CN114670754A - Storage box and vehicle - Google Patents

Abstract

The embodiment of the application provides a storing box and vehicle. The storage box comprises a shell, a plurality of storage lattices and a plurality of elastic pieces; a plurality of matter storage lattices and a plurality of elastic pieces are all located the casing, and every matter storage lattice is connected to the bottom of the casing through at least one elastic piece and is used for placing articles. In this application embodiment, pass through the elastic component with every matter storage lattice and be connected with the bottom of casing to make after placing article on the matter storage lattice, can make the elastic component that the matter storage lattice compression of placing article corresponds, thereby make article can be spacing by the matter storage lattice of not placing article, thereby make article position on the matter storage lattice can be fixed, avoid article to remove on the matter storage lattice, thereby the user of being convenient for takes out article.

Description

Storage box and vehicle

Technical Field

The application relates to the technical field of vehicles, in particular to a storage box and a vehicle.

Background

Vehicles have become common transportation tools in daily life, so that people can go out conveniently. Storage boxes are generally arranged in vehicles, wherein the storage boxes can be arranged between a main driver and a secondary driver, the storage boxes can also be arranged between seats on the rear row of the vehicle, and a user can place articles in the storage boxes.

In the related art, the storage box includes a housing, and a storage surface is provided in the housing, so that a user can place an article on the storage surface. However, since the articles may move on the storage surface during the driving of the vehicle, the positions of the articles in the storage box are not fixed, so that the user may sometimes have difficulty in directly taking out the articles from the storage box.

Content of application

The embodiment of the application provides a storage box and a vehicle, and can solve the problem that in the related art, articles can move on a storage surface, so that the positions of the articles in the storage box are not fixed, and a user can not take out the articles from the storage box directly.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides a storage box, which includes a housing, a plurality of storage compartments, and a plurality of elastic members;

the storage lattices and the elastic pieces are all located in the shell, each storage lattice is connected to the bottom of the shell through at least one elastic piece, and the storage lattices are used for placing articles.

Optionally, the storage box further comprises a driving member, a support plate, a controller and a plurality of pressure sensors;

The pressure sensors and the driving piece are electrically connected with the controller, the driving piece is connected with the supporting plate, the driving piece is used for driving the supporting plate to move along the depth direction of the storage box, the supporting plate is used for driving the storage lattices in which articles are placed to move, and the depth direction of the storage box is the direction from the box opening of the storage box to the bottom of the storage box;

a plurality of through holes are formed in the supporting plate, and at least one elastic piece penetrates through each through hole;

each storage lattice is provided with at least one pressure sensor, and the pressure sensors are used for detecting pressure information on the storage lattices and sending the pressure information to the controller;

the controller is used for controlling the driving piece to drive the supporting plate to move along the depth direction of the storage box when the pressure information is received, so that the supporting plate drives the storage lattices on which the articles are placed to move.

Optionally, the storage box further comprises a plurality of electromagnetic members, the support plate is a ferromagnetic support plate, and the ferromagnetic support plate is a support plate capable of being attracted by the magnetic members;

The plurality of electromagnetic pieces correspond to the storage lattices one by one, the plurality of electromagnetic pieces correspond to the plurality of through holes one by one, the first end of each electromagnetic piece is connected with at least one elastic piece, the second end of each electromagnetic piece is connected with the corresponding storage lattice, and each electromagnetic piece is electrically connected with the controller;

the controller is used for controlling the electromagnetic piece connected with the storage grid in which the articles are placed to be electrified when the controller receives the pressure information, so that the electromagnetic piece and the supporting plate are adsorbed.

Optionally, the controller is further configured to control the driving member to stop when the supporting plate moves to the preset position of the storage box, so that the supporting plate stops moving.

Optionally, the controller is further configured to control the driving member to drive the supporting plate to move in a direction opposite to the depth direction of the storage box when the pressure information is not received, so that the supporting plate returns to the initial position.

Optionally, the driving member is connected to a screw, the screw is provided with a slider, the slider is connected to the support plate, and the slider is used for driving the support plate to move.

