CN219849828U - Quick breaker of nanometer calcium powder production - Google Patents

Abstract

The utility model provides a rapid crushing device for nano calcium powder production, which relates to the technical field related to nano calcium powder processing equipment and comprises a machine case and a lifting mechanism, wherein a feed inlet is formed in the upper surface of the machine case, a crushing shaft is arranged below the feed inlet, one end of the crushing shaft penetrates through the machine case and is connected with a motor bolt, a falling hole is formed below the crushing shaft, a vibrating screen is arranged below the falling hole, when the rapid crushing device is used, unqualified materials are filtered through the vibrating screen and slide into a storage bin, a lifting motor is controlled to synchronously work through a control panel on the surface of the machine case, a lifting screw is driven to rotate, an auxiliary nut lug is driven to lift a lifting pile until the lifting pile passes through the machine case, and then the telescopic rod is controlled to synchronously move through the control panel on the surface of the machine case, so that the storage bin overturns around a rotating shaft around the inner material of the lifting pile, and the material is put into the machine case again.

Description

Quick breaker of nanometer calcium powder production

Technical Field

The utility model relates to the technical field related to nano calcium powder processing equipment, in particular to a rapid crushing device for nano calcium powder production.

Background

The nano calcium powder is a novel material with a plurality of application values, and in the production process, a chemical method is required to extract calcium compounds from marble or limestone, before the calcium compounds are required to be crushed, the volume of the marble or limestone is reduced, so that the contact area with chemical substances is increased, and the extraction efficiency is improved, and therefore, a rapid crushing device for producing the nano calcium powder is particularly required.

Through retrieving, "quick breaker of raw materials for building material production has been mentioned in patent number" CN214288526U "document, including main part, guide plate, rose box of device, be used for the broken structure of raw materials record nature and be used for driving the drive structure of rose box, the supporting leg is all installed in four interior angles department in the bottom of main part, the top and the bottom of main part are equipped with feed hopper and discharging pipe respectively, the material mouth has been seted up to bottom one side of main part, just the inside bottom of main part is equipped with first chute, the guide plate is installed in the inside of main part and the inside internal connection all around of main part, the upper end surface of guide plate is equipped with the second chute, just the bottom of chute is equipped with the discharge gate, the rose box is installed on drive structure, broken structure installs in the inside of main part and is located the top of guide plate, drive structure installs in the inside of main part and corresponds with the material mouth. The utility model can fully crush the raw materials, is beneficial to the production of building materials, and in the using process of the device, the raw materials in the filter box are poured into the feeding hopper again in a manual mode, and the efficiency of the manual carrying mode is not high because the quality of raw marble or limestone used for producing nano calcium powder is high.

Thus, we provide a rapid crushing device for nano calcium powder production, which solves the above problems.

Disclosure of Invention

The utility model aims to provide a rapid crushing device for nano calcium powder production, which solves the problem that in the use process of the device provided in the background art, raw materials in a filter box are poured into a feeding funnel again in a manual mode, and the efficiency of a manual carrying mode is low because the quality of raw materials marble or limestone used for producing nano calcium powder is large.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a quick breaker of nanometer calcium powder production, includes quick-witted case and elevating system, the feed inlet has been seted up to the upper surface of machine case, the below of feed inlet is provided with broken axle, the one end of broken axle runs through quick-witted case and motor bolted connection, the below of broken axle is provided with the whereabouts hole, the below of whereabouts hole is provided with the shale shaker, the below of shale shaker is provided with out the feed bin, one side of shale shaker is provided with the circulation export, one side of circulation export is provided with elevating system, one side of circulation export is provided with puts the feed bin, the inside of putting the feed bin is run through there is the rotation axis, the both ends embedding elevating pile of rotation axis.

Preferably, the elevating system includes storage bin, rotation axis, lift stake, first fixing base, first rotation axis, first connecting seat, telescopic link, second connecting seat, second rotation axis, second fixing base, auxiliary nut ear, lift lead screw, connecting bearing, fixed pile, shaft coupling and elevator motor.

Preferably, a first fixing seat is arranged at the bottom end of the storage bin, and the inner side of the first fixing seat is rotationally connected with the first connecting seat through a first rotating shaft.

Preferably, the bottom of first connecting seat is provided with the telescopic link, the bottom of telescopic link is provided with the second connecting seat, the second connecting seat rotates with the second fixing base through the second rotation axis and is connected.

Preferably, the second fixing seat is welded with the lifting pile, and auxiliary nut lugs are arranged on two sides of the lifting pile.

