CN217674676U - Container with automatic door opening function and capable of arranging aluminum products of various specifications - Google Patents

Abstract

The utility model discloses a container with automatic function of opening a door and multiple specification aluminum product of arrangement, include: the box body and the goods pressing module; the box body is internally provided with a clapboard which divides the box body into a control chamber and a placing chamber, and the clapboard is horizontal and is arranged close to the top of the box body; a goods inlet communicated with the placing cavity is formed in the side wall of one side of the box body; a bin door capable of closing the goods inlet is hinged on the goods inlet; the hinged part of the bin door and the goods inlet corresponds to the bottom of the bin door; the pressure goods module includes: the vertical goods pressing mechanism is arranged at the top of the control chamber, and the horizontal goods pressing mechanism is arranged at the bottom of the placing chamber; the horizontal goods pressing mechanism is arranged close to the bin door and avoids the vertical goods pressing mechanism; the utility model discloses can the full automatization carry out diversified compressing tightly with the aluminum product in the container, prevent that the aluminum product from rocking because of jolting and producing in the transportation, and realize automatic open and shut container door, do not need manual operation.

Description

Container with automatic door opening function and capable of arranging aluminum products of various specifications

Technical Field

The utility model relates to a container design field especially relates to a container with automatic function of opening a door and multiple specification aluminum product can be arranged in order.

Background

In the prior art, a container for transporting aluminum products can only place the aluminum products and cannot compress and arrange the aluminum products; in a container for transporting a large amount of aluminum materials, the aluminum materials are usually filled in the container to avoid bumping in the transportation process, but the safety of the aluminum materials in the transportation process cannot be completely guaranteed; when the container reaches a destination and needs to be opened, a thick and heavy container door needs to be manually opened, and at the moment, a large amount of aluminum materials in the container can fall; in order to improve the convenience of the container and improve the safety of container transportation aluminum materials by compressing the goods in the container, a container which can automatically compress the goods and has a door control function is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective is: the container capable of automatically compressing the goods and having the door control function is researched and developed, so that the convenience of the container is improved, and meanwhile, the safety of container transportation aluminum materials is improved.

In order to achieve the above object, the utility model discloses a technical scheme be: provided is a container having an automatic door opening function and capable of arranging aluminum materials of various specifications, including:

the box body and the goods pressing module;

the box body is internally provided with a clapboard which divides the box body into a control chamber and a placing chamber, and the clapboard is horizontally arranged close to the top of the box body;

a goods inlet communicated with the placing cavity is formed in the side wall of one side of the box body; a bin door capable of closing the goods inlet is hinged to the goods inlet; the hinged part of the bin door and the goods inlet corresponds to the bottom position of the bin door;

the pressure goods module includes: the vertical goods pressing mechanism is arranged at the top of the control chamber, and the horizontal goods pressing mechanism is arranged at the bottom of the placing chamber; the horizontal goods pressing mechanism avoids the vertical goods pressing mechanism and is arranged close to the bin gate.

As an improved scheme, a plurality of locking cavities are vertically formed in the top of the placing cavity corresponding to the position of the bin door, clamping strips are slidably arranged in the locking cavities, and first elastic pieces are sleeved on the clamping strips;

the top of the clamping strip can slidably penetrate through the partition plate and extend into the control cavity; the top of the first elastic piece is connected with the top of the locking cavity;

a plurality of clamping grooves are respectively formed in the positions, corresponding to the clamping strips, of the top of the bin door; the clamping grooves are respectively matched with the clamping strips.

As an improved solution, the vertical cargo pressing mechanism comprises: the device comprises a first vertical electric cylinder, a first goods pressing plate and a first connecting plate;

the first vertical electric cylinder is vertically arranged, the fixed end of the first vertical electric cylinder is installed at the top of the control chamber, and the movable end of the first vertical electric cylinder can slidably penetrate through the partition plate and extend into the placing chamber;

the first goods pressing plate is fixed at the movable end of the first vertical electric cylinder through the first connecting plate, and the first goods pressing plate is parallel to and arranged close to the partition plate;

the first vertical electric cylinder is used for controlling the displacement of the first pressure plate in the vertical direction.

As an improved scheme, the method is characterized in that: a first supporting piece is arranged in the control cavity and close to the plurality of clamping strips;

a second vertical electric cylinder arranged in parallel with the first vertical electric cylinder is arranged on one side of the first supporting piece; the movable end of the second vertical electric cylinder is provided with a second connecting plate parallel to the first connecting plate; the lower surface of the second connecting plate is connected with the tops of the clamping strips;

the second vertical electric cylinder is used for controlling the displacement of the clamping strips in the vertical direction.

