CN208663048U - A kind of downlight back cover process equipment - Google Patents

Abstract

The utility model discloses a kind of downlight back cover process equipments, including crossbeam, the cross rail top is equipped with first sliding groove, the first sliding block is equipped with inside the first sliding groove, first slider top is equipped with top plate, the first positive and negative motor is fixed at the top of the top plate, the first transmission shaft is fixed at the top of the first positive and negative motor, first transmission shaft top, which is fixed with, is integrally machined mechanism, the mechanism that is integrally machined includes fixed block, first connecting rod is fixed on the outside of the fixed block, second connecting rod, third connecting rod and the 4th connecting rod, the first connecting rod end is equipped with lathe tool, through equipped with the first bull stick in second connecting rod, first bull stick end outer sheath is equipped with the first cam.The utility model can complete the overall processing of metal disk, and metal disk is processed into bottom cover finished product, compared to the prior art in process equipment, have high processing efficiency, design rationally, practicability with higher.

Description

A kind of downlight back cover process equipment

Technical field

The utility model relates to downlight manufacturing technology field, in particular to a kind of downlight back cover process equipment.

Background technique

Downlight is one of a variety of lamps and lanterns, and downlight in the prior art includes the components such as rear cover, bottom cover and lamp bead mostly, Bottom cover generally have good heat dissipation and spotlight effect, while bottom cover lamp bead can also preferably be protected, it is existing in, Bottom is covered during processing, needs to be formed using plurality of devices, deburring and bending etc., operates relatively complicated, processing effect Rate is lower.

Therefore, it is necessary to solve the above problems to invent a kind of downlight back cover process equipment.

Utility model content

The purpose of this utility model is to provide a kind of downlight back cover process equipments, drive the first positive and negative motor using top plate Along x-axis or y-axis arbitrary motion, in order to adjust the position for being integrally machined mechanism, the first positive and negative motor of cooperation is passed by first Moving axis drive is integrally machined mechanism rotation, so that being integrally machined the lathe tool in mechanism, the first cam, the second cam and concave wheel Metal disk can be successively touched, to complete the overall processing of metal disk, metal disk is processed into bottom cover finished product, phase Compared with process equipment in the prior art, there is high processing efficiency, design is reasonable, practicability with higher, to solve The problems mentioned above in the background art.

To achieve the above object, the utility model provides the following technical solutions: a kind of downlight back cover process equipment, including cross Beam, the cross rail top are equipped with first sliding groove, are equipped with the first sliding block inside the first sliding groove, first slider top is equipped with Top plate, the top plate top are fixed with the first positive and negative motor, are fixed with the first transmission shaft at the top of the first positive and negative motor, First transmission shaft top, which is fixed with, is integrally machined mechanism, and the mechanism that is integrally machined includes fixed block, the fixed block Outside is fixed with first connecting rod, the second connecting rod, third connecting rod and the 4th connecting rod, and the first connecting rod end is set There is lathe tool, runs through in second connecting rod and be equipped with the first bull stick, first bull stick end outer sheath is equipped with the first cam, Through the second bull stick is equipped in the third connecting rod, second bull stick end outer sheath is equipped with the second cam, and described the Through third bull stick is equipped in four connecting rods, third bull stick end outer sheath is equipped with concave wheel.

Preferably, the first connecting rod, the second connecting rod, third connecting rod and the 4th connecting rod are set around fixed block It sets.

Preferably, first slider top be equipped with second sliding slot and between be fixed with T shape drive block, the top plate Bottom is equipped with the second sliding block, and second sliding block is set to inside second sliding slot.

Preferably, through the first screw rod is equipped on second sliding block, second sliding block is connect with the first wire rod thread, First screw rod end is fixed with the second positive and negative motor, and the second positive and negative motor is fixed on rear side of the first sliding block.

Preferably, through the second screw rod is equipped on the T shape drive block, the T shape drive block and the second wire rod thread connect It connects, second screw rod end is fixed with the positive and negative motor of third, and the positive and negative motor of third is fixed on front side of crossbeam.

