CN220115569U - Screening and discharging mechanism - Google Patents

Abstract

The utility model discloses a screening and blanking mechanism, which relates to the field of blanking devices and comprises a screening and blanking mechanism, wherein the screening and blanking mechanism comprises a machine body, the machine body is provided with an extension rod I, an extension rod II and a bearing part, the extension rod I is positioned at one end of the bearing part, and the extension rod II is positioned at one end of the bearing part far away from the extension rod I; the bearing part is provided with a lifting gear which is meshed with a lifting rack I and a lifting rack II, the axial direction of the lifting gear is in a horizontal direction and is perpendicular to the extending direction of the bearing part, and the moving direction of the lifting rack I and the lifting rack II is in a vertical direction; the lifting rack I is connected with a first inclined plate which extends upwards in a direction away from the second extension rod, the lifting rack II is connected with a second inclined plate which extends upwards in a direction away from the first extension rod; the machine body is also provided with a first driving part which drives the lifting gear to rotate; through the mode, the pipe fitting separation is convenient, the inconvenience of manual separation is reduced, and the integral degree of automation is improved.

Description

Screening and discharging mechanism

Technical Field

The utility model relates to the field of blanking devices, in particular to a screening and blanking mechanism.

Background

The magnetic flaw detection is a method for recording and displaying defects by utilizing magnetic powder, magnetic tape or other magnetic field measurement methods, wherein magnetic flux density changes caused by surface and near-surface defects of ferromagnetic materials, and leakage magnetic fields are generated on the surface during magnetization.

After screening of qualified pipe fittings and unqualified pipe fittings through magnetization flaw detection, the separation and collection of the qualified pipe fittings and the unqualified pipe fittings are needed, the separation of the existing pipe fittings is often carried out manually, and the separation is inconvenient and needs to be improved.

Disclosure of Invention

In order to solve the problem that manual pipe fitting screening is inconvenient, the utility model provides a screening and blanking mechanism.

The utility model provides a screening and blanking mechanism, which adopts the following technical scheme:

the screening and blanking mechanism comprises a machine body, wherein the machine body is provided with a first extension rod, a second extension rod and a bearing part, the first extension rod is positioned at one end of the bearing part, and the second extension rod is positioned at one end of the bearing part far away from the first extension rod; the bearing part is provided with a lifting gear, the lifting gear is meshed with a lifting rack I and a lifting rack II, the axial direction of the lifting gear is in a horizontal direction and is perpendicular to the extending direction of the bearing part, and the moving direction of the lifting rack I and the lifting rack II is in a vertical direction; the lifting rack I is connected with a first inclined plate, the first inclined plate extends upwards in a direction away from the second extension rod, the lifting rack II is connected with a second inclined plate, and the second inclined plate extends upwards in a direction away from the first extension rod; the machine body is also provided with a first driving part which drives the lifting gear to rotate.

According to the technical scheme, through arranging the lifting rack I, the inclined plate and other components, when the driving piece I drives the lifting gear to rotate, the lifting gear rotates to enable the lifting rack I to drive the inclined plate I to move upwards, at the moment, the lifting rack II drives the inclined plate II to move downwards, at the moment, the pipe fitting is supported by the inclined plate I, and because the inclined plate I is arranged in a non-horizontal mode, the pipe fitting moves along the inclined direction of the inclined plate I and moves to the extending plate II; when the lifting gear drives the lifting rack II to move upwards, the pipe fitting moves to the extension plate I along the inclined direction of the inclined plate II; through the mode, the pipe fitting separation is convenient, the inconvenience of manual separation is reduced, and the integral degree of automation is improved.

Further, the bearing part is provided with a roller, the axis of the roller is parallel to the axis of the lifting gear, and the roller is used for supporting the pipe fitting.

Through above-mentioned technical scheme, in the in-service use, need remove the pipe fitting along the axis direction of lifting gear, until the pipe fitting is located the carrier part top completely, consequently set up the commentaries on classics roller, and commentaries on classics roller axis and lifting gear axis are parallel, drive the slip through the roll, reduce the friction that the pipe fitting removed, the removal of the pipe fitting of being convenient for.

