CN205294227U - Graphite flake auto -control handling device - Google Patents

Abstract

The utility model discloses a graphite flake auto -control handling device, including receiver device and loading mechanism, install first drive shaft and second drive shaft between left side machine wall and the right side machine wall, be connected with a receiving element in the first drive shaft, be connected with the 2nd receiving element in the second drive shaft, the loading mechanism front end is equipped with the opening, is connected with the lift cylinder on loading mechanism's the rear end, is connected with the centre gripping subassembly on the lift cylinder, loading mechanism's lower extreme is installed and is carried the thing seat, installs the carousel in year thing seat, is equipped with the recess on the carousel, has placed in the recess and has carried a thing case, carries the thing case and mutually supports with the centre gripping subassembly. The utility model discloses applying to graphite flake streamlined production, comprising receiver device and loading mechanism, receiver device introduces the graphite flake on the assembly line, carries the graphite flake with the help of receiving element, and the graphite flake is carried to the loading mechanism in. Get during subassembly packing into in proper order carry the thing case by the clamp in the loading mechanism, realize the auto -control handling graphite flake.

Description

A kind of graphite flake automatic handling device

Technical field

This utility model relates to graphite flake production field, especially relates to a kind of graphite flake automatic handling device.

Background technology

Graphite is a kind of allotrope of elemental carbon, and the periphery of each carbon atom links the other three carbon atom (arrangement mode be cellular multiple hexagons) and combines with covalent bond, constitutes covalent molecule. All can release an electronics due to each carbon atom, those electronics can move freely, and therefore graphite belongs to electric conductor. Clamp assemblies graphite is soft, black gray expandable; There is greasy feeling, paper can be polluted. Hardness is 1��2, vertically can increase to 3��5 with its hardness of the increase of impurity, and proportion is 1.9��2.3, and specific surface area scope concentrates on 1-20m²/ g, when starvation, its fusing point, more than 3000 DEG C, is one of the mineral of most heatproof. It can conduct electricity, heat conduction. Its purposes includes manufacturing the devices such as carbon-point, graphite rod, graphite electrode, graphite boat, millstone plate, graphite heater, graphite sintering mould, graphite flake, graphite profiled piece.

Graphite flake is a kind of brand-new heat conduction and heat radiation material, graphite heat radiation fin is through even heat is distributed in two dimensional surface thus effective being shifted by heat, ensure that assembly works at the temperature born, the performance simultaneously improving consumer electronics product of shielding thermal source and assembly. It is mainly used in notebook computer, high-power LED illumination, flat faced display, DV, mobile phone and the assistant devices etc. for individual.

Current enterprise is after streamlined produces and suffers from the drawback that in graphite flake process that graphite flake produces molding, need artificial from streamline, to unload graphite flake, refill and be downloaded in container, this process wastes time and energy, not only increase the work load of staff, indirectly add cost of labor, and affect work efficiency

Utility model content

The purpose of this utility model is in that to provide a kind of graphite flake automatic handling device, applying to graphite flake streamlined produce, be made up of receiving mechanism and loader mechanism, receiving mechanism introduces the graphite flake on streamline, by receiving unit conveying graphite flake, graphite flake is transported in loader mechanism. By in the loading tote box successively of the gripper assembly in loader mechanism, it is achieved automatic loading and unloading graphite flake. Compared with prior art, this utility model is time saving and energy saving, reduce work load, improves work efficiency.

In order to solve above-mentioned technical problem, adopt the following technical scheme that

A kind of graphite flake automatic handling device, including receiving mechanism and loader mechanism, the rear end of receiving mechanism connects the front end of loader mechanism, receiving mechanism includes left side machine wall and right side machine wall, it is characterized in that: the first driving axle and second is installed between left side machine wall and right side machine wall and drives axle, being connected to the first reception unit on first driving axle, the second driving axle is connected to the second reception unit, the first reception unit and second receives unit and cooperates;First crossbeam and second cross beam are installed between left side machine wall and right side machine wall, first crossbeam is connected to the first guidance set, first guidance set connects the first reception unit, and second cross beam is connected to the second guidance set, and the second guidance set connects the second reception unit; Loader mechanism front end is provided with opening, and the rear end of loader mechanism is connected to lift cylinder, and lift cylinder is connected to clamp assemblies, and clamp assemblies is positioned at loader mechanism; The lower end of loader mechanism is provided with loading seat, is provided with rotating disk in loading seat, and rotating disk is provided with groove, is placed with tote box in groove, and tote box and clamp assemblies cooperate.

