CN111283895A

CN111283895A - Plastic granules's for building equipment

Info

Publication number: CN111283895A
Application number: CN202010133122.3A
Authority: CN
Inventors: 杨桂萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-01
Filing date: 2020-03-01
Publication date: 2020-06-16

Abstract

The invention relates to the field of construction; more particularly to a plastic particle device for building. The action on the rod-shaped plastic raw materials can be realized through the transverse staggered sliding of the first cutting rod and the second cutting rod; further realizing the cutting of the rod-shaped plastic raw material; the carrying of the rod-shaped plastic raw materials can be realized; the process of carrying the rodlike plastic raw materials can be adjusted according to actual conditions; can adapt to rod-shaped plastic raw materials with different lengths. The screening assembly, the carrying assembly, the cutting assembly, the transition assembly, the first transmission bevel gear, the second transmission bevel gear, the first transmission bevel gear shaft, the first transmission belt wheel, the first transmission belt, the second transmission belt, the third transmission belt, the second transmission belt wheel, the third transmission belt wheel and the fixed rod are included; the first driving slider and the first slider hinge rod drive the first hinge slider to move, and meanwhile, the first hinge slider is connected with the first hinge clamp in a matched mode to drive the first hinge disc to move and further drive the first half gear connecting column to rotate.

Description

Plastic granules's for building equipment

Technical Field

The invention relates to the field of buildings, in particular to plastic particle equipment for buildings.

Background

The plastic particle equipment for construction is a common equipment in the construction field; but the equipment function of the common plastic particles for construction is single.

Disclosure of Invention

The invention aims to provide a device for plastic granules for construction; the action on the rod-shaped plastic raw materials can be realized through the transverse staggered sliding of the first cutting rod and the second cutting rod; further realizing the cutting of the rod-shaped plastic raw material; the carrying of the rod-shaped plastic raw materials can be realized; the process of carrying the rodlike plastic raw materials can be adjusted according to actual conditions; can adapt to rod-shaped plastic raw materials with different lengths.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an equipment of plastic granules for building, includes screening assembly, delivery assembly, cutting assembly, transition assembly, transmission bevel gear one, transmission bevel gear two, transmission bevel gear axle one, driving pulley one, driving belt two, driving belt three, driving pulley two, driving pulley three, dead lever, its characterized in that: the screening assembly is connected with the carrying assembly through the fixing rod, the cutting assembly is connected with the carrying assembly, the transition assembly is connected with the carrying assembly, the first transmission bevel gear is fixedly connected with the cutting assembly, the first transmission bevel gear is in meshing transmission with the second transmission bevel gear, the second transmission bevel gear is fixedly connected with the first transmission bevel gear shaft, the first transmission bevel gear shaft is rotatably connected with the carrying assembly, the first transmission belt wheel is fixedly connected with the first transmission bevel gear shaft, the first transmission belt wheel and the second transmission belt wheel are in matching connection with the first transmission belt wheel, and the second transmission belt wheel is in three-phase connection with the transmission belt wheel.

Further optimization of the technical scheme is performed; the invention relates to a plastic particle device for building; the screening assembly comprises a rectangular outer frame, a first screen plate, a first arc-shaped slide rod, a first sliding hinge column, a first slide rod pushing spring, a second arc-shaped slide rod, a second sliding hinge column, a second slide rod pushing spring, a first lug, a second lug, a filtering hole, a first hinge rod, a second screen plate, a first arc-shaped slide rod, a second arc-shaped slide rod and a rectangular outer frame fixed connection.

Further optimization of the technical scheme is performed; the invention relates to a plastic particle device for building; the carrying assembly comprises a carrying bottom plate I, a semicircular groove, a side wall limiting rod, a side wall sliding column I, a side wall sliding column pushing spring I, a side wall slider I, a turnover plate, a driving hinge column, a rotating rod I, a rotating rod driving rod, a hinge rod I, a middle-end turntable, a matching boss, a middle measuring support, a clamping rod I, a clamping rod pushing spring I, a support II, an upper side sliding column pushing spring, a rectangular rod, a rectangular limiting plate, a rectangular rod pushing spring and a pressing rod, wherein the semicircular groove is formed in the carrying bottom plate I, the side wall limiting rod is hinged with the carrying bottom plate I, the side wall sliding column I is fixedly connected with the side wall limiting rod, the side wall sliding column pushing spring I is connected with the side wall sliding column I in a sleeved mode, the side wall sliding column I is connected with the side wall sliding column I in a sliding mode, the driving hinge column is connected with the side wall sliding column I in a rotating mode, the turnover, the first rotating rod is connected with the first rotating rod driving rod in a rotating mode, the first rotating rod driving rod is fixedly connected with a turnover plate, the middle-end turntable is connected with the turnover plate in a rotating mode, a matching boss is connected with the middle-end turntable, a middle measuring support is fixedly connected with the turnover plate, a clamping rod I is connected with the middle measuring support in a sliding mode, a clamping rod pushing spring I is connected with the clamping rod I in a sleeved mode, the clamping rod I is connected with the matching boss in a matching mode, a support I and a support II are fixedly connected with a carrying bottom plate I, an upper sliding column is fixedly connected with the turnover plate, a side sliding column pushing spring is connected with the upper sliding column in a sleeved mode, a rectangular rod is connected with the upper sliding column in a sliding mode, a pressing rod is connected with the rectangular rod in a sliding mode, a rectangular limiting plate is fixedly connected with the pressing rod, a rectangular rod pushing spring is connected with the pressing.

