CN212468760U

CN212468760U - Organic-coated nano-aluminum-coated particle preparation auxiliary equipment

Info

Publication number: CN212468760U
Application number: CN202020481313.4U
Authority: CN
Inventors: 崔建勋
Original assignee: Hebei Fulangshi Nano Technology Co ltd
Current assignee: Zibo Aolaite Aluminum Plastic Plate Co ltd
Priority date: 2020-04-05
Filing date: 2020-04-05
Publication date: 2021-02-05
Anticipated expiration: 2030-04-05

Abstract

The utility model relates to a nanometer field, more specifically the organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly that says so. The nano aluminum coated particles can be screened; the screening speed can be adjusted according to actual conditions. Including collecting the assembly, the screening assembly, the power supply assembly, can adjust the filterable speed to nanometer aluminium cladding granule by root actual conditions, the inner balladeur train is being promoted manually, and then the sleeve pipe is being driven through inner balladeur train, and change the position of use of output pulley on middle-end driving pulley through the sleeve pipe, and then make the rotational speed through band pulley pivot output change, and then change the rotational speed of output shaft output, and then through above-mentioned transmission relation, make the filterable speed to nanometer aluminium cladding granule change.

Description

Organic-coated nano-aluminum-coated particle preparation auxiliary equipment

Technical Field

The utility model relates to a nanometer field, more specifically the organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly that says so.

Background

The preparation auxiliary equipment for the organic-coated nano aluminum-coated particles is a common equipment in the nano field, but the preparation auxiliary equipment for the general organic-coated nano aluminum-coated particles has single function.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an auxiliary device for preparing organic coated nano aluminum coated particles, which can realize the screening of the nano aluminum coated particles; the screening speed can be adjusted according to actual conditions.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly, is including collecting the combination, screening combination, power supply combination, it is connected with screening combination to collect the combination, and power supply combination is connected with screening combination.

As this technical scheme's further optimization, the utility model relates to an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly, collect the assembly including collecting the frame, closed rod one, closed hinge bar one, the carrier bar, inner slide bar, inner pushes away spring one, inner pushes away spring two, closed hinge bar two, closed lever two, inner slide bar and collection frame fixed connection, closed rod one, closed hinge bar one rotates with the collection frame to be connected, closed hinge bar one, closed hinge bar two and carrier bar fixed connection, closed rod one, closed rod two respectively with closed hinge bar one, closed hinge bar two is connected, carrier bar and inner slide bar sliding connection, inner pushes away spring one and cup joints with inner slide bar and is connected, inner pushes away spring two and sets up between carrier bar and inner slide bar, the discharge gate sets up on collecting the frame.

As a further optimization of the technical scheme, the utility model relates to an organic-coated nano-aluminum-coated particle preparation auxiliary device, the screening assembly comprises a screening outer frame, a limiting boss II, a limiting boss I, a communicating sleeve, a discharge pipe, a filter plate I, a filter plate II, a filter hole I, a filter hole II, a rocker, a swing rod, a driving rod, an N-shaped outer frame I, an inner clamping groove I, an inner clamping rod push spring I, an N-shaped outer frame II, an inner clamping groove II, an inner clamping rod II and an inner clamping rod push spring II, the limiting boss I and the screening outer frame are fixedly connected, the discharge pipe and the filter plate I are fixedly connected and communicated with the screening outer frame, the filter plate I and the limiting boss II are connected in a sliding manner, the filter hole I is arranged on the filter plate I, the filter plate II and the limiting boss I are connected in a sliding manner, the filter hole II is arranged on, the swing rod is hinged to the driving rod, the first inner clamping groove is formed in the first N-shaped frame, the first inner clamping rod is connected with the driving rod in a sliding mode, the first inner clamping rod push spring is arranged between the first two inner clamping rods, the first inner clamping rod is connected with the first inner clamping groove in a matching mode, the first N-shaped frame is fixedly connected with the first filter plate, the second inner clamping groove is formed in the second N-shaped frame, the second inner clamping rod is connected with the driving rod in a sliding mode, the second inner clamping rod push spring is arranged between the second two inner clamping rods, the second N-shaped frame is fixedly connected with the second filter plate, and the communicating sleeve is fixedly connected with the collecting frame and communicated with.

