CN115041285B

CN115041285B - Casting waste residue crushing equipment for processing cement

Info

Publication number: CN115041285B
Application number: CN202210671852.8A
Authority: CN
Inventors: 潘凤祎; 刘振河; 冯延童; 杨海峰; 李红江; 刘素峰; 杨少辉; 王祥
Original assignee: Dengfeng Zhonglian Dengdian Cement Co ltd
Current assignee: Dengfeng Zhonglian Dengdian Cement Co ltd
Priority date: 2022-06-15
Filing date: 2022-06-15
Publication date: 2024-04-02
Anticipated expiration: 2042-06-15
Also published as: CN115041285A

Abstract

The invention is applicable to the technical field of cement processing auxiliary equipment, and provides casting waste residue crushing equipment for processing cement, which comprises an equipment tank body, wherein a material dividing box, a first crushing box and a second crushing box are sequentially arranged in the equipment tank body, and the equipment tank body further comprises: the crushing mechanism comprises a first crushing mechanism and a second crushing mechanism; the first crushing mechanism comprises a first driving piece, a first transmission module, a telescopic module, an adjusting assembly, a first crushing roller and a second crushing roller; intermittent feeding mechanism. According to the casting waste residue crushing equipment for processing cement, disclosed by the invention, the intermittent feeding mechanism intermittently feeds the casting waste residues in the material distribution box and the first crushing box into the second crushing box, and the first crushing mechanism is matched with the second crushing mechanism, so that the equipment can orderly crush the casting waste residues according to the volume of the casting waste residues, the crushing efficiency of the equipment on the casting waste residues is improved, and the phenomenon of high-load operation of the crushing equipment is prevented.

Description

Casting waste residue crushing equipment for processing cement

Technical Field

The invention belongs to the technical field of cement processing auxiliary equipment, and particularly relates to casting waste residue crushing equipment for processing cement.

Background

The cement is a powdery hydraulic inorganic cementing material, and the cement is slurried after being added with water and stirred, can be hardened in air or water, and can firmly bond sand and stone materials together. After hardening, the cement has high strength, can resist the erosion of fresh water or salt water, is taken as an important cementing material for a long time, and is widely applied to civil construction, water conservancy, national defense and other projects. Along with the continuous development of technology, the cement processing technology is also gradually developed towards the diversification direction, the casting waste slag also becomes one of auxiliary materials for cement processing, and the casting waste slag needs to be crushed before being used so as to meet the use requirement of cement processing.

The existing casting waste residue crushing equipment for processing cement is provided with a feeding pipe, a crushing box, a crushing mechanism and a discharge pipe, wherein the casting waste residue is conveyed into the crushing box through the feeding pipe, the crushing mechanism crushes the casting waste residue, and the crushed casting waste residue is discharged out of the crushing box through the discharge pipe so as to be used by workers; however, because the volumes of the casting waste residues are different, the existing crushing mechanism can only be independently applied to crushing the casting waste residues with larger volumes or smaller volumes, and when the crushing mechanism with larger volumes of the casting waste residues is applied to crushing the casting waste residues with smaller volumes, the crushing effect of the casting waste residues is poor, and when the crushing mechanism with smaller volumes of the casting waste residues is applied to crushing the casting waste residues with larger volumes, the time spent is long, and the high-load operation of the crushing mechanism can be caused, so that the normal use of the crushing mechanism is influenced, therefore, the existing crushing equipment cannot be used for orderly crushing the casting waste residues according to the volume of the casting waste residues, and the working efficiency and the practicability of the crushing equipment are reduced.

Accordingly, in view of the above-mentioned current situation, there is an urgent need to develop a foundry waste crushing apparatus for processing cement to overcome the shortcomings in the current practical applications.

Disclosure of Invention

In view of the shortcomings of the prior art, an object of an embodiment of the present invention is to provide a casting slag crushing apparatus for processing cement, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a casting waste residue crushing apparatus for processing cement, includes the equipment jar body, the equipment jar body is installed on the support, divide workbin, first broken case and the broken case of second have set gradually in the equipment jar body, the both ends of the equipment jar body still are provided with inlet pipe and row material pipe, the one end of inlet pipe extends to divide in the workbin, the one end of row material pipe extends to the broken incasement of second, divide the workbin to be linked together with first broken case, just divide and be provided with the screen cloth on the intercommunication position of workbin and first broken case, be provided with first broken chamber and first installation chamber in the first broken incasement, be provided with the access door on the lateral wall of first installation chamber, still include:

the crushing mechanism comprises a first crushing mechanism and a second crushing mechanism, and the second crushing mechanism is arranged in a second crushing box;

the first crushing mechanism comprises a first driving piece, a first transmission module, a telescopic module, an adjusting assembly, a first crushing roller and a second crushing roller, wherein the first driving piece is arranged in a first installation cavity, the output end of the first driving piece is connected with the first transmission module, and two ends of the first transmission module are respectively connected with two groups of adjusting assemblies;

the adjusting assembly comprises a first gear, a second gear, a third gear, a first connecting piece and a second connecting piece, wherein the first gear is movably arranged in a first mounting cavity, the first gear is connected with the first transmission module, the second gear is symmetrically arranged at two ends of the first gear, the second gear is movably connected with the first gear through the second connecting piece, the third gear is movably connected with the second gear through the first connecting piece, the first gear, the second gear and the third gear are sequentially meshed and connected, two groups of the second gears are fixedly connected with one ends of the first crushing roller and the second crushing roller respectively, two ends of the telescopic module are movably connected with the first connecting piece, the other ends of the first crushing roller and the second crushing roller extend into the first crushing cavity, and crushing teeth are distributed on the side walls of the other ends of the first crushing roller and the second crushing roller;

the intermittent material conveying mechanism is arranged in the equipment tank body, one end of the intermittent material conveying mechanism is respectively communicated with the material distributing box and the first crushing box, and the other end of the intermittent material conveying mechanism is communicated with the second crushing box;

casting waste residues in the feeding pipe are screened and separated through the screen, casting waste residues with larger volume drop into the first crushing cavity, casting waste residues with smaller volume drop into the separating box, the first driving piece drives the first driving module to rotate, the first driving module drives the two groups of first gears to rotate, the first gears drive the second gears to rotate, the second gears drive the first crushing roller and the second crushing roller to rotate, and the first crushing roller and the second crushing roller crush the casting waste residues with larger volume through crushing teeth;

the telescopic module drives one ends of two groups of first connecting pieces to move, the first connecting piece drives the third gear to rotate around the second gear, the first connecting piece drives the second gear to rotate around the first gear through the second connecting piece, the second gear adjusts the positions of the first crushing roller and the second crushing roller in a rotating mode, and the first crushing roller and the second crushing roller adjust the crushing volume of casting waste residues in a position adjusting mode;

intermittent type feed mechanism is with dividing the casting waste residue intermittent type of workbin and first broken intracavity and carry to the broken incasement of second, and second broken mechanism carries out the secondary to it, and first broken mechanism and second broken mechanism realize the orderly breakage to the casting waste residue through the complex mode.

As a further technical scheme of the invention, a second mounting cavity and a second crushing cavity are formed in the second crushing box, and the second mounting cavity and the second crushing cavity are used for mounting a second crushing mechanism.

As a further technical scheme of the invention, the second crushing mechanism comprises a driving component, a crushing piece, crushing bulges and an elastic piece, wherein the driving component is arranged in the second installation cavity, one end of the driving component extends into the second crushing cavity and is fixedly connected with the crushing piece, the crushing bulges are distributed on the outer wall of the crushing piece and the inner wall of the second installation cavity in a staggered manner, and two ends of the elastic piece are fixedly connected with the crushing piece and the inner wall of the second installation cavity respectively.

As a further technical scheme of the invention, the driving assembly comprises a second driving piece, a third transmission module, a second rotating piece, a third connecting piece, a moving piece and a fixing seat, wherein the second driving piece is arranged in a second mounting cavity, the output end of the second driving piece is connected with the third transmission module, the two ends of the third transmission module are respectively connected with two groups of second rotating pieces, the two groups of second rotating pieces are symmetrically arranged in the second mounting cavity, one end of the third rotating piece is eccentrically arranged on the second rotating piece, the other end of the third rotating piece is movably connected with the third connecting piece, the third connecting piece is movably connected with the moving piece, one end of the moving piece extends into a second crushing cavity and is movably connected with the fixing seat, and the fixing seat is arranged on the crushing piece.

As a further technical scheme of the invention, the third rotating piece, the third connecting piece, the moving piece and the fixed seat are all arranged into two groups, and the third rotating piece is of a cam structure.