As an improved scheme, the method is characterized in that: the horizontal goods pressing mechanism comprises: the device comprises a first horizontal electric telescopic rod, a first baffle and two first vertical electric telescopic rods;

the first horizontal electric telescopic rod is arranged on the side wall of one side of the placing cavity in parallel to the first cargo pressing plate and corresponds to the position below the bin door, and the movable end of the first horizontal electric telescopic rod faces the side wall of the other side of the placing cavity;

the first baffle is parallel to the bin gate and is installed at the movable end of the first horizontal electric telescopic rod, two fixing cavities perpendicular to the first horizontal electric telescopic rod are formed in the positions, corresponding to the two ends of the first baffle, of the top of the first baffle, and the fixing cavities correspond to the first vertical electric telescopic rods one by one;

the first vertical electric telescopic rod is vertically arranged in the fixed cavity, the fixed end of the first vertical electric telescopic rod is connected with the bottom of the fixed cavity, and the top of the fixed cavity is provided with an avoiding opening matched with the telescopic end of the first vertical electric telescopic rod;

the telescopic ends of the two first vertical electric telescopic rods extend out of the two fixed cavities respectively, and a horizontally arranged barrier strip is connected between the telescopic ends of the two first vertical electric telescopic rods;

the first horizontal electric telescopic rod is used for controlling the first baffle to move in the horizontal direction; and the two first vertical electric telescopic rods are used for controlling the displacement of the barrier strips in the vertical direction.

As an improved scheme, the method is characterized in that: the bottom of the bin door is hinged with the goods inlet through a first rotating shaft;

a motor cavity is formed in the side wall of the box body, close to the goods inlet and corresponding to the first rotating shaft; a rotating motor is arranged in the motor cavity, and one end of the first rotating shaft can rotatably extend into the motor cavity to be in transmission connection with the output end of the rotating motor; the rotating motor is used for controlling the first rotating shaft to rotate.

As an improved scheme, the method is characterized in that: a placing area is arranged on the inner surface of the bin door, the placing area is arranged corresponding to the position between the first goods pressing plate and the first baffle, and the placing area corresponds to the position between the two first vertical electric telescopic rods;

a plurality of second horizontal electric telescopic rods perpendicular to the bin gate are arranged on the placing area; the directions of the movable ends of the plurality of second horizontal electric telescopic rods are the same as the direction of the movable end of the first horizontal electric telescopic rod; the movable ends of the second horizontal electric telescopic rods are respectively provided with a second baffle plate which is parallel to the first baffle plate; a gap is formed between every two adjacent second baffles;

the second horizontal electric telescopic rods are used for respectively controlling the displacement of the second baffles in the horizontal direction; the first horizontal electric telescopic rod is arranged corresponding to the position between the motor cavity and the bottom of the placing cavity.

As an improved scheme, the method is characterized in that: a plurality of supporting columns parallel to the second horizontal electric telescopic rods are arranged on the outer surface of the bin gate close to the top of the bin gate;

a plurality of limiting blocks are respectively arranged outside the box body corresponding to the positions of the support columns; the limiting blocks correspond to the supporting columns one by one;

a sliding cavity is formed in one side, facing the supporting column, of the limiting block, and a supporting plate arranged in parallel to the bin gate is connected to the other side of the limiting block; the limiting block is sleeved on the supporting column through the sliding cavity, and the bottom of the sliding cavity is connected with the supporting column through a second elastic piece;

the distance from the joint of the support column and the bin gate to the front surface of the support plate is matched with the distance from the first rotating shaft to the bottom of the placing chamber.

As an improved scheme, the method is characterized in that: a friction pad is arranged on the lower surface of the first goods pressing plate along the first goods pressing plate; the side wall of the first goods pressing plate facing the bin door is connected with an image sensor; the image sensor is in communication connection with the two first vertical electric telescopic rods and the plurality of second horizontal electric telescopic rods;

a first pressure sensor is arranged on one surface of each of the second baffles, which is back to the inner surface of the bin gate; the first pressure sensors correspond to the second baffles one to one; the first pressure sensor is in communication connection with the second horizontal electric telescopic rod connected with the second baffle plate corresponding to the first pressure sensor;

a second pressure sensor is arranged on one surface, back to the outer surface of the bin gate, of the supporting plate; the second pressure sensor is in communication with the rotating electrical machine.

