CN213201625U - Blanking and receiving mechanism of printer carbon powder vibrating screen - Google Patents

Abstract

The utility model discloses a printer carbon dust shale shaker unloading receiving mechanism, including the receipts storage bucket that is located the feed opening below of shale shaker, be equipped with sealed lid on receiving the storage bucket, the feed inlet has been seted up on the sealed lid, is connected with flexible cover on the feed opening, and the upper and lower both ends of flexible cover are sealing connection respectively on feed opening and feed inlet, and one side of receiving the storage bucket is equipped with the support, is connected with connecting rod and cylinder on the support, and the cylinder body of cylinder is fixed on the support, and the piston rod of cylinder sets up, the middle part of connecting rod is rotated through first pivot and is installed on the support, and the one end of connecting rod is fixed on the sealed lid, and the other end rotates through the piston rod of second pivot and cylinder to be connected, and. The utility model discloses regard as the passageway that gathers materials of material powder with elastic expansion sleeve, during material powder enters into the receiving bucket through elastic expansion sleeve, utilize the action of cylinder piston rod to drive the connecting rod and rotate and make sealed lid open or close, fly upward and receive the bucket interior material powder easy pollution from reducing material powder.

Description

Blanking and receiving mechanism of printer carbon powder vibrating screen

Technical Field

The utility model relates to a printer carbon dust shale shaker unloading receiving mechanism belongs to printer carbon dust production facility technical field.

Background

The carbon powder is manufactured by a common crushing method in the technical field of printer carbon powder production, materials produced by the crushing method need to be filtered, screened and classified, equipment used in the steps is a vibrating screen, the materials screened by the vibrating screen are discharged from a feed opening at the bottom of the vibrating screen, a receiving barrel is manually adopted for receiving the materials, the materials are easy to fly, a human body can influence health by sucking dust, the flying materials cause pollution in a factory, in addition, the receiving barrel is of an open structure, impurities are easy to mix in the materials, and therefore the quality of the materials is influenced.

Disclosure of Invention

An object of the utility model is to provide a printer carbon dust shale shaker unloading receiving mechanism to solve prior art's shale shaker feed opening exhaust material powder and fly upward easily and the easy contaminated technical problem of powder.

The utility model adopts the following technical scheme: receiving mechanism under printer carbon dust shale shaker, including the receipts storage bucket that is located the feed opening below of shale shaker, be equipped with sealed lid on the receipt storage bucket, sealed covering has seted up the feed inlet, be connected with flexible cover on the feed opening, the upper and lower both ends of flexible cover are sealing connection respectively on feed opening and feed inlet, one side of receiving the storage bucket is equipped with the support, is connected with connecting rod and cylinder on the support, and the cylinder body of cylinder is fixed on the support, and the piston rod of cylinder sets up, the middle part of connecting rod is rotated through first pivot and is installed on the support, and the one end of connecting rod is fixed on sealed covering, and the other end rotates through the piston rod of second pivot and cylinder and is connected, and first pivot and second pivot axis.

The upper end cover of elastic expansion sleeve is established on the feed opening outer peripheral face, and the junction of elastic expansion sleeve and feed opening is equipped with annular clamp, and annular clamp fixes elastic expansion sleeve on the feed inlet.

The sealing cover is provided with a circle of raised sealing convex ring around the feed inlet, and the elastic telescopic sleeve is fixed on the sealing convex ring in a sealing way.

The sealing cover is provided with connecting lugs symmetrically arranged on two sides of the feed port, one end of the connecting rod close to the sealing cover is provided with two branches, and the two branches are fixedly connected with the two connecting lugs respectively.

The connecting rod comprises a cross rod and a semi-annular plate fixed at the end part of the cross rod, the middle part of the semi-annular plate is welded with the connecting rod, and the two branches are formed at the two ends of the semi-annular plate.

The cross bar is a channel steel with a downward opening.

The support includes the pole setting, the middle part in the pole setting is connected to the connecting rod, the fixed cover in pole setting bottom is equipped with the go-between, the cylinder body bottom of cylinder is fixed with the base, and base fixed connection is in the side of go-between.

The connecting rod connecting structure is characterized in that first mounting holes are formed in the support and are distributed at intervals vertically, second mounting holes are formed in the middle of the connecting rod and are distributed at intervals transversely, and the first rotating shaft penetrates through the first mounting holes and the second mounting holes to connect the connecting rod to the support.

The end part of the connecting rod, which is close to the cylinder, is provided with second rotating shaft holes which are distributed at intervals transversely, and the second rotating shaft penetrates through the second rotating shaft holes to connect the piston rod of the cylinder to the connecting rod.

The elastic telescopic sleeve is a rubber sleeve with annular convex edges.

