CN218801207U - Full-automatic water gap grinding machine - Google Patents

Abstract

The utility model relates to an injection moulding processing technology field discloses a full-automatic mouth of a river machine that grinds, the support top of frame is being provided with the feeder that directly shakes to the port of unloading of vibration dish, and the support top of frame is being provided with the slide and grinds motor mechanism to the port of unloading of the feeder that directly shakes, the track top that the slide ground motor mechanism is provided with shift fork transport mechanism. The utility model discloses replaced the tradition and utilized artifical mode of polishing to the injection moulding product mouth of a river, through vibration dish and the vibrating material loading of directly shaking the feeder to injection moulding product, dial material propelling movement and slide grinding motor mechanism's of shift fork transport mechanism synchronous polishing down, can carry out mechanical linkage, circulation feed formula work of polishing to injection moulding product's mouth of a river, can improve the efficiency of polishing in the one hand of injection moulding product mouth of a river, it is long when sparingly polishing, on the other hand can reduce staff's manipulation strength, the cost of polishing has been saved.

Description

Full-automatic water gap grinding machine

Technical Field

The utility model relates to an injection moulding processing technology field specifically is a full-automatic mouth of a river machine that grinds.

Background

The injection molding method has the advantages of high production speed, high efficiency, automation in operation, multiple designs and colors, simple and complex shapes, small and large sizes, accurate product size, easy replacement of products, capability of forming workpieces with complex shapes, suitability for the fields of mass production, complex-shaped products and the like, residual water gaps after the injection molding of products in the existing injection molding production and manufacturing of products, and incapability of causing the product size to be not in accordance with quality requirements for some products with higher quality standards. Therefore, the technical personnel in the field provide a full-automatic water gap grinding machine to solve the problems in the background technology.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic mill mouth of a river machine to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a full-automatic mill mouth of a river machine, includes frame and vibration dish crane, the grudging post top of vibration dish crane is provided with the vibration dish, the support top of frame is just being provided with the feeder that directly shakes to the port of unloading of vibration dish, and the support top of frame is just being provided with the slide to the port of unloading of the feeder that directly shakes and grinds motor mechanism, the track top that the slide ground motor mechanism is provided with shift fork transport mechanism, the support top of frame is just being provided with the control box to one side that the slide ground motor mechanism, and the support of frame is inside just to the port of unloading of slide grinding motor mechanism and has placed the case that gathers materials.

As a further aspect of the present invention: slide grinding machine constructs including installing the carriage of unloading of directly shaking feeder discharge opening position department, the box top of the carriage of unloading is provided with the product slide, and just is provided with the track of unloading to the port of unloading of product slide above the box of the carriage of unloading, the box of the carriage of unloading is inside just to be provided with two sets of school position guide arms, and is two sets of the outside symmetrical cover of guide arm of school position guide arm is equipped with two sets of direction slip tables, and the bottom output symmetry of two sets of direction slip tables is provided with two sets of installation grillages, and is two sets of the face symmetry of installation grillages staggers and is provided with two sets of direct current high speed motor, and the output of two sets of direct current high speed motor runs through the both sides track end of product slide and staggers and is provided with two sets of alloy emery wheels.

As a further aspect of the present invention: two sets of the middle part of installation grillage all is provided with the propelling movement silk braid, and the swivel nut of two sets of propelling movement silk braids is inside all to run through to screw the connecing and has the school position lead screw, and is two sets of the screw rod end of school position lead screw runs through around the box of the tank tower of unloading face all is provided with the interval regulating wheel.

As a further aspect of the present invention: the track end of the product slide just has seted up the material loading opening to the discharge opening position department of the feeder that directly shakes, and the track one end of product slide just is provided with the detection sensor to material loading open-ended material loading mouth position department.

As a further aspect of the present invention: the shifting fork carrying mechanism comprises a chassis frame, wherein a longitudinal guide rail is arranged inside a box body of the chassis frame, a front side track end of the longitudinal guide rail is provided with a transverse guide rail, a front side track end of the transverse guide rail is provided with an arm force plate frame, an installation arm is arranged at the bottom of the plate frame of the arm force plate frame, and a shifting fork fixture is arranged at the top end of an arm rod of the installation arm.