As an improved scheme, the method is characterized in that: the specification of the first pressure cargo board and the specification of the first baffle are matched with the specification of the placing cavity.

The utility model has the advantages that: the aluminum product in the container can be fully automatically compressed in multiple directions, so that the aluminum product is prevented from shaking due to bumping in the transportation process, the safety of the aluminum product in the container is improved, and the probability of damage to the aluminum product in the container is reduced; the utility model can automatically open and close the container door, does not need manual operation, is extremely convenient, and improves the user experience; the utility model relates to an ingenious, low in production cost, easy to use has compensatied the not enough of prior art, has high market competition and product value.

Drawings

Fig. 1 is a schematic front view of the embodiment of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

fig. 4 is a schematic side view of an embodiment of the present invention;

the parts in the drawings are numbered as follows:

1. a box body; 2. a partition plate; 3. a control chamber; 4. placing a chamber; 101. a bin gate; 102. a locking cavity; 103. clamping the strip; 104. a first elastic member; 201. a first vertical electric cylinder; 202. a first compression plate; 203. a first connecting plate; 301. a first support member; 302. a second vertical electric cylinder; 303. a second connecting plate; 401. a first horizontal electric telescopic rod; 402. a first baffle; 403. a first vertical electric telescopic rod; 404. a fixed cavity; 405. a stop bar; 501. a first rotating shaft; 502. a motor cavity; 503. a rotating electric machine; 601. a second horizontal electric telescopic rod; 602. a second baffle; 701. a support pillar; 702. a limiting block; 703. a sliding cavity; 704. a support plate; 705. a second elastic member; 801. a friction pad; 802. an image sensor; 803. a second pressure sensor.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Referring to fig. 1 to 4, an embodiment of the present invention includes:

a container with an automatic door opening function and capable of arranging aluminum materials of various specifications comprises: the box body 1 and the goods pressing module;

correspondingly, a partition plate 2 for dividing the box body 1 into an upper part and a lower part of a control chamber 3 and a placing chamber 4 is arranged in the box body 1, and the partition plate 2 is horizontal and is arranged close to the top of the box body 1; in this embodiment, the placing chamber 4 is mainly used for storing aluminum materials, and the control chamber 3 is mainly used for placing control equipment, power supply equipment and other equipment;

correspondingly, a rectangular goods inlet communicated with the placing cavity 4 is formed in the side wall of one side of the box body 1; a bin door 101 capable of closing the goods inlet is hinged on the goods inlet; the hinged part of the bin door 101 and the goods inlet corresponds to the bottom position of the bin door 101; the bin gate 101 is used for opening or closing the placing chamber 4, and correspondingly, in the embodiment, the bin gate 101 is made of an aluminum alloy material, so that the durability of the device is further improved, and a firm supporting reference is provided; specifically, a plurality of locking cavities 102 are vertically formed in the top of the placing cavity 4 at positions corresponding to the bin gate 101, a clamping strip 103 is slidably arranged in each locking cavity 102, and a first elastic piece 104 is sleeved on each clamping strip 103; the top of each clamping strip 103 slidably penetrates through the partition plate 2 and extends into the control chamber 3; the top of the first elastic member 104 is connected to the top of the locking cavity 102; a plurality of clamping grooves are respectively formed in the positions, corresponding to the clamping strips 103, of the top of the bin door 101; the plurality of card slots are respectively matched with the plurality of card strips 103.

In the present embodiment, the first elastic member 104 is a spring; the bottom of the card strip 103 is obliquely arranged from the front surface of the card strip 103 to the rear surface of the card strip 103, that is, the lower surface of the card strip 103 is obliquely arranged; correspondingly, the inclined design of the bottom of the clamping strip 103 can reduce the force borne by the clamping strip 103 when the bin door 101 is closed, so that the service life is prolonged; finally, due to the design of a plurality of clamping strips 103 and clamping grooves, the locking between the bin door 101 and the box body 1 is realized, and the convenience is very high; correspondingly, in this embodiment, a corresponding electric mechanism is disposed in the control chamber 3 to control the lifting of the card strip 103, so as to realize the automatic locking of the door 101, which is extremely intelligent.

