CN112058394A - Semiconductor graphite processing equipment with push type discharging mechanism - Google Patents

Abstract

The invention discloses semiconductor graphite processing equipment with a push-type blanking mechanism, which comprises a bottom plate, a lifting mechanism, a buffer assembly, a sliding assembly and a spiral mechanism, wherein the top surface of the bottom plate is provided with a bottom box; a crushing sieve plate is arranged in the middle of the bottom box, one side of the crushing sieve plate is movably connected with the bottom box through a buffer assembly, and the other side of the crushing sieve plate is movably connected with the bottom box through a sliding assembly; the top is installed screw mechanism in the under casing, is located and smashes the sieve top and is equipped with the fixed plate in the under casing, and every rolling wheel is equallyd divide and is do not contact with crushing sieve top surface. The graphite crushing device solves the problems that the graphite crushing is not thorough and affects the later use, is simple and easy to operate, reduces the labor burden of workers and improves the graphite crushing efficiency through the matched use of all mechanism components.

Description

Semiconductor graphite processing equipment with push type discharging mechanism

Technical Field

The invention relates to the technical field of graphite processing, in particular to semiconductor graphite processing equipment with a push type blanking mechanism.

Background

Graphite is with electric conductive property good, and the price is cheap relatively, and more is suitable for advantages such as high-speed high-accuracy processing, replaces the copper product in the mould trade, and the variety and the quantity of making mould part product increase day by day, therefore can process the machining center of the part that graphite is the material and also should adapt to the demand in market, not only accomplish excellent performance, economical and practical moreover.

The graphite processing equipment is extremely precise, and graphite residues cannot appear during processing of graphite, otherwise the normal use of the graphite processing equipment is influenced; therefore need roll to smash the back to the graphite sediment during processing and use, but current graphite crushing apparatus smashes graphite raw and other materials not thoroughly, influences the later stage and uses, and the operation is comparatively complicated, has increased workman's work burden, smashes efficiency and is lower.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides semiconductor graphite processing equipment with a push type blanking mechanism.

In order to achieve the purpose, the invention adopts the following technical scheme:

the semiconductor graphite processing equipment with the push type blanking mechanism comprises a bottom plate, a lifting mechanism, a buffering assembly, a sliding assembly and a spiral mechanism, wherein a bottom box is arranged on the top surface of the bottom plate, a round box is arranged in the bottom box and is arranged in the middle of the top surface of the bottom plate, and the round box is movably connected with the bottom plate through the lifting mechanism; a crushing sieve plate is arranged in the middle of the bottom box, one side of the crushing sieve plate is movably connected with the bottom box through a buffer assembly, and the other side of the crushing sieve plate is movably connected with the bottom box through a sliding assembly; a spiral mechanism is installed at the top in the bottom box, a fixed spring is arranged on the bottom surface of a fixed cylinder in the spiral mechanism, a fixed plate is arranged in the bottom box above the crushing sieve plate, and the bottom end of the fixed spring is fixedly connected with the middle of the top surface of the fixed plate; the fixed plate bottom surface is equipped with a plurality of U-shaped supports, every the U-shaped support all with rolling wheel roll connection, and every rolling wheel is equallyd divide and is do not contact with crushing sieve top surface.

Preferably, the lifting mechanism comprises a lifting telescopic cylinder, a lifting sliding rod and a lifting spring, a pair of lifting through holes are formed in the two sides of the bottom surface of the round box in a concave mode on the top surface of the bottom plate, a lifting telescopic cylinder is installed in each lifting through hole, and the end portion of a telescopic rod of each lifting telescopic cylinder is fixedly connected with the bottom surface of the round box; the lifting slide bar box is characterized in that a pair of lifting slide barrels is arranged in the middle of two side faces of the round box, lifting slide bars are inserted into each lifting slide barrel, the bottom ends of the lifting slide bars are fixedly connected with the bottom plate, and lifting springs are sleeved on the lifting slide bars below the lifting slide barrels.