Further, the bearing part is provided with a second driving piece, and the second driving piece drives the rotating roller to rotate.

Through above-mentioned technical scheme, set up driving piece two, through driving piece two drive commentaries on classics roller rotation, the removal of the control pipe fitting of being convenient for has promoted holistic degree of automation.

Further, the first extension rod and the second extension rod are obliquely arranged, the first extension rod extends downwards along the direction away from the bearing part, and the second extension rod extends downwards along the direction away from the bearing part.

Through the technical scheme, the qualified pipe fitting or the unqualified pipe fitting after screening moves along the first extending rod and the second extending rod which are obliquely arranged, so that the subsequent pipe fitting collection is facilitated, and the whole operation is more convenient.

Further, the first extension rod and the second extension rod are both provided with limiting blocks, and the limiting blocks limit the pipe fitting to be separated from the first extension rod and the second extension rod.

Through above-mentioned technical scheme, set up the stopper, through the removal of stopper restriction pipe fitting along extension pole one or extension pole two, the staff of being convenient for carries out the collection of pipe fitting.

Further, the bearing part is provided with a positioning block, the positioning block is positioned on the upper end face of the bearing part, and the positioning block limits the pipe fitting to be separated from the bearing part along the length direction of the bearing part.

Through above-mentioned technical scheme, set up the locating piece, limit the pipe fitting fast along carrying portion length direction break away from carrying portion through the point position, limit the excessive removal of pipe fitting, be convenient for process.

Further, the bearing part is provided with a fixing frame, the fixing frame is positioned at one end of the bearing part, which is away from the positioning block, the driving piece I comprises a cylinder, one end of the cylinder is hinged with the fixing frame, and the other end of the cylinder is hinged with a connecting rod; the lifting gear comprises a gear body and a gear shaft lever, and the connecting rod is hinged to the gear shaft lever.

Through above-mentioned technical scheme, set up the mount, carry out lifting gear pivoted control through the cylinder, the lift of cylinder contracts the removal that drives the connecting rod, and the removal of connecting rod drives gear axostylus axostyle and rotates to make lifting gear control lifting rack one and lifting rack two remove, promoted holistic degree of automation.

Further, the bearing part is provided with a limiting frame, the limiting frame is abutted against one end of the lifting rack, which is far away from the lifting gear, and the lifting rack is slipped on the limiting frame.

Through the technical scheme, the limiting frame is arranged, the first lifting rack slides in the limiting frame, the limiting frame has the effect of limiting the first lifting rack to move towards one side far away from the lifting gear, and the separation condition of the first lifting rack and the lifting gear is reduced.

In summary, the present utility model includes at least one of the following beneficial technical effects:

(1) By arranging the lifting rack I, the inclined plate I and the like, the pipe fitting separation is facilitated, the inconvenience of manual separation is reduced, and the integral automation degree is improved;

(2) The rotating roller is arranged, the axis of the rotating roller is parallel to the axis of the lifting gear, and the rotating roller is driven to slide by rolling, so that the friction of the movement of the pipe fitting is reduced, and the movement of the pipe fitting is facilitated;

(3) Through setting up the mount, carry out lifting gear pivoted control through the cylinder, the lift of cylinder contracts and drives the removal of connecting rod, and the removal of connecting rod drives gear axostylus axostyle and rotates to make lifting gear control lifting rack one and lifting rack two remove, promoted holistic degree of automation.

Drawings

Fig. 1 is an overall schematic of an embodiment.

Fig. 2 is a partial schematic view of an embodiment.

Reference numerals: 1. a body; 2. an extension rod I; 3. an extension rod II; 4. a carrying part; 5. a limiting block; 6. lifting the gear; 61. a gear body; 62. a gear shaft; 7. a limiting frame; 8. lifting the first rack; 9. lifting the second rack; 10. an inclined plate I; 11. an inclined plate II; 12. a first driving member; 13. a fixing frame; 14. a connecting rod; 141. a first connecting rod; 142. a second connecting rod; 15. a positioning block; 16. a rotating roller; 17. and a second driving piece.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The embodiment of the utility model discloses a screening and blanking mechanism.

