CN112844755B

CN112844755B - Broken all-in-one is washd with stone to building

Info

Publication number: CN112844755B
Application number: CN202110073214.1A
Authority: CN
Inventors: 赵阳
Original assignee: Jiangsu Meiang Construction Engineering Co ltd
Current assignee: Gaotang County Jinzhu Urban Construction Concrete Industry Co.,Ltd.
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2022-11-08
Anticipated expiration: 2041-01-20
Also published as: CN112844755A

Abstract

The invention discloses a stone cleaning and crushing integrated machine for construction, which comprises a trolley, wherein an installation frame is connected to the trolley; the speed reducing motor is arranged on the mounting frame; the shell is connected to one side, close to the speed reducing motor, of the trolley; the vertical plate is arranged between the shell and the trolley; the fixing seat is connected to one side, far away from the vertical plate, of the trolley; the first rotating shaft is rotatably arranged between the vertical plate and the fixed seat; the crushing mechanism is arranged on the shell; and the screening mechanism is arranged on the shell below the crushing mechanism and is matched with the crushing mechanism. The invention can process the stones into stones through the crushing mechanism, and can complete the screening of fine stones through the screening mechanism; the addition of the stones can be completed by clockwise rotation of the conveyer belt, so that the stones can be conveniently processed into stones; spray water on the stone through the spray tube, can accomplish and wash the stone, so can prevent the surface parcel mud of stone, cause the building stones after the processing to combine insecure with the concrete in subsequent use.

Description

Broken all-in-one is washd with stone to building

Technical Field

The invention relates to the technical field of building materials, in particular to a stone cleaning and crushing integrated machine for buildings.

Background

Building materials are various materials used in construction; the building materials are various in types, and are roughly classified into: inorganic materials, including metallic materials (including ferrous and non-ferrous materials) and non-metallic materials (such as natural stone, burnt earth products, cement, concrete, silicate products, etc.).

When current stone crusher is broken to the stone, the workman pours the stone into the stone crusher mostly and accomplishes the feeding, because the stone is open in a long time, so the surface of stone can wrap up the mud, the stone crusher is to the broken course of working of stone, the surface of some stones can wrap up the mud, and the stone of wrapping up the mud combines with the concrete, can cause the mixed soil to combine insecure, the quality of building has been influenced, broken back stone is that multiple specification mixes together simultaneously, it is categorised to need the workman to screen broken stone, be convenient for follow-up use the stone.

Aiming at the problems, the integrated machine for cleaning and crushing the building stones is developed, and the integrated machine can ensure that the sizes are the same and that the stones are clean.

Disclosure of Invention

The invention aims to overcome the defects and provides a stone cleaning and crushing integrated machine for construction.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a broken all-in-one is washd with stone to building, including: the trolley is connected with an installation frame; the speed reducing motor is arranged on the mounting frame; the shell is connected to one side, close to the speed reducing motor, of the trolley; the vertical plate is arranged between the shell and the trolley; the fixing seat is connected to one side, far away from the vertical plate, of the trolley; the first rotating shaft is rotatably arranged between the vertical plate and the fixed seat; the crushing mechanism is arranged on the shell; and the screening mechanism is arranged on the shell below the crushing mechanism and is matched with the crushing mechanism.