Preferably, the crossbeam side is fixed with left plate and the other side is fixed with right side plate, the left plate It is upper to be fixed with the 4th positive and negative motor, the second driving shaft and the 4th positive and negative motor through equipped with second driving shaft and side Transmission connection, the second driving shaft end are fixed with limited post, and the right side plate side is fixed with cylinder, the cylinder It is equipped with fixed column on the outside of end, bearing is equipped between the fixed column and cylinder head portions, the fixed column and cylinder pass through bearing It is flexibly connected, the fixed column end is equipped with limiting slot, and the limited post is adapted with limiting slot.

The technical effect and advantage of the utility model:

1, top plate drives the first positive and negative motor along x-axis or y-axis arbitrary motion, in order to adjust the position for being integrally machined mechanism It sets, the first positive and negative motor of cooperation is integrally machined mechanism rotation by the drive of the first transmission shaft, so that being integrally machined in mechanism Lathe tool, the first cam, the second cam and concave wheel can successively touch metal disk, metal disk connects with the first cam first Touching, since metal disk is in high speed rotation state, while the first cam can as top plate is in x-axis or y-axis arbitrary motion, from And processing and forming can be completed to metal disk, similarly, lathe tool can modify the edge of metal disk, and concave wheel can be right The edge of metal disk carries out bending, and the second cam can carry out secondary modification to the shape of metal disk, to complete metal Metal disk is processed into bottom cover finished product by the overall processing of disk, compared to the prior art in process equipment, have it is high Processing efficiency, design is reasonable, practicability with higher；

2, by being equipped with first sliding groove and second sliding slot, in order to the motion profile to the first sliding block and the second sliding block It is constrained, so that the first sliding block and the second slide block movement be avoided to deviate, ensure that and be integrally machined mechanism along x-axis or y-axis The precision of arbitrary motion, to guarantee the quality of bottom cover finished product.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model.

Fig. 2 is integrally machined mechanism structure schematic diagram for the utility model.

Fig. 3 is the top plate side structure schematic view of the utility model.

In figure: 1 crossbeam, 2 first sliding grooves, 3 first sliding blocks, 4 top plates, 5 first positive and negative motors, 6 first transmission shafts, 7 one Organisation of working, 8 fixed blocks, 9 first connecting rods, 10 second connecting rods, 11 third connecting rods, 12 the 4th connecting rods, 13 lathe tools, 14 First bull stick, 15 first cams, 16 second bull sticks, 17 second cams, 18 third bull sticks, 19 concave wheels, 20 second sliding blocks, 21T shape Drive block, 22 first screw rods, 23 second positive and negative motors, 24 second screw rods, the positive and negative motor of 25 thirds, 26 second sliding slots, 27 left sides Plate, 28 right side plates, 29 second driving shafts, 30 the 4th positive and negative motors, 31 limited posts, 32 cylinders, 33 fixed columns, 34 limiting slots.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of downlight back cover process equipment as shown in Figs. 1-3, including crossbeam 1, the crossbeam 1 Top is equipped with first sliding groove 2, and the first sliding block 3 is equipped with inside the first sliding groove 2, is equipped with top plate 4 at the top of first sliding block 3, It is fixed with the first positive and negative motor 5 at the top of the top plate 4, is fixed with the first transmission shaft 6 at the top of the first positive and negative motor 5, First transmission shaft, 6 top, which is fixed with, is integrally machined mechanism 7, and the mechanism 7 that is integrally machined includes fixed block 8, described solid Determine to be fixed with first connecting rod 9, the second connecting rod 10, third connecting rod 11 and the 4th connecting rod 12 on the outside of block 8, described first 9 end of connecting rod is equipped with lathe tool 13, runs through in second connecting rod 10 and is equipped with the first bull stick 14,14 end of the first bull stick Outer sheath is equipped with the first cam 15, runs through in the third connecting rod 11 and is equipped with the second bull stick 16,16 end of the second bull stick Portion's outer sheath is equipped with the second cam 17, runs through in the 4th connecting rod 12 and is equipped with third bull stick 18, the third bull stick 18 End outer sheath is equipped with concave wheel 19.

Further, in the above-mentioned technical solutions, the first connecting rod 9, the second connecting rod 10,11 and of third connecting rod 4th connecting rod 12 is arranged around fixed block 8.