Further, receiving mechanism includes base, and the upper end of base is connected to left side machine wall and right side machine wall. Base supports, fixes left side machine wall and right side machine wall so that receiving mechanism Stability Analysis of Structures, not easily topples over.

Further, left side machine wall being connected to driving device, driving device includes the first driving device and the second driving device, and the first driving device connects the first driving axle, and the second driving device connects the second driving axle. First driving device device drives the first driving axle to rotate, thus driving the first reception unit rotational; Second driving device drives the second driving axle to rotate, thus driving the second reception finite element rotation; Receive unit rotate first and receive realization conveying graphite flake, simple in construction under unit matching with the second of rotation, design ingenious.

Further, first receives unit includes the first flywheel, the first flywheel lid and the first protecting cover, and the first flywheel connects the first driving axle, and the first flywheel lid and the first protecting cover may be contained within the first flywheel. First flywheel and the second flywheel cooperate, and are used for carrying graphite flake, and the first flywheel lid and the first protecting cover are used for protecting the first flywheel, it is to avoid the first flywheel is damaged by external force collision, indirectly extend its service life.

Further, second receives unit includes the second flywheel, the second flywheel lid and the second protecting cover, and the second flywheel connects the second driving axle, and the second flywheel lid and the second protecting cover may be contained within the second flywheel. First flywheel and the second flywheel cooperate, and are used for carrying graphite flake, and the second flywheel lid and the second protecting cover are used for protecting the second flywheel, it is to avoid the second flywheel is damaged by external force collision, indirectly extend its service life.

Further, the first guidance set includes the first pneumatic element and the first director element, and the first pneumatic element is located on first crossbeam, and the first director element is located on the first reception unit, and the first pneumatic element and the first director element are connected with each other. First pneumatic element controls the first director element and moves horizontally, thus driving the first reception unit to move horizontally, regulates the horizontal level of the first reception unit so that it is be consistent with the direction of motion of graphite flake, expand the scope of application.

Further, the second guidance set includes the second pneumatic element and the second director element, and the second pneumatic element is located on second cross beam, and the second director element is located on the second reception unit, and the second pneumatic element and the second director element are connected with each other. Second pneumatic element controls the second director element and moves horizontally, thus driving the second reception unit to move horizontally, regulates the horizontal level of the second reception unit so that it is be consistent with the direction of motion of graphite flake, expand the scope of application.

Further, the second reception unit being connected to and directs bar, direct bar and include linkage section and the section of directing, linkage section connects the second reception unit. Direct bar for directing graphite flake, make graphite flake smoothly enter the first reception unit and second and receive between unit, and then realize conveying, simple in construction, practical.

Further, clamp assemblies includes connecting rod, hydraulic jack and holder, and one end of connecting rod connects lift cylinder, and the other end of connecting rod connects hydraulic jack, and hydraulic jack is connected to piston rod, and piston rod connects holder.Hydraulic jack controls holder, can grip graphite flake, can unload graphite flake when holder loosens, it is achieved handling, have simple in construction, operation principle simple advantage during holder clamping.

Further, being provided with loading groove and perforate in tote box, loading groove and perforate are interconnected, and perforate coordinates clamp assemblies. Loading groove is used for placing graphite sheet, and perforate facilitates clamp assemblies handling graphite flake.

Owing to adopting technique scheme, have the advantages that

This utility model is a kind of graphite flake automatic handling device, applying to graphite flake streamlined produce, be made up of receiving mechanism and loader mechanism, receiving mechanism introduces the graphite flake on streamline, by receiving unit conveying graphite flake, graphite flake is transported in loader mechanism. By in the loading tote box successively of the gripper assembly in loader mechanism, it is achieved automatic loading and unloading graphite flake. Compared with prior art, this utility model is time saving and energy saving, reduce work load, improves work efficiency. Its concrete beneficial effect show as following some:

1, receiving mechanism receives the graphite flake on streamline, it is made to depart from streamline successively: to be arranged near streamline end by this utility model, first start the first driving axle and second and drive axle, first drives axle to drive the first reception finite element rotation, second drives axle to drive the second reception finite element rotation, now the graphite flake on streamline runs the region that the first reception unit and second receives between unit, under both directional rotating effects, carry graphite flake displacement secretly, realize automatically moving graphite flake, time saving and energy saving, reduction work load, improves work efficiency.

