CN216263392U - Discharging mechanism of die-casting ultrasonic water gap separation automation equipment - Google Patents

Abstract

The utility model relates to the field of classification discharging mechanical structures of die casting separation automation equipment, in particular to a discharging mechanism of die casting ultrasonic water gap separation automation equipment, which comprises an installation frame, a discharging panel provided with a discharging opening, two discharging channels and a material clamping discharging hopper, wherein each discharging channel comprises a discharging front section and a discharging rear section, the upper ends of the two discharging front sections are respectively a feeding end and are correspondingly centered below the discharging opening, the lower ends of the two discharging front sections respectively extend obliquely and downwards in opposite directions, the discharging front sections are a plurality of slideways and are separated by slideway partition plates, the discharging rear sections are a plurality of independent slideways which are correspondingly connected, the independent slideways extend obliquely and downwards and outwards, the upper end part of the feeding device is a separation connecting end part, the rest parts of the feeding device are guide discharge ends, waste blanking ports are respectively arranged on the bottom surfaces of the two blanking front sections, the turning opening and closing mechanism is arranged on the bottom surfaces of the two blanking front sections, and a waste blanking area is arranged below the two waste blanking ports. A discharge opening of the discharging mechanism can be discharged in various categories, and the discharging and blanking directions are obviously separated to be beneficial to space application.

Description

Discharging mechanism of die-casting ultrasonic water gap separation automation equipment

Technical Field

The utility model relates to the field of classification discharging mechanical structures of die casting separation automation equipment.

Background

The casting from the die-casting die is generally provided with a left main material and a right main material, wherein each main material is divided into a plurality of rows, the two rows of main materials are connected together by a material channel waste formed by a water injection material channel of the die-casting die, each main material is also independently connected with a separation waste, the separation waste and the material channel waste are fixedly pressed when a die-casting ultrasonic water gap is separated, each main material can be separated from the separation waste and the material channel waste under the action of ultrasonic waves of the device and fall down, then the separation waste can fall down after being fixedly pressed, the material channel waste needs to be clamped by a clamp to remove blanking, and cavities of main material dies on some die-casting dies are parts with different shapes, so that the main materials and the waste need to be classified and respectively discharged when falling and discharging. The discharge mechanism among the current die-casting ultrasonic wave mouth of a river separation automation equipment is still not ideal enough to the structure setting of the multiple different major ingredients of categorised discharge simultaneously and waste material, and categorised a plurality of for example 6 or 8 of discharging are unfavorable for putting of collecting the storage bucket in the discharge end position, put even not down, have caused the blanking to appear and have mixed together and the blanking does not drop the condition in collecting the storage bucket.

In view of the above, the inventor of the present invention has developed the present application by performing research and improvement, modification test and application on a discharging mechanism of an existing die-casting ultrasonic nozzle separation automation device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a discharging mechanism of die-casting ultrasonic water gap separation automation equipment, which is used for discharging a plurality of kinds of classified materials from a discharging opening and obviously separating discharging and blanking directions, so as to solve the problems in the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows: a discharging mechanism of die-casting ultrasonic water gap separation automation equipment comprises an installation frame, a discharging panel arranged on the installation frame and provided with a discharging opening, two opposite-direction arranged discharging channels and a material clamping discharging hopper connected to the side edge of the installation frame, wherein each discharging channel comprises a connected discharging front section and a connected discharging rear section, the upper ends of the discharging front sections of the two discharging channels are respectively a feeding end and correspond to the lower part of the discharging opening in the middle, the lower ends of the two discharging front sections are respectively inclined and downwards extended in the opposite directions, the discharging front section is divided into a plurality of slideways along the width direction and is provided with a slideway partition board for separation, the discharging rear section is a plurality of independent slideways connected with the slideways of the corresponding discharging channels, the independent slideways are inclined and outwards extended, the upper ends of the independent slideways are connected with the corresponding slideways, and the rest parts except the upper ends of the independent slideways are guide discharging ends, two the unloading anterior segment bottom surface that the row material said is equipped with the waste material blanking mouth respectively and is equipped with the mobile upset mechanism that opens and shuts of opening and shutting the waste material blanking mouth, and the below of two waste material blanking mouths is waste material blanking district.

