CN214030985U - Container vibration overturning platform - Google Patents
Container vibration overturning platform Download PDFInfo
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- CN214030985U CN214030985U CN202023102609.XU CN202023102609U CN214030985U CN 214030985 U CN214030985 U CN 214030985U CN 202023102609 U CN202023102609 U CN 202023102609U CN 214030985 U CN214030985 U CN 214030985U
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Abstract
The utility model provides a container vibration upset platform, include: a base having a frame structure; one side of the rotating frame is connected with the base pivot through a main shaft; the suspension platform comprises a first balance rod, a second balance rod and a ladder stand, wherein one end of the first balance rod is fixed at the bottom of the suspension platform, and the other end of the first balance rod is connected with one end of the second balance rod; the second balance rod is pivotally connected with the bottom of the rotating frame; one end of the ladder stand is connected with the bottom of the suspension platform; the hydraulic cylinder is connected with the base and the rotating frame; the vibrator is arranged on the base; the limiting parts are respectively arranged at four corners of the bearing surface of the rotating frame and protrude out of the bearing surface; the oil pump assembly is connected with the hydraulic cylinder; and the electric cabinet is electrically connected with the oil pump assembly and the vibrator and is used for controlling the oil pump assembly and the vibrator to work. The utility model discloses can improve and can appear the case and fill the condition that nevertheless does not reach the standard bearing when loading the less material of proportion.
Description
Technical Field
The utility model relates to a container platform, in particular to container vibration upset platform.
Background
In the field of bulk cargo container filling, when the container is filled, the container needs to be flatly placed, and a conveyor is used for filling materials into the container. The disadvantage of this process is that the bulk material cannot be filled into the container, which wastes transport resources seriously.
At present, a container overturning platform can overturn a container by 90 degrees to realize vertical packing, so that the space in the container can be fully utilized, and the space utilization rate almost reaches 100 percent, thereby overcoming the problem of loading the flat container by using a conveyor.
However, such container-turning platforms have the following disadvantages:
1. the vertical ladder is arranged on the container overturning platform, so that workers are forced to climb up and down the ladder and are dangerous when closing the container door;
2. when materials with smaller specific gravity are loaded, the case is full, but the case does not reach the standard bearing condition, so that the transportation resources are wasted;
3. the weight cannot be weighed, and the load weight cannot be grasped in time.
SUMMERY OF THE UTILITY MODEL
In order to solve the above problem, the utility model provides a container vibration upset platform, include:
a base having a frame structure;
a rotating frame, one side of which is connected with the base pivot through a main shaft;
the suspension platform comprises a first balance rod, a second balance rod and a ladder stand, wherein the second balance rod comprises a first rod part and a second rod part; one end of the first balance rod is fixed at the bottom of the suspension platform, and the other end of the first balance rod is connected with one end of the first rod part through a first pivot; the other end of the first rod part is connected with the second rod part through a second pivot, and the second rod part is connected with the bottom pivot of the rotating frame through a platform universal shaft; one end of the ladder stand is connected with the bottom of the suspension platform through a third pivot, and the ladder stand is positioned on the side of the rotating frame;
a cylinder barrel of the hydraulic cylinder is connected with the base through a turnover cylinder shaft, and a piston rod of the hydraulic cylinder is connected with the rotating frame through a piston rod shaft;
the vibrators are arranged on the base and are respectively positioned on two sides of the rotating frame in a vertical state together with the hydraulic cylinder; the vertical state refers to a state when the bearing surface of the rotating frame is vertical to the plane where the base is located;
the limiting parts are respectively arranged at four corners of the bearing surface of the rotating frame and protrude out of the bearing surface;
the oil pump assembly is connected with the hydraulic cylinder and comprises an oil pump and an oil pump motor; and
and the electric cabinet is electrically connected with the oil pump assembly and the vibrator and is used for controlling the oil pump assembly and the vibrator to work.
The preferred scheme is as follows: one side of the bottom of the suspension platform facing the ladder stand is connected with the other side of the rotating frame through a fourth pivot.