Further, in the above-mentioned technical solutions, be equipped at the top of first sliding block 3 second sliding slot 26 and between it is fixed Equipped with T shape drive block 21,4 bottom of top plate is equipped with the second sliding block 20, and second sliding block 20 is set to inside second sliding slot 26, By being equipped with first sliding groove 2 and second sliding slot 26, in order to which the motion profile to the first sliding block 3 and the second sliding block 20 carries out Constraint, to avoid 20 motion excursion of the first sliding block 3 and the second sliding block, ensure that and be integrally machined mechanism 7 along x-axis or y-axis The precision of arbitrary motion, to guarantee the quality of bottom cover finished product.

Further, in the above-mentioned technical solutions, run through on second sliding block 20 and be equipped with the first screw rod 22, described second Sliding block 20 is threadedly coupled with the first screw rod 22, and 22 end of the first screw rod is fixed with the second positive and negative motor 23, and described second Positive and negative motor 23 is fixed at 3 rear side of the first sliding block.

Further, in the above-mentioned technical solutions, through equipped with the second screw rod 24, the T shape on the T shape drive block 21 Drive block 21 is threadedly coupled with the second screw rod 24, and 24 end of the second screw rod is fixed with the positive and negative motor 25 of third, and described Three positive and negative motors 25 are fixed at 1 front side of crossbeam.

Further, in the above-mentioned technical solutions, 1 side of crossbeam is fixed with left plate 27 and the other side is fixed Equipped with right side plate 28, the 4th positive and negative motor is fixed with through equipped with second driving shaft 29 and side on the left plate 27 30, the second driving shaft 29 and the 4th positive and negative motor 30 are sequentially connected, and 20 end of second driving shaft is fixed with limit Column 31,28 side of right side plate are fixed with cylinder 32, are equipped with fixed column 33, the fixed column on the outside of 32 end of cylinder Bearing is equipped between 33 and 32 end of cylinder, the fixed column 33 is flexibly connected with cylinder 32 by bearing, the fixed column 33 End is equipped with limiting slot 34, and the limited post 31 is adapted with limiting slot 34, in order to be equipped with the metal disk set of fixation hole It connects in 31 outside of limited post, then starts cylinder 32, cylinder 32 drives fixed column 33 to extend, and limited post 31 enters limiting slot 34 In, second driving shaft 29 and 33 end of fixed column are pressed respectively against the two sides of metal disk.

This practical working principle:

Referring to Figure of description 1, first by bottom cover raw material, i.e., the metal disk equipped with fixation hole is socketed in outside limited post 31 Then side starts cylinder 32, cylinder 32 drives fixed column 33 to extend, and limited post 31 enters in limiting slot 34, second driving shaft 29 And 33 end of fixed column is pressed respectively against the two sides of metal disk, is then powered for the 4th positive and negative motor 30, the 4th is positive and negative Motor 30 is rotated jointly after being powered by the drive metal disk of second driving shaft 29 and fixed column 33；

Referring to Figure of description 1, attached drawing 2 and attached drawing 3, then by for the second positive and negative motor 23 and the positive and negative motor of third 25 are powered, and the second positive and negative motor 23 of control is by driving the rotation of the first screw rod 22, so that second sliding block in 22 outside of the first screw rod 20 drive top plate 4 along 22 side-to-side movement of the first screw rod, control the positive and negative motor 25 of third by driving the rotation of the second screw rod 24, make The T shape drive block 21 for obtaining 24 outside of the second screw rod drives the first sliding block 3 along 2 side-to-side movement of first sliding groove, so that top plate 4 The first positive and negative motor 5 can be driven along x-axis or y-axis arbitrary motion, in order to adjust the position for being integrally machined mechanism 7, cooperation First positive and negative motor 5 is integrally machined the rotation of mechanism 7 by the drive of the first transmission shaft 6, so that being integrally machined the vehicle in mechanism 7 Knife 13, the first cam 15, the second cam 17 and concave wheel 19 can successively touch metal disk, and metal disk is convex with first first 15 contact of wheel, since metal disk is in high speed rotation state, while the first cam 15 can be as top plate 4 be in x-axis or y-axis times Meaning movement, so as to complete processing and forming to metal disk, similarly, lathe tool 13 can be repaired the edge of metal disk Whole, concave wheel 19 can carry out bending to the edge of metal disk, and the second cam 17 can carry out the shape of metal disk secondary Modification, to complete the overall processing of metal disk, metal disk is processed into bottom cover finished product, compared to the prior art in plus Construction equipment has high processing efficiency, and design is reasonable, practicability with higher；