Further, the crushing mechanism comprises: two rotating frames are arranged and are embedded on two sides of the first rotating shaft; two swing plates are arranged and are connected to the corresponding rotating frames in a rotating mode; two swing frames which are rotatably mounted on the corresponding swing plates; the four first sliding blocks are respectively connected to two sides of the corresponding swing frame and are in sliding fit with the shell; four fixing plates are arranged and are respectively arranged on two side walls of the shell; two sliding rods are arranged and are respectively arranged between two adjacent fixing plates; the two connecting plates are arranged, sliding grooves are formed in the middle lower portion of each connecting plate, the sliding rods are located in the sliding grooves on one side in a sliding mode, and the swing frame is matched with the sliding grooves on the other side; the moving blocks are provided with two moving blocks, and the bottom of each moving block is provided with a plurality of grooves; the four second sliding blocks are respectively connected to two side walls of the corresponding moving blocks, and the second sliding blocks are matched with the shell in a sliding mode; two crushing teeth are arranged and are respectively arranged on the corresponding moving blocks; two moving frames are arranged and are respectively arranged on one side of the connecting plate away from the corresponding sliding chute; four first guide rods are arranged and are respectively arranged on the corresponding movable frames in a sliding manner; the four first springs are respectively wound on the corresponding first guide rods, one end of each first spring is fixedly connected with the moving frame, and the other end of each first spring is fixedly connected with the moving block; four second guide rods are arranged and are respectively arranged on one side of the movable frame far away from the first guide rod in a sliding manner; and four second springs are arranged and respectively wound on the corresponding second guide rods, one end of each second spring is fixedly connected with the movable frame, and the other end of each second spring is fixedly connected with the movable block.

Further, screening mechanism includes: the screening screen plate is arranged on the shell on the lower side of the two moving blocks in a sliding manner; four reset springs are arranged and respectively connected between the screening screen plate and the shell; two bumps are arranged and are connected to the screening screen plate, and the bumps are matched with the grooves; two connecting frames are arranged and are fixed on one side of the screening screen plate far away from the lug; and the blanking frame is arranged between the two connecting frames.

Further, the diameter of the holes on the screen plate is 4.75 mm.

Further, the method also comprises the following steps: the first belt wheel is fixed on an output shaft of the speed reducing motor; the bracket is arranged on one side of the trolley close to the shell; the four second rotating shafts are rotatably arranged on the bracket; the four conveying rollers are connected to the corresponding second rotating shafts; the two conveying belts are respectively wound between the two corresponding conveying rollers; four contact rings are arranged and are respectively connected to two sides of the corresponding conveying belt; the two second belt wheels are respectively arranged at one end of the two second rotating shafts; the first belt is wound between two adjacent second belt wheels; the third belt wheel is fixed on the second rotating shaft at one side far away from the second belt wheel; and the second belt is wound between the third belt wheel and the first belt wheel.

Further, the method also comprises the following steps: a plurality of mounting seats are arranged and respectively mounted on two sides of the bracket; a plurality of conveying pipes are arranged and are respectively arranged between the two corresponding mounting seats; the water spray pipe is embedded between the two corresponding mounting seats; the water guide pipe is embedded in the mounting seat at one side and is respectively communicated with the conveying pipe; the water tank is arranged on one side, close to the bracket, of the trolley, and a water pump is arranged in the water tank; a water inlet pipe and a connecting pipe are arranged; the connecting pipe is arranged on the water pump, and a water inlet pipe is arranged on the water pump; and the water supply pipe is arranged on the connecting pipe and communicated with the water guide pipe.

Further, the method also comprises the following steps: a plurality of fans which are embedded on the two side walls of the bracket; the two fourth pulleys are respectively arranged on the corresponding fan shafts; the two first double-groove belt wheels are respectively arranged on the corresponding fan shafts; the third belt is wound between the two adjacent first double-groove belt wheels and the fourth belt wheel; two second double-groove belt wheels are arranged and are respectively arranged on the corresponding fan shafts; the fourth belt is wound between the two adjacent second double-groove belt wheels and the first double-groove belt wheel; two fifth belt wheels are arranged and are arranged at two ends of the second rotating shaft on one side; the fifth belt is wound between two adjacent fifth belt wheels and the second double-groove belt wheel; two heating wires are arranged and are embedded on two side walls in the bracket, and the two heating wires are positioned at the inner sides of the fans at the two sides.

Further, the method also comprises the following steps: ten third springs are respectively connected to one side, close to the crushing teeth, of the corresponding moving block; and two baffle plates are arranged and are respectively arranged between the five adjacent third springs, and the baffle plates are matched with the screening screen plate.

Further, the method also comprises the following steps: a plurality of material blocking plates are arranged and are connected to the outer side wall of the conveying belt on one side, and the intervals between the adjacent material blocking plates are equal; the guide plate is equipped with a plurality ofly, all connects on the lateral wall of opposite side conveyer belt, and the interval of adjacent guide plate equals.

