plate 15 are all connected to the first panel 111, and the right side of the upper inclined plate 12, the left side of the lower inclined plate 13 and the right side of the lower inclined plate 13 are all connected to the second panel 112; the first panel 111 is a left surface of the wire passing cover structure 1, and the second panel 112 is a right surface of the wire passing cover structure 1. Preferably, the upper inclined plate 12, the lower inclined plate 13, the transition plate 15, the first panel 111, and the second panel 112 are integrally formed structural members. In this embodiment, the wire passing cover structure 1 has a simple structure, high aesthetic degree and low manufacturing cost.

In one embodiment, as shown in fig. 1, the upper inclined plate 12 and the lower inclined plate 13 are symmetrically arranged with a horizontal plane as a symmetry plane. As can be appreciated, the upper inclined plate 12 and the lower inclined plate 13 are symmetrically connected to opposite sides of the transition plate 15; in this embodiment, the upper inclined plate 12 and the lower inclined plate 13 are symmetrically arranged, so that the appearance of the wire passing cover structure 1 is improved.

In one embodiment, the concave depth of the concave inclined groove 14 is 10mm to 50mm (e.g., 20mm, 30mm, 40mm, etc.). It can be understood that the concave inclined groove 14 with a concave depth of 10mm to 50mm not only meets the requirement of compactness and small volume of the wire passing cover structure 1, but also facilitates the cable to pass through the wire passing hole 121, and also meets the waterproof performance of the concave inclined groove 14.

In one embodiment, the wire through hole 121 is a substantially square (rectangular) hole, and the square (rectangular) wire through hole 121 facilitates concentrated cable passing.

In an embodiment, as shown in fig. 3, the wire through cover structure 1 further includes a sealing plate 16 for sealing the wire through hole 121, and the sealing plate 16 covers the wire through hole 121. It will be appreciated that the closure plate 16 may be fixedly attached to the upper sloping plate 12 by fasteners such as screws, bolts, B0SS posts, etc. Specifically, when this cross line lid structure 1 uses on the intelligence cabinet, be located the cabinet body 2 in the outside and need not set up the cable, in order to avoid the rainwater to enter into the cabinet body 2 in the outside through crossing the line hole 121 in the time, need utilize shrouding 16 with on the cabinet body 2 in the outside cross line hole 121 and give sealed, thereby further improved the waterproof performance of this intelligence cabinet.

In an embodiment, the wire cover structure 1 further includes a sealing layer (not shown) disposed between the closing plate 16 and the upper inclined plate 12, and the sealing layer is used for sealing a gap between the closing plate 16 and the upper inclined plate 12. It is understood that the sealing layer may be a sealing rubber strip, a rubber strip, waterproof cotton, a waterproof rubber mat, etc. disposed between the sealing plate 16 and the upper sloping plate 12. In this embodiment, the sealing layer is disposed between the sealing plate 16 and the upper inclined plate 12, and the sealing effect of the sealing plate 16 on the wire through hole 121 is further improved by the sealing layer.

As shown in fig. 2 to 4, another embodiment of the present invention further provides an intelligent cabinet, which includes a cabinet body 2 and the above-mentioned wire passing cover structure 1; the improved cabinet is characterized in that a mounting opening 21 is formed in the cabinet body 2, the cover body 11 is mounted on the edge of the mounting opening 21 of the cabinet body 2, and the upper inclined plate 12 and the lower inclined plate 13 penetrate through the mounting opening 21 and extend into the cabinet body 2. It is understood that the intelligent cabinet includes, but is not limited to, an express delivery cabinet, and the intelligent cabinet includes a plurality of the cabinet bodies 2, the plurality of cabinet bodies includes a main cabinet body and at least one auxiliary cabinet body, and the main cabinet body and the cabinet bodies are electrically connected through a cable passing through the shrinkage line hole 121.

The utility model discloses in, through passing between each cabinet body 2 of this intelligent cabinet the cable of crossing line hole 121 of upper inclined plate 12 carries out the electricity and connects, has avoided the rainwater to pass through it enters into to cross line hole 121 the internal 2 of cabinet has improved the waterproof performance of intelligent cabinet has prolonged the life of intelligent cabinet.