Preferably, the buffer assembly comprises a buffer plate, a buffer slide rod, a buffer slide cylinder, a feeding cylinder and an inclined cylinder, wherein the buffer plate is arranged on one side of the crushing sieve plate, the buffer slide rod is arranged in the middle of the outer side surface of the buffer plate, the buffer slide cylinder is arranged on one side wall in the bottom box at the position corresponding to the buffer slide rod, a buffer spring is arranged in the buffer slide cylinder, and the outer end of the buffer slide rod is fixedly connected with the buffer spring; the top of a side outside the under casing is equipped with a feeding section of thick bamboo, just feeding section of thick bamboo bottom is equipped with oblique section of thick bamboo, just oblique section of thick bamboo inner port slant is placed in crushing sieve one side top.

Preferably, the sliding assembly comprises a sliding plate, sliding cylinders, sliding rods, a connecting plate and a sliding telescopic cylinder, the sliding plate is arranged on the other side of the crushing sieve plate, a pair of sliding cylinders is arranged on the other side wall in the bottom box at the position corresponding to the sliding plate, the sliding rods are inserted in each sliding cylinder, the inner ends of the two sliding rods are fixedly connected with the upper end and the lower end of the outer side surface of the sliding plate respectively, and the outer ends of the two sliding rods are fixedly connected with the upper end and the lower end of the connecting plate respectively; and a sliding through hole is transversely recessed on the bottom box between the pair of sliding cylinders, a sliding telescopic cylinder is installed in the sliding through hole, and the end part of a telescopic rod of the sliding telescopic cylinder is fixedly connected with the inner side surface of the connecting block plate.

Preferably, the screw mechanism comprises a threaded rod, an adjusting wheel, a fixed cylinder and a threaded cylinder, a pair of bearings is installed on two sides of the top in the bottom box, two ends of the threaded rod are respectively inserted into the corresponding bearings, and the adjusting wheel is arranged at the rear end of the threaded rod; the middle part of the threaded rod is sleeved with a fixed cylinder, and a pair of threaded cylinders are arranged on the threaded rod and positioned on two sides of the fixed cylinder; and a T-shaped sliding rail is arranged above the threaded rod and on the top surface in the bottom box, each T-shaped sliding block is arranged on the top surface of the threaded cylinder, and each T-shaped sliding block is clamped on the T-shaped sliding rail in a sliding manner.

Preferably, a pair of first hinge seats are arranged at two ends of the top surface of the fixed plate, and each first hinge seat is movably hinged with the bottom end of the hinge rod; every screw thread section of thick bamboo bottom surface all is equipped with the articulated seat of second, every the articulated seat of second all is articulated with the articulated rod top activity that corresponds.

Preferably, four turning corners of bottom plate bottom surface all are equipped with the supporting seat, circular case bottom surface middle part is sunken to have the discharge opening, is located the discharge opening below and is equipped with a toper section of thick bamboo in the top surface middle part of bottom plate, is located toper section of thick bamboo below and has placed subaerial the material taking box.

Preferably, be located the discharge opening both sides and be equipped with a pair of miniature telescoping cylinder at circular bottom of the case portion, and the telescopic link tip of every miniature telescoping cylinder all is equipped with miniature even piece, wherein, a miniature even piece and arc rigid coupling, another miniature even piece and semicircle board rigid coupling, just the arc carries out the block with the semicircle board cooperation in the discharge opening.

Preferably, the lifting telescopic cylinder is electrically connected with an external power supply through a first power line, the sliding telescopic cylinder is electrically connected with the external power supply through a second power line, and the miniature telescopic cylinder is electrically connected with the external power supply through a third power line.