Further optimization of the technical scheme is performed; the invention relates to a plastic particle device for building; the cutting assembly comprises a first cutting rod, a second cutting rod, a first transverse rod, a second transverse rod, a first half gear, a second half gear, a first half gear connecting column, a first driving rotary column, a first driving slider, a first slider hinge rod, a first hinge disc, a first hinge clip, a hinge clip pushing spring, a hinge slider, a connection sliding column and a connection sliding column pushing spring, wherein the first cutting rod and the second cutting rod are fixedly connected with the first transverse rod and the second transverse rod respectively, the first half gear and the second half gear are respectively in meshing transmission with the first transverse rod and the second transverse rod, the first half gear connecting column is fixedly connected with the first half gear and the second half gear, the first hinge disc is fixedly connected with the first half gear connecting column, the first driving rotary column is rotatably connected with the first hinge disc, the first hinge clip is slidably connected with the first hinge disc, the hinge clip pushing spring is in sleeved connection with the first hinge clip, the hinge clip is arranged between the first hinge clip and the first hinge disc, the connecting sliding column is fixedly connected with the first driving rotating column, the connecting sliding column push spring is connected with the connecting sliding column in a sleeved mode, the hinged slider is connected with the connecting sliding column in a sliding mode, the hinged slider is connected with the first hinged clip in a matched mode, the first cutting rod is connected with the second cutting rod in a matched mode, the first half-gear connecting column and the first driving rotating column are connected with the first support and the second support in a rotating mode, the first transmission bevel gear is fixedly connected with the first driving rotating column, the first transmission bevel gear is in meshed transmission with the second transmission bevel gear, the second transmission bevel gear is fixedly connected with the first transmission bevel gear shaft, the first transmission bevel gear shaft is connected with the second support in a rotating mode, the first transmission belt wheel is fixedly connected with the first transmission bevel gear shaft, the first transmission belt and the second transmission belt wheel are in matched connection with the first transmission belt.

Further optimization of the technical scheme is performed; the invention relates to a plastic particle device for building; the transition assembly comprises a first transition rectangular rod, a second transition rectangular rod, a transition outer frame, a pressing rod sliding column, a limiting sliding column and a pressing rod pushing spring, the second transition rectangular rod is fixedly connected with the first transition rectangular rod, the limiting sliding column is fixedly connected with the transition outer frame, the pressing rod is slidably connected with the pressing rod sliding column, the pressing rod pushing spring is arranged between the pressing rod and the pressing rod sliding column, the second transition rectangular rod is slidably connected with the limiting sliding column, the transition outer frame is fixedly connected with a carrying bottom plate, and the first transition rectangular rod is fixedly connected with a hinged slider.

Further optimization of the technical scheme is performed; the invention relates to a plastic particle device for building; and the first transmission bevel gear shaft is externally connected with a matched motor A.

The plastic particle equipment for the building has the beneficial effects that:

the invention relates to a plastic particle device for building; the first driving slider and the first slider hinge rod drive the first hinged slider to move, the first hinged slider and the first hinged clip are connected in a matched mode to drive the first hinged disc to move, the first half-gear connecting column is driven to rotate, the first half-gear connecting column drives the first half-gear and the second half-gear to rotate, the first half-gear and the second half-gear respectively drive the first transverse rod and the second transverse rod to transversely slide in a staggered mode, the first cutting rod and the second cutting rod are driven to transversely slide in a staggered mode, and meanwhile the first cutting rod and the second cutting rod transversely slide in a staggered mode to act on the rodlike plastic raw materials to further cut the rodlike plastic raw materials.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic illustration of the screen assembly configuration of the present invention;

figure 5 is a second schematic illustration of the screen assembly configuration of the present invention;

FIG. 6 is a first schematic view of a carrier assembly according to the present invention;

FIG. 7 is a schematic view of a second embodiment of the carrier assembly of the present invention;

FIG. 8 is a third schematic view of the carrying assembly of the present invention;

FIG. 9 is a first schematic view of the cutting assembly of the present invention;

FIG. 10 is a second schematic structural diagram of the cutting assembly of the present invention;

fig. 11 is a schematic view of the transition assembly structure of the present invention.