Specifically, in this embodiment, the bottom of the bin door 101 is hinged to the cargo inlet through a first rotating shaft 501; a motor cavity 502 is formed in the side wall of the box body 1, close to the goods inlet and corresponding to the first rotating shaft 501; a rotating motor 503 is arranged in the motor cavity 502, and one end of the first rotating shaft 501 can rotatably extend into the motor cavity 502 and is in transmission connection with the output end of the rotating motor 503 through a coupling; the rotating motor 503 is configured to control the first rotating shaft 501 to rotate; correspondingly, the control of rotating electrical machines 503 can realize opening and closing for the automation under the non-closure state at door 101, does not need manual operation to open thick and heavy door 101, has improved the experience that is used for and the utility model discloses an intelligence degree.

Correspondingly, the pressure goods module includes: the vertical goods pressing mechanism is arranged at the top of the control chamber 3, and the horizontal goods pressing mechanism is arranged at the bottom of the placing chamber 4; the horizontal goods pressing mechanism avoids the vertical goods pressing mechanism and is arranged close to the bin door 101; in this embodiment, the effect that the chamber 4 interior aluminum product was placed in compressing tightly simultaneously and arranging is mainly played to the pressure goods module in vertical direction and horizontal direction, and then prevents that the aluminum product from damaging because of jolting on the way in the transportation, through the compressing tightly of physics mechanism, has guaranteed the security of placing the interior aluminum product of chamber 4 completely.

Specifically, the vertical goods pressing mechanism comprises: a first vertical electric cylinder 201, a first pallet 202 and a first connecting plate 203; the first vertical electric cylinder 201 is vertically arranged, and it is conceivable that the first vertical electric cylinder 201 can also adopt an electric lifting rod to realize lifting action; the fixed end of the first vertical electric cylinder 201 is installed on the top of the control chamber 3 through a combined mechanism of bolts and screws, and the movable end of the first vertical electric cylinder 201 vertically and downwards slidably extends to a position close to the upper surface of the placing chamber 4 in the placing chamber 4 through the partition plate 2; the first pressure cargo plate 202 is fixed at the movable end of the first vertical electric cylinder 201 through the first connecting plate 203, and the first pressure cargo plate 202 is parallel to and arranged close to the partition plate 2; conceivably, the first cargo pressing plate 202 and the first connecting plate 203 are connected in a rotating manner, so that the aluminum materials in the placing chambers 4 at different angles or in other various adapting conditions are pressed; correspondingly, the first vertical electric cylinder 201 is used for controlling the displacement of the first cargo pressing plate 202 in the vertical direction, and when the first cargo pressing plate 202 is controlled by the first vertical electric cylinder 201 to move downwards, the first cargo pressing plate 202 is gradually close to the aluminum material in the placing chamber 4, so that the aluminum material is contacted to compress the aluminum material, and the aluminum material is prevented from bumping in the vertical direction.

Specifically, a first support member 301 in a T shape is arranged in the control chamber 3 at a position close to the plurality of clamping strips 103; in this embodiment, the first supporting member 301 is made of an aluminum alloy material, so as to further improve stability; a second vertical electric cylinder 302 arranged in parallel with the first vertical electric cylinder 201 is installed on one side of the first support member 301; the movable end of the second vertical electric cylinder 302 is provided with a second connecting plate 303 parallel to the first connecting plate 203; the lower surface of the second connecting plate 303 is connected with the tops of the plurality of clamping strips 103; correspondingly, power supplies of the first vertical electric cylinder 201 and the second vertical electric cylinder 302 are also arranged in the control chamber 3, a dismounting opening communicated with the control chamber 3 is formed in the box body 1, an openable protection door is arranged on the dismounting opening, and the protection door is opened and closed to assist an operator to replace the first vertical electric cylinder 201 and the second vertical electric cylinder 302 in the control chamber 3; correspondingly, the second vertical electric cylinder 302 is used for controlling the displacement of a plurality of clamping strips 103 in the vertical direction; at the vertical electric jar 302 control of second a plurality of card strip 103 is during the displacement that makes progress in vertical direction, can take a plurality of draw-in grooves out respectively with a plurality of card strips 103, door 101 and box 1 are non-closure state this moment, and rotating electrical machines 503 can control first pivot 501 and rotate and realize this moment the utility model discloses an innovation function, the automatic chamber door of opening/closing container to this chamber door of automatic closure, the convenience is extremely strong.