The invention has the beneficial effects that:

1. the invention can process the stones into stones through the crushing mechanism, and can complete the screening of the stones through the screening mechanism;

2. the addition of the stones can be completed by clockwise rotation of the conveyer belt, so that the stones can be conveniently processed into stones;

3. water is sprayed on the stones through the spray pipes, so that the stones can be cleaned, and the surfaces of the stones can be prevented from being coated with mud, so that the processed stones are not firmly combined with concrete in the subsequent use process;

4. the cleaned stones can be quickly dried by matching the operation of the fan and the heating of the electric heating wire, so that the stones can be conveniently processed into stones;

5. the baffle plate can prevent the stones from moving to be positioned at the lower side of the moving block, so that inconvenience is caused to processing the stones;

6. through the downward landing of stone on the conveyer belt of striker plate right side, can shunt the water that sprays on the conveyer belt of left side through the guide plate.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the housing of the present invention.

Fig. 3 is a schematic perspective view of the fixing base of the present invention.

Fig. 4 is a schematic perspective view of the crushing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the moving block of the present invention.

Fig. 6 is a schematic perspective view of the crushing tooth of the present invention.

Fig. 7 is a schematic perspective view of the screening mechanism of the present invention.

Fig. 8 is a schematic perspective view of the conveyor belt of the present invention.

Fig. 9 is a schematic perspective view of the water tank of the present invention.

Fig. 10 is a schematic perspective view of a fan according to the present invention.

Fig. 11 is a schematic perspective view of the baffle of the present invention.

Reference numbers: 1. the device comprises a trolley, a mounting rack 2, a speed reducing motor 3, a shell 4, a vertical plate 5, a fixed seat 6, a first rotating shaft 7, a crushing mechanism 8, a rotating rack 801, a swinging plate 802, a swinging frame 803, a first sliding block 804, a fixed plate 805, a sliding rod 806, a connecting plate 807, a sliding chute 808, a moving block 809, a groove 810, a second sliding block 811, a crushing tooth 812, a moving frame 813, a first guide rod 814, a first spring 815, a second guide rod 816, a second spring 817, a screening mechanism 9, a screening net plate 901, a return spring 902, a convex block 903, a connecting frame 904 and a

blanking frame

905, 10 first belt pulley, 11 supports, 12 second rotating shaft, 13 conveying rollers, 131 conveying belts, 132 contact rings, 14 second belt pulley, 15 first belt, 16 third belt pulley, 17 second belt, 18 mounting seats, 19 conveying pipes, 20 water spraying pipes, 21 water guiding pipes, 22 water tank, 23 connecting pipes, 24 water conveying pipes, 25 fans, 26 fourth belt pulley, 27 first double-groove belt pulley, 28 third belt, 29 second double-groove belt pulley, 30 fourth belt, 31 fifth belt pulley, 32 fifth belt, 33 electric heating wires, 34 third springs, 35 baffle, 36 baffle plate and 37 guide plate.

Detailed Description

The invention is described in further detail below with reference to the following figures and specific examples:

example 1

As shown in fig. 1-3, a broken all-in-one is washd with stone for building, including shallow 1, mounting bracket 2, gear motor 3, casing 4, riser 5, fixing base 6, first pivot 7, broken mechanism 8 and screening mechanism 9, shallow 1 top right side is connected with mounting bracket 2, be provided with gear motor 3 through the bolt in the mounting bracket 2, gear motor 3 is connected with shallow 1, casing 4 is installed at shallow 1 top of gear motor 3 rear side, install riser 5 between casing 4 and the shallow 1 top, fixing base 6 is installed at shallow 1 top of riser 5 rear side, first pivot 7 is installed to the rotary type between riser 5 and the fixing base 6, the front end of first pivot 7 and the rear end rigid coupling of gear motor 3 output shaft, be provided with broken mechanism 8 on the casing 4, broken mechanism 8 is connected with first pivot 7, install screening mechanism 9 on the casing 4 of broken mechanism 8 inboard, screening mechanism 9 cooperates with broken mechanism 8.

