CN214826926U - Large-scale protecting against shock turns over base device - Google Patents

Abstract

The utility model provides a large-scale protecting against shock blank turning device, includes the base, installs two sets of rotary drive device on the base, and the first returning face plate of several and several second returning face plate are connected respectively to two sets of rotary drive device's rotatory end, the utility model discloses buffer board, couple board, buffer have been add on the second returning face plate, at the in-process that turns over the blank to let the blank can transition to the second returning face plate gently on, avoid the blank to produce too big striking with the returning face plate that does not carry the blank, avoid leading to returning face plate and blank to damage easily, then let two sets of rotary drive device drive first returning face plate and second returning face plate continue rotatoryly, turn into the figure state from the figure state, realize turning over the blank operation.

Description

Large-scale protecting against shock turns over base device

Technical Field

The utility model relates to a turn over base device, more exactly a large-scale protecting against shock turns over base device.

Background

When the large-scale impact-resistant blank turning device is used for turning blanks, the turnover plates on two sides are rotated to the vertical direction synchronously, then the turnover plates which do not carry the blanks are close to the turnover plates which carry the blanks, then the two turnover plates are rotated to one side of the turnover plates which do not carry the blanks synchronously, the blanks fall on the turnover plates which do not carry the blanks under the action of gravity, and in the process, the blanks are easy to generate impact with the turnover plates which do not carry the blanks, so that the turnover plates and the blanks are easy to damage.

Disclosure of Invention

The utility model aims at providing a large-scale protecting against shock turns over base device, can add buffer board, couple board, buffer on the second returning face plate, in the course of turning over the base, first returning face plate carrier blank, the second returning face plate is rotated to vertical direction in step, then first returning face plate and second returning face plate continue to rotate, the couple board of buffer board lower part hooks the lower part of blank at this moment, the weight of blank pushes down the couple board at this moment, and then drive the buffer board and produce the small amplitude rotation along the pivot, and then let the buffer board drive the buffer and compress, thereby let the blank can transition to the second returning face plate gently, avoid the blank and the returning face plate that does not carry the blank to produce too big striking, avoid resulting in returning face plate and blank to damage easily, then let two sets of rotation driving device drive first returning face plate and second returning face plate continue to rotate, and the blank turning operation is realized.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme:

the utility model provides a large-scale protecting against shock turns over base device, which comprises a base, install two sets of rotary drive device on the base, the first returning face plate of several and several second returning face plate are connected respectively to two sets of rotary drive device's rotatory end, the layer board is connected to one side of first returning face plate, the lateral part installation buffer board of second returning face plate, the buffer board is located between two adjacent second returning face plates, the pivot is connected to the buffer board user, the buffer board is connected with the second returning face plate through the pivot, the buffer board can rotate along the pivot on the second returning face plate, install the buffer between one side of buffer board and one side of second returning face plate, the both ends of buffer are articulated with buffer board and second returning face plate respectively, the couple board is connected to the opposite side of buffer board.

In order to further realize the purpose of the utility model, the hook plate can be positioned at one side of the second turnover plate close to the first turnover plate.

A limiting device is installed on one side of the buffer plate and comprises a detection pipe and a detection pipe, a screw hole is formed in the detection pipe, the detection pipe is connected with a limiting bolt through screw threads, and the end portion of a screw rod of the limiting bolt can be matched with the side portion of the first turnover plate.

The damper may be a spring damper or a hydraulic damper.

The utility model has the advantages that: the utility model discloses buffer board has been add on the second returning face plate, the couple board, the buffer, at the in-process that turns over the base, first returning face plate carrier blank, the second returning face plate is rotatory to vertical direction in step, then first returning face plate and second returning face plate continue to rotate, the lower part of blank is hooked to the couple board of buffer board lower part this moment, the weight of blank is pressed down and is moved the couple board this moment, and then it produces the small size rotation along the pivot to drive the buffer board, and then let the buffer board drive the buffer compression, thereby let the blank can pass through on the second returning face plate gently, avoid blank and the returning face plate that does not carry the blank to produce too big striking, avoid resulting in returning face plate and blank to damage easily, then let two sets of rotary drive device drive first returning face plate and second returning face plate continue to rotate, the realization turns over the base operation.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is one of the schematic structural diagrams of the present invention;

fig. 2 is a second schematic structural diagram of the present invention;

fig. 3 is a third schematic structural diagram of the present invention;

FIG. 4 is a fourth schematic structural diagram of the present invention;

FIG. 5 is a fifth schematic view of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 3 from direction A;

