CN217410947U - Grinding pulverizer for preparing composite MOF - Google Patents

Abstract

The utility model discloses a compound MOF preparation is with rubbing crusher that mills belongs to and smashes grinding technical field. Including the mounting bracket, grinding element, filtering component, material loading subassembly, adjusting part and driving source, the mounting bracket is both ends open-ended hollow frame, the driving source is installed on the mounting bracket, the driving source drive is connected in grinding element, the driving source can adopt the drive of different forms such as motor or drive module, grinding component installs on the mounting bracket, grinding component installs perpendicularly on the mounting bracket along Y axle direction, filtering component communicates in grinding element's output, filtering component follows grinding element's output slope downwardly extending, material loading subassembly connects in filtering component's output, material loading subassembly communicates in grinding component, adjusting part sets up on the mounting bracket, adjusting part connects in grinding component. The utility model discloses the precision of milling makes the material form the circulation and mills according to the difference.

Description

Grinding pulverizer for preparing composite MOF

Technical Field

The utility model relates to a smash and grind technical field, specifically be a compound MOF preparation is with rubbing crusher that mills.

Background

Grinding utilizes abrasive particles coated or embedded on a grinding tool, finishing processing is carried out on a processing surface through relative motion of the grinding tool and a workpiece under certain pressure, a particle grinding machine is common equipment for grinding objects, materials can be ground into powder or particles, the particle grinding machine is extremely various and can be used in industries such as food, medicine, chemical engineering and the like, the existing grinding machine can only grind the same-precision grinding particles, if grinding particles with different sizes are needed, grinding machines with different precisions need to be replaced for grinding, and in the grinding process, the materials cannot be guaranteed to completely reach the preset precision.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a compound MOF preparation is with rubbing crusher to the not enough that exists among the prior art to the problem that proposes in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a grinding and crushing device for preparing composite MOF comprises a mounting rack, wherein the mounting rack is a hollow frame with two open ends;

the grinding assembly is arranged on the mounting rack; the grinding assembly is vertically arranged on the mounting rack along the Y-axis direction;

the filtering assembly is communicated with the output end of the grinding assembly and extends downwards along the output end of the grinding assembly in an inclined mode;

the feeding assembly is connected to the output end of the filtering assembly and communicated with the grinding assembly;

the adjusting assembly is arranged on the mounting frame and connected to the grinding assembly; the adjusting assembly is used for adjusting the grinding assembly, so that the grinding assembly can grind materials with different precisions according to a preset requirement; when the grinding device is used, the grinding assembly is adjusted up and down along the Y-axis direction through the adjusting assembly according to the preset material grinding precision, so that the ground materials reach the preset precision, and under the mutual matching of the filtering assembly and the feeding assembly, the materials which do not reach the grinding precision are circulated into the grinding assembly to be continuously ground.

Adopt above-mentioned technical scheme: according to the preset grinding precision, the adjusting component is manually adjusted, the grinding component is adjusted under the action of the adjusting component, the grinding precision of the grinding component on the materials reaches the preset grinding precision, when the materials are ground, the ground materials fall into the filtering component for filtering, the materials reaching the preset grinding precision are directly discharged and collected, the filtering which does not reach the grinding precision moves along the filtering component and only enters the feeding component, and under the action of the feeding component, the materials which do not reach the grinding precision circularly fall into the grinding component for grinding again until all the materials are ground.

Preferably, the grinding assembly comprises:

the shell is arranged in the hollow structure of the mounting rack;

the driving shaft is arranged in the shell and penetrates through the bottom of the mounting rack;

the material receiving disc is connected to the top of the shell and penetrates through the mounting frame; the material receiving disc is sleeved on the driving shaft;

the lower grinding disc is detachably arranged in the material receiving disc and is sleeved on the driving shaft;

the upper grinding disc is arranged at the top end of the lower grinding disc and is sleeved on the driving shaft;

the eccentric wheel is connected to the top end of the driving shaft and embedded in the upper grinding disc; the eccentric wheel drives the upper grinding disc to rotate under the action of the driving shaft to grind materials.

Preferably, the grinding assembly further comprises:

the upper tray is arranged at the top of the upper grinding disc;

the feeding end is arranged on the upper tray;

the lower tray is arranged in the shell;

the material ring is detachably arranged at the top end of the lower tray, and the milled material falls into the shell through the material ring.

Preferably, the filter assembly comprises:

the filtering pipeline is communicated with the discharge end of the grinding assembly; the longitudinal interface of the filtering pipeline is a parallelogram;

the discharge pipe is communicated with the filtering pipeline and is connected to the filtering pipeline; the discharge pipe is located below the filter pipe, and under the action of the filter pipeline, the materials reaching the preset grinding precision are collected in the filter paper discharge pipe in a unified manner.

Preferably, the feeding assembly comprises:

the shell is arranged on the mounting frame and communicated with the discharge end of the filtering component;

the servo motor is arranged at the top of the shell;

the screw rod is rotatably arranged in the shell and is connected with the servo motor in a driving way;

the conveyer pipe is located the top of casing just extends to casing outside below by the casing end, under the mutually supporting of servo motor and hob, makes the material that does not reach the predetermined precision of milling carry to grinding assembly in mill once more.