The bottom surface of the separation connecting end part of the independent slide extends to form a connection section, the connection section is embedded between two slide partition plates of the corresponding slide and the edge of the connection section is connected with the corresponding slide bottom surface and the two slide partition plates on the side surfaces, the connection section is in an inclined shape extending downwards and outwards corresponding to the corresponding slide bottom surface, the two sides of the independent slide are side baffles, and the upper end parts of the two side baffles are connected with the lower end parts of the slide partition plates on the two sides of the corresponding slide.

The separation connecting end parts of two adjacent independent slideways of the discharging channel are connected with the corresponding slideways in a vertically staggered manner; or the separation connecting end parts of two adjacent independent slideways of the discharging channel are connected with the corresponding slideways side by side, and the guide discharging ends of the two independent slideways are separately extended in the left-right direction.

The upper end of the chute partition plate extends to the feed end, or the upper end of the chute partition plate extends through the feed opening.

The two opposite side surfaces of the mounting frame corresponding to the two material discharge channels are respectively provided with a slideway discharge port, the material discharge channels are divided into 4 strips from left to right,

the separated connecting end parts of the two independent slideways on the left side are staggered up and down and connected with the corresponding slideways, the guide discharge ends of the two independent slideways on the left side penetrate through the slideway discharge port and extend towards the left turning close-to side panel, and the tail ends of the guide discharge ends of the two independent slideways on the left side are staggered up and down and are forked; the separation connecting end parts of the two independent slideways on the right side are connected with the corresponding slideways in a vertically staggered manner, the guide discharge ends of the two independent slideways on the right side penetrate through the slideway discharge port and turn right to be close to the extension of the side panel, and the tail ends of the guide discharge ends of the two independent slideways on the right side are staggered and forked up and down.

Press from both sides material hopper setting in the one side that the independent slide of a discharge passage wore out, two independent slides in the left side extend from the installation frame and press from both sides the gap left side between the material hopper, and two independent slides in the right side extend from the installation frame and press from both sides the gap right side between the material hopper.

Press from both sides material hopper and the side relative one side lower tip of installation frame has seted up and has pressed from both sides the material blanking mouth, the installation frame corresponds to press from both sides the material blanking mouth and has seted up and press from both sides the material blanking mouth and supply to get into in the waste material blanking district from pressing from both sides the material blanking mouth exhaust waste material.

The overturning opening and closing mechanism comprises an overturning baffle and a driving cylinder, wherein the overturning baffle and the driving cylinder are respectively arranged corresponding to the two waste blanking ports, the upper edge of the overturning baffle is hinged to one side of the upper edge of the corresponding waste blanking port, the driving cylinder is respectively arranged and installed in the installation frame corresponding to the two overturning baffles, and the end part of a piston rod of each driving cylinder is hinged to the overturning baffle.

The lower part of installation frame still is provided with waste material automatic output mechanism, set up waste material export on the side of installation frame and supply waste material automatic output mechanism's input to pass and correspond in the feed opening below.

The side surface of the mounting frame is provided with a transparent openable inspection window

By adopting the technical scheme, the utility model has the beneficial effects that: the discharging mechanism with the structure realizes that the rear section of the discharging mechanism can be a multi-section independent slide way through the sectional structure arrangement of the discharging channel, can realize the classified discharging of materials in different directions and can achieve better free and smooth material sliding, the arrangement of the waste material blanking port and the overturning opening and closing mechanism at the front section of the discharging can realize that the main material discharged from the blanking port and the classified discharging of the separated waste material can not be mixed, ensure that the separated waste material can enter a waste material blanking area, the main material can be classified discharged from the discharging channel, the waste material of the discharging channel can be discharged to a material clamping and discharging hopper through a clamp, reasonably carry out the structure arrangement according to the working method process of the existing pressure casting ultrasonic water gap separation automatic equipment, reasonably utilize the internal space of the installation frame, reduce the occupation of the external space, and each independent slide way can achieve larger separation in the direction when being discharged outside, the automatic die-casting ultrasonic water gap separation device can be conveniently placed in a blanking barrel, blanking materials cannot be mixed and cannot fall outside the barrel, and therefore the purpose effect is achieved.

Drawings

Fig. 1 is a schematic structural diagram of a discharging mechanism of a die-casting ultrasonic water gap separation automation device, which is related by the utility model.

Fig. 2 is another angle structure schematic diagram of the discharging mechanism of the die-casting ultrasonic water gap separation automation equipment related to the utility model.

Fig. 3 is a schematic structural diagram of two material discharge channels according to the present invention.

Fig. 4 is another angle structure diagram of two material discharge channels related to the utility model.