In the figure: a screening assembly 1; a rectangular outer frame 1-1; 1-2 parts of a sieve plate I; 1-3 arc slide bar; 1-4 of a sliding hinge column I; a slide bar push spring I is 1-5; 1-6 parts of an arc-shaped sliding rod II; a second sliding hinge column 1-7; a sliding rod push spring II 1-8; 1-9 of a bump I; 1-10 parts of a second bump; 1-11 parts of filter holes; 1-12 of a hinge rod I; a second hinge rod 1-13; sieve plate II 1-14; a carrying assembly 2; a carrying base plate I2-1; a semicircular groove 2-2; 2-3 side wall limiting rods; 2-4 of side wall sliding column I; a side wall sliding column push spring I is 2-5; 2-6 of a side wall slider I; 2-7 of a folded plate; driving the articulated mast 2-8; 2-9 of a rotating rod I; 2-10 of a rotating rod driving rod; hinge rods one 2-11; 2-12 middle-end turntables; 2-13 of a matched boss; 2-14 of a middle test bracket; 2-15 parts of a first clamping rod; a clamping rod push spring I2-16; 2-17 of a first bracket; 2-18 parts of a second bracket; upper sliding columns 2-19; 2-20 parts of upper sliding column push spring; 2-21 of rectangular rods; 2-22 rectangular limit plates; rectangular rod push springs 2-23; 2-24 of a push rod; a cutting assembly 3; 3-1 of a cutting rod I; a second cutting rod 3-2; 3-3 of a transverse rod I; 3-4 parts of a transverse rod II; 3-5 parts of a half gear I; 3-6 parts of a half gear II; a first half gear connecting column 3-7; driving the first rotating column to be 3-8; driving the slider I by 3-9; 3-10 parts of a first slider hinge rod; 3-11 parts of a first hinge plate; 3-12 parts of a hinge clamp I; 3-13 parts of hinged clip push spring; 3-14 of hinged slider; connecting the sliding columns 3-15; connecting sliding column push springs 3-16; a transition assembly 4; 4-1 of a transition rectangular rod I; a second transition rectangular rod 4-2; 4-3 of a transition outer frame; pressing a rod 4-4; 4-5 of a rod sliding column is pressed; 4-6 of a limiting sliding column; 4-7 of pushing rod push spring; a first transmission bevel gear 5; a second transmission bevel gear 6; a transmission bevel gear shaft I7; a first transmission belt wheel 8; a first transmission belt 9; a second transmission belt 10; a third drive belt 11; a second driving belt wheel 12; a third driving belt wheel 13; the rod 14 is fixed.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is fixed by welding, thread fixing and other modes; combining different use environments; different fixing modes are used; the rotary connection is realized by baking the bearing on a shaft; a spring retainer groove is arranged on the shaft or the shaft hole; the elastic retainer ring is clamped in the retainer ring groove to realize the axial fixation of the bearing; realizing rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the chutes or guide rails are generally stepped; the sliding block is prevented from falling off in the sliding chute or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment will be described with reference to FIGS. 1 to 11; the utility model provides an equipment of plastic granules for building, includes screening assembly 1, delivery assembly 2, cutting assembly 3, transition assembly 4, transmission awl tooth 5, transmission awl tooth two 6, transmission awl tooth axle 7, driving pulley 8, driving belt 9, driving belt two 10, driving belt three 11, driving pulley two 12, driving pulley three 13, dead lever 14, its characterized in that: screening assembly 1 is connected with delivery assembly 2 through dead lever 14, and cutting assembly 3 is connected with delivery assembly 2, and transition assembly 4 is connected with delivery assembly 2,

transmission awl tooth

5 and 3 fixed connection of cutting assembly, and transmission awl tooth 5 meshes the transmission with transmission awl tooth two 6, and transmission awl tooth two 6 and transmission awl tooth axle one 7 fixed connection, and transmission awl tooth axle one 7 rotates with delivery assembly 2 to be connected, and driving pulley one 8 and transmission awl tooth axle one 7 fixed connection, and driving belt one 9, driving belt two 10 are connected with driving pulley one 8 cooperation, and driving belt two 10 is connected with driving pulley three 13.

