Mold ejection mechanism checkout gear
Technical field
The utility model relates to a kind of checkout gear, particularly relates to a kind of mold ejection mechanism checkout gear.
Background technology
Mould is the important process equipment of producing various industrial products.Along with developing rapidly of industry, and various die products is the applying of the industrial departments such as Aeronautics and Astronautics, electronics, machinery, boats and ships and automobile, and product is also more and more higher to the requirement of mould.
Injection mold generally comprises ejecting mechanism, and ejecting mechanism is for carrying out the demoulding to the moulding after moulding.Produce as last and all can detect injection machine, smooth and easy to guarantee the motion of injection machine ejecting mechanism.At present, ejecting mechanism adopts clapper die spotting press examination top more, draws hammer to retract pin or utilizes external force to beat these three kinds of modes of ejector retainner plate whether detect its motion smooth and easy.Use the not enough efficiency of clapper die spotting press production capacity very low, use draw hammer to retract pin or utilize external force to beat ejecting mechanism to detect effect undesirable.
Utility model content
Based on this, be necessary to provide the more mold ejection mechanism checkout gear of high detection better effects if of a kind of efficiency.
A kind of mold ejection mechanism checkout gear, comprising:
Ejection piece, described ejection piece is provided with screw thread;
Spanner, described spanner is connected with one end of described ejection piece;
Guide rail, described guide rail is offered the screw mating with described ejection piece, described ejection piece wears described screw, and with described screw bolt, described guide rail is vertical with described ejection piece; And
Fixture, described fixture comprises main part and is arranged at a side Access Division of described main part, and described Access Division, perpendicular to described main part, parallels with described guide rail, and vertical with described ejection piece, and described main part slides and is arranged on described guide rail.
In one of them embodiment, described fixture is two, and the described main part of two described fixtures slides and is arranged on described guide rail, and is positioned at the both sides of described ejection piece, and two described Access Divisions are all positioned at a side of described guide rail.
In one of them embodiment, the end face that described ejection piece connects the opposite end of described spanner one end is cambered surface.
In one of them embodiment, described mold ejection mechanism checkout gear also comprises card-bit part, and described card-bit part wears described guide rail, and radially vertical with described ejection piece.
In one of them embodiment, described card-bit part is two, and two described card-bit parts lay respectively at the both sides of described ejection piece, and described fixture is positioned at the centre of two described card-bit parts.
In one of them embodiment, the end of described spanner one end is rotationally connected described ejection piece.
In one of them embodiment, described mold ejection mechanism checkout gear also comprises pin, and described pin wears respectively described ejection piece and described spanner, and described spanner and described ejection piece are rotationally connected.
In one of them embodiment, one end of described ejection piece is provided with two relative projections, and two two relative sidewalls of described projection offer two the first coaxial through holes,
Described spanner connects one end of described ejection piece and offers the second through hole mating with described the first through hole, one end that described spanner is offered described the second through hole respectively with two two sidewall butts that described projection is relative,
Described pin wears respectively described the first through hole and described the second through hole, and described spanner and described ejection piece are rotatably connected.
Above-mentioned mold ejection mechanism checkout gear, whether rotating ejection piece by spanner, to detect ejecting mechanism when motion of mould smooth and easy, simple in structure, easy to operate, is beneficial to universally, and order detects more efficient.Meanwhile, due to manual rotation, make testing staff sensitiveer to the motion impression of ejector retainner plate, can judge more accurately that whether the motion of ejector retainner plate is smooth and easy.In addition, by the setting of guide rail and fixture, make the versatility of mold ejection mechanism checkout gear stronger, can be used for the mould of plurality of specifications.It is to be noted, because mold ejection mechanism checkout gear is by two Access Divisions and mold base one side phase clamping of two fixtures, so mold ejection mechanism checkout gear is not subject to the restriction of mold base thickness, be applicable to the mould of the base with different-thickness, make its versatility stronger.In addition, because mold ejection mechanism checkout gear just can be fixed on mould without securing member, further simplified structure and operation.
Brief description of the drawings
Fig. 1 is the perspective view of the mold ejection mechanism checkout gear of the utility model one preferred embodiment;
Fig. 2 is the explosive view of the mold ejection mechanism checkout gear shown in Fig. 1;
Fig. 3 is the working state figure of the mold ejection mechanism checkout gear shown in Fig. 1.
Detailed description of the invention
As shown in Figure 1, it is the perspective view of the mold ejection mechanism checkout gear 10 of the utility model one preferred embodiment.
Mold ejection mechanism checkout gear 10, comprising: ejection piece 100, spanner 200, guide rail 300 and two fixtures 400.Ejection piece 100 wears guide rail 300, and one end is connected with spanner 200.Two fixtures 400 slide and are arranged on guide rail 300, and lay respectively at the both sides of ejection piece 100.
Please refer to Fig. 2, it is the explosive view of the mold ejection mechanism checkout gear 10 shown in Fig. 1.
Ejection piece 100 is provided with screw thread 110.One end of ejection piece 100 is provided with two relative projections 120, and two two relative sidewalls of projection 120 are offered two the first coaxial through holes 121.The end face that ejection piece 100 connects the opposite end of spanner 200 one end is cambered surface.
