CN108840082A - A kind of quantitative molten metal material fetching mechanism - Google Patents

Abstract

The present invention relates to melting furnace field, espespecially a kind of quantitative molten metal material fetching mechanism applied to melting furnace.The present invention quantifies molten metal material fetching mechanism and by soup ladle directly from dipping molten metal in quantitative furnace and pouring into die casting machine inlet, instead of traditional pressure-cast soup feeding machine and holding furnace, cost can be greatly saved and reduce energy consumption.Wherein, the first ball screw is driven by first motor, and soup ladle fixed frame is driven to move up or down along motion guide rail slot, molten metal is dipped to realization and is moved to die casting machine inlet or deflector chute direction, then pass through second the second ball screw of motor driven again, and soup ladle tail portion is driven to move up, so that soup ladle spoon mouth tilts down and pours out molten metal.Furthermore it is possible to by the rotation of the second motor of control to realize control quantitative taking.

Description

A kind of quantitative molten metal material fetching mechanism

Technical field

The present invention relates to melting furnace field, espespecially a kind of quantitative molten metal material fetching mechanism applied to melting furnace.

Background technique

In field of metallurgy, fusing metal is very universal and important technique.Metal after fusing can be used in casting The metal parts of various moulding.Melting furnace is a kind of novel high-efficiency and energy-saving aluminium melting furnace developed according to aluminium smelting technology, mainly For the fusing and heat preservation of aluminium ingot, the technique that it can meet well aluminium melting.The furnace be by melting furnace, crucible, heating element, The composition such as furnace cover lifting mechanism, electric appliance automatic temperature control system.Furnace shell is welded into cylindrical shape by fashioned iron and steel plate.Under furnace body front end There is a hole in portion, for crucible because corrosion, oxidation generate crack and formed in the case of drip, the melt in crucible can be made to flow by this hole It comes out of the stove external, so that operating room's burner hearth will not be damaged.

The current fast developments such as automobile industry, communications industry, building trade, ornament at home, make metal alloy Dosage is also increasing, in conjunction with alloy product density it is low, intensity is high, die casting is strong, be suitble to die casting complexity structure, institute With very widely used, thus it is also higher and higher to the equipment requirement of melting molten aluminum and storage molten aluminum.It is all logical in the prior art Holding furnace storage molten metal is crossed, then molten metal is transferred to die casting machine inlet with soup feeding machine.

In molten metal transfer process, needs the molten metal after fusing in the case where holding furnace heat preservation, use die casting Soup feeding machine pours into molten metal in corresponding die casting machine by holding furnace from quantitative furnace, and energy consumption is high, at high cost, is unfavorable for ring It protects.

Summary of the invention

To solve the above problems, the present invention provides a kind of quantitative molten metal material fetching mechanism, instead of traditional die-casting liquid-feed Machine and holding furnace are greatly saved cost and reduce energy consumption.

To achieve the above object, the technical solution adopted by the present invention is that：A kind of quantitative molten metal material fetching mechanism, including soup Spoon, soup ladle fixed frame, the first ball screw, the second ball screw, motion guide rail slot, the connection of soup ladle fixed frame lower end two sides There is L bracket, the L bracket is rotatably connected with soup ladle front and rear sides respectively, rolls on front side of the soup ladle fixed frame with first The nut of ballscrew is fixed, and first ball screw top is connected with first motor, and is drivingly connected with first motor, institute It states one end on rear side of soup ladle fixed frame close to soup ladle tail portion and is connected with fixed bracket, the fixed bracket tail portion is equipped with the second electricity Machine, second ball screw upper end are connect with the second motor driven, the soup ladle tail portion be equipped with casting lug thereon, the casting lug thereon with Second ball screw nut is fixed, and is connected with guide rod on rear side of the soup ladle fixed frame, the guide rod other end is connected to movement and leads In track slot, the first motor drives the first ball screw, and drive soup ladle fixed frame along motion guide rail slot upward or downward It is mobile, second ball screw of the second motor driven, and soup ladle tail portion is driven to move up or down.

It further, further include posture limiting mechanism, the posture limiting mechanism includes leading with what soup ladle fixed frame was connect The track formed to bar and several cross bars, the guide rod clamping in orbit, the movement appearance of material fetching mechanism are limited by track State.

Further, the motion guide rail slot is vertically arranged, and the extension arc-shaped to the left of motion guide rail slot upper end.

Further, the spoon mouth convenient for molten metal outflow is equipped on the left of the soup ladle, wherein molten metal has by quantitative furnace The deflector chute at inclination angle automatically flows into die casting machine inlet.