The preferred scheme is as follows: the first balance rod is of a tripod structure, and the vertex angle of the tripod structure is connected with one end of the first rod part through the first pivot.
The preferred scheme is as follows: a sliding rail is arranged on the side face of the base, which is on the same side as the crawling ladder; the other end of the ladder stand is provided with a pulley; the pulley sets up on the slide rail.
The preferred scheme is as follows: limiting blocks are arranged at two ends of the sliding rail; when the rotating frame is in the vertical state, the length of the slide rail enables the included angle between the ladder stand and the plane where the slide rail is located to be smaller than 90 degrees.
The preferred scheme is as follows: the vibrator is a vibrating motor.
The preferred scheme is as follows: the frame structure and the rotating frame are welded by pipe frames; the pipe support is provided with a sealing cavity.
The preferred scheme is as follows: and a drain hole is formed in the sealed cavity.
The preferred scheme is as follows: the container vibration overturning platform further comprises a weighing device, and the weighing device is arranged on the bearing surface of the rotating frame; the bearing surface is used for supporting the container of the rotating frame.
The preferred scheme is as follows: the container vibration overturning platform further comprises an electromagnetic locking part and a horizontal sensor; the electric control box is electrically connected with the electromagnetic locking component and the horizontal sensor and is used for controlling the electromagnetic locking component to lock the container when the horizontal sensor detects that the rotating frame is not in the horizontal position.
The utility model has the advantages as follows:
1. the upper ladder and the lower ladder of the container overturning platform have the gradient less than 90 degrees, so that the strength of workers in the process of closing the box door is greatly reduced, and the danger of the upper ladder and the lower ladder is reduced compared with a vertical ladder;
2. weighing in real time in the process of loading materials, and further timely mastering the loading weight;
3. the container can be filled when materials with smaller specific gravity are loaded, but the situation that the materials do not reach standard bearing is achieved, more canning space is vacated through vibrating the container, so that the space of the container is utilized to the maximum extent, and the waste of transportation resources is avoided.
Drawings
Fig. 1 is a front view of the container vibration turning platform in an open state according to the present invention;
fig. 2 is a side view of the container vibration turning platform provided by the present invention in an open state;
fig. 3 is a top view of the container vibration turning platform provided by the present invention in an open state;
figure 4 is the utility model provides a side view of container vibration upset platform under receiving and releasing state, and
fig. 5 is the utility model provides a container vibration platform's under the state of receiving and releasing plan view.
Detailed Description
The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.
It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.
As shown in fig. 1 to 5, the utility model provides a container vibration upset platform, include:
a base 1 having a frame structure;
a rotating frame 3, one side of which is pivotally connected with the base 1 through a main shaft 8;
a floating platform 6 comprising a first balance bar 7, a second balance bar 12 and a ladder 2, wherein the second balance bar 4 comprises a first bar part 41 and a second bar part 42; one end of the first balance bar 7 is fixed at the bottom of the suspension platform 6, and the other end of the first balance bar 7 is connected with one end of the first bar part 41 through a first pivot 13; the other end of the first rod part 41 is connected with the second rod part 42 through a second pivot 14 (as shown in fig. 2), and the second rod part 42 is connected with the bottom pivot of the rotating frame 3 through a platform universal shaft 9; one end of the ladder stand 2 is connected with the bottom of the suspension platform 6 through a third pivot 15 (as shown in fig. 2), and the ladder stand 2 is positioned on the side of the rotating frame 3;
a cylinder barrel of the hydraulic cylinder 51 is connected with the base 1 through a turnover cylinder shaft 16, and a piston rod 52 of the hydraulic cylinder 5 is connected with the rotating frame 3 through a piston rod shaft 17;
the vibrator 11 is arranged on the base 1 and is respectively positioned on two sides of the rotating frame 3 in a vertical state together with the hydraulic cylinder 5; the vertical state refers to a state that the bearing surface of the rotating frame 3 is vertical to the plane where the base 1 is located;
a plurality of position limiting members 18 respectively disposed at four corners of the bearing surface of the rotating frame 3 and protruding from the bearing surface;
the oil pump assembly (not shown) is connected with the hydraulic cylinder 5, comprises an oil pump and an oil pump motor and is used for driving the hydraulic cylinder 5 to overturn the overturning frame 3 so that the overturning frame 3 overturns between 0 and 90 degrees; and
and an electric control box (not shown) electrically connected to the oil pump assembly and the vibrator 11 for controlling the oil pump assembly and the vibrator 11 to operate.
