CN214184057U - Discharging port structure of vibrating screen of sand making machine - Google Patents

Abstract

The utility model relates to a system sand machine shale shaker discharge gate structure, which comprises a housing, be equipped with coarse sand export and fine sand export in the casing, be equipped with the wallboard that not only constitutes the wall of coarse sand export but also constitutes the wall of fine sand export between coarse sand export and the fine sand export, be equipped with the intercommunication on the wallboard the intercommunicating pore of coarse sand export and fine sand export, be equipped with in the intercommunicating pore and be used for flowing through the fine sand warp of fine sand export the intercommunicating pore is shunted to shunt in the coarse sand export, the shunt is including the flow distribution plate that can seal the flow distribution plate of the intercommunicating pore and the flow distribution plate mechanism that drives the flow distribution plate and open and shut. The utility model aims at providing a can mix the system sand machine shale shaker discharge gate structure in the coarse sand with the fine sand part that flows for the problem of the use and the popularization of restriction mechanism sand of the less sand of 0.3mm in the sand that the current system sand assembly line of solution was made.

Description

Discharging port structure of vibrating screen of sand making machine

Technical Field

The utility model relates to a building technical field especially relates to a system sand machine shale shaker discharge gate structure.

Background

In the construction process of roads and bridges, a large amount of sandstone is needed to make concrete. Along with the exhaustion and limited mining of river sand resources, the importance of self-processing sandstone in engineering construction is increasingly prominent, and the reduction of cost and environmental protection of sandstone self-processing are the directions of future development and research. In order to reduce the cost of the self-processing sandstone, the tunnel block stone is mainly used for self-processing production, but in the actual production, the quantity of sand below 0.3mm produced by a sand making machine is small (the sand below 5mm is called fine sand, and the sand above 5mm is called coarse sand), so that the use and popularization of the machine-made sand are restricted. Analysis shows that in the process of sand making by the sand making machine, when the second crushing is carried out, particles with the particle size of 0-5mm (namely fine sand) are sieved out and flow out from a fine sand outlet without participating in sand making, and only the particles with the particle size of 5-45mm (namely coarse sand) are used for sand making in the next working procedure, so that the final finished product sand has more particles with the particle size of more than 0.6mm and less particles with the particle size of less than 0.3mm, namely, the quantity of the sand with the particle size of less than 0.3mm is small.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can mix the system sand machine shale shaker discharge gate structure in the coarse sand with the fine sand part that flows for the problem of the use and the popularization of restriction mechanism sand of the less sand of 0.3mm in the sand that the current system sand assembly line of solution was made.

The technical problem is solved by the following technical scheme: the utility model provides a system sand machine shale shaker discharge gate structure, includes the casing, be equipped with coarse sand export and fine sand export in the casing, its characterized in that, be equipped with the wallboard that not only constitutes the wall of coarse sand export but also constitutes the wall of fine sand export between coarse sand export and the fine sand export, be equipped with the intercommunication on the wallboard the intercommunicating pore of coarse sand export and fine sand export, be equipped with in the intercommunicating pore and be used for flowing through the fine sand warp of fine sand export the intercommunicating pore is shunted to intraoral shunt of coarse sand export, the shunt is including the flow distribution plate that can seal the flow distribution plate of intercommunicating pore and the flow distribution plate mechanism that drives the flow distribution plate and open and shut.

The shunt still includes the pivot and can rotate the ground cover and establish the epaxial sleeve pipe of commentaries on classics, at least one of pivot and sleeve pipe the two with the wallboard rotates to link together, the flow distribution plate is including connecting epaxial pivot part flow plate and connecting sleeve pipe part flow plate on the sleeve pipe, pivot part flow plate and sleeve pipe part flow plate distribute along the axial of pivot, pivot part flow plate and sleeve pipe part flow plate all fold when on the intercommunicating pore by the shunt is lived, flow distribution plate opening and shutting mechanism is including connecting epaxial pivot part rocking handle of commentaries on classics and the sleeve pipe part rocking handle of connecting on the sleeve pipe, pivot part rocking handle and sleeve pipe part rocking handle are located the outside of casing.