Wherein, the spoon mouth is in the sharp mouth shape protruded.

Wherein, the L bracket is rotatably connected by shaft and soup ladle.

The beneficial effects of the present invention are：The present invention quantifies molten metal material fetching mechanism can be by soup ladle directly from quantitative furnace In dip molten metal and pour into die casting machine inlet, instead of traditional pressure-cast soup feeding machine and holding furnace, be greatly saved into Originally and energy consumption is reduced.Wherein, the first ball screw is driven by first motor, and drives soup ladle fixed frame along motion guide rail Slot moves up or down, so that realization dips molten metal and to die casting machine inlet or the movement of deflector chute direction, then leads to again Second the second ball screw of motor driven is crossed, and soup ladle tail portion is driven to move up, so that soup ladle spoon mouth tilts down and pours out gold Belong to liquid.Furthermore it is possible to by the rotation of the second motor of control to realize control quantitative taking.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention.

Fig. 2 is the structural schematic diagram of this specific embodiment.

Drawing reference numeral explanation：1. soup ladle；11. casting lug thereon；12. spoon mouth；2. soup ladle fixed frame；21.L shape bracket；22. solid Fixed rack；23. guide rod；3. the first ball screw；4. the second ball screw；5. motion guide rail slot；6. first motor；7. second Motor；8. posture limiting mechanism；81. guide rod；82. cross bar；83. track；9. quantitative furnace；91. deflector chute.

Specific embodiment

Below by specific embodiment combination attached drawing, invention is further described in detail.The application can be with a variety of Different forms is realized, however it is not limited to embodiment described in the present embodiment.The purpose of following specific embodiments is provided It is easy for becoming apparent from present disclosure thorough explanation, wherein the words of the indicating positions such as front, rear, left and right is only needle To shown structure in respective figure for position.

It please refers to shown in Fig. 1-2, the present invention is about a kind of quantitative molten metal material fetching mechanism, including soup ladle 1, soup ladle fixed frame 2, the first ball screw 3, the second ball screw 4, motion guide rail slot 5, the 2 lower end two sides of soup ladle fixed frame are connected with L shape branch Frame 21, the L bracket 21 are rotatably connected with 1 front and rear sides of soup ladle respectively, 2 front side of soup ladle fixed frame and the first ball The nut of screw rod 3 is fixed, and 3 top of the first ball screw is connected with first motor 6, and is drivingly connected with first motor 6, 2 rear side of soup ladle fixed frame is connected with fixed bracket 22 close to one end of 1 tail portion of soup ladle, and fixed 22 tail portion of bracket is equipped with Second motor 7,4 upper end of the second ball screw and the second motor 7 are drivingly connected, and 1 tail portion of soup ladle is equipped with casting lug thereon 11, The casting lug thereon 11 is fixed with 4 nut of the second ball screw, and guide rod 23, the guide rod are connected on rear side of the soup ladle fixed frame 2 23 other ends are connected in motion guide rail slot 5, and the first motor 6 drives the first ball screw 3, and drives soup ladle fixed frame 2 It is moved up or down along motion guide rail slot 5, second motor 7 drives the second ball screw 4, and drives 1 tail portion of soup ladle It moves up or down.

Compared with prior art, the present invention quantifies molten metal material fetching mechanism and can directly be scooped from quantitative furnace 9 by soup ladle 1 Take molten metal and pour into die casting machine, instead of traditional pressure-cast soup feeding machine and holding furnace, can save 60% equipment investment at The energy consumption of this and reduction by 50% or so.

In the present embodiment, the first ball screw 3 is driven by first motor 6, and drives soup ladle fixed frame 2 along moving Guide-track groove 5 moves up or down, so that realization dips molten metal and to die casting machine inlet or the movement of 91 direction of deflector chute, so The second ball screw 4 is driven by the second motor 7 again afterwards, and 1 tail portion of soup ladle is driven to move up so that 1 spoon of mouth 12 of soup ladle to The ramp down that has a down dip goes out molten metal.Furthermore it is possible to by the rotation of the second motor of control to realize control quantitative taking.

It further, further include posture limiting mechanism 8, the posture limiting mechanism 8 includes connecting with soup ladle fixed frame 2 The track 83 that guide rod 81 and several cross bars 82 form, the guide rod 81 are connected in track 83, are led by the limitation of track 83 To the motion profile of bar 81, to limit the athletic posture of material fetching mechanism.