The utility model has the advantages that: the utility model discloses set up sealed lid on receiving the storage bucket, set up the flexible cover of elasticity between the feed inlet of feed opening and sealed lid, as the passageway that gathers materials of material powder, the material powder is in the flexible cover of elasticity income receiving the storage bucket, can not take place to fly upward, receive the storage bucket collection after full, open the cylinder and make the piston rod action, the piston rod drives the connecting rod rotation when moving downwards, the one end rebound at sealed lid is connected to the connecting rod, thereby sealed lifting separates with receiving the storage bucket, thereby remove the receiving bucket who changes the sky with receiving the storage bucket that is equipped with the material powder, later through the sealed lid of cylinder control again on receiving the storage bucket downwards. The utility model is used for connect the material under the reciprocating sieve, the material powder that can significantly reduce flies upward, adopts the cylinder to open sealed lid perpendicularly, easy to operate. The utility model provides an uncovered receipts of prior art storage bucket lead to the material powder to fly upward, the easy ending problem that pollutes.

Preferably, fix the flexible cover on the feed opening through annular clamp, when preventing that sealed lid from moving down, flexible cover drops from the feed opening.

Preferably, the sealing convex ring around the feeding hole of the sealing cover is convenient for fixing the elastic telescopic sleeve.

Preferably, two branches of connecting rod are connected respectively on the engaging lug of feed inlet both sides, make things convenient for being connected of connecting rod and sealed lid, and the connecting rod has two tie points with sealed lid moreover for the connecting rod is difficult to the fracture damage with the junction of sealed lid.

Preferably, the connecting rod is formed by welding the cross rod and the semi-annular plate, and has the advantages of simple structure and convenience in processing and manufacturing.

Preferably, a plurality of first mounting holes and second mounting holes are formed in the support and the connecting rod respectively, and the connecting positions of the support and the connecting rod can be flexibly adjusted according to actual needs.

Preferably, a plurality of second rotating shaft holes are formed in the connecting rod, so that the connecting position of the cylinder piston rod on the connecting rod can be flexibly adjusted according to needs.

Preferably, the rubber sleeve with the annular convex edge is beneficial to the up-and-down extension of the elastic telescopic sleeve, and the elastic telescopic sleeve is not easy to damage when the sealing cover moves up and down.

Drawings

FIG. 1 is a schematic view of a blanking receiving mechanism of a printer carbon powder vibrating screen according to an embodiment of the present invention;

fig. 2 is a schematic view of the structure of the connecting rod of fig. 1.

In the figure: 1-a feed opening, 2-a material receiving barrel, 3-a sealing cover, 31-a sealing convex ring, 32-a connecting lug, 4-an elastic telescopic sleeve, 41-an annular hoop, 5-a support, 51-a vertical rod, 52-a first mounting hole, 53-a connecting ring, 6-a connecting rod, 61-a cross rod, 62-a semi-annular plate, 63-a second mounting hole, 64-a second rotating shaft hole, 7-an air cylinder, 71-a cylinder body, 72-a piston rod, 73-a base, 8-a first rotating shaft and 9-a second rotating shaft.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

The utility model relates to a printer carbon powder vibrating screen blanking and receiving mechanism of embodiment is shown in figure 1 and figure 2, the printer carbon powder vibrating screen blanking and receiving mechanism of this embodiment includes a receiving barrel 2 located below a blanking port 1 of a vibrating screen, a sealing cover 3 is arranged on the receiving barrel 2, a feeding port is arranged on the sealing cover 3, an elastic telescopic sleeve 4 is connected on the blanking port 1, the upper and lower ends of the elastic telescopic sleeve 4 are respectively connected on the blanking port 1 and the feeding port in a sealing way, one side of the receiving barrel 2 is provided with a bracket 5, the bracket 5 is connected with a connecting rod 6 and a cylinder 7, a cylinder body 71 of the cylinder 7 is fixed on the bracket 5, a piston rod 72 of the cylinder 7 is arranged upwards, the middle part of the connecting rod 6 is rotatably arranged on the bracket 5 through a first rotating shaft 8, one end of the connecting rod 6 is fixed on the sealing cover 3, the other end is rotatably connected with the piston, the first rotating shaft 8 and the second rotating shaft 9 are parallel in axis.

In this embodiment, the elastic expansion sleeve 4 is a rubber sleeve with annular ribs, which facilitates the elastic expansion sleeve 4 to expand up and down, and when the sealing cover 3 moves up and down, the elastic expansion sleeve 4 is not easy to damage. The upper end cover of elastic expansion sleeve 4 is established on feed opening 1 outer peripheral face, and the junction of elastic expansion sleeve 4 and feed opening 1 is equipped with annular clamp 41, and annular clamp 41 fixes elastic expansion sleeve 4 on feed opening 1, when preventing that sealed lid from moving down, and elastic expansion sleeve drops from the feed opening. A circle of convex sealing convex ring 31 is arranged on the sealing cover 3 around the feeding hole, and the elastic telescopic sleeve 4 is fixed on the sealing convex ring 31 in a sealing mode.

The sealing cover 3 is symmetrically provided with connecting lugs 32 at two sides of the feeding hole, one end of the connecting rod 6 close to the sealing cover 3 is provided with two branches, and the two branches are fixedly connected with the two connecting lugs 32 respectively. The connecting rod 6 comprises a cross rod 61 and a semi-annular plate 62 fixed at the end part of the cross rod 61, the middle part of the semi-annular plate 62 is welded with the connecting rod 61, two ends of the semi-annular plate 62 form the two branches, and the cross rod 61 is a channel steel with a downward opening.