The second embodiment is as follows:

the present embodiment will be described with reference to FIGS. 1 to 11; this embodiment mode further explains the first embodiment mode; the screening assembly 1 comprises a rectangular outer frame 1-1, a screen plate I1-2, an arc-shaped slide rod I1-3, a sliding hinge column I1-4, a slide rod push spring I1-5, an arc-shaped slide rod II 1-6, a sliding hinge column II 1-7, a slide rod push spring II 1-8, a projection I1-9, a projection II 1-10, a filter hole 1-11, a hinge rod I1-12, a hinge rod II 1-13 and a screen plate II 1-14, an arc-shaped slide rod I1-3, an arc-shaped slide rod II 1-6 are fixedly connected with the rectangular outer frame 1-1, a slide rod push spring I1-5, a slide rod push spring II 1-8 are respectively connected with the arc-shaped slide rod I1-3 and the arc-shaped slide rod II 1-6 in a sleeved mode, a sliding hinge column I1-4 and a sliding hinge column II 1-7 are respectively connected with the arc, The arc-shaped sliding rod II 1-6 is connected in a sliding mode, the sieve plate I1-2 is connected with the sliding hinge column I1-4 in a rotating mode, the sieve plate II 1-14 is connected with the sliding hinge column II 1-7 in a rotating mode, the hinge rod I1-12 and the hinge rod II 1-13 are fixedly connected with the rectangular outer frame 1-1, and the filter holes 1-11 are formed in the sieve plate I1-2 and the sieve plate II 1-14.

The third concrete implementation mode:

the present embodiment will be described with reference to FIGS. 1 to 11; this embodiment mode further explains the first embodiment mode; the carrying assembly 2 comprises a carrying bottom plate I2-1, a semicircular groove 2-2, a side wall limiting rod 2-3, a side wall sliding column I2-4, a side wall sliding column push spring I2-5, a side wall slider I2-6, a turnover plate 2-7, a driving hinge column 2-8, a rotating rod I2-9, a rotating rod driving rod 2-10, a hinge rod I2-11, a middle end rotating disk 2-12, a matching boss 2-13, a middle measurement support 2-14, a clamping rod I2-15, a clamping rod push spring I2-16, a support I2-17, a support II 2-18, an upper side sliding column 2-19, an upper side sliding column push spring 2-20, a rectangular rod 2-21, a rectangular limiting plate 2-22, a rectangular rod push spring 2-23 and a pressing rod 2-24, the semicircular groove 2-2 is arranged on a first carrying bottom plate 2-1, a side wall limiting rod 2-3 is hinged with the first carrying bottom plate 2-1, a side wall sliding column 2-4 is fixedly connected with the side wall limiting rod 2-3, a side wall sliding column push spring 2-5 is sleeved with the side wall sliding column 2-4, a side wall sliding column 2-6 is slidably connected with the side wall sliding column one 2-4, a driving hinging column 2-8 is rotatably connected with the side wall sliding column one 2-6, a turning plate 2-7 is fixedly connected with the driving hinging column 2-8, a rotating rod one 2-9 is rotatably connected with the first carrying bottom plate 2-1, a rotating rod one 2-9 is rotatably connected with a rotating rod driving rod 2-10, a rotating rod driving rod 2-10 is fixedly connected with a turning plate 2-7, a middle end rotating disk 2-12 is rotatably connected with the turning plate 2-7, a matching boss 2-13 and a middle end rotary table 2-12, a middle measuring support 2-14 is fixedly connected with a turnover plate 2-7, a clamping rod I2-15 is connected with the middle measuring support 2-14 in a sliding way, a clamping rod pushing spring I2-16 is connected with a clamping rod I2-15 in a sleeved way, a clamping rod I2-15 is connected with a matching boss 2-13 in a matching way, a support I2-17 and a support II 2-18 are fixedly connected with a carrying bottom plate I2-1, an upper side sliding column 2-19 is fixedly connected with a turnover plate 2-7, a side sliding column pushing spring 2-20 is connected with an upper side sliding column 2-19 in a sleeved way, a rectangular rod 2-21 is connected with an upper side sliding column 2-19 in a sliding way, a pressing rod 2-24 is connected with a rectangular rod 2-21 in a sliding way, a rectangular limit plate 2-22 is fixedly connected with a pressing, the rectangular rod push springs 2-23 are connected with the pressing rods 2-24 in a sleeved mode, the hinge rods 2-11 are connected between the rectangular rods 2-21 and the middle-end turntables 2-12, and the rectangular outer frame 1-1 is fixedly connected with the carrying base plate I2-1.