As a further optimization of the technical proposal, the utility model relates to an organic-coated nano-aluminum-coated particle preparation auxiliary device, the power source assembly comprises a power source bottom plate, an input motor, an input friction belt wheel, a middle-end driving belt wheel, an output belt wheel, a sleeve, a belt wheel rotating shaft, an output shaft push spring, a support frame, a lower side support frame, an inner end sliding frame, a lower side push spring and a lower side slide bar, the input motor is fixedly connected with the power source bottom plate, the input friction belt wheel is fixedly connected with the input motor, the input friction belt wheel is in friction transmission with the middle-end driving belt wheel, the middle-end driving belt wheel is rotatably connected with the power source bottom plate, the middle-end driving belt wheel is in friction transmission with the output belt wheel, the sleeve is fixedly connected with the output belt wheel, the belt wheel rotating shaft is fixedly connected with, the output shaft rotates with the support frame to be connected, support frame and power supply bottom plate fixed connection, downside support and power supply bottom plate fixed connection, downside slide bar and downside support fixed connection, the downside pushes away the spring and cup joints with the downside slide bar and is connected, inner balladeur train and downside slide bar sliding connection, inner balladeur train and sleeve pipe cooperation are connected, output shaft and rocker fixed connection, power supply bottom plate and screening frame fixed connection.

The utility model relates to an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly's beneficial effect does:

the utility model relates to an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly, can adjust the filterable speed to nanometer aluminium cladding granule by the root actual conditions, the inner balladeur train is being promoted manually, and then the sleeve pipe is being driven through the inner balladeur train, and change the service position of output pulley on middle-end driving pulley through the sleeve pipe, and then make the rotational speed through band pulley pivot output change, and then change the rotational speed of output shaft output, and then through above-mentioned transmission relation, make the filterable speed to nanometer aluminium cladding granule change.

Drawings

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

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

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

figure 3 is a first schematic structural diagram of the screening assembly of the present invention;

figure 4 is a structural schematic diagram of the screening assembly of the present invention;

fig. 5 is a schematic structural diagram of the power source assembly of the present invention.

In the figure: collecting the assembly 1; collecting the outer frame 1-1; 1-2 of a closing rod I; closing the first hinge rod 1-3; 1-4 of a carrier bar; slide bars 1-5 at the inner ends; the inner end pushes the spring 1-6; the inner end pushes a second spring 1-7; closing the second hinge rod 1-8; a second closing rod 1-9; a screening combination 2; screening the outer frame 2-1; 2-2 parts of a limiting boss II; 2-3 of a limiting boss I; 2-4 of a communicating sleeve; 2-5 of a discharge pipe; 2-6 parts of a filter plate I; 2-7 parts of a second filter plate; 2-8 of a first filter hole; 2-9 parts of a second filter hole; 2-10 parts of a rocker; 2-11 parts of a swing rod; 2-12 of a driving rod; 2-13 parts of an N-type outer frame I; the inner end of the clamping groove I is 2-14; the inner end clamping rod I is 2-15; the inner end clamping rod push spring is 2-16; 2-17 parts of an N-type outer frame; a second inner end clamping groove 2-18; the inner end of the clamping rod II is 2-19; 2-20 parts of a second pushing spring of the inner end clamping rod; a power source assembly 3; a power source bottom plate 3-1; inputting a motor 3-2; an input friction pulley 3-3; 3-4 of a middle-end transmission belt wheel; 3-5 of an output belt wheel; 3-6 parts of a sleeve; 3-7 of a belt wheel rotating shaft; 3-8 parts of an output shaft; 3-9 parts of output shaft push spring; 3-10 parts of a support frame; lower side supports 3-11; inner end carriages 3-12; 3-13 parts of lower side push spring; lower slide bars 3-14.