Preferably, the internal thread of auxiliary nut ear is connected with the lift lead screw, the lift lead screw passes through connecting bearing embedding spud.

Preferably, the top clamping groove of the lifting screw is connected with a coupler, and the top clamping groove of the coupler is connected with a lifting motor.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting feed bin, rotation axis, lift stake, first fixing base, first rotation axis, first connecting seat, telescopic link, second connecting seat, second rotation axis, second fixing base, auxiliary nut ear, lift lead screw, connecting bearing, fixed pile, shaft coupling and elevator motor, when using, unqualified material filters through the shale shaker, slides to put in the feed bin, and then control elevator motor synchronous operation through the control panel of machine case surface drives the lift lead screw rotation for the lift stake is raised to auxiliary nut ear, until crossing the machine case.

2. And then control telescopic link synchronous motion through the control panel of machine case surface for put the feed bin and overturn around the rotation axis in the lift stake inboard, throw into machine case again with its inside material, from this, realize the circulation material loading of unqualified material, alleviateed operating personnel's working strength, improved circulation efficiency.

Drawings

FIG. 1 is a schematic view of the overall appearance structure of the present utility model;

FIG. 2 is a schematic diagram of the overall rear view structure of the present utility model;

FIG. 3 is a schematic diagram of a side cross-sectional structure of a chassis of the present utility model;

FIG. 4 is a schematic cross-sectional view of a storage bin according to the present utility model;

fig. 5 is a schematic diagram of a side-view cross-sectional structure of the lifting pile of the utility model.

Reference numerals in the drawings: 1. a chassis; 2. a feed inlet; 3. a crushing shaft; 4. a motor; 5. a drop hole; 6. a vibrating screen; 7. discharging the material bin; 8. a circulation outlet; 9. a lifting mechanism; 901. placing a storage bin; 902. a rotation shaft; 903. lifting piles; 904. a first fixing seat; 905. a first rotation shaft; 906. a first connection base; 907. a telescopic rod; 908. a second connecting seat; 909. a second rotation shaft; 9010. the second fixing seat; 9011. an auxiliary nut lug; 9012. lifting a screw rod; 9013. connecting a bearing; 9014. fixing piles; 9015. a coupling; 9016. and a lifting motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a quick breaker of nanometer calcium powder production, including quick-witted case 1 and elevating system 9, feed inlet 2 has been seted up to the upper surface of quick-witted case 1, the below of feed inlet 2 is provided with broken axle 3, the one end of broken axle 3 runs through quick-witted case 1 and motor 4 bolted connection, the below of broken axle 3 is provided with down hole 5, the below of down hole 5 is provided with shale shaker 6, the below of shale shaker 6 is provided with out feed bin 7, one side of shale shaker 6 is provided with circulation export 8, one side of circulation export 8 is provided with elevating system 9, one side of circulation export 8 is provided with puts feed bin 901, the inside of putting feed bin 901 is run through there is rotation axis 902, the both ends embedding lift stake 903 of rotation axis 902.

Further, the lifting mechanism 9 includes a storage bin 901, a rotating shaft 902, a lifting pile 903, a first fixing seat 904, a first rotating shaft 905, a first connecting seat 906, a telescopic rod 907, a second connecting seat 908, a second rotating shaft 909, a second fixing seat 9010, an auxiliary nut lug 9011, a lifting screw 9012, a connecting bearing 9013, a fixing pile 9014, a coupler 9015 and a lifting motor 9016, the storage bin 901 is lifted up through the lifting screw transmission 9012, and then the storage bin 901 is rotated through the telescopic rod 907, so that internal materials are re-thrown into the chassis 1.

Further, the bottom of putting the feed bin 901 is provided with first fixing base 904, and the inboard of first fixing base 904 rotates with first connecting seat 906 through first rotation axis 905 and is connected, puts the feed bin 901 around rotation axis 902 when reversing, can increase the contained angle with telescopic link 907, through the setting of first rotation axis 905, has guaranteed the continuity of telescopic link 907 motion.

Further, the bottom of the first connecting seat 906 is provided with a telescopic rod 907, the bottom of the telescopic rod 907 is provided with a second connecting seat 908, the second connecting seat 908 is rotationally connected with the second fixing seat 9010 through the second rotating shaft 909, the telescopic rod 907 is symmetrically arranged about the central axis of the storage bin 901, and enough supporting force is provided for overturning the storage bin 901.

Further, welding is adopted between the second fixing seat 9010 and the lifting pile 903, auxiliary nut lugs 9011 are arranged on two sides of the lifting pile 903, and the auxiliary nut lugs 9011 are symmetrically arranged in a central axis manner with respect to the lifting pile 903, so that stability of movement of the lifting pile 903 is guaranteed.