Examples:

referring to fig. 1, a screening and blanking mechanism includes a machine body 1, wherein the machine body 1 is provided with an extension rod 1, an extension rod 2, an extension rod 3 and a bearing part 4, the extension rod 2 is located at one end of the bearing part 4, and the extension rod 3 is located at one end of the bearing part 4 far away from the extension rod 2. The first extension rod 2 extends downward in a direction away from the carrying portion 4, and the second extension rod 3 extends downward in a direction away from the carrying portion 4. The first extension rod 2 and the second extension rod 3 are respectively provided with a limiting block 5, and the limiting block 5 of the first extension rod 2 is positioned on the upper end face of the first extension rod 2 and is positioned on one side of the first extension rod 2 far away from the bearing part 4. The limiting block 5 of the second extension rod 3 is positioned on the upper end face of the second extension rod 3 and positioned on one side of the second extension rod 3 far away from the bearing part 4. The limiting block 5 of the first extension rod 2 is used for limiting the pipe fitting to be separated from the first extension rod 2, and the limiting block 5 of the second extension rod 3 is used for limiting the pipe fitting to be separated from the second extension rod 3.

Referring to fig. 1 and 2, the carrying portion 4 is provided with a lift gear 6, the lift gear 6 includes a gear body 61 and a gear shaft 62, an axial direction of the gear shaft 62 is a horizontal direction, and the axial direction of the gear shaft 62 is perpendicular to a length direction of the carrying portion 4. The bearing part 4 is provided with limiting frames 7, each lifting gear 6 corresponds to two limiting frames 7, and the two limiting frames 7 are respectively positioned at two sides of the axis direction of the lifting gear 6. One limiting frame 7 slides and has lifting rack one 8, and the slip direction of lifting rack one 8 is vertical direction, and lifting rack meshes in lifting gear 6. The other limiting frame 7 slides a lifting rack II 9, the sliding direction of the lifting rack II 9 is the vertical direction, and the lifting rack II 9 is meshed with the lifting gear 6.

The lifting rack I8 is connected with a first inclined plate 10, the first inclined plate 10 is positioned at one end of the lifting rack I8 away from the lifting gear 6, the height of the upper end face of the first inclined plate 10 is higher than that of the upper end face of the lifting rack I8, and the first inclined plate 10 extends upwards along the direction away from the second extension rod 3. The lifting rack II 9 is connected with a tilting plate II 11, the tilting plate II 11 is located the lifting rack II 9 and keeps away from the one end of lifting gear 6, and the height of the upper end face of the tilting plate II 11 is higher than the height of the upper end face of the lifting rack I8, and the tilting plate II 11 upwards extends along the direction of keeping away from the extension rod I2.

The machine body 1 is also provided with a first driving part 12, and the first driving part 12 is used for driving the lifting gear 6 to rotate. In actual use, the first driving part 12 is an air cylinder, the bearing part 4 is provided with a fixing frame 13, the fixing frame 13 is positioned on the lower end face of the bearing part 4, one end of the air cylinder is hinged to the fixing frame 13, and the other end of the air cylinder is hinged to a connecting rod 14. The connecting rod 14 includes a first connecting rod 141 and a second connecting rod 142, one end of the first connecting rod 141 is hinged to the cylinder, the other end is hinged to the second connecting rod 142, and the second connecting rod 142 is hinged to the gear shaft 62. When the cylinder is extended, the connecting rod 14 moves to rotate the gear shaft 62 and control the lifting rack one 8 and the lifting rack two 9 to move. In other embodiments, the first driver 12 may also be a motor that drives the rotation of the gear shaft 62.