In some embodiments, the frame structure is welded from a pipe rack. Wherein, the pipe support has sealed cavity. Optionally, a drain hole is formed in the sealed box body.
In some embodiments the side of the bottom of the suspended platform 6 facing the ladder 2 is connected to the other side of the swivel frame 3 by a fourth pivot 19.
In some embodiments, the first balance bar 7 is a tripod structure, and a vertex angle of the tripod structure is connected to one end of the first bar part 5 through the first pivot 13. Because the stability of triangle structure is better, so with first balancing pole 7 sets up to tripod structure, can be for suspension platform provides more stable support to guarantee staff's safety better.
In some embodiments, the side surface of the base 1 on the same side as the ladder stand 2 is provided with a slide rail 20; the other end of the ladder stand 2 is provided with a pulley 21; the pulley 21 is disposed on the slide rail 20.
In some embodiments, the two ends of the slide rail 20 are provided with a limiting block (not shown) for limiting the distance of the pulley 21, so as to further limit the included angle between the ladder stand 2 and the slide rail 20 to be greater than 0 ° and smaller than 90 °, specifically, when the swivel mount 3 is in the vertical state, the length of the slide rail 20 is such that the included angle between the ladder stand 2 and the plane where the slide rail 20 is located is smaller than 90 °. Therefore, the strength and the danger of the ladder stand of the worker can be greatly reduced.
In some embodiments, the vibrator 11 is a vibration motor.
In some embodiments, the container shaking and overturning platform further comprises a weighing device (not shown) disposed on the bearing surface of the rotating frame 3; the bearing surface is used for supporting the container of the rotating frame. Optionally, the weighing apparatus has a precision rating of C3.
In some embodiments, the container vibratory flipping platform further comprises an electromagnetic locking component and a level sensor (not shown). The electric control box is electrically connected with the electromagnetic locking component and the horizontal sensor and is used for controlling the electromagnetic locking component to lock the container when the horizontal sensor detects that the rotating frame is not in the horizontal position. Alternatively, as an implementation form of the electromagnetic locking component, a cross beam 22 and a longitudinal beam 23 (shown in fig. 5) of the rotating frame may be provided as an electromagnet.
The operation of the present invention will be described with reference to the accompanying drawings.
With the hydraulic cylinder 5 in a retracted state, i.e., the rotary frame 3 in a retracted state, a container 24 is placed on the rotary frame 3 using a spreader or a special vehicle.
And starting the oil pump assembly through the electric cabinet, and controlling the hydraulic cylinder 5 to rotate the roll-over stand 3. At the moment, the horizontal sensor senses that the turning angle of the turning frame 3 is larger than 0 degree, the electric cabinet starts the electromagnetic locking component to lock the container 24 on the turning frame 3, and accidents such as container falling and the like caused by misoperation of workers are avoided.
When the roll-over stand 3 reaches a vertical state (the bearing surface of the roll-over stand 3 and the plane where the base 1 is located form an angle of 90 degrees), the oil pump assembly is closed, and the roll-over stand 3 stops turning over. At this point, filling of the container 24 with material may begin.
The container 24 may be weighed by a weighing device while being filled. When the nominal weight is not reached after the bin is full, the vibrator 11 may be activated to vibrate the container 24, thereby freeing up more space for filling until the nominal weight is reached, or there is no excess space.
Through using the utility model provides a container vibration upset platform can realize following beneficial effect:
1. the upper ladder and the lower ladder of the container overturning platform have the gradient less than 90 degrees, so that the strength of workers in the process of closing the box door is greatly reduced, and the danger of the upper ladder and the lower ladder is reduced compared with a vertical ladder;
2. weighing in real time in the process of loading materials, and further timely mastering the loading weight;
3. the container can be filled when materials with smaller specific gravity are loaded, but the situation that the materials do not reach standard bearing is achieved, more canning space is vacated through vibrating the container, so that the space of the container is utilized to the maximum extent, and the waste of transportation resources is avoided.