As the utility model discloses further scheme again: second direction draw-in groove has been seted up to the box face of quick-witted box frame, and just the box rear side of quick-witted box frame is provided with driving motor to second direction draw-in groove's track middle part, driving motor's output is provided with the swinging boom, first direction draw-in groove has been seted up to face one side of swinging boom, and first direction draw-in groove and second direction draw-in groove run through the block to the end and have the drive shaft, the middle part output of drive shaft is provided with the first leading wheel with first direction draw-in groove looks adaptation, and the terminal output of drive shaft is provided with the second leading wheel with second direction draw-in groove looks adaptation, the top output and the arm power grillage of drive shaft are connected.

As a further aspect of the present invention: the track end of the longitudinal guide rail is provided with a longitudinal sliding table connected with the transverse guide rail, and the track end of the transverse guide rail is provided with a transverse sliding table connected with the arm force plate frame.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses replaced the tradition and utilized artifical mode of polishing to the injection moulding product mouth of a river, through vibration dish and the vibrating material loading of directly shaking the feeder to injection moulding product, dial material propelling movement and slide grinding motor mechanism's of shift fork transport mechanism synchronous polishing down, can carry out mechanical linkage, circulation feed formula work of polishing to injection moulding product's mouth of a river, can improve the efficiency of polishing in the one side of the injection moulding product mouth of a river, it is long when sparingly polishing, on the other hand can reduce staff's manipulation strength, sparingly the cost of polishing.

Drawings

FIG. 1 is a schematic structural view of a full-automatic water gap grinding machine;

fig. 2 is a right side view of a full-automatic water gap grinding machine;

FIG. 3 is a schematic structural view of a shifting fork carrying mechanism in the full-automatic water gap grinding machine;

FIG. 4 is a rear view of a fork carrying mechanism in the full-automatic water gap grinding machine;

FIG. 5 is a schematic structural view of the interior of a shifting fork carrying mechanism in the full-automatic water gap grinding machine;

FIG. 6 is a driving schematic diagram of a shifting fork carrying mechanism in the full-automatic water gap grinding machine;

FIG. 7 is a schematic structural diagram of a slide grinding motor mechanism in a full-automatic water gap grinding machine;

FIG. 8 is a right side view of a slide grinding motor mechanism in the full-automatic water gap grinding machine;

fig. 9 is a schematic structural diagram of the inside of a slide grinding motor mechanism in a full-automatic water gap grinding machine.

In the figure: 1. a frame; 2. a vibration plate lifting frame; 3. a direct vibration feeder; 4. a vibrating pan; 5. a control box; 6. a shifting fork carrying mechanism; 61. a chassis frame; 62. arm force plate frame; 63. mounting an arm; 64. a shifting fork clamp; 65. a drive motor; 66. a longitudinal guide rail; 67. a longitudinal sliding table; 68. a transverse guide rail; 69. a transverse sliding table; 610. a rotating arm; 611. a first guide slot; 612. a drive shaft; 613. a second guide clamping groove; 614. a second guide wheel; 615. a first guide wheel; 7. a slideway grinding motor mechanism; 71. a discharge box frame; 72. a product chute; 73. a spacing adjustment wheel; 74. feeding and opening; 75. a detection sensor; 76. a discharge rail; 77. an alloy grinding wheel; 78. a position correcting guide rod; 79. a guide sliding table; 710. installing a plate frame; 711. a direct current high speed motor; 712. a position correcting screw rod; 713. pushing the wire sleeve; 8. a material collecting box.