When the stones need to be crushed, a user moves the stone crusher to a proper position through the cart 1, then the user starts the speed reduction motor 3 to enable the first rotating shaft 7 to rotate clockwise, the first rotating shaft 7 rotates clockwise to enable the crushing mechanism 8 to work, meanwhile, the user pours a proper amount of stones into the shell 4, the stones in the shell 4 fall downwards onto the crushing mechanism 8, the crushed stones can be crushed through the operation of the crushing mechanism 8, the crushed stones fall downwards onto the screening mechanism 9, the screening mechanism 9 can operate while the crushing mechanism 8 works, the screening mechanism 9 can screen crushed stones, and the qualified stones fall downwards onto the ground, so that screening of the stones can be completed, subsequent use can be facilitated, and after all the stones are processed, the user closes the speed reduction motor 3.

Example 2

As shown in fig. 1-6, based on embodiment 1, the crushing mechanism 8 includes a rotating frame 801, a swing plate 802, a swing frame 803, a first slider 804, a fixed plate 805, a sliding rod 806, a connecting plate 807, a moving block 809, a second slider 811, crushing teeth 812, a moving frame 813, a first guide rod 814, a first spring 815, a second guide rod 816 and a second spring 817, the rotating frame 801 is embedded on both front and back sides of a first rotating shaft 7, the swing plate 802 is rotatably installed on the rotating frame 801, the swing frame 803 is rotatably installed on the swing plate 802, the first slider 804 is installed on both front and back sides of the swing frame 803, the first slider 804 is slidably engaged with the housing 4, two fixed plates are installed on both left and right sides of the housing 4, the sliding rod 806 is installed between the front and back two adjacent fixed plates 805, sliding grooves 808 are installed on both middle and lower portions of the connecting plate 807, the sliding rod 806 is slidably located in the upper sliding groove 808, the swing frame 808 is engaged with the lower sliding groove 809, the two sliding grooves are installed on both side walls 809, the bottom of the movable block 809, the movable block 811 is installed on both front and the sliding frame 811, the sliding frame 809 is fixedly connected to the first guide rod 813, the sliding frame 813 is installed on one side wall of the first guide rod 813 of the movable block 813, a second spring 817 is wound on the second guide bar 816, one end of the second spring 817 is fixedly connected with the moving frame 813, and the other end of the second spring 817 is fixedly connected with the moving block 809.

The first rotating shaft 7 rotates clockwise to enable the rotating frame 801 to rotate clockwise, the front rotating frame 801 and the rear rotating frame 801 rotate clockwise to pass through the swinging plates 802, the swinging frames 803 on the left side and the right side can move outwards and inwards, the moving frames 813 on the left side and the right side can move inwards and outwards through the matching of the connecting plate 807 and the sliding rods 806, the moving frames 813 on the left side and the right side can move inwards and outwards through the first springs 815 and the second springs 817, the moving blocks 809 on the left side and the right side can move inwards and outwards, the crushing teeth 812 on the left side and the right side can move inwards and outwards and are matched with each other, stones between the left crushing teeth 812 and the right crushing teeth 812 can be crushed, the crushed stones can be screened through the screening mechanism 9, and the qualified stones can fall downwards and move out.

As shown in fig. 1-7, the screening mechanism 9 includes a screening screen 901, return springs 902, bumps 903, connecting frames 904 and blanking frames 905, the screening screen 901 is slidably disposed on the housing 4 below the two moving blocks 809, four return springs 902 are fixedly connected between the screening screen 901 and the housing 4, the bumps 903 are mounted on the left and right sides of the top of the screening screen 901, the bumps 903 are matched with the corresponding grooves 810, the two connecting frames 904 are mounted on the rear side of the bottom of the screening screen 901, and the blanking frames 905 are mounted between the bottoms of the two connecting frames 904 and the bottom of the screening screen 901.