The fourth concrete implementation mode:

the present embodiment will be described with reference to FIGS. 1 to 11; this embodiment mode further explains the first embodiment mode; the cutting assembly 3 comprises a first cutting rod 3-1, a second cutting rod 3-2, a first transverse rod 3-3, a second transverse rod 3-4, a first half gear 3-5, a second half gear 3-6, a first half gear connecting column 3-7, a first driving rotary column 3-8, a first driving slider 3-9, a first slider hinge rod 3-10, a first hinge disc 3-11, a first hinge clip 3-12, a first hinge clip push spring 3-13, a second hinge slider 3-14, a connecting slider column 3-15, a connecting slider push spring 3-16, a first cutting rod 3-1, a second cutting rod 3-2, a first transverse rod 3-3 and a second transverse rod 3-4, a first half gear 3-5 and a second half gear 3-6, a first transverse rod 3-3 and a second transverse rod 3-3, A transverse rod II 3-4 is in meshing transmission, a half gear connecting column I3-7 is fixedly connected with a half gear I3-5 and a half gear II 3-6, a hinge disc I3-11 is fixedly connected with a half gear connecting column I3-7, a driving rotary column I3-8 is rotatably connected with a hinge disc I3-11, a hinge clip I3-12 is in sliding connection with the hinge disc I3-11, a hinge clip push spring 3-13 is in sleeve connection with the hinge clip I3-12, a hinge clip push spring 3-13 is arranged between the hinge clip I3-12 and the hinge disc I3-11, a connecting sliding column 3-15 is fixedly connected with the driving rotary column I3-8, a connecting sliding column push spring 3-16 is in sleeve connection with a connecting sliding column 3-15, a hinge slider 3-14 is in sliding connection with the connecting sliding column 3-15, the hinged slider 3-14 is connected with the hinged clip I3-12 in a matched mode, the cutting rod I3-1 is connected with the cutting rod II 3-2 in a matched mode, the half gear connecting column I3-7 and the driving rotating column I3-8 are connected with the support I2-17 and the support II 2-18 in a rotating mode, the transmission bevel gear I5 is fixedly connected with the driving rotating column I3-8, the transmission bevel gear I5 is in meshed transmission with the transmission bevel gear II 6, the transmission bevel gear II 6 is fixedly connected with the transmission bevel gear shaft I7, the transmission bevel gear shaft I7 is connected with the support II 2-18 in a rotating mode, the transmission belt wheel I8 is fixedly connected with the transmission bevel gear shaft I7, the transmission belt I9 and the transmission belt II 10 are connected with the transmission belt wheel I8 in a matched mode, and the transmission belt II 10 is connected with the transmission belt wheel III;

the driving bevel gear I5 rotates to drive the driving rotary column I3-8 to rotate, the driving rotary column I3-8 drives the hinge slider 3-14 to move through the driving slider I3-9 and the slider hinge rod I3-10, simultaneously drives the hinge disc I3-11 to move through the matching connection of the hinge slider 3-14 and the hinge clip I3-12, further drives the half gear connecting column I3-7 to rotate, simultaneously drives the half gear I3-5 and the half gear II 3-6 to rotate through the half gear connecting column I3-7, respectively drives the transverse rod I3-3 and the transverse rod II 3-4 to transversely slide in a staggered manner through the half gear I3-5 and the half gear II 3-6, further drives the cutting rod I3-1 and the cutting rod II 3-2 to transversely slide in a staggered manner, meanwhile, the cutting of the rod-shaped plastic raw materials is realized through the action of the transverse staggered sliding of the first cutting rod 3-1 and the second cutting rod 3-2 on the rod-shaped plastic raw materials.

The fifth concrete implementation mode:

the present embodiment will be described with reference to FIGS. 1 to 11; this embodiment mode further explains the first embodiment mode; the transition assembly 4 comprises a first transition rectangular rod 4-1, a second transition rectangular rod 4-2, a transition outer frame 4-3, a pressing rod 4-4, a pressing rod sliding column 4-5, a limiting sliding column 4-6 and a pressing rod pushing spring 4-7, wherein the second transition rectangular rod 4-2 is fixedly connected with the first transition rectangular rod 4-1, the limiting sliding column 4-6 is fixedly connected with the transition outer frame 4-3, the pressing rod sliding column 4-5 is fixedly connected with the transition outer frame 4-3, the pressing rod 4-4 is slidably connected with the pressing rod sliding column 4-5, the pressing rod pushing spring 4-7 is arranged between the pressing rod 4-4 and the pressing rod sliding column 4-5, the second transition rectangular rod 4-2 is slidably connected with the limiting sliding column 4-6, the transition outer frame 4-3 is fixedly connected with the first carrying bottom plate 2-1, the first transition rectangular rod 4-1 is fixedly connected with the hinged sliders 3-14.