Compared with the prior art, the invention has the beneficial effects that:

1. the contact distance between the rolling wheel and the top surface of the crushing sieve plate is convenient to adjust by the matching use of the spiral mechanism; the lifting mechanism is matched for use, so that the round box can be conveniently controlled to lift, and the graphite powder can be further conveniently collected;

2. the sliding assembly is matched with the buffering assembly to be used, so that the crushing sieve plate is conveniently driven to be matched with the rolling wheel to perform reciprocating rolling, and the efficiency of rolling and crushing the graphite powder is increased;

in conclusion, the graphite crushing device solves the problems that the graphite crushing is not thorough and the later-stage use is influenced, is simple and easy to operate, reduces the labor burden of workers and improves the graphite crushing efficiency through the matched use of all mechanism components.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a front sectional view of the present invention;

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

FIG. 3 is a top view of the arcuate plate and semi-circular plate of the present invention;

FIG. 4 is an enlarged cross-sectional view taken at A of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the process of the present invention;

number in the figure: the device comprises a bottom plate 1, a supporting seat 11, a lifting telescopic cylinder 12, a conical cylinder 13, a material taking box 14, a round box 2, a lifting sliding cylinder 21, a lifting sliding rod 22, a lifting spring 23, a micro telescopic cylinder 24, an arc-shaped plate 25, a semi-circular plate 26, a bottom box 3, a feeding cylinder 31, an inclined cylinder 32, a crushing sieve plate 33, a buffer plate 34, a buffer sliding cylinder 35, a buffer sliding rod 36, a sliding plate 4, a sliding telescopic cylinder 41, a sliding cylinder 42, a sliding rod 43, a connecting plate 44, a fixing plate 5, a fixing spring 51, a rolling wheel 52, a hinge rod 53, a threaded rod 6, a threaded cylinder 61, a T-shaped sliding rail 62, a T-shaped sliding block 63, a fixing cylinder 64 and an.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1: in order to solve the problem of incomplete graphite crushing and improve the efficiency of graphite crushing, the embodiment provides semiconductor graphite processing equipment with a push-type discharging mechanism, and the equipment is shown in fig. 1-4 and comprises a bottom plate 1, a lifting mechanism, a buffer assembly, a sliding assembly and a screw mechanism, wherein the bottom plate 1 is in a horizontally and transversely placed rectangular plate shape, a bottom box 3 vertically placed is arranged on the top surface of the bottom plate 1, the bottom box 3 is in a rectangular box shape with an open bottom surface, a round box 2 with an open top surface is arranged in the bottom box 3 and in the middle of the top surface of the bottom plate 1, and the round box 2 is movably connected with the bottom plate 1 through the lifting mechanism; a transversely suspended crushing sieve plate 33 is arranged in the middle of the bottom box 3, one side of the crushing sieve plate 33 is movably connected with the bottom box 3 through a buffer assembly, and the other side of the crushing sieve plate 33 is movably connected with the bottom box 3 through a sliding assembly; a spiral mechanism is installed at the top in the bottom box 3, a fixed spring 51 is arranged on the bottom surface of a fixed cylinder 64 in the spiral mechanism, a transversely placed fixed plate 5 is arranged in the bottom box 3 above the crushing sieve plate 33, and the bottom end of the fixed spring 51 is fixedly connected with the middle of the top surface of the fixed plate 5; the bottom surface of the fixed plate 5 is provided with a plurality of U-shaped supports with downward openings, each U-shaped support is internally provided with an opening which is in rolling connection with the rolling wheels 52 through wheel shafts, and each rolling wheel 52 is respectively contacted with the top surface of the crushing sieve plate 33.