Detailed Description

Please refer to fig. 1-9, in the embodiment of the present invention, a full-automatic water gap grinding machine, including frame 1 and vibration dish crane 2, the grudging post top of vibration dish crane 2 is provided with vibration dish 4, just be provided with directly vibrating feeder 3 to the port of unloading of vibration dish 4 above the support of frame 1, and just be provided with slide grinding motor mechanism 7 to the port of unloading of directly vibrating feeder 3 above the support of frame 1, slide grinding motor mechanism 7 is including installing the discharge box frame 71 of the port position department of unloading of directly vibrating feeder 3, the box top of discharge box frame 71 is provided with product slide 72, and just be provided with discharge track 76 to the port of unloading of product slide 72 above the box of discharge box frame 71, the track end of product slide 72 is just having seted up material loading opening 74 to the discharge port position department of directly vibrating feeder 3, and just be provided with detection sensor 75 to the last material position department of material loading opening 74 to the track one end of product slide 72, when utilizing automatic water gap grinding machine to polish the work of injection molding products, pour the injection products to the vibration dish 4 into the vibration dish, utilize vibration dish 4 and the last material opening of the last product to be provided with detection sensor 75 to detect the product of vibration in proper order to the product of vibration dish of vibrating feeder to the product, the product is detecting the product in the product on the product in the slide of vibrating feeder after the vibration dish of vibrating in proper order to the vibration, the product detects the product of vibrating feeder is detecting the product in the slide is detecting the product slide 72, the product on the slide, the slide is detecting the product on the slide, the slide grinding mechanism, the product of vibrating feeder is carried on the product in the product slide, the product.

Two groups of position correcting guide rods 78 are symmetrically arranged in the box body of the discharging box frame 71 just below the product slide way 72, two groups of guide sliding tables 79 are symmetrically sleeved outside the guide rods of the two groups of position correcting guide rods 78, two groups of installation plate frames 710 are symmetrically arranged at the bottom output ends of the two groups of guide sliding tables 79, two groups of direct current high-speed motors 711 are symmetrically arranged on the plate surfaces of the two groups of installation plate frames 710 in a staggered manner, two groups of alloy grinding wheels 77 are arranged at the output ends of the two groups of direct current high-speed motors 711 in a staggered manner and penetrate through the rail ends at the two sides of the product slide way 72, push wire sleeves 713 are arranged in the middle parts of the two groups of installation plate frames 710, position correcting screw rods 712 are screwed in the screw sleeves, and interval adjusting wheels 73 are arranged at the screw rod ends of the two groups of position correcting screw rods 712 and penetrate through the front and rear plate surfaces of the box body of the discharging box frame 71, when the automatic nozzle grinding machine is used for grinding the nozzle of an injection molding product, a worker adjusts the grinding position of the alloy grinding wheel 77 according to the specification of the injection molding product, then in the adjusting process, the worker sequentially rotates the spacing adjusting wheel 73 to drive the position adjusting screw 712 to rotate, the rotary thrust is converted into horizontal thrust by the transmission combination of the position adjusting screw 712 and the pushing screw sleeve 713, the guiding sliding table 79 is pushed to slide on the position adjusting guide rod 78, the plate frame 710 is synchronously pushed to move in the horizontal direction, the position of the alloy grinding wheel 77 at the output end of the two groups of direct current high-speed motors 711 is adjusted to be moved to the proper position at the two sides of the track of the product slide 72, and the nozzle of the injection molding product conveyed inside the product slide 72 is ground.

A fork carrying mechanism 6 is arranged above a track of the slide grinding motor mechanism 7, a control box 5 is arranged above a support of the rack 1 and opposite to one side of the slide grinding motor mechanism 7, a material collecting box 8 is arranged inside the support of the rack 1 and opposite to a discharge port of the slide grinding motor mechanism 7, the fork carrying mechanism 6 comprises a box frame 61, a second guide clamping groove 613 is formed in a box body plate surface of the box frame 61, a driving motor 65 is arranged in the middle of the track of the box body rear side of the box frame 61 and opposite to the second guide clamping groove 613, a rotating arm 610 is arranged at an output end of the driving motor 65, a first guide clamping groove 611 is formed in one side of the plate surface of the rotating arm 610, a driving shaft 612 penetrates through and is clamped at a joint end of the first guide clamping groove 611 and the second guide clamping groove 613, a first guide wheel 615 matched with the first guide clamping groove is arranged at a middle output end of the driving shaft 612, a second guide wheel 614 matched with the second guide clamping groove 613 is arranged at a tail end of the driving shaft 612, a top output end of the driving shaft 612 is connected with the arm force 62, when an injection product 72 in the slide grinding motor mechanism 7 is ground, the rotating guide wheel 615, the rotating guide clamping groove, the driving shaft 610 and the driving shaft drives the second guide clamping groove 610 to rotate along a left-right-left-and-right direction, the driving shaft to-right direction, the driving motor to push the second guide clamping groove 610, the second guide clamping groove 612 to push the guide clamping groove 610, the guide wheel to push the guide clamping groove 612, the guide clamping groove to push the guide wheel to push the guide clamping groove 610, and push the guide wheel to push the guide clamping groove 610, the guide wheel to push the guide clamping groove 610, and push the guide wheel to move along the second guide wheel 610, the second guide wheel to move along the second guide clamping groove 612, and push the second guide clamping groove 612, the second guide wheel to move along the second guide clamping groove 612, the second guide wheel 610, the second guide groove 612, the second guide groove 610, and push the guide wheel to push the guide groove 612, the guide wheel to move along the guide wheel.