Optionally, each storage compartment includes a connection surface and a support surface, the connection surface is connected to the elastic member, and a plurality of support surfaces form a storage surface;

be provided with infrared detector on the casing, infrared detector with the controller electricity is connected, infrared detector is used for the transmission infrared ray, the infrared ray with not placing during article the storage face is parallel, just the infrared ray with not placing during article distance between the storage face is for predetermineeing the distance, infrared detector is used for the transmission infrared ray, in order to pass through infrared ray detects generate article during article and exist the signal, and will article existence signal send to the controller, the controller still is used for the basis article existence signal control the running state of driving piece.

Optionally, the controller is further configured to control the driving element to stop when the article existence signal is received and the support plate moves to the preset position of the housing, so that the driving element stops driving the support plate to move in the depth direction of the storage box.

Optionally, the controller is further configured to control the driving element to stop when the article presence signal is not received, so that the driving element stops driving the supporting plate to move along the depth direction of the storage box.

In a second aspect, the present application provides a vehicle including a storage box as described in any one of the above first aspects.

In this application embodiment, because every matter storing lattice is connected in the bottom of casing through at least one elastic component, and the matter storing lattice is used for placing object article, therefore, after placing object article on the matter storing lattice, the matter storing lattice can receive pressure, the matter storing lattice can transmit this pressure to the elastic component, make the matter storing lattice can compress the elastic component, and then make the matter storing lattice of placing object article can be relatively not to place object article's matter storing lattice height decline, thereby make article can be blockked by the matter storing lattice of not placing object article, avoid article to move on the matter storing lattice, thereby make the rigidity of article on the matter storing lattice, thereby be convenient for the user to take out article. That is, in this application embodiment, pass through the elastic component with every matter storage lattice and be connected with the bottom of casing to make after placing article on the matter storage lattice, can make the matter storage lattice compression of placing article correspond elastic component, thereby make article can be spacing by the matter storage lattice of not placing article, thereby make article position on the matter storage lattice can be fixed, avoid article to move on the matter storage lattice, thereby be convenient for the user to take out article.

Drawings

Fig. 1 is a schematic view of a storage box provided in an embodiment of the present application;

fig. 2 shows a top view of a storage box provided in an embodiment of the present application;

FIG. 3 is a schematic view of a support plate coupled to an electromagnet according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of an electromagnetic element coupled to an elastic element according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of an embodiment of the present disclosure illustrating an article being placed in a storage box;

fig. 6 shows a second schematic view of placing articles in the storage box according to the embodiment of the present application.

Reference numerals:

10: a housing; 20: a storage grid; 30: an elastic member; 40: a drive member; 50: a support plate; 60: a pressure sensor; 70: an electromagnetic member; 80: an infrared detector; 41: a lead screw; 42: a slider; 51: a through hole; 100: an article.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1, a schematic diagram of a storage box provided in an embodiment of the present application is shown, referring to fig. 2, a top view of the storage box provided in the embodiment of the present application is shown, referring to fig. 3, a schematic diagram of a support plate provided in the embodiment of the present application connected to an electromagnetic element is shown, referring to fig. 4, a schematic diagram of an electromagnetic element provided in the embodiment of the present application connected to an elastic element is shown, referring to fig. 5, a schematic diagram of an article placed in the storage box provided in the embodiment of the present application is shown, and referring to fig. 6, a second schematic diagram of an article placed in the storage box provided in the embodiment of the present application is shown. As shown in fig. 1 to 6, the storage box includes: the storage compartment comprises a shell 10, a plurality of storage compartments 20 and a plurality of elastic members 30.

A plurality of storage compartments 20 and a plurality of elastic members 30 are positioned in the housing 10, each storage compartment 20 is connected to the bottom of the housing 10 through at least one elastic member 30, and the storage compartments 20 are used for placing the articles 100.

In the embodiment of the present application, since each storage compartment 20 is connected to the bottom of the housing 10 through at least one elastic member 30, and the storage compartment 20 is used for placing an article 100, after the article 100 is placed on the storage compartment 20, the storage compartment 20 may be subjected to pressure, and the storage compartment 20 may transmit the pressure to the elastic member 30, so that the storage compartment 20 may compress the elastic member 30, and further the storage compartment 20 on which the article 100 is placed may be lowered in height relative to the storage compartment 20 on which the article 100 is not placed, so that the article 100 may be blocked by the storage compartment 20 on which the article 100 is not placed, and the article 100 is prevented from moving on the storage compartment 20, so that the position of the article 100 on the storage compartment 20 is fixed, and thus the user may take out the article 100 conveniently. That is, in the embodiment of the present application, each storage compartment 20 is connected to the bottom of the housing 10 through the elastic member 30, so that after the article 100 is placed on the storage compartment 20, the storage compartment 20 on which the article 100 is placed can compress the corresponding elastic member 30, so that the article 100 can be limited by the storage compartment 20 on which the article 100 is not placed, and thus, the position of the article 100 on the storage compartment 20 can be fixed, the article 100 is prevented from moving on the storage compartment 20, and the user can take out the article 100 conveniently.