Preferably, the adjustment assembly comprises:

the fixed rod is arranged on the mounting rack;

the first rotating rod is in threaded connection with the top end of the fixed rod;

a second rotating rod in threaded connection with the grinding assembly;

and the support and the two ends of the support are respectively fixedly arranged on the first rotating rod and the second rotating rod and are positioned between the first rotating rod and the second rotating rod.

Preferably, the grinding device further comprises a driving source which is arranged on the mounting frame and is in driving connection with the grinding assembly.

Has the beneficial effects that: according to different grinding precisions, the grinding assembly is adjusted by adjusting the adjusting assembly, meanwhile, under the action of the filtering assembly, the materials which reach the standard and do not reach the standard are shunted, the materials which do not reach the standard flow into the feeding assembly, and under the action of the feeding assembly, the materials which do not reach the standard are conveyed into the grinding assembly to be ground again until all the materials are ground.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the grinding assembly of the present invention;

FIG. 3 is a partial schematic view of the grinding assembly of the present invention;

FIG. 4 is a partial schematic view of the grinding assembly of the present invention;

FIG. 5 is a partial schematic view of the grinding assembly of the present invention;

fig. 6 is a schematic view of the feeding assembly of the present invention;

fig. 7 is a schematic view of the filter assembly of the present invention.

The reference numerals in fig. 1 to 7 are: the device comprises a mounting frame 1, a grinding assembly 2, a filtering assembly 3, a feeding assembly 4, an adjusting assembly 5, a shell 21, a driving shaft 22, a receiving tray 23, a lower grinding disc 24, an upper grinding disc 25, an eccentric wheel 26, an upper tray 27, a lower tray 28, a material flowing ring 29, a filtering pipeline 31, a material discharging pipe 32, a shell 41, a spiral rod 42, a conveying pipe 43, a fixed rod 51, a first rotating rod 52, a second rotating rod 53 and a bracket 54.

Detailed Description

In practical applications, the applicant has found that: the existing grinding machine can only grind grinding particles with the same precision, if grinding particles with different sizes are needed, grinding machines with different precisions need to be replaced for grinding, and materials cannot be guaranteed to completely reach the preset precision in the grinding process.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a compound MOF preparation is with rubbing crusher that mills, includes mounting bracket 1, grinding element 2, filter element 3, material loading subassembly 4, adjusting part 5 and driving source, mounting bracket 1 is both ends open-ended hollow frame, the driving source is installed on mounting bracket 1, the driving source drive connect in grinding element 2, the driving source can adopt the drive of different forms such as motor or drive module, grinding element 2 installs on mounting bracket 1, grinding element 2 installs perpendicularly on mounting bracket 1 along the Y axle direction, filter element 3 communicate in grinding element 2's output, filter element 3 extends downwards along grinding element 2's output slope, material loading subassembly 4 connects in filter element 3's output, material loading subassembly 4 communicate in grinding element 2, adjusting part 5 sets up on mounting bracket 1, the adjusting assembly 5 is connected to the grinding assembly 2; the adjusting assembly 5 is used for adjusting the grinding assembly 2, so that the grinding assembly 2 grinds materials with different precisions according to a preset requirement; when in use, the grinding component 2 is adjusted up and down along the Y-axis direction by the adjusting component 5 according to the grinding precision of the preset materials, the ground materials reach the preset precision, the materials which do not reach the grinding precision are circulated back into the grinding component 2 to be continuously ground under the mutual matching of the filtering component 3 and the feeding component 4, when the materials are needed to be ground, the adjusting component 5 is manually adjusted, the grinding component 2 is adjusted under the action of the adjusting component 5, the grinding precision of the materials ground by the grinding component 2 reaches the preset grinding precision, when the materials are ground, the ground materials fall into the filtering component 3 to be filtered, the materials which reach the preset grinding precision are directly discharged and collected, the filtering which does not reach the grinding precision moves along the filtering component 3 and only enters the feeding component 4, under the action of the feeding component 4, the materials which do not reach the grinding precision fall into the grinding component to be ground again, until the grinding of all the materials is finished.

In a further embodiment, the grinding assembly 2 comprises a housing 21 detachably mounted in the hollow structure of the mounting frame 1, a driving shaft 22 rotatably disposed in the housing 21, a receiving tray 23 connected to the top of the housing 21, a lower grinding plate 24 detachably disposed in the receiving tray 23, an upper grinding plate 25 disposed on the top end of the lower grinding plate 24, a top eccentric 26 connected to the driving shaft 22, an upper tray 27 disposed on the top of the upper grinding plate 25, a feeding end mounted on the upper tray 27, a lower tray 28 disposed in the housing 21, and a material flowing ring 29 detachably disposed on the top end of the lower tray 28; the drive shaft 22 runs through 1 bottom of mounting bracket, take-up (stock) pan 23 run through in mounting bracket 1, take-up (stock) pan 23 cup joints on the drive shaft 22, lower grinding disc 24 cup joints on the drive shaft 22, go up grinding disc 25 cup joints on the drive shaft 22, eccentric wheel 26 inlays go up in grinding disc 25, eccentric wheel 26 drives grinding disc 25 and rotates under the effect of drive shaft 22, mills the material, and the material of the completion of milling falls to in the shell 21 through flowing material ring 29.