The sixth specific implementation mode:

the present embodiment will be described with reference to FIGS. 1 to 11; this embodiment mode further explains the first embodiment mode; and the first transmission bevel gear shaft 7 is externally connected with a matched motor A.

The invention relates to a plastic particle device for building; the working principle is as follows: when in use, the matching motor A externally connected with the transmission bevel gear shaft I7 is started, and drives the transmission bevel gear shaft I7 to rotate, thereby driving the first transmission belt wheel 8 to rotate, further driving the third transmission belt wheel 13 to rotate, further driving the second transmission belt wheel 12 to rotate through the third transmission belt 11, so that the first projection 1-9 and the second projection 1-10 rotate simultaneously, and the first sieve plate 1-2 and the second sieve plate 1-14 are respectively driven by the first projection 1-9 and the second projection 1-10, meanwhile, under the elastic force action of the first push spring 1-5 and the second push spring 1-8 of the slide bar respectively, so that the first sieve plate 1-2 and the second sieve plate 1-14 respectively swing around the first hinge rod 1-12 and the second hinge rod 1-13, screening the card lining materials under the action of the granular materials of the filter holes 1-11; the first transmission belt wheel 8 rotates, the first transmission belt wheel 9 drives the first rotating rod 2-9 to rotate, the first rotating rod 2-9 drives the first rotating rod driving rod 2-10 to move, the second rotating rod driving rod 2-10 drives the turnover plate 2-7 to move, when the turnover plate 2-7 moves, the rectangular rods 2-21 are driven to move simultaneously, when the pressing rods 2-24 on the rectangular rods 2-21 are in contact with the rod-shaped plastic raw material, the rod-shaped material is fixed, and simultaneously along with the movement of the turnover plate 2-7, the rod-shaped plastic raw material is driven to slide along the semicircular groove 2-2 from left to right through the contact of the pressing rods 2-24 on the rod-shaped rod 2-21 and the rod-shaped plastic raw material, so that the rod-shaped plastic raw material is carried; the middle-end turntables 2 to 12 are manually rotated, the middle-end turntables 2 to 12 drive the first hinge rods 2 to 11 and drive the rectangular rods 2 to 21 to slide along the upper sliding columns 2 to 19 on the turnover plates 2 to 7, so that the distance between the two rectangular rods 2 to 21 is changed, and the rodlike plastic raw materials with different lengths can be conveniently adapted; when the transmission bevel gear II 6 rotates, the transmission bevel gear I5 is driven to rotate through the meshing transmission of the transmission bevel gear II 6 and the transmission bevel gear I5, and further the drive rotary column I3-8 is driven to rotate, the drive rotary column I3-8 drives the hinge sliders 3-14 to move through the drive sliders I3-9 and the slider hinge rods I3-10, simultaneously drives the hinge discs I3-11 to move through the matching connection of the hinge sliders 3-14 and the hinge clips I3-12, and further drives the half gear connecting column I3-7 to rotate, simultaneously drives the half gear I3-5 and the half gear II 3-6 to rotate through the half gear connecting column I3-7, respectively drives the transverse rods I3-3 and the transverse rods II 3-4 to transversely slide in a staggered manner through the half gear I3-5 and the half gear II 3-6, and then the first cutting rod 3-1 and the second cutting rod 3-2 are driven to transversely slide in a staggered manner, and simultaneously the bar-shaped plastic raw materials are cut through the action of the first cutting rod 3-1 and the second cutting rod 3-2 on the bar-shaped plastic raw materials in a staggered manner.

Of course; the foregoing description is not meant to be limiting; the invention is not limited to the above examples either; alterations, modifications, additions, and substitutions by those skilled in the art may be made without departing from the spirit and scope of the invention; also belong to the protection scope of the present invention.