The left and right moving blocks 809 move inwards and outwards to enable the bumps 903 on the left and right sides to move inwards and outwards, when the convex ends of the bumps 903 move to extrude the screening screen 901, the screening screen 901 moves downwards along with the bumps, the return springs 902 compress the bumps, when the convex ends of the bumps 903 move not to extrude the screening screen 901, the screening screen 901 can move upwards to reset under the action of the elastic force of the return springs 902, because the diameter of holes in the screening screen 901 is 4.75 mm, screening on stones is completed through continuous up-and-down movement of the screening screen 901, stones smaller than 4.75 mm fall downwards on the blanking frame 905, because the blanking frame 905 is arranged obliquely in a front-high and rear-bottom mode, the screening screen 901 moves downwards and upwards to enable the blanking frame 905 to move downwards and upwards, and through continuous downward and upward movement of the blanking frame 905, stones on the blanking frame 905 can conveniently slide backwards and fall on the ground, and can be prevented from being adhered to the blanking frame 905.

Example 3

As shown in fig. 1 to 8, in addition to embodiment 2, the present invention further includes a first pulley 10, a bracket 11, a second rotating shaft 12, conveying rollers 13, a conveying belt 131, contact rings 132, a second pulley 14, a first belt 15, a third pulley 16 and a second belt 17, the first pulley 10 is installed on an output shaft of the reduction motor 3, the bracket 11 is installed on the top of the cart 1 on the left side of the housing 4, the bracket 11 is fixedly connected with the housing 4, four second rotating shafts 12 are rotatably installed between front and rear side walls of the bracket 11, the conveying rollers 13 are installed on the second rotating shafts 12, the conveying belts 131 are wound between two corresponding conveying rollers 13, the contact rings 132 are installed on front and rear sides of outer side walls of the conveying belts 131, the contact rings 132 are matched with the bracket 11, the second pulleys 14 are installed at front ends of two lower second rotating shafts 12, the first belt 15 is wound between two adjacent second pulleys 14, the third pulley 16 is installed on the upper right second rotating shaft 12, and the second pulley 17 is wound between the third pulley 16 and the first pulley 10.

When stones need to be processed, a user pours stones onto the left side conveying belt 131, then the user starts the speed reduction motor 3 to enable the first belt wheel 10 to rotate clockwise, the third belt wheel 16 can rotate clockwise through the second belt 17, the upper right side second rotating shaft 12 can rotate clockwise through the clockwise rotation of the third belt wheel 16, the upper right side conveying roller 13 can rotate clockwise through the clockwise rotation of the upper right side second rotating shaft 12, the lower right side conveying roller 13 can rotate clockwise through the right side conveying belt 131, the lower right side second rotating shaft 12 can rotate clockwise along with the clockwise rotation, the right side second rotating shaft 12 can rotate clockwise through the clockwise rotation of the lower right side second rotating shaft 14, the left side second belt wheel 14 can rotate clockwise through the first belt 15, the left side second rotating shaft 12 can rotate clockwise, the left side conveying roller 13 can rotate clockwise through the left side conveying belt 131, the left side conveying belt 131 rotates clockwise, the stones can be conveyed to the upper right side downwards, the stones fall onto the right side conveying belt 131, the left side conveying belt 131 can rotate clockwise through the left side conveying belt 131, and the stones can be conveyed to the inner shell body through the left side conveying belt 131, and the strength can be reduced.

As shown in fig. 1 to 9, the water-saving trolley further comprises mounting seats 18, conveying pipes 19, water spraying pipes 20, water guiding pipes 21, a water tank 22, connecting pipes 23 and water feeding pipes 24, wherein at least three mounting seats 18 are respectively mounted on the front side and the rear side of the top of the support 11, the conveying pipes 19 are embedded between the front mounting seat 18 and the rear mounting seat 18, at least five water spraying pipes 20 are embedded on the conveying pipes 19, the water guiding pipes 21 are embedded between the front mounting seats 18, the water guiding pipes 21 are respectively communicated with the corresponding conveying pipes 19, the water tank 22 is mounted on the top of the trolley 1 on the front side of the support 11, a water pump is arranged in the water tank 22, a water inlet pipe and a connecting pipe 23 are mounted on the water pump, the connecting pipe 23 penetrates through the water tank 22, the water feeding pipe 24 is mounted on the connecting pipe 23, and the water feeding pipe 24 is communicated with the water guiding pipes 21.