Detailed Description

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

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 4, and an auxiliary apparatus for preparing organically-coated nano aluminum-coated particles includes a collection assembly 1, a screening assembly 2, and a power source assembly 3, where the collection assembly 1 is connected to the screening assembly 2, and the power source assembly 3 is connected to the screening assembly 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-4, and the embodiment further describes the first embodiment, where the collection assembly 1 includes a collection outer frame 1-1, a first closing rod 1-2, a first closing hinge rod 1-3, a bearing rod 1-4, a first inner slide rod 1-5, a first inner push spring 1-6, a second inner push spring 1-7, a second closing hinge rod 1-8, and a second closing rod 1-9, the first inner slide rod 1-5 is fixedly connected to the collection outer frame 1-1, the first closing rod 1-2 and the first closing hinge rod 1-3 are rotatably connected to the collection outer frame 1-1, the first closing hinge rod 1-3, the second closing hinge rod 1-8 are fixedly connected to the bearing rod 1-4, the first closing rod 1-2 and the second closing rod 1-9 are respectively connected to the first closing hinge rod 1-3, The closed hinged rod II 1-8 is connected, the bearing rod 1-4 is connected with the inner end sliding rod 1-5 in a sliding mode, the inner end push spring I1-6 is connected with the inner end sliding rod 1-5 in a sleeved mode, the inner end push spring II 1-7 is arranged between the bearing rod 1-4 and the inner end sliding rod 1-5, and the discharge port 1-10 is arranged on the collection outer frame 1-1.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-4, and the screening assembly 2 includes a screening outer frame 2-1, a second limit boss 2-2, a first limit boss 2-3, a communicating sleeve 2-4, a discharge pipe 2-5, a first filter plate 2-6, a second filter plate 2-7, a first filter hole 2-8, a second filter hole 2-9, a rocker 2-10, a rocker 2-11, a driving rod 2-12, a first N-shaped outer frame 2-13, a first inner end clamping groove 2-14, a first inner end clamping rod 2-15, a first inner end clamping rod push spring 2-16, a second N-shaped outer frame 2-17, a second inner end clamping groove 2-18, a second inner end clamping rod 2-19, a second inner end clamping rod push spring 2-20, a second limit boss 2-2, a second filter plate 2-6, a second filter plate, The limiting boss I2-3 is fixedly connected with the screening outer frame 2-1, the discharging pipe 2-5 and the filter plate I2-6 are fixedly connected and communicated with the screening outer frame 2-1, the filter plate I2-6 is connected with the limiting boss II 2-2 in a sliding way, the filter hole I2-8 is arranged on the filter plate I2-6, the filter plate II 2-7 is connected with the limiting boss I2-3 in a sliding way, the filter hole II 2-9 is arranged on the filter plate II 2-7, the rocker 2-10 is connected with the swing rod 2-11 in a hinged way, the swing rod 2-11 is connected with the driving rod 2-12 in a hinged way, the inner end clamping groove I2-14 is arranged on the N-type outer frame I2-13, the inner end clamping rod I2-15 is connected with the driving rod 2-12 in a sliding way, the inner end clamping rod pushing spring I2-16 is arranged between the, the inner end clamping bar I2-15 is matched and connected with the inner end clamping groove I2-14, the N-shaped outer frame I2-13 is fixedly connected with the filter plate I2-6, the inner end clamping groove II 2-18 is arranged on the N-shaped outer frame II 2-17, the inner end clamping bar II 2-19 is connected with the driving rod 2-12 in a sliding mode, the inner end clamping bar push spring II 2-20 is arranged between the two inner end clamping bar II 2-19, the N-shaped outer frame II 2-17 is fixedly connected with the filter plate II 2-7, and the communicating sleeve 2-4 is fixedly connected and communicated with the collecting outer frame 1-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-4, and the embodiment further describes the first embodiment, where the power source assembly 3 includes a power source bottom plate 3-1, an input motor 3-2, an input friction pulley 3-3, a middle-end transmission pulley 3-4, an output pulley 3-5, a sleeve 3-6, a pulley rotating shaft 3-7, an output shaft 3-8, an output shaft push spring 3-9, a support frame 3-10, a lower support frame 3-11, an inner end carriage 3-12, a lower push spring 3-13, and a lower sliding rod 3-14, the input motor 3-2 is fixedly connected with the power source bottom plate 3-1, the input friction pulley 3-3 is fixedly connected with the input motor 3-2, and the input friction pulley 3-3 is in friction transmission with the middle-end transmission pulley 3-4, the middle-end transmission belt wheel 3-4 is rotationally connected with the power source bottom plate 3-1, the middle-end transmission belt wheel 3-4 is in friction transmission with the output belt wheel 3-5, the sleeve 3-6 is fixedly connected with the output belt wheel 3-5, the belt wheel rotating shaft 3-7 is fixedly connected with the sleeve 3-6, the belt wheel rotating shaft 3-7 is in sliding connection with the output shaft 3-8, the output shaft push spring 3-9 is arranged between the belt wheel rotating shaft 3-7 and the output shaft 3-8, the output shaft 3-8 is rotationally connected with the support frame 3-10, the support frame 3-10 is fixedly connected with the power source bottom plate 3-1, the lower side support frame 3-11 is fixedly connected with the power source bottom plate 3-1, the lower side slide bar 3-14 is fixedly connected with the lower side support frame 3-11, the lower side push spring 3, an inner end sliding frame 3-12 is connected with a lower side sliding rod 3-14 in a sliding way, the inner end sliding frame 3-12 is connected with a sleeve 3-6 in a matching way, an output shaft 3-8 is fixedly connected with a rocker 2-10, and a power source bottom plate 3-1 is fixedly connected with a screening outer frame 2-1;

the speed of filtering the nano-aluminum coated particles can be adjusted according to actual conditions, the inner end sliding frame 3-12 is pushed manually, the sleeve 3-6 is driven through the inner end sliding frame 3-12, the use position of the output belt wheel 3-5 on the middle-end transmission belt wheel 3-4 is changed through the sleeve 3-6, the rotating speed output through the belt wheel rotating shaft 3-7 is changed, the rotating speed output by the output shaft 3-8 is changed, and the speed of filtering the nano-aluminum coated particles is changed through the transmission relation.