As a further technical scheme of the invention, the intermittent feeding mechanism comprises an intermittent assembly, a movable seat, a feeding seat, a mounting seat, a first feeding pipe and a second feeding pipe, wherein the intermittent assembly is arranged in an equipment tank body, one end of the intermittent assembly is connected with the movable seat, one end of the movable seat penetrates through the mounting seat and is fixedly connected with the feeding seat, the feeding seat is movably arranged on the mounting seat, two ends of the mounting seat are fixedly connected with the inner wall of the equipment tank body, two ends of the feeding seat are respectively and movably connected with the first feeding pipe and the second feeding pipe, the first feeding pipe is respectively arranged on a distributing box and a first crushing box, one end of the first feeding pipe extends into the distributing box and the first crushing cavity, the second feeding pipe is symmetrically arranged on the second crushing box, and one end of the second feeding pipe extends into the second crushing cavity.

As a further technical scheme of the invention, the intermittent assembly comprises a power piece, a second transmission module, a first rotating seat, a connecting rod module, a second rotating seat, a movable piece, a first rotating piece and a connecting seat, wherein the power piece is fixed in a device tank body, the output end of the power piece is fixedly connected with the second transmission module, the second transmission module is eccentrically connected with the first rotating seat, the first rotating seat and the second rotating seat are both eccentrically arranged in the device tank body, the first rotating seat is connected with the second rotating seat through the connecting rod module, two ends of the movable piece are respectively and movably connected with the side walls of the first rotating seat and the second rotating seat, the movable piece is movably arranged on the first rotating piece, one end of the first rotating piece is arranged on a second crushing box, the other end of the first rotating piece is movably connected with the connecting seat, and the connecting seat is fixedly connected with the movable seat.

As a further technical scheme of the invention, the two ends of the conveying seat are symmetrically provided with the placing grooves, the two ends of the placing grooves are respectively provided with an opening, the two ends of the mounting seat are symmetrically provided with the conveying grooves, the conveying grooves are matched with the second conveying pipe, and the placing grooves are matched with the conveying grooves.

Compared with the prior art, the invention has the beneficial effects that:

casting waste residues in the feeding pipe are screened and separated through the screen, the casting waste residues with larger volume drop into the first crushing cavity, the casting waste residues with smaller volume drop into the separating box, the first driving piece drives the first driving module to rotate, the first driving module drives the two groups of first gears to rotate, the first gears drive the second gears to rotate, the second gears drive the first crushing roller and the second crushing roller to rotate, the first crushing roller and the second crushing roller crush the casting waste residues with larger volume to a designated size through the crushing teeth, the second crushing mechanism is convenient to crush the casting waste residues for the second time, the working efficiency of crushing equipment is improved, and the phenomenon that the crushing equipment runs under high load is avoided;

when the crushing volume of the casting waste slag is required to be adjusted, the telescopic module drives one ends of the two groups of first connecting pieces to move oppositely or reversely, the first connecting pieces drive the third gear to rotate around the second gear, meanwhile, the first connecting pieces drive the second gear to rotate around the first gear through the second connecting pieces, the second gear drives the first crushing roller and the second crushing roller to move along the sliding groove, so that the first crushing roller which is arranged up and down moves oppositely or reversely, the second crushing roller which is arranged up and down moves reversely or moves oppositely, the positions of the first crushing roller and the second crushing roller are adjusted, the crushing volume of the casting waste slag is adjusted in a position adjustment mode, and the second crushing mechanism is convenient for carrying out secondary crushing on the casting waste slag;

intermittent type feed mechanism will divide the casting waste residue intermittent type of workbin and first broken intracavity to the broken incasement of second, and second broken mechanism carries out the secondary to it and breaks, first broken mechanism and second broken mechanism pass through the complex mode to according to the volume size of casting waste residue, realize the orderly breakage to casting waste residue, so not only can improve the crushing efficiency of equipment to casting waste residue, can also prevent that broken equipment from appearing the phenomenon of high-load operation, and then improve broken equipment's life and work efficiency, reduce equipment's cost of maintenance.

In order to more clearly illustrate the structural features and efficacy of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a structural sectional view of a casting slag crushing apparatus for processing cement according to an embodiment of the present invention.

Fig. 2 is a partially sectioned perspective view of the first crushing tank of fig. 1.

Figure 3 is a side view of the structure at A-A in figure 2 in cross-section.

Fig. 4 is a sectional view of the second crushing tank of fig. 1.

Fig. 5 is a schematic view of the construction of the intermediate assembly of fig. 1.