While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.
Claims (10)
1. Container vibration upset platform, its characterized in that includes:
a base having a frame structure;
a rotating frame, one side of which is connected with the base pivot through a main shaft;
the suspension platform comprises a first balance rod, a second balance rod and a ladder stand, wherein the second balance rod comprises a first rod part and a second rod part; one end of the first balance rod is fixed at the bottom of the suspension platform, and the other end of the first balance rod is connected with one end of the first rod part through a first pivot; the other end of the first rod part is connected with the second rod part through a second pivot, and the second rod part is connected with the bottom pivot of the rotating frame through a platform universal shaft; one end of the ladder stand is connected with the bottom of the suspension platform through a third pivot, and the ladder stand is positioned on the side of the rotating frame;
a cylinder barrel of the hydraulic cylinder is connected with the base through a turnover cylinder shaft, and a piston rod of the hydraulic cylinder is connected with the rotating frame through a piston rod shaft;
the vibrators are arranged on the base and are respectively positioned on two sides of the rotating frame in a vertical state together with the hydraulic cylinder; the vertical state refers to a state when the bearing surface of the rotating frame is vertical to the plane where the base is located;
the limiting parts are respectively arranged at four corners of the bearing surface of the rotating frame and protrude out of the bearing surface;
the oil pump assembly is connected with the hydraulic cylinder and comprises an oil pump and an oil pump motor; and
and the electric cabinet is electrically connected with the oil pump assembly and the vibrator and is used for controlling the oil pump assembly and the vibrator to work.
2. The container vibration and overturning platform of claim 1, wherein the side of the bottom of the floating platform facing the ladder is connected to the other side of the rotating frame by a fourth pivot.
3. A container vibration and overturning platform as claimed in claim 1 or 2, wherein said first balance bar is a tripod structure, and the top corner of said tripod structure is connected with one end of said first bar part by said first pivot.
4. The container vibration and turnover platform of claim 1 or 2, wherein the base is provided with a slide rail on the same side as the ladder; the other end of the ladder stand is provided with a pulley; the pulley sets up on the slide rail.
5. The container vibration and turnover platform of claim 4, wherein the two ends of the slide rails are provided with limit blocks; when the rotating frame is in the vertical state, the length of the slide rail enables the included angle between the ladder stand and the plane where the slide rail is located to be smaller than 90 degrees.
6. The container vibratory turning platform of claim 1 wherein the vibrator is a vibration motor.
7. A container vibration and overturning platform according to any one of claims 1, 2, 5 and 6, wherein the frame structure and the rotating frame are welded by pipe frames; the pipe support is provided with a sealing cavity.
8. The container vibration and overturning platform of claim 7, wherein the sealed cavity is provided with a drain hole.
9. The container vibratory turning platform of claim 1 further comprising a weighing device disposed on a bearing surface of the swivel frame; the bearing surface is used for supporting the container of the rotating frame.
10. The container vibratory turning platform of claim 1 further comprising an electromagnetic locking member and a level sensor; the electric control box is electrically connected with the electromagnetic locking component and the horizontal sensor and is used for controlling the electromagnetic locking component to lock the container when the horizontal sensor detects that the rotating frame is not in the horizontal position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023102609.XU CN214030985U (en) | 2020-12-21 | 2020-12-21 | Container vibration overturning platform |
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CN202023102609.XU CN214030985U (en) | 2020-12-21 | 2020-12-21 | Container vibration overturning platform |
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CN214030985U true CN214030985U (en) | 2021-08-24 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114644243A (en) * | 2020-12-21 | 2022-06-21 | 开原市凯峰机械有限公司 | Container vibration overturning platform |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114644243A (en) * | 2020-12-21 | 2022-06-21 | 开原市凯峰机械有限公司 | Container vibration overturning platform |
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