Fig. 5 is a partial structural schematic view of a discharge duct according to the present invention.

In the figure:

mounting frame 1; a waste blanking zone 12; a chute discharge port 13; a material clamping and discharging opening 14;

a viewing window 15; a waste outlet 16; a blanking panel 2; a feed opening 21;

a discharge passage 3; a blanking front section 31; a chute partition 311; a waste drop port 312; a flip open/close mechanism 313;

a roll-over flap 3131; a driving cylinder 3132; a discharge rear section 32; a separate slide 321;

split link ends 3211; a leading discharge end 3212; a docking section 3213;

a material clamping and discharging hopper 4; and a material clamping and dropping port 41.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

The discharging mechanism of the die-casting ultrasonic nozzle separation automation equipment disclosed in this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, includes an installation frame 1, a blanking panel 2, a discharging channel 3, a clamping discharging hopper 4 and an automatic waste output mechanism (not shown in the figure), the installation frame 1 is composed of a metal frame and panels enclosing the side around the metal frame, the blanking panel 2 is arranged on the installation frame 1, a blanking opening 21 is arranged at the center of the blanking panel for falling of main materials and separated waste materials after die-casting separation, the discharging channel 3 is arranged according to the die-casting structure of the material to be discharged, the discharging channel 3 is arranged for falling and discharging of the main materials or separated waste materials discharged from the blanking opening 21 in two opposite directions, the clamping discharging hopper 4 is arranged on one side of the installation frame 1 for feeding and discharging the clamping waste materials, and the layout structure is arranged according to the structure of the working process method of the existing die-casting ultrasonic nozzle separation automation equipment The device can be reasonably applied to the existing equipment. The structural position connection relationship of each part is described in detail below with reference to the accompanying drawings.

In the figure, the installation frame 1 is a square structure, the lower bottom in the installation frame 1 is a waste blanking area 12, panels on four sides are respectively provided with the following structures, two opposite sides are provided with slide discharge outlets 13, a material clamping discharge outlet 14 is arranged below the slide discharge outlet 13 corresponding to one side, a waste output port 16 is arranged below the slide discharge outlet 13 corresponding to the other side, and two opposite sides are provided with inspection windows 15 for workers to inspect or mechanically inspect, and the inspection windows comprise transparent panels for installation and inspection.

The discharging channel 3, as shown in the figure, includes a discharging front section 31 and a discharging rear section 32 connected with each other, the upper ends of the discharging front sections 31 of the two discharging channels are respectively a feeding end corresponding to the center below the discharging opening 21, the lower ends of the two discharging front sections 31 extend obliquely and downwardly in opposite directions, the discharging front section 31 is divided into a plurality of slideways along the width direction thereof and is separated by a slideway partition 311, the upper end of each slideway partition 311 can extend to the feeding end or extend through the discharging opening 21, the upper ends of the slideway partitions 311 are separated at the initial position of discharging, so as to further avoid the situation of unclear classification, the discharging rear section 32 is a plurality of independent slideways 321 connected with the slideways of the discharging channel 3, the independent slideways 321 extend obliquely and outwardly, the upper ends thereof are separation connecting end portions 3211 connected with the corresponding slideways, the other portions except the upper ends thereof are guide discharging ends 3212, the bottom surfaces of the discharging front sections 31 of the two discharging channels 3 are respectively provided with a waste discharging opening 312 and are movably provided with an opening Close waste blanking mouth 312's upset mechanism 313 that opens and shuts, waste blanking district 12 corresponds in the below of two waste blanking mouths 312, through the control to upset mechanism 313 that opens and shuts like this, the time quantum upset of main material blanking opens and shuts mechanism 313 closed waste blanking mouth 312, and main material is discharged from independent slide 321, then the upset mechanism 313 that opens and shuts in the time quantum of separation waste material blanking opens waste blanking mouth 312, and the direct waste blanking district 12 that falls from waste blanking mouth 312 of separation waste material to can reach the separation of main and waste material and arrange the material. In this embodiment, as shown in the figure, the turning opening and closing mechanism 313 includes a turning baffle 3131 and a driving cylinder 3132, which are respectively disposed corresponding to the two waste material blanking ports 312, an upper edge of the turning baffle 3131 is hinged to one side of an upper edge of the corresponding waste material blanking port 312, the driving cylinder 3132 is respectively disposed and installed in the installation frame 1 corresponding to the two turning baffles 3131, and an end of a piston rod of each driving cylinder 3132 is hinged to the turning baffle 3131.