Further, the internal thread of the auxiliary nut lug 9011 is connected with a lifting screw 9012, the lifting screw 9012 is embedded into the fixing pile 9014 through the connecting bearing 9013, the lifting screw 9012 corresponds to the auxiliary nut lug 9011 one by one, and the auxiliary nut lug 9011 is lifted or lowered along the lifting screw 9012 through the rotation of the lifting screw 9012.

Further, the top clamping groove of the lifting screw 9012 is connected with a coupler 9015, the top clamping groove of the coupler 9015 is connected with a lifting motor 9016, and the lifting motor 9016 is connected with the lifting screw 9012 through the coupler 9015, so that the continuity and reliability of a transmission structure are guaranteed.

Working principle: firstly, a rapid crushing device for nano calcium powder production is arranged at a working position, when the rapid crushing device is used, a control panel on the surface of a machine case 1 is used for controlling a motor 4 to drive a crushing shaft 3 to rotate, marble or limestone materials are put into the machine case 1 through a feeding port 2 in the second step, a vibrating screen 6 is controlled to work, qualified materials fall into a discharging bin 7 in the third step, unqualified materials slide into a storage bin 901 through a circulating outlet 8, a lifting motor 9016 is controlled to synchronously work through the control panel on the surface of the machine case 1 in the fourth step, a lifting screw 9012 is driven to rotate, an auxiliary nut lug 9011 is used for lifting a lifting pile 903 until the lifting pile 903 passes through the machine case 1, a telescopic rod 907 is controlled to synchronously move through the control panel on the surface of the machine case 1 in the fifth step, the storage bin 901 is overturned around a rotary shaft 902 in the inner side of the lifting pile 903, and the materials in the storage bin are put into the machine case 1 again, and thus the use process of the rapid crushing device for nano calcium powder production is completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a quick breaker of nanometer calcium powder production, includes quick-witted case (1) and elevating system (9), its characterized in that: feed inlet (2) have been seted up to the upper surface of machine case (1), the below of feed inlet (2) is provided with broken axle (3), the one end of broken axle (3) runs through machine case (1) and motor (4) bolted connection, the below of broken axle (3) is provided with drop hole (5), the below of drop hole (5) is provided with shale shaker (6), the below of shale shaker (6) is provided with out feed bin (7), one side of shale shaker (6) is provided with circulation export (8), one side of circulation export (8) is provided with elevating system (9), one side of circulation export (8) is provided with puts feed bin (901), the inside of putting feed bin (901) is run through there is rotation axis (902), the both ends embedding lift stake (903) of rotation axis (902).

2. The rapid crushing device for nano calcium powder production according to claim 1, wherein the lifting mechanism (9) comprises a storage bin (901), a rotating shaft (902), a lifting pile (903), a first fixing seat (904), a first rotating shaft (905), a first connecting seat (906), a telescopic rod (907), a second connecting seat (908), a second rotating shaft (909), a second fixing seat (9010), an auxiliary nut lug (9011), a lifting screw (9012), a connecting bearing (9013), a fixing pile (9014), a coupler (9015) and a lifting motor (9016).

3. The rapid crushing device for nano calcium powder production according to claim 1, wherein a first fixing seat (904) is arranged at the bottom end of the storage bin (901), and the inner side of the first fixing seat (904) is rotationally connected with a first connecting seat (906) through a first rotating shaft (905).

4. A rapid crushing device for nano calcium powder production according to claim 3, wherein the bottom end of the first connecting seat (906) is provided with a telescopic rod (907), the bottom end of the telescopic rod (907) is provided with a second connecting seat (908), and the second connecting seat (908) is rotatably connected with the second fixing seat (9010) through a second rotating shaft (909).

5. The rapid crushing device for nano calcium powder production according to claim 4, wherein welding is adopted between the second fixing seat (9010) and the lifting pile (903), and auxiliary nut lugs (9011) are arranged on two sides of the lifting pile (903).

6. The rapid crushing device for nano calcium powder production according to claim 5, wherein the lifting screw (9012) is connected to the internal thread of the auxiliary nut lug (9011), and the lifting screw (9012) is embedded into the fixing pile (9014) through the connecting bearing (9013).

7. The rapid crushing device for nano calcium powder production according to claim 6, wherein a coupling (9015) is connected to a top clamping groove of the lifting screw (9012), and a lifting motor (9016) is connected to a top clamping groove of the coupling (9015).