In addition, in the embodiment of the present application, the manner in which each storage compartment 20 is connected to the bottom of the housing 10 by at least one elastic member 30 may be: one end of an elastic member 30 is attached to the bottom of the housing 10, and the other end of the elastic member 30 is attached to a storage compartment 20.

In addition, in the embodiment of the present application, in order to save the number of the elastic members 30 and reduce the cost of the storage box, each storage compartment 20 may be connected to the bottom of the housing 10 by one elastic member 30, that is, the number of the elastic members 30 is the same as the number of the storage compartments 20, and of course, the number of the elastic members 30 may also be greater than the number of the storage compartments 20, which is not limited herein.

It should be noted that, when the article 100 is not placed on the storage compartment 20, the at least one elastic member 30 corresponding to the storage compartment 20 is in a natural state, i.e., the elastic member 30 is neither in a compressed state nor in a stretched state. When the article 100 is placed on the storage compartment 20, the elastic member 30 corresponding to the storage compartment 20 is in a compressed state.

In addition, in some embodiments, as shown in fig. 1, 4, 5 and 6, the storage box may further include a driving member 40, a support plate 50, a controller, and a plurality of pressure sensors 60. A plurality of pressure sensor 60 and driving piece 40 all are connected with the controller electricity, and driving piece 40 is connected with backup pad 50, and driving piece 40 is used for driving backup pad 50 to remove along the depth direction of storing box, and backup pad 50 is used for driving the matter storage lattice 20 of placing article 100 and removes, and the depth direction of storing box is the direction of the box mouth of storing box to the bottom of storing box. The supporting plate 50 is provided with a plurality of through holes 51, and each through hole 51 is penetrated with at least one elastic element 30. At least one pressure sensor 60 is disposed in each storage compartment 20, and the pressure sensor 60 is configured to detect pressure information on the storage compartment 20 and send the pressure information to the controller. The controller is used for controlling the driving member 40 to drive the supporting plate 50 to move along the depth direction of the storage box when receiving the pressure information, so that the supporting plate 50 drives the storage compartment 20 with the article 100 placed thereon to move.

Since at least one pressure sensor 60 is disposed in each storage compartment 20, when the article 100 is placed on the storage compartment 20, the article 100 may generate pressure on the storage compartment 20, so that the pressure sensor 60 in the storage compartment 20 may detect pressure information. Since the plurality of pressure sensors 60 are electrically connected to the controller, the pressure sensor 60 that detects the pressure information can transmit the pressure information to the controller. Since the driving member 40 is connected to the supporting plate 50 and the driving member 40 is electrically connected to the controller, the controller can control the driving member 40 such that the driving member 40 drives the supporting plate 50 to move. Since the pressure sensor 60 transmits pressure information to the controller, the controller may control the driving member 40 to drive the supporting plate 50 to move in the depth direction of the storage box upon receiving the pressure information. Because the supporting plate 50 is used for driving the storage compartment 20 with the object 100 placed thereon to move, in the driving process of the supporting plate 50 driven by the driving member 40, the supporting plate 50 can drive the storage compartment 20 with the object 100 placed thereon to move, so that the storage compartment 20 with the object 100 placed thereon can move along the depth direction of the storage box. Since at least one elastic member 30 is inserted into each through hole 51, the storage compartments 20 compress the corresponding elastic member 30 during the movement of the storage compartments 20 in the depth direction of the storage box, but the support plate 50 does not interfere with the compressed elastic member 30.