2, owing to graphite flake position in a pipeline can change, therefore introduce the first guidance set and the second guidance set, control the first reception unit and second respectively and receive unit, make both present positions all can align with graphite flake, not only expand the scope of application, and improve result of use, reduce the probability that fault occurs.

3, the graphite flake orientation that receiving mechanism is carried secretly is delivered to loader mechanism, by loader mechanism, graphite flake is loaded in order again: first clamped graphite flake by clamp assemblies, lift cylinder drives clamp assemblies to move down subsequently, in folding process, graphite flake progresses in tote box, unclamp clamp assemblies, orderly being loaded in tote box of graphite flake. Clamp assemblies is then upper moves the next graphite flake of clamping, so moves in circles and realizes automatic loading and unloading graphite flake, has been obviously improved work efficiency, and graphite flake arrangement is regular, convenient transport.

4, after a tote box fills graphite flake wherein, rotating rotating disk, sky tote box is turned to " loaded " position, so operation realizes continuously uninterrupted loading, promotes work efficiency further.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the structural representation of a kind of graphite flake automatic handling device of this utility model;

Fig. 2 is the explosive view of the first reception unit in this utility model;

Fig. 3 is the explosive view of the second reception unit in this utility model;

Fig. 4 is the structural representation of loader mechanism in this utility model;

Fig. 5 is the schematic diagram of clamp assemblies in this utility model;

Fig. 6 is the schematic diagram of holder in this utility model;

Fig. 7 is the structural representation of loading seat in this utility model;

Fig. 8 is the schematic diagram of tote box in this utility model.

Detailed description of the invention

As shown in Figures 1 to 8, a kind of graphite flake automatic handling device, including receiving mechanism and loader mechanism, the rear end of receiving mechanism connects the front end of loader mechanism, and receiving mechanism includes left side machine wall 2, right side machine wall 3 and base 1, and base 1 is made up of two parts, the upper end of base 1 is connected to left side machine wall 2 and right side machine wall 3, therefore base 1 is used for supporting, fixing left side machine wall 2 and right side machine wall 3 so that receiving mechanism Stability Analysis of Structures, not easily topple over.

Being connected to driving device on left side machine wall 2, driving device includes the first driving device 4 and the second driving device 5, and the first driving device 4 is positioned at the surface of the second driving device 5; Being connected to the first driving axle 10 on first driving device 4, first drives axle 10 to be installed between left side machine wall 2 and right side machine wall 3, and the first driving axle 10 is connected to the first reception unit 9. First receives unit 9 is made up of first flywheel the 18, first flywheel lid 19 and the first protecting cover 20, and the first flywheel 18 connects the first driving axle 10, therefore opens the first driving device 4, and first drives axle 10 to drive the first flywheel 18 to rotate; First flywheel lid 19 and the first protecting cover 20 may be contained within the first flywheel 18. First flywheel lid 19 and the first protecting cover 20 are used for protecting the first flywheel 18, it is to avoid the first flywheel 18 is damaged by external force collision, indirectly extends its service life.

Being connected to the second driving axle 11 on second driving device 5, second drives axle 11 to be positioned at the lower section of the first driving axle 10, and second drives axle 11 to be installed between left side machine wall 2 and right side machine wall 3, and the second driving axle 11 is connected to the second reception unit 12. Second receives unit 12 is made up of second flywheel the 21, second flywheel lid 22 and the second protecting cover 23, and the second flywheel 21 connects the second driving axle 11, therefore opens the second driving device 5, and second drives axle 11 to drive the second flywheel 21 to rotate; Second flywheel lid 22 and the second protecting cover 23 may be contained within the second flywheel 21. Second flywheel lid 22 and the second protecting cover 23 are used for protecting the second flywheel 21, it is to avoid the second flywheel 21 is damaged by external force collision, indirectly extends its service life.