In an embodiment, as shown in fig. 3 and 5, a concave edge 22 recessed toward the inside of the cabinet 2 is formed at a periphery of the mounting opening 21, the cover 11 includes a flange 17 connecting the upper inclined plate 12 and the lower inclined plate 13, and the cover 11 is mounted on an edge of the mounting opening 21 of the cabinet 2 through the concave edge 22 and the flange 17 connected to each other. Further, the first panel 111 and the second panel 112 are also provided with the turned-over edge 17, that is, a circle of the turned-over edge 17 is provided on the periphery of the wire cover structure 1, correspondingly, a circle of the concave edge 22 is provided around the mounting opening 21, and the turned-over edge 17 may be fixedly mounted on the concave edge 22 through a screw, a bolt, a B0SS column, and the like. Further, when the wire cover structure 1 is installed on the concave edge 22, the outer side surface of the cabinet body 2 is flush with the turned edge 17. In this embodiment, the wire cover and the cabinet body 2 are easy to assemble and disassemble and are tightly connected.

The above is only the embodiment of the utility model discloses a cross line lid structure and intelligent cabinet and have, not be used for the restriction the utility model discloses, the fan is in the utility model discloses any modification, equivalent replacement and improvement etc. of doing within the spirit and the principle all should be contained within the scope of protection of the utility model.

Claims (10)

1. A wire passing cover structure is characterized by comprising a cover body, an upper inclined plate and a lower inclined plate, wherein the upper inclined plate and the lower inclined plate are connected with the cover body; the upper inclined plate is provided with a wire passing hole for cables to pass through in a concentrated manner, and the upper inclined plate is positioned above the lower inclined plate and is connected with the lower inclined plate at a preset inclined angle; the inclined height of the upper inclined plate is increased upwards from one end connected with the lower inclined plate to one end far away from the lower inclined plate, and the inclined height of the lower inclined plate is decreased downwards from one end connected with the upper inclined plate to one end far away from the upper inclined plate; the cover body, the upper inclined plate and the lower inclined plate enclose an inward-concave inclined groove for draining water;

the opening area of the wire passing hole accounts for 20-80% of the total area of the upper inclined plate.

2. The cable cover structure according to claim 1, wherein the predetermined inclination angle is 10 to 170 degrees.

3. The wire passing cover structure according to claim 1, wherein an included angle between the upper inclined plate and a horizontal plane is a first included angle, and the first included angle is greater than 30 degrees and less than 90 degrees; and a second included angle between the lower inclined plate and the horizontal plane is equal to the difference between the preset inclined angle and the first included angle.

4. The wire passing cover structure according to claim 1, further comprising a transition plate, wherein the upper inclined plate is connected with the lower inclined plate through the transition plate;

the cover body further comprises a first panel and a second panel which are arranged on two opposite sides of the upper inclined plate, and the upper inclined plate, the lower inclined plate and the transition plate are connected between the first panel and the second panel; the concave inclined groove is formed by surrounding the upper inclined plate, the transition plate, the lower inclined plate, the first panel and the second panel.

5. The cable cover structure according to claim 1, wherein the upper inclined plate and the lower inclined plate are symmetrically arranged with a horizontal plane as a symmetry plane.

6. The wire passing cover structure according to claim 1, wherein the concave depth of the concave inclined groove is 10mm to 50mm; and/or

The wire passing hole is a square hole.

7. The wire passing cover structure according to claim 1, further comprising a sealing plate for sealing the wire passing hole, wherein the sealing plate covers the wire passing hole.

8. The wire passing cover structure according to claim 7, further comprising a sealing layer disposed between the sealing plate and the upper sloping plate, wherein the sealing layer is used for sealing a gap between the sealing plate and the upper sloping plate.

9. An intelligent cabinet, characterized by comprising a cabinet body and the wire passing cover structure according to any one of claims 1 to 8; the cabinet body is provided with a mounting opening, the cover body is mounted on the edge of the mounting opening, and the upper inclined plate and the lower inclined plate penetrate through the mounting opening and extend into the cabinet body.

10. The intelligent cabinet according to claim 9, wherein a concave edge recessed toward the interior of the cabinet body is formed on the periphery of the mounting opening, the cover body comprises a turned edge connecting the upper inclined plate and the lower inclined plate, and the concave edge is connected with the turned edge.

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