That is, by providing a plurality of pressure sensors 60, a driving member 40 and a controller, and providing at least one pressure sensor in each storage cell 20, the plurality of pressure sensors 60 and the driving member 40 are electrically connected to the controller, when an object 100 is placed on the storage cell 20, the pressure sensors 60 in the storage cells 20 where the object 100 is placed detect pressure information and transmit the pressure information to the controller, the controller controls the driving member 40 to drive the supporting plate 50 to move, so that the supporting plate 50 drives the storage cells 20 where the object 100 is placed to move along the depth direction of the storage box, thereby enabling the object 100 to be better blocked by the storage cells 20 where the object 100 is not placed, and avoiding the problem that the object 100 has a light weight and the elastic members 30 corresponding to the storage cells 20 cannot be compressed.

In addition, in order to facilitate the support plate 50 to drive the storage compartment 20 for placing the article 100 to move along the depth direction of the storage compartment 20, in some embodiments, as shown in fig. 1, fig. 4 and fig. 5, the storage box may further include a plurality of electromagnetic members 70, the support plate 50 is a ferromagnetic support plate 50, and the ferromagnetic support plate 50 is a support plate 50 capable of being attracted by the magnetic members. A plurality of electromagnetism pieces 70 and a plurality of matter storage lattice 20 one-to-one, and a plurality of electromagnetism pieces 70 and a plurality of through-hole 51 one-to-one, the first end of every electromagnetism piece 70 is connected with at least one elastic component 30, and the second end of every electromagnetism piece 70 is connected with the matter storage lattice 20 that corresponds, and every electromagnetism piece 70 all is connected with the controller electricity. The controller is used for controlling the electromagnetic member 70 connected with the storage compartment 20 in which the article 100 is placed to be electrified when receiving the pressure information, so that the electromagnetic member 70 is adsorbed to the support plate 50.

Since each electromagnetic element 70 is electrically connected to the controller, the controller can control the electromagnetic element 70 to be energized, so that the electromagnetic element 70 is magnetic and becomes a magnetic element. Because a plurality of electromagnetism pieces 70 and a plurality of matter storage lattice 20 one-to-one, and a plurality of electromagnetism pieces 70 and a plurality of through-hole 51 one-to-one, the first end of every electromagnetism piece 70 is connected with at least one elastic component 30, the second end of every electromagnetism piece 70 is connected with the matter storage lattice 20 that corresponds, therefore, when the controller received pressure information, when placing article 100 on matter storage lattice 20 promptly, the controller can control the electromagnetism piece 70 circular telegram of being connected with matter storage lattice 20 that places article 100, later this electromagnetism piece 70 alright have magnetism for this electromagnetism piece 70 adsorbs on ferromagnetic backup pad 50. Because the second end of this electromagnetism piece 70 is connected with the matter storage lattice 20 that corresponds, this electromagnetism piece 70 adsorbs on backup pad 50, backup pad 50 is connected with driving piece 40, therefore, when the controller received pressure information, controller control driving piece 40 drive backup pad 50 removed along the depth direction of matter storage box, backup pad 50 drives the electromagnetism piece 70 that adsorbs on backup pad 50 and removes, this electromagnetism piece 70 drives matter storage lattice 20 and removes, thereby make backup pad 50 can drive matter storage lattice 20 that has placed article 100 and remove along the depth direction of matter storage box. That is, through setting up a plurality of electromagnetism pieces 70, and every electromagnetism piece 70 all is connected with the controller electricity, and the first end of every electromagnetism piece 70 is connected with at least one elastic component 30, and the second end of every electromagnetism piece 70 is connected with the matter storage compartment 20 that corresponds, can be convenient for drive the matter storage compartment 20 that places article 100 through backup pad 50 and remove along the degree of depth direction of locker.

It should be noted that, in the embodiment of the present application, as shown in fig. 4, when the electromagnetic element 70 is electrically adsorbed on the supporting plate 50, the electromagnetic element 70 may cover the corresponding through hole 51, so that the supporting plate 50 may block the electromagnetic element 70, and the electromagnetic element 70 is prevented from passing through the corresponding through hole 51 after being electrically energized, thereby being unfavorable for the problem that the supporting plate 50 drives the storage lattice 20 to move through the electromagnetic element 70.