The utility model discloses an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly, its theory of operation is:

when the collecting assembly is used, the primarily prepared nano aluminum coated particles are brought into the collecting assembly 1, the bearing rods 1-4 are moved downwards along the inner end sliding rods 1-5 under the action of the gravity of the nano aluminum coated particles on the bearing rods 1-4, the closing rods 1-2 and 1-9 are closed to collect the outer frame 1-1 under the action of the closing hinged rods 1-3 and the closing hinged rods 1-8, and the primarily prepared nano aluminum coated particles fall into the screening outer frame 2-1 through the discharge ports 1-10 and the communicating sleeves 2-4 and pass through the filter plates 1-6; the second filter plate 2-7 is used for filtering the primarily prepared nano aluminum coated particles so that the nano aluminum coated particles meeting the standard flow out through the discharge pipe 2-5; simultaneously starting an input motor 3-2, driving an input friction belt wheel 3-3 to rotate through the input motor 3-2, driving a middle-end transmission belt wheel 3-4 to rotate through the input friction belt wheel 3-3, driving an output belt wheel 3-5 to rotate through the middle-end transmission belt wheel 3-4, driving a belt wheel rotating shaft 3-7 to rotate, driving an output shaft 3-8 to rotate, driving a rocker 2-10 to rotate, driving a rocker 2-11 to rotate, and driving a filter plate I2-6 through a driving rod 2-12 respectively through an N-type outer frame I2-13 and an N-type outer frame II 2-17; the second filter plate 2-7 slides in a reciprocating manner, so that the nano aluminum coated particles are filtered; the speed of filtering the nano-aluminum coated particles can be adjusted according to actual conditions, the inner end sliding frame 3-12 is pushed manually, the sleeve 3-6 is driven through the inner end sliding frame 3-12, the use position of the output belt wheel 3-5 on the middle-end transmission belt wheel 3-4 is changed through the sleeve 3-6, the rotating speed output through the belt wheel rotating shaft 3-7 is changed, the rotating speed output by the output shaft 3-8 is changed, and the speed of filtering the nano-aluminum coated particles is changed through the transmission relation.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art can make variations within the scope of the present invention; modifying; addition or replacement also belong to the protection scope of the utility model.

Claims

1. The utility model provides an organic cladding's nanometer aluminium cladding granule preparation auxiliary assembly, is including collecting assembly (1), screening assembly (2), power supply assembly (3), its characterized in that: the collection assembly (1) is connected with the screening assembly (2), and the power source assembly (3) is connected with the screening assembly (2).

2. The auxiliary equipment for preparing organic-coated nano aluminum-coated particles as claimed in claim 1, wherein: the collecting assembly (1) comprises a collecting outer frame (1-1), a first closing rod (1-2), a first closing hinged rod (1-3), a bearing rod (1-4), an inner end sliding rod (1-5), a first inner end pushing spring (1-6), a second inner end pushing spring (1-7), a second closing hinged rod (1-8), a second closing rod (1-9) and a discharge port (1-10), wherein the inner end sliding rod (1-5) is fixedly connected with the collecting outer frame (1-1), the first closing rod (1-2) and the first closing hinged rod (1-3) are rotatably connected with the collecting outer frame (1-1), the first closing hinged rod (1-3), the second closing hinged rod (1-8) are fixedly connected with the bearing rod (1-4), and the first closing rod (1-2), The closed rod II (1-9) is respectively connected with the closed hinge rod I (1-3) and the closed hinge rod II (1-8), the bearing rod (1-4) is connected with the inner end sliding rod (1-5) in a sliding mode, the inner end push spring I (1-6) is connected with the inner end sliding rod (1-5) in a sleeved mode, the inner end push spring II (1-7) is arranged between the bearing rod (1-4) and the inner end sliding rod (1-5), and the discharge port (1-10) is arranged on the collecting outer frame (1-1).