The bottom surface of the separation connecting end 3211 portion of the independent slide 321 extends to form a connection section 3213, the connection section 3213 is embedded between the two slide partition plates 311 of the corresponding slide and connected with the corresponding slide bottom surface and the side surfaces of the two slide partition plates 311 along the edge, the connection section 3213 is in an inclined shape extending downward and outward corresponding to the corresponding slide bottom surface, the two sides of the independent slide 321 are side baffles, the upper end portions of the two side baffles are connected with the lower end portions of the slide partition plates 311 on the two sides of the corresponding slide, so that seamless closed connection is formed, the bottom surfaces are in smooth transition, and smooth sliding is ensured.

In order to further solve the problem in the prior art that a plurality of classified discharges are provided, the discharge end is not favorable for placing the collecting barrel, and even the discharge end is not placed, so that the situations that the discharged materials are mixed together and do not fall into the collecting barrel occur. As shown in the figure, in this embodiment, the chute discharging openings 13 of the mounting frame 1 are respectively opened corresponding to two opposite side surfaces of two rows of material chutes 31, the material discharging chutes 3 are divided into 4, two are 8, each material discharging chute 3 is from left to right, the separated connecting end portions 3211 of the two independent chutes 321 on the left side are staggered up and down and connected with the corresponding chute, the guide discharging ends 3212 of the two independent chutes 321 on the left side pass through the chute discharging openings 13 and extend out to the left turning close-to side panel, the tail ends of the guide discharging ends 3212 of the two independent chutes 321 on the left side are staggered up and down and branched off, the separated connecting end portions 3211 of the two independent chutes 321 on the right side are staggered up and down and connected with the corresponding chute, the guide discharging ends 3211 of the two independent chutes 321 on the right side pass through the chute discharging openings 13 and extend out to the right turning close-to side panel, the tail ends 3212 of the two independent chutes 321 on the right side are staggered up and branched off, therefore, the four independent slide ways 321 are separated from the left side and the right side of each other, and the blanking space is greatly increased, so that the problems can be solved.

Press from both sides material hopper 4, this embodiment be the one side that the setting wore out at the independent slide 321 of a discharge way 31, set up between two independent slides 321 in the left side, extend from the gap left side between installation frame 1 and the material hopper 4 of pressing from both sides, two independent slides 321 in the right side extend from the gap right side between installation frame 1 and the material hopper 4 of pressing from both sides, the structure setting that this position setting of material hopper 4 was mainly gone on according to the work action method process of current die-casting ultrasonic wave mouth of a river separation automation equipment, this structure setting also make rational use of the space simultaneously, reducible mechanical occupation space. Because the double-layered material hopper 4 is used for discharging the waste material, consequently for the waste material can collect in the unified position, double-layered material blanking mouth 41 has been seted up to double-layered material hopper 4 and the opposite one side lower tip in side of installation frame 1, double-layered material bin outlet 14 of installation frame 1 corresponds double-layered material blanking mouth 41 and sets up the waste material that supplies to discharge from double-layered material blanking mouth 41 and gets into in waste material blanking zone 12.

In conclusion, the structural arrangement of the discharging mechanism of the die-casting ultrasonic water gap separation automatic equipment can achieve the purpose and effect of the utility model, and can achieve the following excellent points that 1, the protection of the equipment at the discharging part is facilitated, the cleaning and the maintenance are facilitated, 2, the mechanical working condition is conveniently inspected, 3, the better spatial distribution of multi-classification discharging can be achieved, 4, the overall appearance is square, the appearance is more attractive, and the like.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. The discharging mechanism of the die-casting ultrasonic water gap separation automatic equipment is characterized by comprising an installation frame, a discharging panel arranged on the installation frame and provided with a discharging opening, two opposite-direction arranged discharging channels and a material clamping discharging hopper connected to the side edge of the installation frame, wherein each discharging channel comprises a discharging front section and a discharging rear section which are connected, the upper ends of the discharging front sections of the two discharging channels are respectively a feeding end and correspond to the lower part of the discharging opening in the middle, the lower ends of the two discharging front sections are respectively inclined and extend downwards in the opposite directions, the discharging front sections are divided into a plurality of slideways along the width direction and are provided with slideway partition plates for separation, the discharging rear sections are a plurality of independent slideways which are connected with the slideways of the corresponding discharging channels, the independent slideways are inclined and extend downwards and outwards, the upper end parts of the independent slideways are connected with the corresponding slideways, and the rest parts except the upper end parts are guiding discharging ends, two the unloading anterior segment bottom surface that the row material said is equipped with the waste material blanking mouth respectively and is equipped with the mobile upset mechanism that opens and shuts of opening and shutting the waste material blanking mouth, and the below of two waste material blanking mouths is waste material blanking district.