A longitudinal guide rail 66 is arranged in the box body of the machine box frame 61, a transverse guide rail 68 is arranged at the front side rail end of the longitudinal guide rail 66, an arm force plate frame 62 is arranged at the front side rail end of the transverse guide rail 68, an installation arm 63 is arranged at the plate frame bottom of the arm force plate frame 62, a shifting fork fixture 64 is arranged at the top end of an arm rod of the installation arm 63, a longitudinal sliding table 67 connected with the transverse guide rail 68 is arranged at the rail end of the longitudinal guide rail 66, a transverse sliding table 69 connected with the arm force plate frame 62 is arranged at the rail end of the transverse guide rail 68, a driving shaft 612 can drive the arm force plate frame 62 to synchronously shift and transmit in the process of circulating and shifting transmission along the vertical direction and the left and right direction, then under the longitudinal guiding transmission combination of the longitudinal guide rail 66 and the longitudinal sliding table 67 and the transverse guiding transmission combination of the transverse guide rail 68 and the transverse sliding table 69, the arm force plate frame 62 can ascend and descend along the longitudinal guide rail 66 and the transverse guide rail 68 and the left and right, then push the shifting fork fixture 64 at the top end of the shifting fork rod of the installation arm 63 to circularly and push the injection products in the product slideway 72 in turn, and polish.

The utility model discloses a theory of operation is: when an automatic nozzle grinding machine is used for grinding a nozzle of an injection product, the injection product to be ground is poured into the vibrating disc 4, the rotary vibration feeding of the vibrating disc 4 and the direct vibration type vibration feeding of the direct vibration feeder 3 are utilized to sequentially feed the injection product into the product slide way 72 through the feeding opening 74 in a vibration mode, when the product is fed into the product slide way 72, the detection sensor 75 controls the driving of the shifting fork carrying mechanism 6 after detecting the material, the injection product is pushed to move in the product slide way 72 to grind the nozzle of the injection product, the further driving motor 65 starts to work to drive the rotating arm 610 to rotate, and the rotating arm 610 drives the rotating arm 610 to rotate in the rotating process through the guide pushing of the first guide clamping groove 611 and the first guide wheel 615 on the surface and the guide pushing of the second guide clamping groove 613 and the second guide wheel 614 on the surface, the driving shaft 612 is pushed to slide along the direction of the butt joint ends of the two groups of guide clamping grooves in a displacement manner, so that the driving shaft 612 performs circular displacement transmission along the vertical direction and the left-right direction, the driving shaft 612 can drive the arm force plate frame 62 to perform synchronous displacement transmission along the vertical direction and the left-right direction in the circular displacement transmission process along the vertical direction and the left-right direction, then the arm force plate frame 62 is pushed to perform circular displacement along the vertical direction and the horizontal direction in the vertical direction and the horizontal direction of the longitudinal guide rail 66 and the horizontal guide rail 68 and the horizontal direction of the horizontal guide rail 69, then the shifting fork clamps 64 at the top ends of the arm rods of the mounting arms 63 are pushed to perform circular displacement along the specified direction, injection products in the product slide ways 72 are sequentially pushed in a circulating manner, in the pushing process, the direct-current high-speed motor 711 synchronously works to drive the alloy grinding wheels 77 to rotate at a high speed, and perform mechanical displacement on water gaps of the injection products, the grinding work is autonomous and the ground injection products slide down along the discharge rail 76 into the collection box 8.