The sleeve part flow plate is provided with two sleeve part flow plates, the rotating shaft part flow plate is provided with one sleeve part flow plate, the rotating shaft part flow plate is positioned between the two sleeve part flow blocks, the part of the sleeve positioned on the rotating shaft part flow plate is provided with an avoiding through hole, and the rotating shaft part flow plate is connected with the rotating shaft after penetrating through the avoiding through hole.

The shunt includes two engaging lugs, the sheathed tube both ends are rotated and are connected two on the engaging lug, the shunt passes through the engaging lug is connected on the wallboard with the wallboard links together.

The rotating shaft part rocking handle and the sleeve part rocking handle are positioned at the same end of the rotating shaft.

The rotating shaft extends along the horizontal direction.

The wall plate is provided with positioning strips, the rotating shaft and the positioning strips are distributed on two sides of the communicating hole, and when the rotating shaft part flow plate and the sleeve part flow plate rotate to enable the positioning strips to abut against each other, the communicating hole is sealed by the flow divider.

The wallboard is vertical to be set up, the pivot is located the lower extreme of intercommunicating pore and extends along the horizontal direction, the pivot with the wallboard is parallel, the location strip is located the upside of intercommunicating pore, pivot part flow plate folds to when on the intercommunicating pore pivot part flow plate butt is towards at the location strip one side that the fine sand exported, sleeve part flow plate fold to when on the intercommunicating pore sleeve part flow plate butt is towards at the location strip one side that the fine sand exported.

The utility model has the following beneficial effects: the fine sand part at the screen position in the vibrating screen of the sand making machine can be mixed into coarse sand and flow out together to participate in the production of thick-channel finished sand, so that the problem of small quantity of sand with the size less than 0.3mm in the machine-made sand is solved.

Drawings

FIG. 1 is a schematic diagram of a classifier in an embodiment of the invention;

fig. 2 is a schematic diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, a system sand machine shale shaker discharge gate structure, including casing 1, be equipped with coarse sand export 2 and fine sand export 3 in the casing, be equipped with between coarse sand export and the fine sand export the wallboard 4 that not only constitutes the wall that the coarse sand exported but also constitutes the wall that the fine sand exported, be equipped with the intercommunication on the wallboard the intercommunicating pore 5 that coarse sand exported and fine sand exported, be equipped with in the intercommunicating pore and be used for flowing through the fine sand warp that the fine sand exported the intercommunicating pore shunts to the intraoral shunt of coarse sand export, the shunt is including the flow distribution plate that can seal the intercommunicating pore and the flow distribution plate mechanism that the drive flow distribution plate opened and shut.

The diverter also comprises a rotating shaft 6 and a sleeve 7 which can be rotatably sleeved on the rotating shaft, at least one of the rotating shaft and the sleeve is rotationally connected with the wallboard, the flow distribution plate comprises a rotating shaft part flow plate 10 connected on the rotating shaft and a sleeve part flow plate 11 connected on the sleeve, the rotating shaft part flow plate and the sleeve part flow plate are distributed along the axial direction of the rotating shaft, the communicating hole is closed by the diverter when the rotating shaft part flow plate and the sleeve part flow plate are folded on the communicating hole, the flow distribution plate opening and closing mechanism comprises a rotating shaft part rocking handle 13 connected on the rotating shaft and a sleeve part rocking handle 14 connected on the sleeve, and the rotating shaft part rocking handle and the sleeve part rocking handle are positioned outside the shell.

The sleeve part flow plate is provided with two sleeve part flow plates, the rotating shaft part flow plate is provided with one sleeve part flow plate, the rotating shaft part flow plate is positioned between the two sleeve part flow blocks, the part of the sleeve positioned on the rotating shaft part flow plate is provided with an avoiding through hole, and the rotating shaft part flow plate is connected with the rotating shaft after penetrating through the avoiding through hole.

The shunt includes two engaging lugs 8, the sheathed tube both ends are rotated and are connected two on the engaging lug, the shunt passes through the engaging lug is connected on the wallboard with the wallboard links together.

The rotating shaft part rocking handle and the sleeve part rocking handle are positioned at the same end of the rotating shaft.

The rotating shaft extends along the horizontal direction.