In a further embodiment, the filter assembly 3 comprises a filter pipe 31 communicating with the discharge end of the grinding assembly 2, and a discharge pipe 32 communicating with the filter pipe 31; the longitudinal interface of the filtering pipeline 31 is a parallelogram, and the discharge pipe 32 is connected to the filtering pipeline 31; the discharge pipe 32 is located below the filter pipe, and under the action of the filter pipeline 31, the material filter paper discharge pipe 32 reaching the preset grinding precision is uniformly collected.

In a further embodiment, the feeding assembly 4 includes, installs casing 41 on the mounting bracket 1, the setting is in the servo motor at the top of casing 41 rotates and locates screw 42 in the casing 41, and installs the conveyer pipe 43 in the top of casing 41, casing 41 communicate in the discharge end of filter assembly 3, screw 42 drive connect in servo motor, conveyer pipe 43 is held by casing 41 and is extended to casing 41 outside below, under servo motor and screw 42 mutually supporting, makes the material that does not reach predetermined precision of milling carry to grinding assembly 2 in mill once more.

In a further embodiment, the adjusting assembly 5 comprises a fixed rod 51 disposed on the mounting frame 1, a first rotating rod 52 screwed to the top end of the fixed rod 51, a second rotating rod 53 screwed to the grinding assembly 2, and a bracket 54 having two ends respectively fixed to the first rotating rod 52 and the second rotating rod 53; the bracket 54 is located between the first rotating rod 52 and the second rotating rod 53.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

Claims (7)

1. A grinding pulverizer for preparing a composite MOF is characterized by comprising:

the mounting rack is a hollow frame with openings at two ends;

the grinding assembly is arranged on the mounting rack; the grinding assembly is vertically arranged on the mounting rack along the Y-axis direction;

the filtering assembly is communicated with the output end of the grinding assembly and extends downwards along the output end of the grinding assembly in an inclined mode;

the feeding assembly is connected to the output end of the filtering assembly and communicated with the grinding assembly;

the adjusting assembly is arranged on the mounting frame and connected to the grinding assembly; the adjusting assembly is used for adjusting the grinding assembly, so that the grinding assembly can grind materials with different precisions according to a preset requirement; when the grinding device is used, the grinding assembly is adjusted up and down along the Y-axis direction through the adjusting assembly according to the preset material grinding precision, so that the ground materials reach the preset precision, and under the mutual matching of the filtering assembly and the feeding assembly, the materials which do not reach the grinding precision are circulated into the grinding assembly to be continuously ground.

2. A mill-crusher for the preparation of composite MOFs according to claim 1, wherein the grinding assembly comprises:

the shell is arranged in the hollow structure of the mounting rack;

the driving shaft is arranged in the shell and penetrates through the bottom of the mounting rack;

the material receiving disc is connected to the top of the shell and penetrates through the mounting frame; the material receiving disc is sleeved on the driving shaft;

the lower grinding disc is detachably arranged in the material receiving disc and is sleeved on the driving shaft;

the upper grinding disc is arranged at the top end of the lower grinding disc and is sleeved on the driving shaft;

the eccentric wheel is connected to the top end of the driving shaft and embedded in the upper grinding disc; the eccentric wheel drives the upper grinding disc to rotate under the action of the driving shaft.

3. The composite MOF making mill crusher according to claim 2, wherein the grinding assembly further comprises:

the upper tray is arranged at the top of the upper grinding disc;

the feeding end is arranged on the upper tray;

the lower tray is arranged in the shell;

and the material flowing ring is detachably arranged at the top end of the lower tray.

4. A mill-crusher for the preparation of composite MOFs according to claim 1, wherein said filter assembly comprises:

the filtering pipeline is communicated with the discharge end of the grinding assembly; the longitudinal interface of the filtering pipeline is a parallelogram;

the discharge pipe is communicated with the filtering pipeline and connected to the filtering pipeline; the discharge pipe is located below the filter pipe.

5. The composite MOF making mill crusher according to claim 1, wherein the loading component comprises:

the shell is arranged on the mounting frame and communicated with the discharge end of the filtering component;

the servo motor is arranged at the top of the shell;

the screw rod is rotatably arranged in the shell and is connected with the servo motor in a driving way;

the conveying pipe is arranged above the shell and extends from the end of the shell to the lower part of the outer side of the shell.

6. A composite MOF making mill grinder according to claim 1, wherein the adjusting assembly comprises:

the fixed rod is arranged on the mounting rack;

the first rotating rod is in threaded connection with the top end of the fixed rod;

a second rotating rod in threaded connection with the grinding assembly;

and the support and the two ends of the support are respectively fixedly arranged on the first rotating rod and the second rotating rod and are positioned between the first rotating rod and the second rotating rod.

7. The grinding crusher for preparing the composite MOF as claimed in claim 1, further comprising a driving source arranged on the mounting frame and in driving connection with the grinding assembly.

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