When the stones are conveyed, a user starts the water pump to pump water in the water tank 22, the water is pushed into the water guide pipe 21 through the connecting pipe 23 and the water conveying pipe 24, the water in the water guide pipe 21 flows into the conveying pipe 19, the water in the conveying pipe 19 is sprayed onto the stones of the left conveying belt 131 through the water spraying pipe 20, the stones can be cleaned, mud can be prevented from being wrapped on the surfaces of the stones, the processed stones are not firmly combined with concrete in the subsequent use process, the water can be prevented from flowing down from a gap between the conveying belt 131 and the support 11 through the contact ring 132, the left conveying belt 131 rotates clockwise, the cleaned stones can be conveyed to the right conveying belt 131, the right conveying belt 131 rotates clockwise to convey the stones into the shell 4, the cleaning and conveying of the stones are completed, the stones can be conveniently processed into stones, and after the stones are completely processed into the stones, the user can close the water pump.

Example 4

As shown in fig. 1 to 10, based on embodiment 3, the present invention further includes a fan 25, a fourth pulley 26, a first double-grooved pulley 27, a third belt 28, a second double-grooved pulley 29, a fourth belt 30, a fifth pulley 31, a fifth belt 32, and heating wires 33, wherein three fans 25 are respectively embedded in the upper portions of the front and rear side walls of the bracket 11, the fourth pulley 26 is installed on the shaft of the left fan 25, the first double-grooved pulley 27 is installed on the shaft of the middle fan 25, the third belt 28 is wound between the two adjacent first double-grooved pulleys 27 and fourth pulleys 26, the second double-grooved pulley 29 is installed on the shaft of the right fan 25, the fourth belt 30 is wound between the two adjacent second double-grooved pulleys 29 and the first double-grooved pulley 27, the fifth pulleys 31 are installed on the front and rear sides of the upper right second rotating shaft 12, the front fifth pulleys are located on the rear side of the third pulley 16, the fifth pulleys 32 are wound between the two adjacent second double-grooved pulleys 31 and the second double-grooved pulleys 29, and the front and rear sides of the bracket 11 are located on the inner sides of the front and rear sides of the two heating wires 33.

When processing the stones into stones, the user starts the heating wire 33 to heat, the upper right side second rotating shaft 12 rotates clockwise to rotate the fifth pulley 31 clockwise, the second double-groove pulley 29 rotates clockwise through the fifth belt 32, the first double-groove pulley 27 rotates clockwise through the fourth belt 30, the fourth pulley 26 rotates clockwise through the third belt 28, so the fan 25 can operate, the fans 25 on the front and rear sides operate to blow air to the inner side, the air heated by the heating wire 33 is blown to the stones on the right side conveying belt 131 through the air blown to the inner side, thereby the cleaned stones can be quickly dried, and then the stones can be conveniently processed into stones, and after the stones are all processed into stones, the user can stop heating by closing the heating wire 33.

As shown in fig. 1 to 11, the screening device further comprises a third spring 34 and a baffle 35, five third springs 34 are connected to the moving block 809, the baffle 35 is installed between the bottom ends of the five third springs 34, and the baffle 35 is matched with the screening net plate 901.

Initially, the third spring 34 is in a compressed state, when the screening net plate 901 moves downwards, the baffle 35 can move downwards under the action of the elastic force of the third spring 34, when the screening net plate 901 moves upwards, the baffle 35 moves upwards along with the baffle, the third spring 34 compresses along with the baffle, and the baffle 35 can be always in contact with the screening net plate 901 through the third spring 34, so that the stone can be prevented from moving to be located on the lower side of the moving block 809, and inconvenience is caused to stone processing.