In the invention, the lifting mechanism comprises a lifting telescopic cylinder 12, a lifting sliding barrel 21, a lifting sliding rod 22 and a lifting spring 23, a pair of symmetrically-penetrating lifting through holes are recessed in the top surface of the bottom plate 1 and positioned on two sides of the bottom surface of the round box 2, the lifting telescopic cylinder 12 with an upward output end is installed in each lifting through hole, the type of the lifting telescopic cylinder 12 is HT-DDG001, the lifting telescopic cylinder 12 is electrically connected with an external power supply through a first power line, a lifting connecting block is arranged at the end part of a telescopic rod of each lifting telescopic cylinder 12, and each lifting connecting block is fixedly connected with the bottom surface of the round box 2; a pair of symmetrically-placed lifting sliding barrels 21 is arranged in the middle of two side faces of the round box 2, a lifting sliding rod 22 which penetrates through the lifting sliding barrels in a sliding mode is inserted into each lifting sliding barrel 21, a lifting stop block is arranged at the top end of each lifting sliding rod 22, the bottom end of each lifting sliding rod 22 is fixedly connected with the bottom plate 1, a lifting spring 23 is sleeved on each lifting sliding rod 22 and located below each lifting sliding barrel 21, and the stability of sliding of each lifting sliding rod 22 is improved by the aid of the lifting springs 23; the lifting mechanism is matched to be used, so that the lifting of the round box 2 is controlled conveniently, and the graphite powder is collected conveniently.

In the invention, the buffer assembly comprises a buffer plate 34, buffer slide bars 36, buffer slide cylinders 35, a feeding cylinder 31 and an inclined cylinder 32, wherein the buffer plate 34 is arranged on one side of the crushing sieve plate 33, the buffer slide bars 36 which are transversely arranged are arranged in the middle of the outer side surface of the buffer plate 34, the buffer slide cylinders 35 which are transversely arranged are arranged on one side wall in the bottom box 3 at the positions corresponding to the buffer slide bars 36, buffer springs are arranged in the buffer slide cylinders 35, the buffer springs increase the sliding stability of the buffer slide bars 36, and the outer ends of the buffer slide bars 36 are slidably inserted into the outer end openings of the buffer slide cylinders 35 and are fixedly connected with the buffer springs; a feeding cylinder 31 is arranged at the top of one side surface outside the bottom box 1, a through-connected inclined cylinder 32 is arranged at the bottom of the feeding cylinder 31, and an inner port of the inclined cylinder 32 is obliquely arranged above one side of the crushing sieve plate 33; the sliding assembly comprises a sliding plate 4, sliding cylinders 42, sliding rods 43, a connecting plate 44 and a sliding telescopic cylinder 41, the sliding plate 4 is arranged on the other side of the crushing sieve plate 33, a pair of sliding cylinders 42 which transversely penetrate through the sliding plates are arranged on the other side wall in the bottom box 3 and are positioned at the corresponding positions of the sliding plates 4, the sliding rods 43 which are connected in a sliding mode are inserted into each sliding cylinder 42, the inner ends of the two sliding rods 43 are fixedly connected with the upper end and the lower end of the outer side face of the sliding plate 4 respectively, and the outer ends of the two sliding rods 43 are fixedly connected with the upper end and; a sliding through hole is transversely recessed on the bottom case 3 between the pair of sliding cylinders 42, a sliding telescopic cylinder 41 with an outward output end is installed in the sliding through hole, the type of the sliding telescopic cylinder 41 is KA7, the sliding telescopic cylinder 41 is electrically connected with an external power supply through a second power line, a sliding connecting block is arranged at the end part of a telescopic rod of the sliding telescopic cylinder 41, and the sliding connecting block is fixedly connected with the inner side surface of the connecting block plate 44; through the use of sliding assembly cooperation buffering subassembly, made things convenient for to drive crushing sieve 33 and the reciprocal roller that rolls of rolling wheel 52 cooperation, increased and rolled kibbling efficiency to the graphite powder.