Reference numerals: 1-equipment tank, 2-feed pipe, 3-distribution box, 4-screen, 5-first crushing box, 51-access door, 52-first crushing cavity, 53-first installation cavity, 54-chute, 6-first crushing mechanism, 61-first driving piece, 62-first transmission module, 63-telescoping module, 64-adjustment assembly, 641-first gear, 642-second gear, 643-third gear, 644-first connecting piece, 645-second connecting piece, 65-first crushing roller, 66-second crushing roller, 67-crushing tooth, 7-intermittent feeding mechanism, 71-intermittent assembly, 711-power piece, 712-second transmission module, 713-first rotating seat, 714-connecting rod module, 715-second rotating seat, 716-movable piece, 717-first rotating piece, 718-connecting seat, 72-movable seat, 73-conveying seat, 74-mounting seat, 75-placing groove, 76-first conveying pipe, 77-second conveying pipe, 8-second crushing box, 81-second mounting cavity, 82-second crushing cavity, 9-second crushing mechanism, 91-driving component, 911-second driving piece, 912-third transmission module, 913-second rotating piece, 914-third rotating piece, 915-third connecting piece, 916-movable piece, 917-fixed seat, 92-crushing piece, 93-crushing bulge, 94-elastic piece, 10-bracket, 11-discharging pipe.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 5, a cast waste residue crushing apparatus for processing cement provided as an embodiment of the present invention includes an apparatus tank 1, the apparatus tank 1 is mounted on a bracket 10, a material dividing box 3, a first crushing box 5 and a second crushing box 8 are sequentially disposed in the apparatus tank 1, two ends of the apparatus tank 1 are further provided with a material feeding pipe 2 and a material discharging pipe 11, one end of the material feeding pipe 2 extends into the material dividing box 3, one end of the material discharging pipe 11 extends into the second crushing box 8, the material dividing box 3 is communicated with the first crushing box 5, a screen 4 is disposed at a communication position between the material dividing box 3 and the first crushing box 5, a first crushing cavity 52 and a first mounting cavity 53 are disposed in the first crushing box 5, and an access door 51 is disposed on a side wall of the first mounting cavity 53, and the apparatus further includes:

a crushing mechanism comprising a first crushing mechanism 6 and a second crushing mechanism 9, the second crushing mechanism 9 being arranged in a second crushing tank 8;

the first crushing mechanism 6 comprises a first driving piece 61, a first transmission module 62, a telescopic module 63, an adjusting assembly 64, a first crushing roller 65 and a second crushing roller 66, wherein the first driving piece 61 is arranged in the first installation cavity 53, the output end of the first driving piece 61 is connected with the first transmission module 62, and two ends of the first transmission module 62 are respectively connected with two groups of adjusting assemblies 64;

the adjusting assembly 64 comprises a first gear 641, a second gear 642, a third gear 643, a first connecting piece 644 and a second connecting piece 645, wherein the first gear 641 is movably arranged in the first mounting cavity 53, the first gear 641 is connected with the first transmission module 62, the second gear 642 is symmetrically arranged at two ends of the first gear 641, the second gear 642 is movably connected with the first gear 641 through the second connecting piece 645, the third gear 643 is movably connected with the second gear 642 through the first connecting piece 644, the first gear 641, the second gear 642 and the third gear 643 are sequentially meshed and connected, the two groups of the second gears 642 are fixedly connected with one ends of the first crushing roller 65 and the second crushing roller 66 respectively, two ends of the telescopic module 63 are movably connected with the first connecting piece 644, the other ends of the first crushing roller 65 and the second crushing roller 66 extend into the first crushing cavity 52, and teeth 67 are distributed on the side walls of the other ends of the first crushing roller 65 and the second crushing roller 66;

the intermittent feeding mechanism 7 is arranged in the equipment tank body 1, one end of the intermittent feeding mechanism 7 is respectively communicated with the material distributing box 3 and the first crushing box 5, and the other end of the intermittent feeding mechanism 7 is communicated with the second crushing box 8;

casting waste residues in the feeding pipe 2 are screened and separated through the screen 4, casting waste residues with larger volume drop into the first crushing cavity 52, casting waste residues with smaller volume drop into the separating box 3, the first driving piece 61 drives the first driving module 62 to rotate, the first driving module 62 drives the two groups of first gears 641 to rotate, the first gears 641 drive the second gears 642 to rotate, the second gears 642 drive the first crushing roller 65 and the second crushing roller 66 to rotate, and the first crushing roller 65 and the second crushing roller 66 crush the casting waste residues with larger volume through the crushing teeth 67;