Using the above scheme, so that soup ladle fixed frame 2 is more stable during the motion, the fortune of soup ladle fixed frame 2 is maintained Dynamic posture.

Further, the motion guide rail slot 5 is vertically arranged, and the extension arc-shaped to the left of 5 upper end of motion guide rail slot.

Using the above scheme, soup ladle 1 is enabled to move up and down along motion guide rail slot 5, when moving upward to certain height When spending, be moved to the left along arcuate movement guide-track groove 5, thus far from 9 center of quantitative furnace, then close to corresponding deflector chute 91 into Row batch turning, so that molten metal is directly entered in die casting machine inlet.

Further, the spoon mouth 12 convenient for molten metal outflow is equipped on the left of the soup ladle 1.Wherein, the spoon mouth 12 is in convex Sharp mouth shape out.

Using the above scheme, convenient for the batch turning of molten metal and stopping batch turning movement, while making molten metal feeding more smart Really.

Wherein, the L bracket 21 is rotatably connected by shaft with soup ladle 1.By above structure, on 1 tail portion of soup ladle When moving or move down, convenient for the rotation of soup ladle 1 and moving down or moving up for spoon mouth 1.

In the present embodiment, quantitative furnace 9 is equipped with the deflector chute 91 being connected to die casting machine inlet, and 91 length of deflector chute Very short, for being connected to adjacent quantitative furnace 9 and die casting machine inlet, molten metal is poured into deflector chute 91 by soup ladle 1, so that molten metal It is directly entered in die casting machine inlet；And this quantifies and is equipped with corresponding pcb board, first motor 6 at the top of molten metal material fetching mechanism It is electrically connected respectively by high temperature resistant wire with pcb board with the second motor 7, user can control first motor by external remote 6 and second motor 7 opening and closing, and rotational parameters can be set, to control the height and soup ladle of soup ladle fixed frame 2 1 gradient；In control process, control soup ladle fixed frame 2 declines so that 1 feeding of soup ladle, then controls soup ladle 1 and rise one first Fixed height, then control the inclination of soup ladle 1 and carry out batch turning, and then realize quantitative taking.

Embodiment of above be only preferred embodiments of the present invention will be described, not to the scope of the present invention into Row limits, and without departing from the spirit of the design of the present invention, this field ordinary engineering and technical personnel is to technical side of the invention The various changes and improvements that case is made, should fall within the scope of protection determined by the claims of the present invention.

Claims (6)

1. a kind of quantitative molten metal material fetching mechanism, it is characterised in that：Including soup ladle, soup ladle fixed frame, the first ball screw, second Ball screw, motion guide rail slot, soup ladle fixed frame lower end two sides are connected with L bracket, the L bracket respectively with soup ladle Front and rear sides are rotatably connected, and fix on front side of the soup ladle fixed frame with the nut of the first ball screw, first ball wire Bar top is connected with first motor, and is drivingly connected with first motor, close to soup ladle tail portion on rear side of the soup ladle fixed frame One end is connected with fixed bracket, and the fixed bracket tail portion is equipped with the second motor, second ball screw upper end and the second electricity Machine is drivingly connected, and the soup ladle tail portion is equipped with casting lug thereon, and the casting lug thereon is fixed with the second ball screw nut, and the soup ladle is solid Determine to be connected with guide rod on rear side of frame, the guide rod other end is connected in motion guide rail slot, and the first motor drives the first ball Screw rod, and soup ladle fixed frame is driven to move up or down along motion guide rail slot, second ball wire of the second motor driven Bar, and soup ladle tail portion is driven to move up or down.

2. a kind of quantitative molten metal material fetching mechanism according to claim 1, it is characterised in that：It further include posture limitation machine Structure, the posture limiting mechanism include the track of the guide rod connecting with soup ladle fixed frame and several cross bars composition, the guiding Bar is clamped in orbit, and the athletic posture of material fetching mechanism is limited by track.

3. a kind of quantitative molten metal material fetching mechanism according to claim 1, it is characterised in that：The motion guide rail slot is vertical Straight line setting, and the extension arc-shaped to the left of motion guide rail slot upper end.

4. a kind of quantitative molten metal material fetching mechanism according to claim 1, it is characterised in that：It is equipped with just on the left of the soup ladle In the spoon mouth of molten metal outflow.

5. a kind of quantitative molten metal material fetching mechanism according to claim 4, it is characterised in that：The spoon mouth is in the point protruded Mouth shape.

6. a kind of quantitative molten metal material fetching mechanism according to claim 1, it is characterised in that：The L bracket is by turning Axis is rotatably connected with soup ladle.