Specifically, horizontal pressure cargo mechanism includes: a first horizontal electric telescopic rod 401, a first baffle 402 and two first vertical electric telescopic rods 403; the first horizontal electric telescopic rod 401 is arranged on the side wall of one side of the placing chamber 4 in parallel with the first goods pressing plate 202 and corresponds to the position below the bin door 101, and the movable end of the first horizontal electric telescopic rod 401 horizontally faces to the left, namely faces to the side wall of the other side of the placing chamber 4; for UI, the first baffle 402 is parallel to the bin gate and is installed at the movable end of the first horizontal electric telescopic rod 401, two fixed cavities 404 perpendicular to the first horizontal electric telescopic rod 401 are formed at positions, corresponding to the two ends of the first baffle 402, on the top of the first baffle 402, and the fixed cavities 404 are in one-to-one correspondence with the first vertical electric telescopic rods 403; correspondingly, the first vertical electric telescopic rod 403 is vertically arranged in the fixed cavity 404, the fixed end of the first vertical electric telescopic rod 403 is connected with the bottom of the fixed cavity 404, and an avoidance port matched with the telescopic end of the first vertical electric telescopic rod 403 is formed in the top of the fixed cavity 404; the telescopic ends of the two first vertical electric telescopic rods 403 extend out of the two fixed cavities 404 respectively, and a horizontally arranged barrier strip 405 is connected between the telescopic ends of the two first vertical electric telescopic rods 403; in this embodiment, the first baffle 402 and the first vertical electric telescopic rod 403 are used for performing a pressing force action on the aluminum material in the horizontal direction at the edge of the aluminum material, that is, at the periphery close to the side wall of the box body 1, and correspondingly, because the width and specification of the aluminum material are different, a rectangular hollow structure is formed among the first baffle 402, the two first vertical electric telescopic rods 403 and the baffle strip 405, so as to perform edge-type large-range pressing on the aluminum material, while uneven aluminum material main bodies need to be pressed through a telescopic mechanism uniquely designed on the warehouse door 101, so as to realize a pressing design with different compatibility and matching degree; therefore, the first horizontal electric telescopic rod 401 is used for controlling the displacement of the first baffle 402 in the horizontal direction; the two first vertical electric telescopic rods 403 are used for controlling the displacement of the stop bars 405 in the vertical direction.

Specifically, a placing area is arranged on the inner surface of the bin door 101, and the placing area corresponds to an area where a rectangular hollow structure is formed among the first baffle 402, the two first vertical electric telescopic rods 403 and the barrier strips 405; therefore, the length of the placement area is set corresponding to the position between the first pallet 202 and the first baffle 402, and the width of the placement area corresponds to the position between the two first vertical electric telescopic rods 403; a plurality of second horizontal electric telescopic rods 601 perpendicular to the bin gate 101 are arranged on the placing area; the directions of the movable ends of the plurality of second horizontal electric telescopic rods 601 are the same as the directions of the movable ends of the first horizontal electric telescopic rods 401; the movable ends of the second horizontal electric telescopic rods 601 are respectively provided with a second baffle 602 which is parallel to the first baffle 402; a gap is formed between every two adjacent second baffles 602; the second horizontal electric telescopic rods 601 are used for respectively controlling the displacement of the second baffles 602 in the horizontal direction; the first horizontal electric telescopic rod 401 is arranged corresponding to the position between the motor cavity 502 and the bottom of the placing cavity 4; in this embodiment, the width of the second baffle 602 corresponds to the distance between the two first vertical electric telescopic rods 403, so as to realize closed compression; correspondingly, a first pressure sensor is arranged on one surface of each of the second baffles 602, which is opposite to the inner surface of the bin gate 101; the first pressure sensors correspond to the second baffles 602 one to one; the first pressure sensor is in communication connection with the second horizontal electric telescopic rod 601 connected with the second baffle 602 corresponding to the first pressure sensor; in the present embodiment, all communication connections employ wireless transmission technologies, which include, but are not limited to, bluetooth transmission and network transmission; first pressure sensor controls the operation of its corresponding horizontal electric telescopic handle 601 of second, and then realizes that when the aluminum product was touched to second baffle 602 on the horizontal electric telescopic handle 601 of second, first pressure sensor obtained pressure data, and then control horizontal electric telescopic handle 601 of second and stop flexible, did not excessively compress tightly the aluminum product when accomplishing to compress tightly the aluminum product and avoid the aluminum product to damage.