the telescopic module 63 drives one ends of two groups of first connecting pieces 644 to move, the first connecting pieces 644 drive the third gear 643 to rotate around the second gear 642, meanwhile, the first connecting pieces 644 drive the second gear 642 to rotate around the first gear 641 through the second connecting pieces 645, the second gear 642 adjusts the positions of the first crushing roller 65 and the second crushing roller 66 in a rotating mode, and the first crushing roller 65 and the second crushing roller 66 adjust the crushing volume of casting waste residues in a position adjusting mode;

the intermittent feeding mechanism 7 intermittently feeds the casting waste residues in the material distributing box 3 and the first crushing cavity 52 into the second crushing box 8, the second crushing mechanism 9 carries out secondary crushing on the casting waste residues, and the first crushing mechanism 6 and the second crushing mechanism 9 realize orderly crushing of the casting waste residues in a matched mode.

In this embodiment, intermittent type feed mechanism 7 is with the casting waste residue intermittent type transport to the second in the broken case 8 of branch workbin 3 and first broken incasement 5, and first broken mechanism 6 cooperates second broken mechanism 9 for the equipment can be according to the volume size of casting waste residue, realizes the orderly breakage to the casting waste residue, not only improves the crushing efficiency of equipment to the casting waste residue, still prevents that broken equipment from appearing the phenomenon of high-load operation.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, a second installation cavity 81 and a second crushing cavity 82 are formed in the second crushing box 8, and the second installation cavity 81 and the second crushing cavity 82 are used for installing the second crushing mechanism 9.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, the second crushing mechanism 9 includes a driving assembly 91, a crushing member 92, a crushing protrusion 93 and an elastic member 94, wherein the driving assembly 91 is disposed in the second installation cavity 81, one end of the driving assembly 91 extends into the second crushing cavity 82 and is fixedly connected with the crushing member 92, the crushing protrusions 93 are alternately distributed on the outer wall of the crushing member 92 and on the inner wall of the second installation cavity 82, and two ends of the elastic member 94 are fixedly connected with the crushing member 92 and the inner wall of the second installation cavity 82, respectively.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, the driving assembly 91 includes a second driving member 911, a third transmission module 912, a second rotating member 913, a third rotating member 914, a third connecting member 915, a moving member 916 and a fixed seat 917, wherein the second driving member 911 is disposed in the second installation cavity 81, an output end of the second driving member 911 is connected to the third transmission module 912, two ends of the third transmission module 912 are respectively connected to two sets of second rotating members 913, two sets of second rotating members 913 are symmetrically disposed in the second installation cavity 81, one end of the third rotating member 914 is eccentrically disposed on the second rotating member 913, the other end of the third rotating member 914 is movably connected to the third connecting member 915, the third connecting member 915 is movably connected to the moving member 916, one end of the moving member 916 extends into the second crushing cavity 82 and is movably connected to the fixed seat 97, and the fixed seat 97 is disposed on the crushing member 92.

As shown in fig. 1 and 4, as a preferred embodiment of the present invention, the third rotating member 914, the third connecting member 915, the moving member 916 and the fixing base 917 are all provided in two sets, and the third rotating member 914 is a cam structure.

In this embodiment, the casting waste residues in the feeding pipe 2 are screened and separated by the screen 4, the casting waste residues with larger volume drop into the first crushing cavity 52, the casting waste residues with smaller volume drop into the separating box 3, the first driving piece 61 drives the first driving module 62 to rotate, the first driving module 62 drives the two groups of first gears 641 to rotate, the first gears 641 drive the second gears 642 to rotate, the second gears 642 drive the first crushing roller 65 and the second crushing roller 66 to rotate, the first crushing roller 65 and the second crushing roller 66 crush the casting waste residues with larger volume to a designated size through the crushing teeth 67, so that the second crushing mechanism 9 is convenient for secondary crushing of the casting waste residues, the working efficiency of crushing equipment is improved, and the phenomenon of high-load operation of the crushing equipment is avoided;