In addition, in the process that the controller controls the driving member 40 to drive the supporting plate 50 to move along the depth direction of the storage box, the supporting plate 50 may continuously make the storage compartment 20 continuously compress the elastic member 30 under the action of the driving member 40, so that the elastic member 30 is compressed, when the elastic member 30 is compressed to the limit state, the elastic member 30 cannot be compressed, if the driving member 40 continuously makes the storage compartment 20 compress the elastic member 30, the elastic member 30 may be damaged, and the service life of the elastic member 30 is affected, so as to avoid this problem, in some embodiments, the controller is further configured to control the driving member 40 to stop when the supporting plate 50 moves to the preset position of the storage box, so that the supporting plate 50 stops moving. Here, the preset position may be a position at which the elastic member 30 is compressed to a limit, and at this time, a distance between the preset position and the bottom of the housing 10 is a length at which the elastic member 30 is compressed to the limit.

When the supporting plate 50 moves to the preset position of the storage box, the controller controls the driving member 40 to stop, so that the driving member 40 stops driving the supporting plate 50 to move, and further the supporting plate 50 stops moving, so that the supporting plate 50 stops driving the storage grid 20 to compress the elastic member 30, and the elastic member 30 is prevented from being damaged. Further, since the elastic member 30 is connected to the electromagnetic member 70, the electromagnetic member 70 is attracted to the support plate 50, and the support plate 50 is connected to the driving member 40, the electromagnetic member 70 can still compress the elastic member 30 when the support plate 50 stops moving.

It should be noted that the preset position may also be other positions, and may be set according to actual needs, for example, the preset position may be a position where the support plate 50 is a preset distance from the bottom of the housing 10, and the preset distance may be greater than a length of the elastic member 30 compressed to the limit state, and for the preset position, the embodiment of the present application is not limited herein.

In addition, in some embodiments, the controller is further configured to control the driving member 40 to drive the supporting plate 50 to move in a direction opposite to the depth direction of the storage box when the pressure information is not received, so as to return the supporting plate 50 to the initial position.

When the controller does not receive the pressure information, indicating that the article 100 placed on the storage compartment 20 is taken out of the storage compartment 20 by the user, in order to facilitate the user to continue to place the article 100 on the storage compartment 20 next time, the controller may control the driving member 40 to drive the supporting plate 50 to move in a direction opposite to the depth direction of the storage box when the pressure information is not received, so that the supporting plate 50 returns to the initial position, i.e., the position where the supporting plate 50 is located when the article 100 is not placed on the storage compartment 20. When the support plate 50 moves in a direction opposite to the depth direction of the storage box, the elastic member 30 may also be gradually extended from a compressed state at this time. The elastic member 30 may also be in a natural state when the support plate 50 is restored to the initial position.

It should be noted that, when the controller does not receive the pressure information, at this time, the controller may control the previously powered electromagnetic element 70 to continue to be powered on, so that the electromagnetic element 70 continues to be adsorbed on the supporting plate 50, so that in the process that the supporting plate 50 moves in the direction opposite to the depth direction of the storage box, the electromagnetic element 70 may still compress the elastic element 30, so that in the process that the storage compartment 20 returns to the initial position, the moving speed of the storage compartment 20 is the same as the moving speed of the supporting plate 50, and the storage compartment 20 may return to the initial position more stably. Of course, when the controller does not receive the pressure information, the controller may control the power-off of the previously powered electromagnetic member 70, and at this time, the electromagnetic member 70 loses magnetism due to the power-off, so that the electromagnetic member 70 is no longer adsorbed on the supporting plate 50, and the elastic member 30 moves the electromagnetic member 70 and the storage compartments 20 in the direction opposite to the depth direction of the storage box by virtue of its own elasticity, so as to return the storage compartments 20 to the initial position. The embodiments of the present application are not limited herein.

Additionally, in some embodiments, as shown in fig. 1, the driving member 40 and the supporting plate 50 may be connected by: the driving member 40 is connected to the lead screw 41, the lead screw 41 is provided with a sliding block 42, the sliding block 42 is connected to the supporting plate 50, and the sliding block 42 is used for driving the supporting plate 50 to move.

The driving member 40 is connected to the lead screw 41, a sliding block 42 is disposed on the lead screw 41, and the sliding block 42 and the lead screw 41 can be in threaded connection, so that when the motor drives the lead screw 41 to rotate, the sliding block 42 can move along the axial direction of the lead screw 41, that is, the rotary motion of the lead screw 41 is converted into a linear motion through the sliding block 42, so that the sliding block 42 can drive the supporting plate 50 to move.