Claims

1. The utility model provides an equipment of plastic granules for building, includes screening assembly (1), delivery assembly (2), cutting assembly (3), transition assembly (4), transmission awl tooth (5), transmission awl tooth two (6), transmission awl tooth axle one (7), driving pulley one (8), driving belt one (9), driving belt two (10), driving belt three (11), driving pulley two (12), driving pulley three (13), dead lever (14), its characterized in that: screening assembly (1) is connected with delivery assembly (2) through dead lever (14), cutting assembly (3) is connected with delivery assembly (2), transition assembly (4) is connected with delivery assembly (2), transmission awl tooth (5) and cutting assembly (3) fixed connection, transmission awl tooth (5) and transmission awl tooth two (6) meshing transmission, transmission awl tooth two (6) and transmission awl tooth axle one (7) fixed connection, transmission awl tooth axle one (7) rotate with delivery assembly (2) and are connected, transmission band pulley one (8) and transmission awl tooth axle one (7) fixed connection, transmission band pulley one (9), transmission band pulley two (10) are connected with transmission band pulley one (8) cooperation, transmission band pulley two (10) are connected with transmission band pulley three (13).

2. An apparatus for building plastic granules as claimed in claim 1, wherein: the screening assembly (1) comprises a rectangular outer frame (1-1), a first screen plate (1-2), a first arc-shaped sliding rod (1-3), a first sliding hinge column (1-4), a first sliding rod push spring (1-5), a second arc-shaped sliding rod (1-6), a second sliding hinge column (1-7), a second sliding rod push spring (1-8), a first bump (1-9), a second bump (1-10), a filter hole (1-11), a first hinge rod (1-12), a second hinge rod (1-13) and a second screen plate (1-14), wherein the first arc-shaped sliding rod (1-3), the second arc-shaped sliding rod (1-6) and the rectangular outer frame (1-1) are fixedly connected, and the first sliding rod push spring (1-5) and the second sliding rod push spring (1-8) are respectively connected with the first arc-shaped sliding rod (1-3), The arc-shaped slide bars I (1-6) are connected in a sleeved mode, the sliding hinge columns I (1-4) and the sliding hinge columns II (1-7) are respectively connected with the arc-shaped slide bars I (1-3) and the arc-shaped slide bars II (1-6) in a sliding mode, the sieve plates I (1-2) are rotatably connected with the sliding hinge columns I (1-4), the sieve plates II (1-14) are rotatably connected with the sliding hinge columns II (1-7), the hinge rods I (1-12) and the hinge rods II (1-13) are fixedly connected with the rectangular outer frame (1-1), and the filter holes (1-11) are formed in the sieve plates I (1-2) and the sieve plates II (1-14).

3. An apparatus for building plastic granules as claimed in claim 1, wherein: the carrying assembly (2) comprises a carrying bottom plate I (2-1), a semicircular groove (2-2), a side wall limiting rod (2-3), a side wall sliding column I (2-4), a side wall sliding column pushing spring I (2-5), a side wall slider I (2-6), a turnover plate (2-7), a driving hinged column (2-8), a rotating rod I (2-9), a rotating rod driving rod (2-10), a hinged rod I (2-11), a middle end rotating disk (2-12), a matching boss (2-13), a middle measuring support (2-14), a clamping rod I (2-15), a clamping rod pushing spring I (2-16), a support I (2-17), a support II (2-18), an upper side sliding column (2-19), an upper side sliding column pushing spring (2-20), The device comprises rectangular rods (2-21), rectangular limit plates (2-22), rectangular rod push springs (2-23) and push rods (2-24), wherein semicircular grooves (2-2) are formed in a first carrying bottom plate (2-1), side wall limit rods (2-3) are hinged with the first carrying bottom plate (2-1), side wall sliding columns (2-4) are fixedly connected with the side wall limit rods (2-3), side wall sliding column push springs (2-5) are connected with the side wall sliding columns (2-4) in a sleeved mode, side wall sliding columns (2-6) are connected with the side wall sliding columns (2-4) in a sliding mode, driving hinged columns (2-8) are connected with the side wall sliding columns (2-6) in a rotating mode, turnover plates (2-7) are fixedly connected with the hinged columns (2-8), rotary rods (2-9) are connected with the first carrying bottom plate (2-1) in a rotating mode, a first rotating rod (2-9) is rotationally connected with a first rotating rod driving rod (2-10), the first rotating rod driving rod (2-10) is fixedly connected with a turnover plate (2-7), a middle-end turntable (2-12) is rotationally connected with the turnover plate (2-7), a matching boss (2-13) is connected with the middle-end turntable (2-12), a middle side support (2-14) is fixedly connected with the turnover plate (2-7), a first clamping rod (2-15) is slidably connected with the middle side support (2-14), a first clamping rod pushing spring (2-16) is sleeved and connected with a first clamping rod (2-15), a first clamping rod (2-15) is connected with the matching boss (2-13) in a matching way, a first support (2-17) and a second support (2-18) are fixedly connected with a first carrying bottom plate (2-1), and an upper sliding column (2-19) is fixedly connected with the turnover plate (2-7), the side sliding column push springs (2-20) are connected with the upper side sliding columns (2-19) in a sleeved mode, the rectangular rods (2-21) are connected with the upper side sliding columns (2-19) in a sliding mode, the pressing rods (2-24) are connected with the rectangular rods (2-21) in a sliding mode, the rectangular limiting plates (2-22) are fixedly connected with the pressing rods (2-24), the rectangular rod push springs (2-23) are connected with the pressing rods (2-24) in a sleeved mode, the hinge rods (2-11) are connected between the rectangular rods (2-21) and the middle-end rotating discs (2-12), and the rectangular outer frame (1-1) is fixedly connected with the carrying bottom plate (2-1).