when the crushing volume of the casting waste slag needs to be adjusted, the telescopic module 63 drives one ends of the two groups of first connecting pieces 644 to move in opposite directions or reversely, the first connecting pieces 644 drive the third gear 643 to rotate around the second gear 642, meanwhile, the first connecting pieces 644 drive the second gear 642 to rotate around the first gear 641 through the second connecting pieces 645, the second gear 642 drive the first crushing roller 65 and the second crushing roller 66 to move along the chute 53, so that the first crushing roller 65 arranged up and down moves in opposite directions or reversely, the second crushing roller 66 arranged up and down moves in opposite directions or reversely, the positions of the first crushing roller 65 and the second crushing roller 66 are adjusted, the crushing volume of the casting waste slag is adjusted through the position adjustment mode, and the second crushing mechanism 9 is convenient to crush the casting waste slag secondarily;

the intermittent feeding mechanism 7 intermittently feeds the casting waste residues in the material distribution box 3 and the first crushing cavity 52 into the second crushing box 8, the second driving piece 911 drives the third driving module 912 to rotate, the third driving module 912 drives the second rotating piece 913 to rotate, the second rotating piece 913 drives the third rotating piece 914 to rotate, the third rotating piece 914 drives the moving piece 916 to move through the third connecting piece 915, the moving piece 916 drives the crushing piece 92 to move through the fixing seat 917, the crushing piece 92 moves, so that the casting waste residues in the second crushing cavity 82 are crushed, the third rotating piece 914 is of a cam structure, the crushing piece 92 moves back and forth in the second crushing cavity 82, the casting waste residues are crushed back and forth, and the elastic piece 94 can absorb vibration received by the crushing piece 92;

the first crushing mechanism 6 and the second crushing mechanism 9 are matched, so that the casting waste slag is orderly crushed according to the size of the casting waste slag, the crushing efficiency of the equipment to the casting waste slag can be improved, the phenomenon that the crushing equipment operates under high load can be prevented, the service life and the working efficiency of the crushing equipment are further improved, and the maintenance cost of the equipment is reduced.

In a preferred embodiment, the first driving member 61 and the second driving member 911 are each preferably a servo motor;

the first transmission module 62 and the third transmission module 912 are preferably each a belt transmission structure;

the telescopic module 63 preferably adopts a hydraulic telescopic structure;

the first connecting piece 644 and the second connecting piece 945 are preferably a connecting rod structure;

the second rotating member 913 preferably adopts a turntable structure;

the third rotating member 914 preferably is a rotating block with a cam structure;

the third connecting member 915 preferably has a columnar structure;

the crushing member 92 preferably has a block-like structure;

the spring 94 is preferably a spring.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the intermittent feeding mechanism 7 includes an intermittent assembly 71, a moving seat 72, a feeding seat 73, a mounting seat 74, a first feeding pipe 76 and a second feeding pipe 77, wherein the intermittent assembly 71 is disposed in the apparatus tank 1, one end of the intermittent assembly 71 is connected to the moving seat 72, one end of the moving seat 72 penetrates the mounting seat 74 and is fixedly connected to the feeding seat 73, the feeding seat 73 is movably disposed on the mounting seat 74, two ends of the mounting seat 74 are fixedly connected to the inner wall of the apparatus tank 1, two ends of the feeding seat 73 are respectively movably connected to the first feeding pipe 6 and the second feeding pipe 7, the first feeding pipe 6 is respectively mounted on the distribution box 3 and the first crushing box 5, one end of the first feeding pipe 6 extends into the distribution box 3 and the first crushing cavity 52, one end of the second feeding pipe 77 is symmetrically disposed on the second crushing box 8, and one end of the second feeding pipe 77 extends into the second crushing cavity 82.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the intermittent assembly 71 includes a power member 711, a second transmission module 712, a first rotating seat 713, a connecting rod module 714, a second rotating seat 715, a movable member 716, a first rotating member 717 and a connecting seat 718, wherein the power member 711 is fixed in the equipment tank 1, an output end of the power member 711 is fixedly connected with the second transmission module 712, the second transmission module 712 is eccentrically connected with the first rotating seat 713, the first rotating seat 713 and the second rotating seat 715 are both eccentrically arranged in the equipment tank 1, the first rotating seat 713 is connected with the second rotating seat 715 through the connecting rod module 714, two ends of the movable member 716 are movably connected with side walls of the first rotating seat 713 and the second rotating seat 715 respectively, the movable member 716 is movably arranged on the first rotating member 717, one end of the first rotating member 717 is arranged on the second crushing box 8, the other end of the first rotating member 717 is movably connected with the connecting seat 718, and the connecting seat 72 is movably connected with the movable fixing seat 718.