As shown in fig. 8, the conveyor belt further comprises baffle plates 36 and baffle plates 37, at least five baffle plates 36 are arranged on the outer side wall of the left conveyor belt 131, the intervals between adjacent baffle plates 36 are equal, at least five baffle plates 37 are arranged on the outer side wall of the right conveyor belt 131, and the intervals between adjacent baffle plates 37 are equal.

Can prevent through striker plate 36 that the stone on the right side conveyer belt 131 from the landing of below left side, can shunt the water that sprays on the left side conveyer belt 131 through guide plate 37, so can conveniently shunt the water on the left side conveyer belt 131.

It should be noted that the summary and the detailed description are intended to demonstrate the practical application of the technical solutions provided by the present invention, and should not be construed as limiting the scope of the present invention. Various modifications, equivalent alterations, and improvements will occur to those skilled in the art and are intended to be within the spirit and scope of the invention. Such changes and modifications are intended to be included within the scope of the appended claims.

Claims

1. The utility model provides a broken all-in-one of stone washing for building which characterized in that, including:

the trolley (1) is connected with an installation frame (2);

the speed reducing motor (3) is arranged on the mounting rack (2);

the shell (4) is connected to one side, close to the speed reducing motor (3), of the trolley (1);

the vertical plate (5) is arranged between the shell (4) and the cart (1);

the fixed seat (6) is connected to one side, far away from the vertical plate (5), of the trolley (1);

the first rotating shaft (7) is rotatably arranged between the vertical plate (5) and the fixed seat (6);

the crushing mechanism (8) is arranged on the shell (4);

the screening mechanism (9) is arranged on the shell (4) below the crushing mechanism (8), and the screening mechanism (9) is matched with the crushing mechanism (8);

the crushing mechanism (8) comprises:

two rotating frames (801) are arranged and are embedded at two sides of the first rotating shaft (7);

two swing plates (802) are arranged and are rotatably connected to the corresponding rotating frames (801);

two swing frames (803) which are rotatably mounted on the corresponding swing plates (802);

the four first sliding blocks (804) are respectively connected to two sides of the corresponding swing frame (803), and the first sliding blocks (804) are in sliding fit with the shell (4);

four fixing plates (805) are arranged and are respectively arranged on two side walls of the shell (4);

two sliding rods (806) are arranged and are respectively arranged between two adjacent fixing plates (805);

two connecting plates (807) are arranged, sliding grooves (808) are formed in the middle lower part of each connecting plate (807), the sliding rods (806) are located in the sliding grooves (808) on one side in a sliding mode, and the swinging frame (803) is matched with the sliding grooves (808) on the other side;

two moving blocks (809) are arranged, and the bottom of each moving block (809) is provided with a plurality of grooves (810);

four second sliding blocks (811) are arranged and are respectively connected to two side walls of the corresponding moving blocks (809), and the second sliding blocks (811) are in sliding fit with the shell (4);

two crushing teeth (812) are arranged and are respectively arranged on the corresponding moving blocks (809);

two moving frames (813) are arranged and are respectively arranged on one side of the connecting plate (807) far away from the corresponding sliding groove (808);

four first guide rods (814) are arranged and are respectively arranged on the corresponding movable frames (813) in a sliding manner;

four first springs (815) are arranged and respectively wound on the corresponding first guide rods (814), one end of each first spring (815) is fixedly connected with the moving frame (813), and the other end of each first spring (815) is fixedly connected with the moving block (809);

four second guide rods (816) are arranged on one side of the moving frame (813) far away from the first guide rod (814) in a sliding manner;

four second springs (817) are arranged and respectively wound on the corresponding second guide rods (816), one end of each second spring (817) is fixedly connected with the moving frame (813), and the other end of each second spring (817) is fixedly connected with the moving block (809);

the screening mechanism (9) comprises:

the screening screen plate (901) is arranged on the shell (4) on the lower side of the two moving blocks (809) in a sliding manner;

four return springs (902) are arranged and are respectively connected between the screening screen plate (901) and the shell (4);

two bumps (903) are arranged and are connected to the screening screen plate (901), and the bumps (903) are matched with the grooves (810);

two connecting frames (904) are arranged and are fixed on one side of the screening net plate (901) far away from the bump (903);

the blanking frame (905) is arranged between the two connecting frames (904);

the diameter of the holes on the screening net plate (901) is 4.75 mm.