4. An apparatus for building plastic granules as claimed in claim 1, wherein: the cutting assembly (3) comprises a first cutting rod (3-1), a second cutting rod (3-2), a first transverse rod (3-3), a second transverse rod (3-4), a first half gear (3-5), a second half gear (3-6), a first half gear connecting column (3-7), a first driving rotary column (3-8), a first driving slider (3-9), a first slider hinge rod (3-10), a first hinge disc (3-11), a first hinge clip (3-12), a hinge clip push spring (3-13), a hinge slider (3-14), a connecting slider column (3-15) and a connecting slider push spring (3-16), wherein the first cutting rod (3-1) and the second cutting rod (3-2) are fixedly connected with the first transverse rod (3-3) and the second transverse rod (3-4) respectively, a half gear I (3-5) and a half gear II (3-6) are respectively in meshing transmission with a transverse rod I (3-3) and a transverse rod II (3-4), a half gear connecting column I (3-7) is fixedly connected with the half gear I (3-5) and the half gear II (3-6), a hinge disc I (3-11) is fixedly connected with the half gear connecting column I (3-7), a driving rotating column I (3-8) is rotatably connected with the hinge disc I (3-11), a hinge clip I (3-12) is slidably connected with the hinge disc I (3-11), a hinge clip push spring (3-13) is in sleeved connection with the hinge clip I (3-12), the hinge clip push spring (3-13) is arranged between the hinge clip I (3-12) and the hinge disc I (3-11), the connecting sliding column (3-15) is fixedly connected with the driving rotating column I (3-8), the connecting sliding column push spring (3-16) is connected with the connecting sliding column (3-15) in a sleeved mode, the hinged slider (3-14) is connected with the connecting sliding column (3-15) in a sliding mode, the hinged slider (3-14) is connected with the hinged clip I (3-12) in a matched mode, the cutting rod I (3-1) is connected with the cutting rod II (3-2) in a matched mode, the half gear connecting column I (3-7), the driving rotating column I (3-8) is connected with the support I (2-17) and the support II (2-18) in a rotating mode, the transmission bevel gear I (5) is fixedly connected with the driving rotating column I (3-8), the transmission bevel gear I (5) is in meshing transmission with the transmission bevel gear II (6), and the transmission bevel gear II (6) is fixedly connected with the transmission bevel gear shaft I (7), the transmission bevel gear shaft I (7) is rotatably connected with the support II (2-18), the transmission belt wheel I (8) is fixedly connected with the transmission bevel gear shaft I (7), the transmission belt I (9) and the transmission belt II (10) are connected with the transmission belt wheel I (8) in a matching mode, and the transmission belt II (10) is connected with the transmission belt wheel III (13).

5. An apparatus for building plastic granules as claimed in claim 1, wherein: the transition assembly (4) comprises a first transition rectangular rod (4-1), a second transition rectangular rod (4-2), a transition outer frame (4-3), a pressing rod (4-4), a pressing rod sliding column (4-5), a limiting sliding column (4-6) and a pressing rod push spring (4-7), the second transition rectangular rod (4-2) is fixedly connected with the first transition rectangular rod (4-1), the limiting sliding column (4-6) is fixedly connected with the transition outer frame (4-3), the pressing rod sliding column (4-5) is fixedly connected with the transition outer frame (4-3), the pressing rod (4-4) is slidably connected with the pressing rod sliding column (4-5), the pressing rod push spring (4-7) is arranged between the pressing rod (4-4) and the pressing rod sliding column (4-5), the second transition rectangular rod (4-2) is connected with the limiting sliding column (4-6) in a sliding mode, the outer transition frame (4-3) is fixedly connected with the first carrying bottom plate (2-1), and the first transition rectangular rod (4-1) is fixedly connected with the hinged slider (3-14).

6. An apparatus for building plastic granules as claimed in claim 1, wherein: and the first transmission bevel gear shaft (7) is externally connected with a matched motor A.