As shown in fig. 1, as a preferred embodiment of the present invention, the two ends of the conveying seat 73 are symmetrically provided with the placement grooves 75, the two ends of the placement grooves 75 are both provided with openings, the two ends of the mounting seat 74 are symmetrically provided with the conveying grooves, the conveying grooves are matched with the second conveying pipe 77, and the placement grooves 75 are matched with the conveying grooves.

In this embodiment, the power member 711 drives the second transmission module 712 to rotate, the second transmission module 712 drives the first rotating seat 713 to rotate, the first rotating seat 713 drives the second rotating seat 715 to rotate through the connecting rod module 714, and since the first rotating seat 713 and the second rotating seat 715 are eccentrically disposed in the equipment tank 1, the first rotating seat 713 cooperates with the second rotating seat 715 to drive the movable member 716 to reciprocate, the movable member 716 drives the first rotating member 717 to reciprocate, the first rotating member 717 drives the movable seat 72 to reciprocate through the connecting seat 718, the movable seat 72 drives the conveying seat 73 to reciprocate, so that the placing grooves 75 disposed at two ends of the conveying seat 73 intermittently move below the material distributing box 3 and the first crushing box 5, and the casting residues in the material distributing box 3 and the first crushing cavity 52 are intermittently conveyed into the second crushing box 8, and the second crushing mechanism 9 performs secondary crushing on the casting residues.

In a preferred embodiment, the power member 711 is preferably a servo motor;

the second transmission module 712 preferably employs a belt drive arrangement;

the movable member 716 preferably has a disc configuration;

the first rotating member 717 preferably has a rod-like structure.

The working principle of the invention is as follows:

casting waste residues in the feeding pipe 2 are screened and separated through the screen 4, the casting waste residues with larger volume drop into the first crushing cavity 52, the casting waste residues with smaller volume drop into the separating box 3, the first driving piece 61 drives the first driving module 62 to rotate, the first driving module 62 drives the two groups of first gears 641 to rotate, the first gears 641 drive the second gears 642 to rotate, the second gears 642 drive the first crushing roller 65 and the second crushing roller 66 to rotate, and the first crushing roller 65 and the second crushing roller 66 crush the casting waste residues with larger volume to a specified size through the crushing teeth 67;

the power piece 711 drives the second transmission module 712 to rotate, the second transmission module 712 drives the first rotating seat 713 to rotate, the first rotating seat 713 drives the second rotating seat 715 to rotate through the connecting rod module 714, the first rotating seat 713 and the second rotating seat 715 are eccentrically arranged in the equipment tank body 1, the first rotating seat 713 is matched with the second rotating seat 715 to drive the movable piece 716 to reciprocate, the movable piece 716 drives the first rotating piece 717 to reciprocate, the first rotating piece 717 drives the movable seat 72 to reciprocate through the connecting seat 718, the movable seat 72 drives the conveying seat 73 to reciprocate, so that the placing grooves 75 arranged at two ends of the conveying seat 73 intermittently move below the material distributing box 3 and the first crushing box 5, casting waste residues in the material distributing box 3 and the first crushing cavity 52 are intermittently conveyed into the second crushing box 8, and the second crushing mechanism 9 carries out secondary crushing on the casting waste residues;

the second driving piece 911 drives the third transmission module 912 to rotate, the third transmission module 912 drives the second rotating piece 913 to rotate, the second rotating piece 913 drives the third rotating piece 914 to rotate, the third rotating piece 914 drives the moving piece 916 to move through the third connecting piece 915, the moving piece 916 drives the crushing piece 92 to move through the fixing seat 917, the crushing piece 92 realizes crushing of the casting waste residue in the second crushing cavity 82 in a moving manner, and the third rotating piece 914 is of a cam structure, so that the crushing piece 92 reciprocates in the second crushing cavity 82 to realize reciprocating crushing of the casting waste residue, and the elastic piece 94 can absorb vibration received by the crushing piece 92;

the first crushing mechanism 6 and the second crushing mechanism 9 are matched, so that the casting waste residues are crushed orderly according to the volume of the casting waste residues;