First flywheel 18 and the second flywheel 21 cooperate, reach the purpose of conveying graphite flake, its specific works principle is: arranged near streamline end by this utility model, namely graphite flake reaches receiving mechanism after departing from streamline, first synchronous averaging first drives axle 10 and second to drive axle 11, first drives axle 10 to drive the first flywheel 18 to rotate, and second drives axle 11 to drive the second flywheel 21 to rotate; First flywheel 18 rotates counterclockwise, second flywheel 21 rotates clockwise, when the graphite flake on streamline runs the first reception unit 9 and the second region receiving between unit 12, under the directional rotating effect of the first flywheel 18 and the second flywheel 21, carry graphite flake secretly towards loader mechanism displacement, graphite flake, time saving and energy saving, reduction work load are moved in the realization that so moves in circles automatically, improve work efficiency. Meanwhile, the second reception unit 12 being connected to and directs bar 16, direct bar 16 and include linkage section and the section of directing, linkage section connects the second reception unit 12. Direct bar 16 for directing graphite flake, make graphite flake smoothly enter the first reception unit 9 and second and receive between unit 12, and then realize conveying, simple in construction, practical.

Being provided with first crossbeam 6 and second cross beam 15 between left side machine wall 2 and right side machine wall 3, first crossbeam 6 is positioned at the top of the first reception unit 9, and second cross beam 15 is positioned at the lower section of the second reception unit 12. First crossbeam 6 is connected to the first guidance set, first guidance set is made up of the first pneumatic element 7 and the first director element 8, first pneumatic element 7 is located on first crossbeam 6, and the first director element 8 is located on the first reception unit 9, and the first pneumatic element 7 and the first director element 8 are connected with each other. First pneumatic element 7 controls the first director element 8 and moves horizontally, thus driving the first reception unit 9 to move horizontally, regulating the horizontal level of the first reception unit 9 so that it is the direction of motion of alignment graphite flake, expanding the scope of application.

Second cross beam 15 is connected to the second guidance set, second guidance set is made up of the second pneumatic element 14 and the second director element 13, second pneumatic element 14 is located on second cross beam 15, second director element 13 is located on the second reception unit 12, and the second pneumatic element 14 and the second director element 13 are connected with each other. Second pneumatic element 14 controls the second director element 13 and moves horizontally, thus driving the second reception unit 12 to move horizontally, regulating the horizontal level of the second reception unit 12 so that it is the direction of motion of alignment graphite flake, expanding the scope of application.

Owing to graphite flake position in a pipeline can change, therefore introduce the first guidance set and the second guidance set, control the first reception unit 9 and second respectively and receive unit 12, when the position of graphite flake changes, synchronization control first receives the position of unit 9 and the second reception unit 12, makes both present positions all can align with graphite flake, not only expands the scope of application, and improve result of use, reduce the probability that fault occurs.

When graphite flake is by entering loader mechanism after receiving mechanism, the front end of loader mechanism is provided with opening 24, and graphite flake is entered loader mechanism by opening 24. Being connected to lift cylinder 25 on the rear end of loader mechanism, lift cylinder 25 has elevating function. Being connected to clamp assemblies on lift cylinder 25, lift cylinder 25 drives clamp assemblies lifting after starting, clamp assemblies is used for clamping graphite flake, is loaded and unloaded to specifying position. Clamp assemblies is located in loader mechanism, and clamp assemblies is arranged towards opening 24. Clamp assemblies includes connecting rod 26, hydraulic jack and holder, one end of connecting rod 26 connects lift cylinder 25, the other end of connecting rod 26 connects hydraulic jack 27, hydraulic jack 27 is connected to piston rod 28, piston rod 28 connects holder 29, and holder 29 as described in Figure 6, is provided with notch 36, notch 36 and graphite flake are mutually matched, and just can be embedded in notch 36 by graphite flake. Hydraulic jack 27 controls holder 29, can grip graphite flake when holder 29 clamps, and can unload graphite flake when holder 29 loosens, it is achieved handling, has simple in construction, the simple advantage of operation principle.