In this embodiment, the first mounting holes 52 are formed in the support 5 and are vertically spaced, the second mounting holes 63 are formed in the middle of the connecting rod 6 and are transversely spaced, the first rotating shaft 8 penetrates through the first mounting holes 52 and the second mounting holes 63 to connect the connecting rod 6 to the support 5, and the connecting positions of the support and the connecting rod can be flexibly adjusted according to actual needs during installation. The end part of the connecting rod 6 close to the air cylinder 7 is provided with second rotating shaft holes 64 which are transversely distributed at intervals, the second rotating shaft 9 penetrates through the second rotating shaft holes 64 to connect the piston rod 72 of the air cylinder to the connecting rod 6, and the connecting position of the piston rod of the air cylinder on the connecting rod can be flexibly adjusted according to the requirement during installation.

In this embodiment, the bracket 5 includes an upright rod 51, the connecting rod 6 is connected to the middle of the upright rod 61, a connecting ring 53 is fixedly sleeved at the bottom of the upright rod 51, a base 73 is fixed at the bottom of a cylinder body 71 of the air cylinder 7, and the base 73 is fixedly connected to the side of the connecting ring 53.

The receiving mechanism of this embodiment is with elastic expansion sleeve setting between the feed inlet of feed opening and sealed lid, as the passageway that gathers materials of material powder, during material powder enters into the receipts storage bucket through elastic expansion sleeve, can not take place to fly upward, receive the storage bucket and collect full back, open the cylinder and make the piston rod move, the piston rod drives the connecting rod rotation when moving down, the one end rebound at sealed lid is connected to the connecting rod, thereby sealed covering is lifted and is separated with the receipts storage bucket, thereby remove the receipts storage bucket that is equipped with material powder and change empty receipts storage bucket, later through the sealed lid of cylinder control downwards cover on the receipts storage bucket again, from having reduced the condition that material powder flies upward and the easy pollution of material powder in the receipts storage bucket.

The foregoing embodiments and description have been provided to illustrate the principles of the invention and, without departing from the spirit and scope of the invention, there are various changes and modifications that fall within the scope of the invention as claimed.

Claims (10)

1. Printer carbon dust shale shaker unloading receiving mechanism, including the receipts storage bucket that is located the feed opening below of shale shaker, its characterized in that: be equipped with sealed lid on the receipts storage bucket, the feed inlet has been seted up on the sealed lid, be connected with flexible cover on the feed inlet, the upper and lower both ends of flexible cover are sealing connection respectively on feed inlet and feed inlet, one side of receiving the storage bucket is equipped with the support, is connected with connecting rod and cylinder on the support, and the cylinder body of cylinder is fixed on the support, and the piston rod of cylinder sets up, the middle part of connecting rod is rotated through first pivot and is installed on the support, and the one end of connecting rod is fixed on sealed lid, the other end passes through the second pivot and is connected with the piston rod rotation of cylinder, and first pivot and second pivot axis are.

2. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the upper end cover of elastic expansion sleeve is established on the feed opening outer peripheral face, and the junction of elastic expansion sleeve and feed opening is equipped with annular clamp, and annular clamp fixes elastic expansion sleeve on the feed inlet.

3. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the sealing cover is provided with a circle of raised sealing convex ring around the feed inlet, and the elastic telescopic sleeve is fixed on the sealing convex ring in a sealing way.

4. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the sealing cover is provided with connecting lugs symmetrically arranged on two sides of the feed port, one end of the connecting rod close to the sealing cover is provided with two branches, and the two branches are fixedly connected with the two connecting lugs respectively.

5. The printer carbon powder vibrating screen blanking receiving mechanism of claim 4, characterized in that: the connecting rod comprises a cross rod and a semi-annular plate fixed at the end part of the cross rod, the middle part of the semi-annular plate is welded with the connecting rod, and the two branches are formed at the two ends of the semi-annular plate.

6. The printer carbon powder vibrating screen blanking receiving mechanism as claimed in claim 5, characterized in that: the cross bar is a channel steel with a downward opening.

7. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the support includes the pole setting, the middle part in the pole setting is connected to the connecting rod, the fixed cover in pole setting bottom is equipped with the go-between, the cylinder body bottom of cylinder is fixed with the base, and base fixed connection is in the side of go-between.

8. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the connecting rod connecting structure is characterized in that first mounting holes are formed in the support and are distributed at intervals vertically, second mounting holes are formed in the middle of the connecting rod and are distributed at intervals transversely, and the first rotating shaft penetrates through the first mounting holes and the second mounting holes to connect the connecting rod to the support.

9. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the end part of the connecting rod, which is close to the cylinder, is provided with second rotating shaft holes which are distributed at intervals transversely, and the second rotating shaft penetrates through the second rotating shaft holes to connect the piston rod of the cylinder to the connecting rod.

10. The printer carbon powder vibrating screen blanking receiving mechanism as set forth in claim 1, characterized in that: the elastic telescopic sleeve is a rubber sleeve with annular convex edges.

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