Referring to Figure of description 1 and attached drawing 3, by being equipped with first sliding groove 2 and second sliding slot 26, in order to sliding to first The motion profile of block 3 and the second sliding block 20 is constrained, so that 20 motion excursion of the first sliding block 3 and the second sliding block is avoided, It ensure that and be integrally machined mechanism 7 along x-axis or the precision of y-axis arbitrary motion, to guarantee the quality of bottom cover finished product.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of downlight back cover process equipment, including crossbeam (1), it is characterised in that: be equipped with first sliding groove at the top of the crossbeam (1) (2), the first sliding block (3) are equipped with inside the first sliding groove (2), are equipped with top plate (4) at the top of first sliding block (3), the top It is fixed with the first positive and negative motor (5) at the top of plate (4), is fixed with the first transmission shaft at the top of the first positive and negative motor (5) (6), the first transmission shaft (6) top, which is fixed with, is integrally machined mechanism (7), and described be integrally machined mechanism (7) include fixing Block (8), be fixed on the outside of the fixed block (8) first connecting rod (9), the second connecting rod (10), third connecting rod (11) and 4th connecting rod (12), first connecting rod (9) end are equipped with lathe tool (13), run through on second connecting rod (10) and are equipped with First bull stick (14), the first bull stick (14) end outer sheath are equipped with the first cam (15), the third connecting rod (11) It is upper that through the second bull stick (16) are equipped with, the second bull stick (16) end outer sheath is equipped with the second cam (17), and the described 4th Through third bull stick (18) are equipped in connecting rod (12), third bull stick (18) end outer sheath is equipped with concave wheel (19).

2. a kind of downlight back cover process equipment according to claim 1, it is characterised in that: the first connecting rod (9), Two connecting rods (10), third connecting rod (11) and the 4th connecting rod (12) are arranged around fixed block (8).

3. a kind of downlight back cover process equipment according to claim 1, it is characterised in that: at the top of first sliding block (3) Equipped with second sliding slot (26) and between be fixed with T shape drive block (21), top plate (4) bottom is equipped with the second sliding block (20), it is internal to be set to second sliding slot (26) for second sliding block (20).

4. a kind of downlight back cover process equipment according to claim 3, it is characterised in that: passed through on second sliding block (20) It is equipped with the first screw rod (22), second sliding block (20) is threadedly coupled with the first screw rod (22), the first screw rod (22) end Portion is fixed with the second positive and negative motor (23), and the second positive and negative motor (23) is fixed on rear side of the first sliding block (3).

5. a kind of downlight back cover process equipment according to claim 3, it is characterised in that: on the T shape drive block (21) Through the second screw rod (24) are equipped with, the T shape drive block (21) is threadedly coupled with the second screw rod (24), second screw rod (24) End is fixed with the positive and negative motor of third (25), and the positive and negative motor of third (25) is fixed on front side of crossbeam (1).

6. a kind of downlight back cover process equipment according to claim 1, it is characterised in that: crossbeam (1) side is fixed It is fixed with right side plate (28) equipped with left plate (27) and the other side, through equipped with second driving shaft on the left plate (27) (29) and side is fixed with the 4th positive and negative motor (30), and the second driving shaft (29) is driven with the 4th positive and negative motor (30) Connection, second driving shaft (29) end are fixed with limited post (31), and right side plate (28) side is fixed with cylinder (32), fixed column (33) are equipped on the outside of cylinder (32) end, are equipped between the fixed column (33) and cylinder (32) end Bearing, the fixed column (33) are flexibly connected with cylinder (32) by bearing, and fixed column (33) end is equipped with limiting slot (34), the limited post (31) is adapted with limiting slot (34).