2. The integrated machine for washing and crushing stones for construction according to claim 1, further comprising:

a first belt wheel (10) fixed on the output shaft of the speed reducing motor (3);

the bracket (11) is arranged on one side, close to the shell (4), of the trolley (1);

four second rotating shafts (12) are arranged and are rotatably mounted on the bracket (11);

four conveying rollers (13) are arranged and are connected to the corresponding second rotating shafts (12);

two conveying belts (131) are arranged and are respectively wound between two corresponding conveying rollers (13);

four contact rings (132) are arranged and are respectively connected to two sides of the corresponding conveying belt (131);

two second belt wheels (14) are arranged and are respectively arranged at one end of each of the two second rotating shafts (12);

a first belt (15) wound between two adjacent second belt wheels (14);

the third belt wheel (16) is fixed on the second rotating shaft (12) at one side far away from the second belt wheel (14);

and a second belt (17) wound between the third belt wheel (16) and the first belt wheel (10).

3. The integrated machine for washing and crushing seeds for construction as claimed in claim 2, further comprising:

a plurality of mounting seats (18) which are respectively mounted on two sides of the bracket (11);

a plurality of conveying pipes (19) are arranged and are respectively arranged between two corresponding mounting seats (18);

the water spray pipe (20) is embedded between the two corresponding mounting seats (18);

the water guide pipe (21) is embedded in the mounting seat (18) at one side, and the water guide pipe (21) is respectively communicated with the conveying pipe (19);

the water tank (22) is arranged on one side, close to the support (11), of the trolley (1), and a water pump is arranged in the water tank (22); a water inlet pipe and a connecting pipe (23) are installed;

the connecting pipe (23) is arranged on the water pump, and a water inlet pipe is arranged on the water pump;

and the water supply pipe (24) is arranged on the connecting pipe (23), and the water supply pipe (24) is communicated with the water guide pipe (21).

4. The integrated machine for washing and crushing stones for construction as claimed in claim 3, further comprising:

a plurality of fans (25) are arranged and are embedded on two side walls of the bracket (11);

two fourth pulleys (26) are arranged and are respectively arranged on the corresponding fan (25) shafts;

two first double-groove belt wheels (27) are arranged and are respectively arranged on the corresponding fan (25) shafts;

a third belt (28) wound between the two adjacent first double-groove belt wheels (27) and the fourth belt wheel (26);

two second double-groove belt wheels (29) are arranged and are respectively arranged on the corresponding fan (25) shafts;

a fourth belt (30) wound between the two adjacent second double-groove belt wheels (29) and the first double-groove belt wheel (27);

two fifth pulleys (31) are arranged and are arranged at two ends of the second rotating shaft (12) on one side;

the fifth belt (32) is wound between two adjacent fifth pulleys (31) and the second double-groove pulley (29);

two heating wires (33) are arranged and are embedded on two side walls in the bracket (11), and the two heating wires (33) are positioned at the inner sides of the fans (25) at the two sides.

5. The integrated machine for washing and crushing seeds for construction as claimed in claim 4, further comprising:

the ten third springs (34) are respectively connected to one side, close to the crushing teeth (812), of the corresponding moving block (809);

and two baffles (35) are arranged and are respectively arranged between the five adjacent third springs (34), and the baffles (35) are matched with the screening net plate (901).

6. The integrated machine for washing and crushing seeds for construction as claimed in claim 5, further comprising:

a plurality of material blocking plates (36) are arranged and are connected to the outer side wall of the conveying belt (131) on one side, and the intervals between the adjacent material blocking plates (36) are equal;

guide plate (37) are equipped with a plurality ofly, all connect on the lateral wall of opposite side conveyer belt (131), and the interval of adjacent guide plate (37) equals.