The bearing part 4 is provided with a positioning block 15, the positioning block 15 is positioned on the upper end surface of the bearing part 4, and the positioning block 15 is used for limiting the pipe fitting to be separated from the bearing part 4 along the length direction of the bearing part 4. The carrier part 4 is provided with a roller 16, the axis of the roller 16 is parallel to the axis of the lifting gear 6, and the roller 16 is used for supporting the pipe. The bearing part 4 is provided with a second driving piece 17, and the second driving piece 17 drives the rotating roller 16 to rotate. In practical use, the second driving member 17 is a motor, and the motor can drive the rotating roller 16 to rotate through belt transmission, alternatively, the motor can also be directly connected to control the rotation of the rotating roller 16.

The working principle of the embodiment is as follows:

in actual use, the first driving member 12 drives the lifting gear 6 to rotate, and when the lifting rack 8 moves upwards, the inclined plate 10 moves the pipe towards the second extending rod 3. When the lifting rack II 9 moves upwards, the inclined plate II 11 moves upwards so that the pipe fitting moves towards the first extension rod 2.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a screening unloading mechanism, includes organism (1), its characterized in that: the machine body (1) is provided with an extension rod I (2), an extension rod II (3) and a bearing part (4), wherein the extension rod I (2) is positioned at one end of the bearing part (4), and the extension rod II (3) is positioned at one end of the bearing part (4) far away from the extension rod I (2); the bearing part (4) is provided with a lifting gear (6), the lifting gear (6) is meshed with a lifting rack I (8) and a lifting rack II (9), the axial direction of the lifting gear (6) is in a horizontal direction and is perpendicular to the extending direction of the bearing part (4), and the moving direction of the lifting rack I (8) and the lifting rack II (9) is in a vertical direction;

the lifting rack I (8) is connected with a first inclined plate (10), the first inclined plate (10) extends upwards in a direction away from the second extension rod (3), the lifting rack II (9) is connected with a second inclined plate (11), and the second inclined plate (11) extends upwards in a direction away from the first extension rod (2); the machine body (1) is also provided with a first driving part (12), and the first driving part (12) drives the lifting gear (6) to rotate.

2. A screening and blanking mechanism according to claim 1, wherein: the bearing part (4) is provided with a rotating roller (16), the axis of the rotating roller (16) is parallel to the axis of the lifting gear (6), and the rotating roller (16) is used for supporting the pipe fitting.

3. A screening and blanking mechanism according to claim 2, characterized in that: the bearing part (4) is provided with a second driving piece (17), and the second driving piece (17) drives the rotating roller (16) to rotate.

4. A screening and blanking mechanism according to claim 1, wherein: the first extension rod (2) and the second extension rod (3) are obliquely arranged, the first extension rod (2) extends downwards along the direction away from the bearing part (4), and the second extension rod (3) extends downwards along the direction away from the bearing part (4).

5. The screening and blanking mechanism of claim 4, wherein: the first extension rod (2) and the second extension rod (3) are respectively provided with a limiting block (5), and the limiting blocks (5) limit the pipe fitting to be separated from the first extension rod (2) and the second extension rod (3).

6. A screening and blanking mechanism according to claim 1, wherein: the pipe fitting supporting device is characterized in that the supporting part (4) is provided with a positioning block (15), the positioning block (15) is located on the upper end face of the supporting part (4), and the positioning block (15) limits the pipe fitting to be separated from the supporting part (4) along the length direction of the supporting part (4).

7. The screening and blanking mechanism of claim 6, wherein: the bearing part (4) is provided with a fixing frame (13), the fixing frame (13) is positioned at one end of the bearing part (4) deviating from the positioning block (15), the first driving part (12) comprises a cylinder, one end of the cylinder is hinged to the fixing frame (13), and the other end of the cylinder is hinged to a connecting rod (14); the lifting gear (6) comprises a gear body (61) and a gear shaft lever (62), and the connecting rod (14) is hinged to the gear shaft lever (62).

8. A screening and blanking mechanism according to claim 1, wherein: the bearing part (4) is provided with a limiting frame (7), the limiting frame (7) is abutted against one end, far away from the lifting gear (6), of the lifting rack I (8), and the lifting rack I (8) slides in the limiting frame (7).