In the invention, the screw mechanism comprises a threaded rod 6, an adjusting wheel 65, a fixed cylinder 64 and a threaded cylinder 61, a pair of bearings are arranged on two sides of the top in the bottom box 3, two ends of the threaded rod 6 are respectively inserted in the corresponding bearings, the rear end of the threaded rod 6 penetrates through the corresponding bearings and extends out of the bottom box 3, and the adjusting wheel 65 is arranged at the rear end of the threaded rod 6; the middle part of the threaded rod 6 is sleeved with a fixed cylinder 64, a pair of symmetrical and spirally connected threaded cylinders 61 are arranged on the threaded rod 6 and positioned on two sides of the fixed cylinder 64, and thread teeth on the threaded rod 6 and positioned on two sides of the fixed cylinder 64 are in reverse symmetry, so that the pair of threaded cylinders 61 can rotate in the same direction or in reverse spiral; the top surface in the bottom box 3 above the threaded rod 6 is provided with a T-shaped slide rail 62 which is transversely arranged, the top surface of each threaded cylinder 61 is provided with a T-shaped slide block 63, and each T-shaped slide block 63 is clamped on the T-shaped slide rail 62 in a sliding manner, so that the stability of the threaded cylinder 61 in spiral movement is improved; a pair of first hinge seats with upward openings are arranged at two ends of the top surface of the fixed plate 5, and the opening of each first hinge seat is movably hinged with the bottom end of a hinge rod 53 through a pin shaft; the bottom surface of each threaded cylinder 61 is provided with a second hinge base with a downward opening, and the opening of each second hinge base is movably hinged with the top end of the corresponding hinge rod 53 through a pin shaft; the spacing between the rolling wheel 52 and the top surface of the crushing sieve plate 33 is convenient to adjust by the matching use of the screw mechanism.

In the invention, rectangular block-shaped supporting seats 11 are arranged at four corners of the bottom surface of the bottom plate 1, the supporting seats 11 increase the overall stability of the equipment, a vertically-through circular discharge hole is recessed in the middle of the bottom surface of the circular box 2, a fixedly-through conical barrel 13 is arranged in the middle of the top surface of the bottom plate 1 below the discharge hole, a material taking box 14 is arranged on the ground of the bottom surface of the bottom plate 1 below the conical barrel 13, and the material taking box 14 is in the shape of a circular box with an upward opening; a pair of miniature telescopic cylinders 24 which are symmetrically arranged is arranged at the bottom of the circular box 2 and positioned at two sides of the discharge hole, the type of each miniature telescopic cylinder 24 is HR6000, each miniature telescopic cylinder 24 is electrically connected with an external power supply through a third power line, and the end part of a telescopic rod of each miniature telescopic cylinder 24 is provided with a miniature connecting block, wherein one miniature connecting block is fixedly connected with the arc-shaped plate 25, the other miniature connecting block is fixedly connected with the semi-circular plate 26, and the arc-shaped plate 25 and the semi-circular plate 26 are matched in the discharge hole to be clamped; the control arc plate 25 and the semicircular plate 26 are matched in the discharge hole to be clamped, so that the size of the discharge hole is conveniently controlled.

Example 2: referring to fig. 5, in this embodiment, the present invention further provides a processing method of a semiconductor graphite processing apparatus with a push-type blanking mechanism, including the following steps:

firstly, the lifting telescopic cylinder 12, the sliding telescopic cylinder 41 and the micro telescopic cylinder 24 are respectively electrically connected with an external power supply through power lines, graphite slag to be ground and crushed is poured in through a feeding cylinder 31, and the graphite slag slides to the top surface of a crushing sieve plate 33 along an inclined cylinder 32;

adjusting the contact distance between the rolling wheel 52 and the top surface of the crushing sieve plate 33 through a screw mechanism, rotating a threaded rod 6 through an adjusting wheel 65 to be matched with a pair of threaded cylinders 61 to rotate spirally, further driving the pair of threaded cylinders 61 to rotate spirally in the same direction or in opposite directions, further driving a T-shaped sliding block 63 to slide along a T-shaped sliding rail 62, and driving a fixed plate 5 and the rolling wheel 52 to lift under the matching of the hinging action;