2. The discharging mechanism of the die-casting ultrasonic nozzle separation automation device of claim 1, characterized in that the bottom surface of the separation connection end of the independent slide extends to form a connection section, the connection section is embedded between the two slide partition plates of the corresponding slide and the edge is connected with the bottom surface of the corresponding slide and the side surface of the two slide partition plates, the connection section is in an inclined shape extending downwards and outwards corresponding to the bottom surface of the corresponding slide, the two sides of the independent slide are side baffles, and the upper ends of the two side baffles are connected with the lower ends of the slide partition plates on the two sides of the corresponding slide.

3. The discharging mechanism of the die-casting ultrasonic nozzle separation automation equipment as claimed in claim 2, wherein the separation connecting end portions of two adjacent independent slideways of the discharging channel are connected with the corresponding slideways in a vertically staggered manner; or the separation connecting end parts of two adjacent independent slideways of the discharging channel are connected with the corresponding slideways side by side, and the guide discharging ends of the two independent slideways are separately extended in the left-right direction.

4. The discharging mechanism of a die-casting ultrasonic nozzle separation automation device as claimed in claim 2, wherein the upper end of the slide partition plate extends to the feeding end, or the upper end of the slide partition plate extends through the discharging opening.

5. The discharging mechanism of the die-casting ultrasonic water gap separation automation device as claimed in claim 2, wherein the mounting frame is provided with slide discharging openings corresponding to two opposite side surfaces of the two discharging channels, the discharging channels are divided into 4, from left to right,

the separated connecting end parts of the two independent slideways on the left side are staggered up and down and connected with the corresponding slideways, the guide discharge ends of the two independent slideways on the left side pass through the slideway discharge port and extend towards the left turning close-to side panel, the tail ends of the guide discharge ends of the two independent slideways on the left side are staggered up and down and are forked,

the separation connecting end parts of the two independent slideways on the right side are connected with the corresponding slideways in a vertically staggered manner, the guide discharge ends of the two independent slideways on the right side penetrate through the slideway discharge port and turn right to be close to the extension of the side panel, and the tail ends of the guide discharge ends of the two independent slideways on the right side are staggered and forked up and down.

6. The discharging mechanism of an ultrasonic casting nozzle separation automation device as claimed in claim 5, wherein the clamping and discharging hopper is arranged at one side of a discharging channel through which the independent slideways penetrate, the two independent slideways on the left side extend out from the left side of the gap between the mounting frame and the clamping and discharging hopper, and the two independent slideways on the right side extend out from the right side of the gap between the mounting frame and the clamping and discharging hopper.

7. The discharging mechanism of an ultrasonic nozzle separation automatic device for die casting according to claim 6, wherein a material clamping and discharging port is formed at a lower end of a side of the material clamping and discharging hopper opposite to a side of the mounting frame, and the mounting frame is provided with a material clamping and discharging port corresponding to the material clamping and discharging port for allowing the waste material discharged from the material clamping and discharging port to enter the waste material discharging area.

8. The discharging mechanism of die-casting ultrasonic nozzle separation automation equipment as claimed in any one of claims 1 to 7, characterized in that the turning opening and closing mechanism includes a turning baffle and a driving cylinder which are respectively arranged corresponding to the two waste material discharge ports, the upper edge of the turning baffle is hinged with one side of the upper edge of the corresponding waste material discharge port, the driving cylinder is respectively arranged and arranged in the mounting frame corresponding to the two turning baffles, and the end of the piston rod of each driving cylinder is hinged with the turning baffle.

9. The discharging mechanism of the die-casting ultrasonic nozzle separation automation device as claimed in any one of claims 1 to 7, wherein the lower portion of the mounting frame is further provided with an automatic waste discharging mechanism, and a side surface of the mounting frame is provided with an automatic waste discharging port for an input end of the automatic waste discharging mechanism to pass through and correspond to a position below the discharging port.

10. The discharging mechanism of the die-casting ultrasonic water gap separation automation device as claimed in any one of claims 1 to 7, wherein a transparent openable and closable inspection window is opened on a side surface of the mounting frame.

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