the working principle of the casting waste residue crushing equipment for processing cement is as above.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The utility model provides a casting waste residue crushing equipment for processing cement, includes the equipment jar body, the equipment jar body is installed on the support, divide workbin, first broken case and the broken case of second have set gradually in the equipment jar body, the both ends of the equipment jar body still are provided with inlet pipe and row material pipe, the one end of inlet pipe extends to divide in the workbin, the one end of row material pipe extends to the broken incasement of second, divide the workbin to be linked together with first broken case, just divide and be provided with the screen cloth on the intercommunication position of workbin and first broken case, be provided with first broken chamber and first installation chamber in the first broken incasement, be provided with the access door on the lateral wall of first installation chamber, its characterized in that still includes:

the intermittent feeding mechanism intermittently feeds the material distribution box and the casting waste residues in the first crushing cavity into a second crushing box, the second crushing mechanism carries out secondary crushing on the casting waste residues, and the first crushing mechanism and the second crushing mechanism realize orderly crushing of the casting waste residues in a matched mode;

the intermittent material conveying mechanism comprises an intermittent assembly, a movable seat, a conveying seat, a mounting seat, a first material conveying pipe and a second material conveying pipe, wherein the intermittent assembly is arranged in an equipment tank body, one end of the intermittent assembly is connected with the movable seat, one end of the movable seat penetrates through the mounting seat and is fixedly connected with the conveying seat, the conveying seat is movably arranged on the mounting seat, two ends of the mounting seat are fixedly connected with the inner wall of the equipment tank body, two ends of the conveying seat are respectively and movably connected with the first material conveying pipe and the second material conveying pipe, the first material conveying pipe is respectively arranged on a material distributing box and a first crushing box, one end of the first material conveying pipe extends into the material distributing box and the first crushing cavity, the second material conveying pipe is symmetrically arranged on the second crushing box, and one end of the second material conveying pipe extends into the second crushing cavity;

the intermittent assembly comprises a power piece, a second transmission module, a first rotating seat, a connecting rod module, a second rotating seat, a movable piece, a first rotating piece and a connecting seat, wherein the power piece is fixed in an equipment tank body, the output end of the power piece is fixedly connected with the second transmission module, the second transmission module is eccentrically connected with the first rotating seat, the first rotating seat and the second rotating seat are both eccentrically arranged in the equipment tank body, the first rotating seat is connected with the second rotating seat through the connecting rod module, the two ends of the movable piece are respectively movably connected with the side walls of the first rotating seat and the second rotating seat, the movable piece is movably arranged on the first rotating piece, one end of the first rotating piece is arranged on a second crushing box, the other end of the first rotating piece is movably connected with the connecting seat, and the connecting seat is fixedly connected with the movable seat.

2. The casting waste residue crushing device for processing cement according to claim 1, wherein a second installation cavity and a second crushing cavity are formed in the second crushing box, and the second installation cavity and the second crushing cavity are used for installation of a second crushing mechanism.

3. The casting slag crushing apparatus for processing cement according to claim 2, wherein the second crushing mechanism comprises a driving assembly, a crushing member, crushing protrusions and an elastic member, the driving assembly is disposed in the second installation cavity, one end of the driving assembly extends into the second crushing cavity and is fixedly connected with the crushing member, the crushing protrusions are alternately distributed on the outer wall of the crushing member and the inner wall of the second installation cavity, and two ends of the elastic member are fixedly connected with the crushing member and the inner wall of the second installation cavity respectively.

4. The casting slag crushing apparatus for processing cement according to claim 3, wherein the driving assembly comprises a second driving member, a third transmission module, a second rotating member, a third connecting member, a moving member and a fixing base, the second driving member is disposed in the second installation cavity, an output end of the second driving member is connected with the third transmission module, two ends of the third transmission module are respectively connected with two sets of second rotating members, the two sets of second rotating members are symmetrically disposed in the second installation cavity, one end of the third rotating member is eccentrically disposed on the second rotating member, the other end of the third rotating member is movably connected with the third connecting member, the third connecting member is movably connected with the moving member, one end of the moving member extends into the second crushing cavity and is movably connected with the fixing base, and the fixing base is disposed on the crushing member.

5. The apparatus for crushing foundry waste for processing cement according to claim 4, wherein the third rotating member, the third connecting member, the moving member and the fixed seat are each provided in two groups, and the third rotating member is a cam structure.

6. The casting slag crushing apparatus for processing cement according to claim 5, wherein both ends of the conveying seat are symmetrically provided with placing grooves, both ends of the placing grooves are opened, both ends of the mounting seat are symmetrically provided with conveying grooves, the conveying grooves are matched with the second conveying pipe, and the placing grooves are matched with the conveying grooves.