The lower end of loader mechanism is provided with loading seat 31, loading seat 31 is fixed on the bottom of loader mechanism, loading seat 31 has part-structure to be positioned at outside loader mechanism, loading seat 31 is provided with rotating disk 32, rotating disk 32 can rotation, rotating disk 32 is provided with groove 33, and groove 33 has two, and two groove 33 axial symmetry are arranged. All being placed with tote box 30 in each groove 33, tote box 30 is in order to load graphite flake, and tote box 30 moves along with rotating disk 32. Clamp assemblies and loading seat 31 cooperate and realize loading graphite flake successively, its detailed process is: first clamped graphite flake by clamp assemblies, lift cylinder 25 drives clamp assemblies to move down subsequently, in folding process, graphite flake progresses in tote box 30, unclamping clamp assemblies, what graphite flake was orderly is loaded in tote box 30. Clamp assemblies is then upper moves the next graphite flake of clamping, so moves in circles and realizes automatic loading and unloading graphite flake, has been obviously improved work efficiency, and graphite flake arrangement is regular, convenient transport. When tote box 30 full load loaded, rotate rotating disk 32, this tote box 30 is produced loader mechanism, collect graphite flake. Empty tote box 30 is transferred to " loaded " position simultaneously, continue to load graphite flake and so move in circles until collecting graphite flake completely.Meanwhile, being provided with loading groove 35 and perforate 35 in tote box 30, loading groove 35 and perforate 35 are interconnected, and perforate 35 coordinates clamp assemblies. Loading groove 35 is for placing graphite sheet, and perforate 35 facilitates clamp assemblies handling graphite flake.

These are only specific embodiment of the utility model, but technical characteristic of the present utility model is not limited thereto. Any based on this utility model, for solving essentially identical technical problem, it is achieved essentially identical technique effect, done ground simple change, equivalent replacement or modification etc., all it is covered by among protection domain of the present utility model.

Claims (10)

1. a graphite flake automatic handling device, including receiving mechanism and loader mechanism, the rear end of described receiving mechanism connects the front end of described loader mechanism, described receiving mechanism includes left side machine wall and right side machine wall, it is characterized in that: the first driving axle and second is installed between described left side machine wall and described right side machine wall and drives axle, described first driving axle is connected to the first reception unit, being connected to the second reception unit on described second driving axle, described first receives unit cooperates with described second reception unit; Between described left side machine wall and described right side machine wall, first crossbeam and second cross beam are installed, described first crossbeam is connected to the first guidance set, described first guidance set connects described first and receives unit, being connected to the second guidance set on described second cross beam, described second guidance set connects described second and receives unit; Described loader mechanism front end is provided with opening, and the rear end of described loader mechanism is connected to lift cylinder, and described lift cylinder is connected to clamp assemblies, and described clamp assemblies is positioned at described loader mechanism; The lower end of described loader mechanism is provided with loading seat, is provided with rotating disk in described loading seat, and described rotating disk is provided with groove, is placed with tote box in described groove, and described tote box and described clamp assemblies cooperate.

2. a kind of graphite flake automatic handling device according to claim 1, it is characterised in that: described receiving mechanism includes base, and the upper end of described base is connected to described left side machine wall and described right side machine wall.

3. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described left side machine wall is connected to driving device, described driving device includes the first driving device and the second driving device, described first driving device connects described first and drives axle, described second driving device to connect described second driving axle.

4. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described first receives unit includes the first flywheel, the first flywheel lid and the first protecting cover, described first flywheel connects described first and drives axle, and described first flywheel lid and described first protecting cover may be contained within described first flywheel.

5. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described second receives unit includes the second flywheel, the second flywheel lid and the second protecting cover, described second flywheel connects described second and drives axle, and described second flywheel lid and described second protecting cover may be contained within described second flywheel.

6. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described first guidance set includes the first pneumatic element and the first director element, described first pneumatic element is located on described first crossbeam, described first director element is located at described first and is received on unit, and described first pneumatic element and described first director element are connected with each other.

7. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described second guidance set includes the second pneumatic element and the second director element, described second pneumatic element is located on described second cross beam, described second director element is located at described second and is received on unit, and described second pneumatic element and described second director element are connected with each other.

8. a kind of graphite flake automatic handling device according to claim 1, it is characterised in that: described second receives to be connected on unit and directs bar, described in direct bar and include linkage section and the section of directing, described linkage section connects described second and receives unit.

9. a kind of graphite flake automatic handling device according to claim 1, it is characterized in that: described clamp assemblies includes connecting rod, hydraulic jack and holder, one end of described connecting rod connects described lift cylinder, the other end of described connecting rod connects described hydraulic jack, being connected to piston rod on described hydraulic jack, described piston rod connects described holder.

10. a kind of graphite flake automatic handling device according to claim 1, it is characterised in that: being provided with loading groove and perforate in described tote box, described loading groove and described perforate are interconnected, and described perforate coordinates described clamp assemblies.