3. The auxiliary equipment for preparing organic-coated nano aluminum-coated particles as claimed in claim 1, wherein: the screening assembly (2) comprises a screening outer frame (2-1), a limiting boss II (2-2), a limiting boss I (2-3), a communicating sleeve (2-4), a discharging pipe (2-5), a filter plate I (2-6), a filter plate II (2-7), a filter hole I (2-8), a filter hole II (2-9), a rocker (2-10), a swing rod (2-11), a driving rod (2-12), an N-type outer frame I (2-13), an inner end clamping groove I (2-14), an inner end clamping rod I (2-15), an inner end clamping rod pushing spring I (2-16), an N-type outer frame II (2-17), an inner end clamping groove II (2-18), an inner end clamping rod II (2-19) and an inner end clamping rod pushing spring II (2-20), a second limit boss (2-2), a first limit boss (2-3) and a screening outer frame (2-1) are fixedly connected, a discharge pipe (2-5) and a first filter plate (2-6) are fixedly connected and communicated with the screening outer frame (2-1), the first filter plate (2-6) and the second limit boss (2-2) are in sliding connection, a first filter hole (2-8) is arranged on the first filter plate (2-6), a second filter plate (2-7) is in sliding connection with the first limit boss (2-3), a second filter hole (2-9) is arranged on the second filter plate (2-7), a rocker (2-10) is hinged with a swing rod (2-11), the swing rod (2-11) is hinged with a driving rod (2-12), a first inner end clamping groove (2-14) is arranged on the first N-type frame (2-13), the inner end clamping rod I (2-15) is connected with the driving rod (2-12) in a sliding mode, the inner end clamping rod I (2-16) is arranged between the two inner end clamping rod I (2-15), the inner end clamping rod I (2-15) is connected with the inner end clamping groove I (2-14) in a matching mode, the N-shaped outer frame I (2-13) is fixedly connected with the filter plate I (2-6), the inner end clamping groove II (2-18) is arranged on the N-shaped outer frame II (2-17), the inner end clamping rod II (2-19) is connected with the driving rod (2-12) in a sliding mode, the inner end clamping rod pushing spring II (2-20) is arranged between the two inner end clamping rod II (2-19), the N-shaped outer frame II (2-17) is fixedly connected with the filter plate II (2-7), and the communicating sleeve (2-4) is fixedly connected and communicated with the collecting outer frame (1-1).

4. The auxiliary equipment for preparing organic-coated nano aluminum-coated particles as claimed in claim 1, wherein: the power source assembly (3) comprises a power source bottom plate (3-1), an input motor (3-2), an input friction belt wheel (3-3), a middle-end transmission belt wheel (3-4), an output belt wheel (3-5), a sleeve (3-6), a belt wheel rotating shaft (3-7), an output shaft (3-8), an output shaft push spring (3-9), a support frame (3-10), a lower side support frame (3-11), an inner end sliding frame (3-12), a lower side push spring (3-13) and a lower side sliding rod (3-14), wherein the input motor (3-2) is fixedly connected with the power source bottom plate (3-1), the input friction belt wheel (3-3) is fixedly connected with the input motor (3-2), and the input friction belt wheel (3-3) is in friction transmission with the middle-end transmission belt wheel (3-4), the middle-end transmission belt wheel (3-4) is rotationally connected with the power source bottom plate (3-1), the middle-end transmission belt wheel (3-4) is in friction transmission with the output belt wheel (3-5), the sleeve (3-6) is fixedly connected with the output belt wheel (3-5), the belt wheel rotating shaft (3-7) is fixedly connected with the sleeve (3-6), the belt wheel rotating shaft (3-7) is in sliding connection with the output shaft (3-8), the output shaft push spring (3-9) is arranged between the belt wheel rotating shaft (3-7) and the output shaft (3-8), the output shaft (3-8) is rotationally connected with the support frame (3-10), the support frame (3-10) is fixedly connected with the power source bottom plate (3-1), and the lower side support frame (3-11) is fixedly connected with the power source bottom plate (3-1), the lower side sliding rods (3-14) are fixedly connected with the lower side support (3-11), the lower side push springs (3-13) are connected with the lower side sliding rods (3-14) in a sleeved mode, the inner end sliding frames (3-12) are connected with the lower side sliding rods (3-14) in a sliding mode, the inner end sliding frames (3-12) are connected with the sleeves (3-6) in a matched mode, the output shafts (3-8) are fixedly connected with the rockers (2-10), and the power source bottom plate (3-1) is fixedly connected with the screening outer frame (2-1).