The wall plate is provided with a positioning strip 9, the rotating shaft and the positioning strip are distributed on two sides of the communicating hole, and when the rotating shaft part flow plate and the sleeve part flow plate rotate to abut against the positioning strip, the communicating hole is sealed by the flow divider.

The wallboard is vertical to be set up, the pivot is located the lower extreme of intercommunicating pore and extends along the horizontal direction, the pivot with the wallboard is parallel, the location strip is located the upside of intercommunicating pore, pivot part flow plate folds to when on the intercommunicating pore pivot part flow plate butt is towards at the location strip one side that the fine sand exported, sleeve part flow plate fold to when on the intercommunicating pore sleeve part flow plate butt is towards at the location strip one side that the fine sand exported.

Claims (8)

1. The utility model provides a system sand machine shale shaker discharge gate structure, includes the casing, be equipped with coarse sand export and fine sand export in the casing, its characterized in that, be equipped with the wallboard that not only constitutes the wall of coarse sand export but also constitutes the wall of fine sand export between coarse sand export and the fine sand export, be equipped with the intercommunication on the wallboard the intercommunicating pore of coarse sand export and fine sand export, be equipped with in the intercommunicating pore and be used for flowing through the fine sand warp of fine sand export the intercommunicating pore is shunted to intraoral shunt of coarse sand export, the shunt is including the flow distribution plate that can seal the flow distribution plate of intercommunicating pore and the flow distribution plate mechanism that drives the flow distribution plate and open and shut.

2. A sand making machine shale shaker discharge gate structure as claimed in claim 1, characterized in that, the shunt still includes the pivot and can rotationally overlap the cover pipe of establishing the pivot, at least one of the pivot and the cover pipe with the wallboard rotates and links together, the flow distribution plate includes the pivot part flow distribution plate of connecting in the pivot and connects the cover pipe part flow distribution plate on the cover pipe, the axial distribution of pivot part flow distribution plate and cover pipe part flow distribution plate along the pivot, pivot part flow distribution plate and cover pipe part flow distribution plate all close to the intercommunicating pore when closing on the intercommunicating pore and seal the intercommunicating pore, the flow distribution plate opening and closing mechanism includes connecting in the pivot rocking handle on the pivot and the cover pipe rocking handle on the cover pipe, pivot part rocking handle and cover pipe part rocking handle are located the outside of casing.

3. A discharging port structure of a vibrating screen of a sand making machine according to claim 2, characterized in that there are two sleeve part flow plates, there is one shaft part flow plate, the shaft part flow plate is located between the two sleeve part flow blocks, an avoiding through hole is provided on the part of the sleeve located on the shaft part flow plate, and the shaft part flow plate is connected with the shaft after passing through the avoiding through hole.

4. A shaker discharge outlet construction according to claim 2, wherein said diverter comprises two engaging lugs, and two ends of said sleeve are rotatably connected to 2 of said engaging lugs, and said diverter is connected to said wall plate via said engaging lugs.

5. The discharging port structure of the vibrating screen of the sand making machine according to claim 2, wherein the rocking handle of the rotating shaft part and the rocking handle of the sleeve part are positioned at the same end of the rotating shaft.

6. A shakeout discharge outlet structure of a sand making machine according to claim 2, wherein said shaft extends in a horizontal direction.

7. The discharging hole structure of the vibrating screen of the sand making machine according to claim 2, wherein the wall plate is provided with positioning strips, the rotating shaft and the positioning strips are distributed on two sides of the communicating hole, and when the rotating shaft part flow plate and the sleeve part flow plate are rotated to abut against the positioning strips, the rotating shaft part flow plate and the sleeve part flow plate close the communicating hole.

8. A sand making machine shale shaker discharge gate structure as claimed in claim 7, characterized in that the wallboard vertical setting, the pivot is located the lower extreme of intercommunicating pore and extends along the horizontal direction, the pivot leads to the wallboard is parallel, the location strip is located the upside of intercommunicating pore, pivot part flow board butt is in the location strip towards the one side of fine sand export when pivot part flow board folds on the intercommunicating pore, sleeve part flow board butt is in the location strip towards the one side of fine sand export when sleeve part flow board folds on the intercommunicating pore.

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