FIG. 7 is an enlarged view of the structure of FIG. 3 from the direction B;

fig. 8 is a schematic structural diagram of a buffer.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1:

a large-scale impact-resistant blank turning device is shown in figures 1-8 and comprises a base 3, wherein two sets of rotary driving devices are installed on the base 3, the rotary ends of the two sets of rotary driving devices are respectively connected with a plurality of first turning plates 2 and a plurality of second turning plates 13, one side of each first turning plate 2 is connected with a support plate 1, the lateral parts of the second turning plates 13 are provided with buffer plates 4, each buffer plate 4 is located between two adjacent second turning plates 13, a rotating shaft 7 is connected with a user of each buffer plate 4, each buffer plate 4 is connected with the corresponding second turning plate 13 through the corresponding rotating shaft 7, each buffer plate 4 can rotate on the corresponding second turning plate 13 along the corresponding rotating shaft 7, a buffer 5 is installed between one side of each buffer plate 4 and one side of the corresponding second turning plate 13, two ends of each buffer 5 are respectively hinged with the corresponding buffer plate 4 and the corresponding second turning plate 13, and the other side of each buffer plate 4 is connected with a hook plate 6.

The utility model adds the buffer board 4, the hook board 6 and the buffer 5 on the second turnover board 13, in the process of turning over the blank, the blank of the first turnover board 2 and the second turnover board 13 rotate to the vertical direction synchronously, the state of figure 2 is converted into the state of figure 3, then the first turnover board 2 and the second turnover board 13 rotate continuously, the state of figure 3 is converted into the state of figure 4, the hook board 6 at the lower part of the buffer board 4 hooks the lower part of the blank, the weight of the blank presses the hook board 6 downwards, the buffer board 4 is driven to rotate along the rotating shaft 7 in a small amplitude, the buffer board 4 drives the buffer 5 to compress, thereby the blank can be transited to the second turnover board 13 gently, the blank is prevented from generating too large impact with the turnover board which does not carry the blank, the turnover board and the blank are prevented from being damaged easily, then two sets of rotary driving devices drive the first turnover board 2 and the second turnover board 13 to rotate continuously, and (5) converting from the state of fig. 4 to the state of fig. 5 to realize the blank turning operation.

Material selection and feasibility analysis of specific implementation of application range: the practical manufactured sample is implemented by taking the specification attached drawing as a drawing according to the proportion and the matching mode of each part in the specification attached drawing, the connection is a common connection mode such as a connection of a strong adhesive, a welding, riveting and a flange connection and an integral forming type connection, and the thickness and the strength of a corresponding connection mode connection point can be selected without creativity according to the requirement of practical connection strength during practical manufacturing. The rotary driving device adopts the rotary driving device of the prior blank turning device, and the rotary driving device can drive the first turning plate 2 and the second turning plate 13 to rotate.

Example 2:

a large-scale impact-resistant blank turning device is shown in figures 1-8 and comprises a base 3, wherein two sets of rotary driving devices are installed on the base 3, the rotary ends of the two sets of rotary driving devices are respectively connected with a plurality of first turning plates 2 and a plurality of second turning plates 13, one side of each first turning plate 2 is connected with a support plate 1, the lateral parts of the second turning plates 13 are provided with buffer plates 4, each buffer plate 4 is located between two adjacent second turning plates 13, a rotating shaft 7 is connected with a user of each buffer plate 4, each buffer plate 4 is connected with the corresponding second turning plate 13 through the corresponding rotating shaft 7, each buffer plate 4 can rotate on the corresponding second turning plate 13 along the corresponding rotating shaft 7, a buffer 5 is installed between one side of each buffer plate 4 and one side of the corresponding second turning plate 13, two ends of each buffer 5 are respectively hinged with the corresponding buffer plate 4 and the corresponding second turning plate 13, and the other side of each buffer plate 4 is connected with a hook plate 6. The hook plate 6 is positioned at one side of the second turnover plate 13 close to the first turnover plate 2.

The utility model discloses a hanger plate 6 is located one side that second returning face plate 13 is close to first returning face plate 2 and can makes things convenient for hanger plate 6 to hang the bottom of blank.