Specifically, a plurality of support columns 701 parallel to the second horizontal electric telescopic rod 601 are arranged on the outer surface of the bin door 101 near the top of the bin door 101; a plurality of limiting blocks 702 are respectively arranged outside the box body 1 at positions corresponding to the plurality of supporting columns 701; the limiting blocks 702 correspond to the supporting columns 701 one by one; a sliding cavity 703 is formed in one side, facing the supporting column 701, of the limiting block 702, and a supporting plate 704 arranged parallel to the bin door 101 is connected to the other side of the limiting block 702; the limiting block 702 is sleeved on the supporting column 701 through the sliding cavity 703, and the bottom of the sliding cavity 703 is connected with the supporting column 701 through a second elastic piece 705; the distance from the joint of the support column 701 and the door 101 to the front surface of the support plate 704 is matched with the distance from the first rotating shaft 501 to the bottom of the placing chamber 4; correspondingly, the supporting column 701 is designed to be an anti-falling design for the bin door 101; correspondingly, the supporting column 701 and the supporting plate 704 both adopt aluminum alloy structures, so that the stability is improved; when the container is opened, the supporting plate 704 can be held in an auxiliary way through the design of the supporting columns 701 and the supporting plate 704, so that the cabin door 101 is prevented from falling down and accidentally injuring operators; after the bin door 101 is opened, due to the design of the second elastic piece 705, the supporting column 701 and the supporting plate 704, the bin door 101 can be parallel to the partition board 2 and stably supported above the ground, at the moment, the supporting effect of the supporting column 701 and the supporting plate 704 is matched with the supporting effect of the other end of the bin door 101 and the hinged part of the goods inlet, a good and stable supporting state is further achieved, aluminum materials can be placed in the vacant area on the inner surface of the bin door 101, and therefore the loading and unloading of the aluminum materials are facilitated.

Specifically, the lower surface of the first compression plate 202 is provided with a friction pad 801 along the first compression plate 202; the friction pad 801 can increase the friction force, so that the first goods pressing plate 202 can better press the aluminum material in the placing chamber 4; an image sensor 802 is connected to the side wall of the first goods pressing plate 202 facing the bin door 101; the image sensor 802 is in communication connection with the two first vertical electric telescopic rods 403 and the plurality of second horizontal electric telescopic rods 601; correspondingly, the image sensor 802 controls the first vertical electric telescopic rod 403 and the second horizontal electric telescopic rod 601 to operate, so that when the first goods pressing plate 202 descends to press the aluminum material to a certain height, the image sensor 802 sends the descending position data of the first goods pressing plate 202 to the telescopic controllers of the first vertical electric telescopic rod 403 and the second horizontal electric telescopic rod 601, and then the telescopic controllers respectively control the first vertical electric telescopic rod 403 and the second horizontal electric telescopic rod 601 to stretch according to the descending position data of the first goods pressing plate 202, so that the first vertical electric telescopic rod 403 ascends to a position close to the first goods pressing plate 202, and the second horizontal electric telescopic rod 601 below the first goods pressing plate 202 stretches in the horizontal direction; correspondingly, a second pressure sensor 803 is arranged on one surface of the supporting plate 704 opposite to the outer surface of the bin door 101; the second pressure sensor 803 is in communication with the rotating electrical machine 503; correspondingly, the second pressure sensor 803 controls the operation of the rotating motor 503, and when the supporting plate 704 contacts the bottom surface, the second pressure sensor 803 detects pressure data, which means that the first rotating shaft 501 is not controlled to rotate any more, so that the pressure sensor 803 controls the rotating motor 503 to stop operating, and the door 101 is opened and is still. Specifically, in consideration of the closeness and high quality measure of the aluminum material compaction, the specification of the first compression plate 202 and the specification of the first baffle 402 are both matched with the specification of the placing chamber 4; namely, four side edges of the first cargo pressing plate 202 are respectively abutted against four side walls of the placing chamber 4, and two side walls of two ends of the first baffle 402 parallel to one surface of the bin gate 101 are respectively abutted against two side walls of the placing chamber 4; correspondingly, because of the container mainly used transportation aluminum product that a described has the automatic function of opening a door and can arrange in order multiple specification aluminum product in this embodiment, the power supply mechanism that so adopted in this embodiment all adopts the high rigidity material to make to the atress of aluminum product supports and compresses tightly the arrangement, and is corresponding, can think about, the utility model discloses can also be applicable to the transportation of many specifications and big express delivery in batches in the express delivery trade.

Through the utility model discloses, realize that full automation carries out diversified the compressing tightly with the aluminum product in the container, prevent that the aluminum product from rocking because of jolting the production in the transportation, improved the security of aluminum product in the container, reduced the probability that the aluminum product damaged in the container, just the utility model discloses can be automatic open the door or close the door, whole journey does not need the too much participation of manpower, does not occupy too much container inner space simultaneously, and extreme convenience, low in production cost, improvement user's that simultaneously can be very big experience has compensatied prior art's not enough, has high product competitiveness and market value.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same principle as the protection scope of the present invention.