thirdly, the sliding assembly is matched with the buffer assembly to drive the crushing sieve plate 33 and the rolling wheel 52 to roll and crush the graphite powder; the telescopic rod of the sliding telescopic cylinder 41 is controlled to extend and retract in a reciprocating manner, so that the connecting plate 44 and the sliding rod 43 are driven to slide in a reciprocating manner and in a transverse manner along the sliding cylinder 42, the sliding plate 4 and the crushing sieve plate 33 are driven to move in a reciprocating manner and in a transverse manner, and meanwhile, the buffer sliding rod 36 is driven to slide in a reciprocating manner in the buffer sliding cylinder 35, so that the buffer spring is driven to compress in a reciprocating manner;

controlling the circular box 2 to ascend and descend by a lifting mechanism, and collecting the graphite powder falling off through the crushing sieve plate 33; the extension of an extension rod of the lifting telescopic cylinder 12 is controlled, the round box 2 is driven to rise through an extension connecting block, and meanwhile, the lifting sliding barrel 21 is driven to slide upwards along the lifting sliding rod 22, so that the lifting spring 23 is driven to extend;

step five, after the circular box 2 finishes collecting the graphite powder, controlling the circular box 2 to descend; through the telescopic link of the miniature telescoping cylinder 24 of control flexible, control arc 25 and semicircle board 26 cooperation carry out the block in the discharge opening, control the ejection of compact of discharge opening, drop to the toper section of thick bamboo 13 in via the graphite powder of discharge opening, and then drop to getting in the magazine 14, the workman takes away and gets the magazine 14 can.

The graphite crushing device solves the problems that the graphite crushing is not thorough and affects the later use, is simple and easy to operate, reduces the labor burden of workers and improves the graphite crushing efficiency through the matched use of all mechanism components.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. Semiconductor graphite processing equipment with impulse type unloading mechanism, including bottom plate (1), elevating system, buffering subassembly, sliding assembly, screw mechanism, its characterized in that: the top surface of the bottom plate (1) is provided with a bottom box (3), a round box (2) is arranged in the bottom box (3) and is arranged in the middle of the top surface of the bottom plate (1), and the round box (2) is movably connected with the bottom plate (1) through a lifting mechanism; a crushing sieve plate (33) is arranged in the middle of the bottom box (3), one side of the crushing sieve plate (33) is movably connected with the bottom box (3) through a buffer component, and the other side of the crushing sieve plate (33) is movably connected with the bottom box (3) through a sliding component; a screw mechanism is installed at the top in the bottom box (3), a fixed spring (51) is arranged on the bottom surface of a fixed cylinder (64) in the screw mechanism, a fixed plate (5) is arranged in the bottom box (3) above the crushing sieve plate (33), and the bottom end of the fixed spring (51) is fixedly connected with the middle part of the top surface of the fixed plate (5); fixed plate (5) bottom surface is equipped with a plurality of U-shaped supports, every the U-shaped support all with rolling wheel (52) roll connection, and every rolling wheel (52) equally divide respectively with smash sieve (33) top surface contact.

2. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 1, wherein: the lifting mechanism comprises a lifting telescopic cylinder (12), a lifting sliding barrel (21), a lifting sliding rod (22) and a lifting spring (23), a pair of lifting through holes are formed in the two sides of the bottom surface of the round box (2) and are sunken in the top surface of the bottom plate (1), the lifting telescopic cylinder (12) is installed in each lifting through hole, and the end part of a telescopic rod of each lifting telescopic cylinder (12) is fixedly connected with the bottom surface of the round box (2); the round box is characterized in that a pair of lifting sliding barrels (21) are arranged in the middle of the two side faces of the round box (2), each lifting sliding barrel (21) is internally provided with a lifting sliding rod (22) in an inserted mode, each lifting sliding rod (22) is fixedly connected with the bottom plate (1), and a lifting spring (23) is sleeved on each lifting sliding rod (22) below the lifting sliding barrel (21).

3. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 1, wherein: the crushing screen plate comprises a bottom box (3), wherein the bottom box is provided with a crushing screen plate (33), the crushing screen plate is arranged on the bottom box, the; the top of the outer side surface of the bottom box (1) is provided with a feeding cylinder (31), the bottom of the feeding cylinder (31) is provided with an inclined cylinder (32), and an inner port of the inclined cylinder (32) is obliquely arranged above one side of the crushing sieve plate (33).

4. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 1, wherein: the sliding assembly comprises a sliding plate (4), sliding cylinders (42), sliding rods (43), a connecting plate (44) and a sliding telescopic cylinder (41), the sliding plate (4) is arranged on the other side of the crushing sieve plate (33), a pair of sliding cylinders (42) is arranged on the other side wall in the bottom box (3) and at the position corresponding to the sliding plate (4), the sliding rods (43) are inserted into each sliding cylinder (42), the inner ends of the two sliding rods (43) are fixedly connected with the upper end and the lower end of the outer side surface of the sliding plate (4), and the outer ends of the two sliding rods (43) are fixedly connected with the upper end and the lower end of the connecting plate (44); a sliding through hole is transversely recessed on the bottom box (3) between the pair of sliding cylinders (42), a sliding telescopic cylinder (41) is installed in the sliding through hole, and the end part of a telescopic rod of the sliding telescopic cylinder (41) is fixedly connected with the inner side surface of the connecting plate (44).

5. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 1, wherein: the screw mechanism comprises a threaded rod (6), an adjusting wheel (65), a fixed cylinder (64) and a threaded cylinder (61), a pair of bearings are mounted on two sides of the top in the bottom box (3), two ends of the threaded rod (6) are respectively inserted into the corresponding bearings, and the adjusting wheel (65) is arranged at the rear end of the threaded rod (6); a fixed cylinder (64) is sleeved in the middle of the threaded rod (6), and a pair of threaded cylinders (61) are arranged on the threaded rod (6) and positioned on two sides of the fixed cylinder (64); the top surface is equipped with T shape slide rail (62) in bottom case (3) above threaded rod (6), every T shape slider (63) is all installed to screw thread section of thick bamboo (61) top surface, and every T shape slider (63) all slip the block on T shape slide rail (62).

6. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 5, wherein: a pair of first hinge seats are arranged at two ends of the top surface of the fixed plate (5), and each first hinge seat is movably hinged with the bottom end of the hinge rod (53); every screw thread section of thick bamboo (61) bottom surface all is equipped with the articulated seat of second, every the articulated seat of second all with articulated rod (53) top activity hinge joint that corresponds.

7. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 1, wherein: four turnings of bottom plate (1) bottom surface all are equipped with supporting seat (11), circular case (2) bottom surface middle part is sunken to have the discharge opening, is located the discharge opening below and is equipped with a toper section of thick bamboo (13) in the top surface middle part of bottom plate (1), is located toper section of thick bamboo (13) below and has placed subaerial the material of getting (14).

8. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 7, wherein: be located the discharge opening both sides and be equipped with a pair of miniature telescoping cylinder (24) bottom circular case (2), and the telescopic link tip of every miniature telescoping cylinder (24) all is equipped with miniature even piece, wherein, a miniature even piece and arc (25) rigid coupling, another miniature even piece and semicircle board (26) rigid coupling, just arc (25) carry out the block with semicircle board (26) cooperation in the discharge opening.

9. The semiconductor graphite processing equipment with the push type blanking mechanism as claimed in claim 2, 4 or 8, wherein: the lifting telescopic cylinder (12) is electrically connected with an external power supply through a first power line, the sliding telescopic cylinder (41) is electrically connected with the external power supply through a second power line, and the miniature telescopic cylinder (24) is electrically connected with the external power supply through a third power line.

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