Claims (7)

1. The utility model provides a full-automatic mouth of a river machine that grinds, includes frame (1) and vibration dish crane (2), its characterized in that, the grudging post top of vibration dish crane (2) is provided with vibration dish (4), the support top of frame (1) is just being provided with feeder (3) that directly shakes to the port of unloading of vibration dish (4), and the support top of frame (1) is just being provided with slide grinding motor mechanism (7) to the port of unloading of feeder (3) that directly shakes, the track top of slide grinding motor mechanism (7) is provided with shift fork transport mechanism (6), the support top of frame (1) is just being provided with control box (5) to one side of slide grinding motor mechanism (7), and the support inside of frame (1) just has placed collection workbin (8) to the port of unloading of slide grinding motor mechanism (7).

2. The full-automatic water gap grinding machine according to claim 1, wherein the slide grinding motor mechanism (7) comprises an unloading box frame (71) installed at the position of a discharge opening of the direct vibration feeder (3), a product slide way (72) is arranged above a box body of the unloading box frame (71), an unloading track (76) is arranged just above the box body of the unloading box frame (71) for the discharge port of the product slide way (72), two groups of position correcting guide rods (78) are symmetrically arranged just below the product slide way (72) in the box body of the unloading box frame (71), two groups of guide rod external symmetrical sleeves of the position correcting guide rods (78) are provided with two groups of guide sliding tables (79), the bottom output ends of the two groups of guide sliding tables (79) are symmetrically provided with two groups of installation plate frames (710), the plate surfaces of the installation plate frames (710) are symmetrically staggered with two groups of direct current high speed motors (711), and the output ends of the two groups of direct current high speed motors (711) are staggered with two groups of alloy grinding wheels (77) through the two side track ends of the product slide way (72).

3. The full-automatic water gap grinding machine according to claim 2, wherein the middle parts of the two sets of mounting plate frames (710) are provided with pushing screw sleeves (713), the screw sleeves of the two sets of pushing screw sleeves (713) are internally screwed with positioning screws (712) in a penetrating manner, and the screw ends of the two sets of positioning screws (712) penetrate through the front and rear plate surfaces of the box body of the discharging box frame (71) and are provided with distance adjusting wheels (73).

4. The full-automatic water gap grinding machine according to claim 2, wherein a feeding opening (74) is formed at a position, right opposite to a discharging opening of the direct vibration feeder (3), of a track end of the product slide way (72), and a detection sensor (75) is arranged at a position, right opposite to a feeding opening of the feeding opening (74), of the track end of the product slide way (72).

5. The full-automatic water gap grinding machine according to claim 1, wherein the shifting fork carrying mechanism (6) comprises a case frame (61), a longitudinal guide rail (66) is arranged inside a case body of the case frame (61), a transverse guide rail (68) is arranged at a front side rail end of the longitudinal guide rail (66), an arm force plate frame (62) is arranged at a front side rail end of the transverse guide rail (68), a mounting arm (63) is arranged at the bottom of the plate frame of the arm force plate frame (62), and a shifting fork fixture (64) is arranged at the top end of an arm rod of the mounting arm (63).

6. The full-automatic water gap grinding machine according to claim 5, wherein a second guide clamping groove (613) is formed in a surface of a box body of the box frame (61), a driving motor (65) is arranged in the middle of a track of the second guide clamping groove (613) at the rear side of the box body of the box frame (61), an output end of the driving motor (65) is provided with a rotating arm (610), a first guide clamping groove (611) is formed in one side of the surface of the rotating arm (610), a driving shaft (612) penetrates through and is clamped with a butt end of the first guide clamping groove (611) and the second guide clamping groove (613), a first guide wheel (615) matched with the first guide clamping groove (611) is arranged at an output end of the middle of the driving shaft (612), a second guide wheel (614) matched with the second guide clamping groove (613) is arranged at an output end of the tail end of the driving shaft (612), and an output end of the top of the driving shaft (612) is connected with the arm force plate frame (62).

7. The full-automatic water gap grinding machine according to claim 5, wherein the rail end of the longitudinal guide rail (66) is provided with a longitudinal sliding table (67) connected with a transverse guide rail (68), and the rail end of the transverse guide rail (68) is provided with a transverse sliding table (69) connected with the arm force plate frame (62).

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