The second through hole 210 mating with the first through hole 121 is offered in the one end that connects described ejection piece 100 on spanner 200.One end that spanner 200 is offered the second through hole 210 respectively with two two sidewall butts that projection 120 is relative.
Mold ejection mechanism checkout gear 10 also comprises pin 500.Pin 500 wears respectively the first through hole 121 and the second through hole 210, and spanner 200 and ejection piece 100 are rotatably connected.
According to actual conditions, spanner 200 also can be formed in one structure now with ejection piece 100, and mold ejection mechanism checkout gear 10 omits two projections 120, the first through hole 121 and the second through hole 210.In addition, spanner 200 also can adopt other modes to be connected with ejection piece 100, as ejection piece 100 radially offer installing hole, spanner 200 wears installing hole, and ejection piece 100 is connected with installing hole.Ejection piece 100 also can adopt interference fit to be connected with spanner 200.
The screw 310 mating with ejection piece 100 is offered at the middle part of guide rail 300.Ejection piece 100 wears screw 310, and with screw 310 bolts, and guide rail 300 is vertical with ejection piece 100.
Fixture 400 comprises main part 410 and is arranged at a side Access Division 420 of main part 410.Access Division 420 is perpendicular to main part 410.Access Division 420 parallels with guide rail 300, and vertical with ejection piece 100.Main part 410 is offered the sliding eye 411 mating with guide rail 300, and main part 410 is sheathed on guide rail 300 by sliding eye 411.Be arranged at respectively the side that two Access Divisions 420 on corresponding main part 410 are all positioned at guide rail 300.
According to actual conditions, fixture 400 can be also other structures, as clip etc.Each main part 410 also can arrange two Access Divisions 420, and now, two Access Divisions 420 are relatively arranged on main part 410.In addition, also connection guide rail 300 by other means of fixture 400, as offered gathering sill on guide rail 300, is arranged at the track of gathering sill coupling on fixture 400, and track slides and is arranged in gathering sill, thus, regulates the position of fixture 400.Fixture 400 also can be slided and is arranged on guide rail 300 by devices such as rollers.It is pointed out that fixture 400 also can be for other quantity, as one etc.
Mold ejection mechanism checkout gear 10 also comprises two card-bit parts 600.Two card-bit parts 600 wear respectively guide rail 300, radially vertical with ejection piece 100, and be positioned at the both sides of ejection piece 100.Two fixtures 400 are positioned at the centre of two card-bit parts 600.Card-bit part 600 comes off from guide rail 300 for preventing fixture 400.Card-bit part 600 can be also other quantity, as three or four etc., can be located at multiple positions.According to actual conditions, also can omit card-bit part 600, now without card-bit part 600.
Please refer to Fig. 3, it is the working state figure of the mold ejection mechanism checkout gear 10 shown in Fig. 1.
While using above-mentioned mold ejection mechanism checkout gear 10, regulate the position of fixture 400, make two main parts 410 connect with the both sides of the base 700 of mould 20 respectively, and two Access Divisions 420 all connect with the surface of base 700 1 sides, ejection piece 100 wears the detection hole 710 of base 700, and ejecting mechanism checkout gear 10 is installed on mould 20.Rotating spanner 200, and then drive ejection piece 100 to rotate, detect hole 710 thereby make ejection piece 100 head into gradually.The ejection piece 100 that heads into detection hole 710 connects with the ejector retainner plate 800 of the ejecting mechanism of mould 20, and drives ejector retainner plate 800 gradually to ejecting direction motion.In the time of spanner 200 counter-rotation, ejection piece 100 exits gradually and detects hole 710, ejector retainner plate 800 under the drive of resetting-mechanism, butt ejection piece 100, and resetting gradually with ejection piece 100.Whether so, operator is in when operation, smooth and easy can experience ejection piece 100 and move time, and then whether detect the thimble motion of mould smooth and easy.
Above-mentioned mold ejection mechanism checkout gear 10, whether rotating ejection piece 100 by spanner 200, to detect ejecting mechanism when motion of mould 20 smooth and easy, simple in structure, easy to operate, is beneficial to universally, and order detects more efficient.Meanwhile, due to manual rotation, make testing staff sensitiveer to the motion impression of ejector retainner plate 800, can judge more accurately that whether the motion of ejector retainner plate 800 is smooth and easy, detect better effects if.In addition, by the setting of guide rail 300 and fixture 400, make the versatility of mold ejection mechanism checkout gear 10 stronger, can be used for the mould 20 of plurality of specifications.It is to be noted, because mold ejection mechanism checkout gear 10 is by two Access Divisions 420 and mold base one side phase clamping of two fixtures 400, so mold ejection mechanism checkout gear 10 is not subject to the restriction of mould 20 base 700 thickness, be applicable to the mould 20 of the base 700 with different-thickness, make its versatility stronger.In addition, because mold ejection mechanism checkout gear 10 just can be fixed on mould 20 without securing member, further simplified structure and operation.Draw hammer to retract pin with use or utilize external force to beat compared with ejecting mechanism detection, not only efficiency is high for above-mentioned mold ejection mechanism checkout gear 10, effective, and can not have potential safety hazard.
The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.