Claims (10)

1. The utility model provides a container with automatically, function just can arrange in order multiple specification aluminum product which characterized in that includes: the box body (1) and the goods pressing module;

the box body (1) is internally provided with a clapboard (2) which divides the box body (1) into a control chamber (3) and a placing chamber (4), and the clapboard (2) is horizontal and is arranged close to the top of the box body (1);

a goods inlet communicated with the placing cavity (4) is formed in the side wall of one side of the box body (1); a bin door (101) capable of closing the goods inlet is hinged on the goods inlet; the hinged part of the bin door (101) and the goods inlet corresponds to the bottom position of the bin door (101);

the pressure goods module includes: the vertical goods pressing mechanism is arranged at the top of the control chamber (3), and the horizontal goods pressing mechanism is arranged at the bottom of the placing chamber (4); the horizontal goods pressing mechanism avoids the vertical goods pressing mechanism and is close to the bin door (101).

2. The container with automatic door opening function capable of arranging aluminum materials of various specifications as claimed in claim 1, wherein: a plurality of locking cavities (102) are vertically formed in the top of the placing cavity (4) corresponding to the bin gate (101), clamping strips (103) are slidably arranged in the locking cavities (102), and first elastic pieces (104) are sleeved on the clamping strips (103);

the top of the clamping strip (103) can slidably penetrate through the partition plate (2) and extend into the control chamber (3); the top of the first elastic piece (104) is connected with the top of the locking cavity (102);

a plurality of clamping grooves are respectively formed in the positions, corresponding to the clamping strips (103), of the top of the bin gate (101); the plurality of clamping grooves are respectively matched with the plurality of clamping strips (103).

3. The container with the automatic door opening function and capable of tidying the aluminum materials with various specifications as claimed in claim 2, wherein: the vertical goods pressing mechanism comprises: the device comprises a first vertical electric cylinder (201), a first goods pressing plate (202) and a first connecting plate (203);

the first vertical electric cylinder (201) is vertically arranged, the fixed end of the first vertical electric cylinder (201) is installed at the top of the control chamber (3), and the movable end of the first vertical electric cylinder (201) slidably penetrates through the partition plate (2) and extends into the placing chamber (4);

the first goods pressing plate (202) is fixed at the movable end of the first vertical electric cylinder (201) through the first connecting plate (203), and the first goods pressing plate (202) is parallel to and is arranged close to the partition plate (2);

the first vertical electric cylinder (201) is used for controlling the displacement of the first pressure plate (202) in the vertical direction.

4. A container with an automatic door opening function for arranging aluminum materials of various specifications as claimed in claim 3, wherein: a first supporting piece (301) is arranged in the control chamber (3) and close to the plurality of clamping strips (103);

a second vertical electric cylinder (302) which is arranged in parallel to the first vertical electric cylinder (201) is arranged on one side of the first supporting piece (301); the movable end of the second vertical electric cylinder (302) is provided with a second connecting plate (303) parallel to the first connecting plate (203); the lower surface of the second connecting plate (303) is connected with the tops of the clamping strips (103);

the second vertical electric cylinder (302) is used for controlling the displacement of a plurality of clamping strips (103) in the vertical direction.

5. A container with an automatic door opening function and capable of arranging aluminum materials of various specifications as claimed in claim 4, wherein: the horizontal goods pressing mechanism comprises: the device comprises a first horizontal electric telescopic rod (401), a first baffle (402) and two first vertical electric telescopic rods (403);

the first horizontal electric telescopic rod (401) is arranged on the side wall of one side of the placing cavity (4) in parallel to the first goods pressing plate (202) and corresponds to the position below the bin door (101), and the movable end of the first horizontal electric telescopic rod (401) faces to the side wall of the other side of the placing cavity (4);

the first baffle (402) is parallel to the bin gate and is arranged at the movable end of the first horizontal electric telescopic rod (401), two fixing cavities (404) perpendicular to the first horizontal electric telescopic rod (401) are formed in the positions, corresponding to the two ends of the first baffle (402), of the top of the first baffle (402), and the fixing cavities (404) correspond to the first vertical electric telescopic rods (403) one by one;

the first vertical electric telescopic rod (403) is vertically arranged in the fixed cavity (404), the fixed end of the first vertical electric telescopic rod (403) is connected with the bottom of the fixed cavity (404), and an avoidance port matched with the telescopic end of the first vertical electric telescopic rod (403) is formed in the top of the fixed cavity (404);

the telescopic ends of the two first vertical electric telescopic rods (403) extend out of the two fixed cavities (404) respectively, and a horizontally arranged barrier strip (405) is connected between the telescopic ends of the two first vertical electric telescopic rods (403);

the first horizontal electric telescopic rod (401) is used for controlling the first baffle (402) to move in the horizontal direction; the two first vertical electric telescopic rods (403) are used for controlling the displacement of the stop bars (405) in the vertical direction.