It should be noted that, in this embodiment of the application, the driving member 40 may be a motor, and the controller may control the motor to rotate forward, so that the motor drives the supporting plate 50 to move along the depth direction of the storage box, and the controller may also control the motor to rotate backward, so that the motor drives the supporting plate 50 to move along the direction opposite to the depth direction of the storage box. Of course, the driving member 40 may also be an electric motor, and the embodiment of the present application is not limited herein.

In addition, in some embodiments, a protective shell may be disposed on the sliding block 42, the sliding block 42 is rotatably connected to the protective shell, so that the protective shell does not rotate along with the rotation of the sliding block 42, and the protective shell is connected to the supporting plate 50.

When the protective shell is arranged on the sliding block 42, the sliding block 42 can be located in the protective shell, and the sliding block 42 is rotatably connected with the protective shell, so that when the lead screw 41 rotates, the sliding block 42 can rotate around the lead screw 41, but the sliding block 42 can only rotate in the protective shell, and the protective shell cannot rotate along with the rotation of the sliding block 42. After the slider 42 rotates, the position of the slider 42 on the lead screw 41 moves, and the slider 42 can drive the protective shell to move along the axial direction of the lead screw 41, that is, the slider 42 can drive the protective shell to move along the depth direction of the storage box or the direction opposite to the depth direction of the storage box, so that the protective shell drives the supporting plate 50 to move along the depth direction of the storage box or the direction opposite to the depth direction of the storage box.

In addition, in some embodiments, as shown in fig. 1, each storage compartment 20 may include a connection surface connected with the elastic member 30 and a support surface, a plurality of which form a storage surface. Be provided with infrared detector 80 on casing 10, infrared detector 80 is connected with the controller electricity, infrared detector 80 is used for the transmission infrared ray, the storing face when infrared ray and not placing object 100 is parallel, and the distance between the storing face when infrared ray and not placing object 100 is the default distance, infrared detector 80 is used for the transmission infrared ray, with produce article existence signal when detecting article 100 through the infrared ray, and with article existence signal transmission to controller, the controller still is used for the running state according to article existence signal control driving piece 40.

Because be provided with infrared detector 80 on the casing 10, infrared detector 80 is connected with the controller electricity, and infrared detector 80 can the emission infrared ray, the infrared ray is parallel with the storing face when not placing article 100, therefore, as shown in fig. 5, when placing article 100 in the storing box, infrared detector 80 alright with through infrared ray detection article 100 and produce the article and have the signal, later infrared detector 80 alright with exist the signal transmission to the controller with article, the controller alright with according to the running state of article existence signal control driving piece 40, make driving piece 40 stop or driving piece 40 operation, in order to drive backup pad 50 and remove. That is, in the embodiment of the present application, by providing the infrared detector 80, the infrared detector 80 can send an article existence signal to the controller, so that the controller can control the operation state of the driving element 40 conveniently.

It should be noted that, in the embodiment of the present application, the infrared detector 80 may include a transmitter and a receiver, where the transmitter is configured to transmit infrared rays, and the receiver is configured to receive infrared rays transmitted by the transmitter, and when the article 100 blocks the infrared rays transmitted by the transmitter, the receiver cannot receive the infrared rays transmitted by the transmitter, and the receiver may generate an article presence signal. For example, the receiver may transmit a first signal to the controller when the receiver receives infrared light emitted by the emitter, and transmit a second signal to the controller when the receiver does not receive infrared light emitted by the emitter, the second signal being usable as an item presence signal.

In addition, in the embodiment of the present application, since the distance between the infrared ray and the storage surface when the article 100 is not placed is the preset distance, when the article 100 needs to be placed in the storage box, the article 100 first reaches the position of the infrared ray, so that the infrared detector 80 generates an article presence signal and sends the article presence signal to the controller. At this time, the controller may not control the driving member 40 to operate, so that the driving member 40 does not drive the support plate 50 to move. When the article 100 contacts with the storage surface, at this time, the article 100 may still be detected by the infrared detector 80, but due to the effect of the pressure sensor 60 in the storage compartment 20, the controller starts to control the driving element 40 to drive the supporting plate 50 to move along the depth direction of the storage box, and the supporting plate 50 drives the storage compartment 20 on which the article 100 is placed to move, and the article 100 also moves along with the movement of the storage compartment 20. During the movement of the article 100 with the movement of the storage compartment 20, the infrared detector 80 may continuously detect the article 100 and send an article presence signal to the controller, which may receive the article presence signal. During the movement of the article 100 along with the movement of the storage compartment 20, the infrared detector 80 may not detect the article 100, that is, the article 100 is located under the infrared ray, and at this time, the controller does not receive the article presence signal. That is, when the article 100 needs to be placed in the storage box, the controller may receive the article existence signal sent by the infrared detector 80 first, and then the controller may not receive the article existence signal sent by the infrared detector 80, so that the controller may perform different controls on the operating state of the driving member 40, specifically, there may be the following two types:

(1) When the article presence signal is received and the support plate 50 moves to the preset position of the housing 10, the driving member 40 is controlled to stop, so that the driving member 40 stops driving the support plate 50 to move along the depth direction of the storage box.

As shown in fig. 5, when the article presence signal is received and the supporting plate 50 moves to the predetermined position of the housing 10, indicating that the article 100 is relatively large, and the supporting plate 50 has moved to the predetermined position, the controller can control the driving member 40 to stop, so that the user can conveniently take the article 100 out of the storage box.

(2) When the article presence signal is not received, the controller controls the driving member 40 to stop, so that the driving member 40 stops driving the supporting plate 50 to move in the depth direction of the storage box.

As shown in fig. 6, when the article presence signal is not received, indicating that the article 100 is located under the infrared ray, the article 100 is smaller, so as to avoid that the article 100 moves along with the movement of the storage compartment 20, so that the article 100 is embedded into the storage surface, and the user takes out the article 100, therefore, when the article presence signal is not received, the controller controls the driving member 40 to stop, and at this time, the storage compartment 20 also stops moving, so that the article 100 also stops moving. However, since the distance between the infrared ray and the storage compartment 20 is the predetermined distance, the distance between the top end of the article 100 and the storage surface is the predetermined distance, so that the article 100 is not completely embedded in the storage surface, thereby facilitating the user to take the article 100 out of the storage box.

It should be noted that the preset distance may be set according to actual needs, for example, the preset distance may be 1 centimeter, and the specific value of the preset distance is not limited herein.

In the embodiment of the present application, since each storage compartment 20 is connected to the bottom of the housing 10 through at least one elastic member 30, and the storage compartment 20 is used for placing the article 100, after the article 100 is placed on the storage compartment 20, the storage compartment 20 may be subjected to a pressure, and the storage compartment 20 may transmit the pressure to the elastic member 30, so that the storage compartment 20 may compress the elastic member 30, and further the storage compartment 20 in which the article 100 is placed may be lowered in height relative to the storage compartment 20 in which the article 100 is not placed, so that the article 100 may be blocked by the storage compartment 20 in which the article 100 is not placed, and the article 100 is prevented from moving on the storage compartment 20, so that the position of the article 100 on the storage compartment 20 is fixed, and thus the user may take out the article 100 conveniently. That is, in the embodiment of the present application, each storage compartment 20 is connected to the bottom of the housing 10 through the elastic member 30, so that after the article 100 is placed on the storage compartment 20, the storage compartment 20 on which the article 100 is placed can compress the corresponding elastic member 30, so that the article 100 can be limited by the storage compartment 20 on which the article 100 is not placed, and thus the position of the article 100 on the storage compartment 20 can be fixed, and the article 100 is prevented from moving on the storage compartment 20, thereby facilitating the user to take out the article 100.

The embodiment of the application provides a vehicle, and the vehicle comprises the storage box provided by any one of the embodiments.

It should be noted that, when the vehicle includes the storage box in any embodiment described above, the controller in the storage box may be a controller in the vehicle, and of course, the controller in the storage box may also be independent of the controller in the vehicle, and the embodiment of the present application is not limited herein.

It should be noted that, in this specification, each embodiment is described in a progressive manner, and each embodiment focuses on differences from other embodiments, and portions that are the same as and similar to each other in each embodiment may be referred to.

While alternative embodiments of the present application have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including alternative embodiments and all such alterations and modifications as fall within the true scope of the embodiments of the application.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or terminal apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or terminal apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or terminal device comprising the element.

The technical solutions provided in the present application are described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, and meanwhile, for a person of ordinary skill in the art, according to the principles and implementation manners of the present application, changes may be made in the specific embodiments and application ranges.