Example 3:

a large-scale impact-resistant blank turning device is shown in figures 1-8 and comprises a base 3, wherein two sets of rotary driving devices are installed on the base 3, the rotary ends of the two sets of rotary driving devices are respectively connected with a plurality of first turning plates 2 and a plurality of second turning plates 13, one side of each first turning plate 2 is connected with a support plate 1, the lateral parts of the second turning plates 13 are provided with buffer plates 4, each buffer plate 4 is located between two adjacent second turning plates 13, a rotating shaft 7 is connected with a user of each buffer plate 4, each buffer plate 4 is connected with the corresponding second turning plate 13 through the corresponding rotating shaft 7, each buffer plate 4 can rotate on the corresponding second turning plate 13 along the corresponding rotating shaft 7, a buffer 5 is installed between one side of each buffer plate 4 and one side of the corresponding second turning plate 13, two ends of each buffer 5 are respectively hinged with the corresponding buffer plate 4 and the corresponding second turning plate 13, and the other side of each buffer plate 4 is connected with a hook plate 6. A limiting device is installed on one side of the buffer plate 4 and comprises a detection pipe 8, the detection pipe 8 is provided with a screw hole, the detection pipe 8 is connected with a limiting bolt 9 through screw threads, and the end part of a screw rod of the limiting bolt 9 can be matched with the side part of the first turnover plate 2.

The utility model discloses a stop device can make things convenient for operating personnel to adjust the maximum amplitude of oscillation of buffer board 4 through the mode of rotating spacing bolt 9.

Example 4:

a large-scale impact-resistant blank turning device is shown in figures 1-8 and comprises a base 3, wherein two sets of rotary driving devices are installed on the base 3, the rotary ends of the two sets of rotary driving devices are respectively connected with a plurality of first turning plates 2 and a plurality of second turning plates 13, one side of each first turning plate 2 is connected with a support plate 1, the lateral parts of the second turning plates 13 are provided with buffer plates 4, each buffer plate 4 is located between two adjacent second turning plates 13, a rotating shaft 7 is connected with a user of each buffer plate 4, each buffer plate 4 is connected with the corresponding second turning plate 13 through the corresponding rotating shaft 7, each buffer plate 4 can rotate on the corresponding second turning plate 13 along the corresponding rotating shaft 7, a buffer 5 is installed between one side of each buffer plate 4 and one side of the corresponding second turning plate 13, two ends of each buffer 5 are respectively hinged with the corresponding buffer plate 4 and the corresponding second turning plate 13, and the other side of each buffer plate 4 is connected with a hook plate 6. The damper 5 may be a spring damper or a hydraulic damper.

The utility model discloses a spring buffer includes buffer beam 10 and buffer tube 11, and buffer tube 11 is the tubular structure that one end was sealed, and the open end and the buffer beam 10 of buffer tube 11 are pegged graft and are cooperated, and the internal connection spring 12 of buffer tube 11, the one end of spring 12 and the seal end inboard of buffer tube 11 are connected, and the other end and the buffer beam 10 of spring 12 are connected, and the tip of buffer beam 10 and the seal end of buffer tube 11 are articulated with second returning face plate 13 and buffer board 4 respectively.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention.

Claims (4)

1. The utility model provides a large-scale protecting against shock turns over base device which characterized in that: comprises a base (3), wherein two sets of rotary driving devices are arranged on the base (3), the rotary ends of the two sets of rotary driving devices are respectively connected with a plurality of first turnover plates (2) and a plurality of second turnover plates (13), one side of each first turnover plate (2) is connected with a supporting plate (1), the side parts of the second turnover plates (13) are provided with buffer plates (4), each buffer plate (4) is positioned between two adjacent second turnover plates (13), a user of each buffer plate (4) is connected with a rotating shaft (7), each buffer plate (4) is connected with each second turnover plate (13) through the rotating shaft (7), each buffer plate (4) can rotate on each second turnover plate (13) along the rotating shaft (7), a buffer (5) is arranged between one side of each buffer plate (4) and one side of each second turnover plate (13), and two ends of each buffer (5) are respectively hinged with the buffer plates (4) and the second turnover plates (13), the other side of the buffer plate (4) is connected with a hook plate (6).

2. A large-scale impact-resistant blank turning device according to claim 1, characterized in that: the hook plate (6) is positioned on one side of the second turnover plate (13) close to the first turnover plate (2).

3. A large-scale impact-resistant blank turning device according to claim 1, characterized in that: a limiting device is installed on one side of the buffer plate (4), the limiting device comprises a detection pipe (8), the detection pipe (8) is provided with a screw hole, the detection pipe (8) is connected with a limiting bolt (9) through screw threads, and the end portion of a screw rod of the limiting bolt (9) can be matched with the side portion of the first turnover plate (2).

4. A large-scale impact-resistant blank turning device according to claim 1, characterized in that: the damper (5) may be a spring damper or a hydraulic damper.

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