6. The container with the automatic door opening function and capable of tidying the aluminum materials with various specifications as claimed in claim 5, wherein: the bottom of the bin door (101) is hinged with the goods inlet through a first rotating shaft (501);

a motor cavity (502) is formed in the side wall of the box body (1) close to the goods inlet and corresponding to the first rotating shaft (501); a rotating motor (503) is arranged in the motor cavity (502), and one end of the first rotating shaft (501) can rotatably extend into the motor cavity (502) to be in transmission connection with the output end of the rotating motor (503); the rotating motor (503) is used for controlling the first rotating shaft (501) to rotate.

7. The container with the function of automatically opening the door and capable of tidying the aluminum materials with various specifications as claimed in claim 6, wherein: the inner surface of the bin door (101) is provided with a placing area, the placing area is arranged corresponding to the position between the first goods pressing plate (202) and the first baffle (402), and the placing area corresponds to the position between the two first vertical electric telescopic rods (403);

a plurality of second horizontal electric telescopic rods (601) which are perpendicular to the bin gate (101) are arranged on the placing area; the directions of the movable ends of the plurality of second horizontal electric telescopic rods (601) are the same as the direction of the movable end of the first horizontal electric telescopic rod (401); the movable ends of the second horizontal electric telescopic rods (601) are respectively provided with a second baffle (602) which is arranged in parallel to the first baffle (402); a gap is formed between every two adjacent second baffles (602);

the second horizontal electric telescopic rods (601) are used for respectively controlling the displacement of the second baffles (602) in the horizontal direction; the first horizontal electric telescopic rod (401) is arranged corresponding to the position between the motor cavity (502) and the bottom of the placing cavity (4).

8. The container with the automatic door opening function and capable of tidying the aluminum materials with various specifications as claimed in claim 7, wherein: a plurality of supporting columns (701) parallel to the second horizontal electric telescopic rod (601) are arranged on the outer surface of the bin gate (101) close to the top of the bin gate (101);

a plurality of limiting blocks (702) are respectively arranged outside the box body (1) at positions corresponding to the plurality of supporting columns (701); the limiting blocks (702) correspond to the supporting columns (701) one by one;

one side of the limiting block (702) facing the supporting column (701) is provided with a sliding cavity (703), and the other side of the limiting block (702) is connected with a supporting plate (704) arranged in parallel to the bin door (101); the limiting block (702) is sleeved on the supporting column (701) through the sliding cavity (703), and the bottom of the sliding cavity (703) is connected with the supporting column (701) through a second elastic piece (705);

the distance from the joint of the supporting column (701) and the bin gate (101) to the front surface of the supporting plate (704) is matched with the distance from the first rotating shaft (501) to the bottom of the placing chamber (4).

9. The container with the function of automatically opening the door and capable of tidying the aluminum materials with various specifications as claimed in claim 8, wherein: the lower surface of the first pressure plate (202) is provided with a friction pad (801) along the first pressure plate (202); an image sensor (802) is connected to the side wall, facing the bin door (101), of the first goods pressing plate (202); the image sensor (802) is in communication connection with two first vertical electric telescopic rods (403) and a plurality of second horizontal electric telescopic rods (601);

one surface, opposite to the inner surface of the bin door (101), of each of the second baffles (602) is provided with a first pressure sensor; the first pressure sensors correspond to the second baffles (602) one to one; the first pressure sensor is in communication connection with the second horizontal electric telescopic rod (601) connected with the second baffle (602) corresponding to the first pressure sensor;

a second pressure sensor (803) is arranged on one surface, opposite to the outer surface of the bin door (101), of the supporting plate (704); the second pressure sensor (803) is communicatively coupled to the rotating electrical machine (503).

10. The container with the function of automatically opening the door and capable of tidying the aluminum materials with various specifications as claimed in claim 9, wherein: the specification of the first pressure plate (202) and the specification of the first baffle plate (402) are matched with the specification of the placing chamber (4).

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