Claims (10)

1. A storage box, characterized in that it comprises a shell (10), a plurality of storage compartments (20) and a plurality of elastic members (30);

a plurality of storage compartments (20) and a plurality of elastic pieces (30) are positioned in the shell (10), each storage compartment (20) is connected to the bottom of the shell (10) through at least one elastic piece (30), and the storage compartments (20) are used for placing articles (100).

2. The magazine according to claim 1, characterized in that it further comprises a drive member (40), a support plate (50), a controller and a plurality of pressure sensors (60);

the pressure sensors (60) and the driving part (40) are electrically connected with the controller, the driving part (40) is connected with the supporting plate (50), the driving part (40) is used for driving the supporting plate (50) to move along the depth direction of the storage box, the supporting plate (50) is used for driving the storage grids (20) with the articles (100) placed on to move, and the depth direction of the storage box is the direction from the box opening of the storage box to the bottom of the storage box;

A plurality of through holes (51) are formed in the supporting plate (50), and at least one elastic piece (30) penetrates through each through hole (51);

at least one pressure sensor (60) is arranged in each storage compartment (20), and the pressure sensors (60) are used for detecting pressure information on the storage compartments (20) and sending the pressure information to the controller;

the controller is used for controlling the driving piece (40) to drive the supporting plate (50) to move along the depth direction of the storage box when the pressure information is received, so that the supporting plate (50) drives the storage grid (20) on which the articles (100) are placed to move.

3. A magazine as defined in claim 2, further comprising a plurality of electromagnetic members (70), the support plate (50) being a ferromagnetic support plate (50), the ferromagnetic support plate (50) being a support plate (50) which can be attracted by magnetic members;

the plurality of electromagnetic pieces (70) correspond to the storage lattices (20) one by one, the plurality of electromagnetic pieces (70) correspond to the plurality of through holes (51) one by one, the first end of each electromagnetic piece (70) is connected with at least one elastic piece (30), the second end of each electromagnetic piece (70) is connected with the corresponding storage lattice (20), and each electromagnetic piece (70) is electrically connected with the controller;

The controller is used for controlling the electrification of the electromagnetic part (70) connected with the storage compartment (20) with the article (100) placed on the storage compartment when receiving the pressure information, so that the electromagnetic part (70) is adsorbed on the support plate (50).

4. A magazine as defined in claim 2, wherein the controller is further adapted to control the driving member (40) to stop when the support plate (50) is moved to a predetermined position of the magazine, so that the support plate (50) stops moving.

5. A magazine as defined in claim 2, wherein the controller is further adapted to control the driving member (40) to drive the support plate (50) to move in a direction opposite to a depth direction of the magazine to return the support plate (50) to an initial position when the pressure information is not received.

6. Storage box according to claim 2, characterized in that the driving member (40) is connected to a lead screw (41), a slide block (42) is arranged on the lead screw (41), the slide block (42) is connected to the support plate (50), and the slide block (42) is used for driving the support plate (50) to move.

7. A storage box according to claim 2, wherein each storage compartment (20) comprises a connecting surface connected to the elastic member (30) and a support surface, a plurality of which form a storage surface;

Be provided with infrared detector (80) on casing (10), infrared detector (80) with the controller electricity is connected, infrared detector (80) are used for launching the infrared ray, the infrared ray with not place during article (100) the storage face is parallel, just the infrared ray with not place during article (100) distance between the storage face is for predetermineeing the distance, infrared detector (80) are used for launching the infrared ray, in order to pass through infrared ray detects it has the signal to generate article (100) during article (100), and will article (100) exist signal send to the controller, the controller still be used for according to article (100) exist signal control the running state of driving piece (40).

8. A magazine as defined in claim 7, wherein the controller is further adapted to control the driving member (40) to stop when a signal indicating the presence of an article (100) is received and the support plate (50) is moved to a predetermined position of the housing (10), such that the driving member (40) stops driving the support plate (50) to move in the depth direction of the magazine.

9. A magazine as defined in claim 7, wherein the controller is further adapted to control the driving member (40) to stop when no signal of the presence of an article (100) is received, such that the driving member (40) stops driving the support plate (50) to move in the depth direction of the magazine.

10. A vehicle, characterized in that it comprises a storage box according to any one of claims 1-9.

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