A kind of perforating mold
Technical field
The utility model relates to LED product processing technique field, relates in particular to a kind of perforating mold.
Background technology
LED fluorescent tube is also commonly called as LED light pipe, LED fluorescent tube, LED fluorescent lamp, and its light source adopts LED as illuminator.Traditional fluorescent tube claims again fluorescent lamp, and respectively there is a filament at lamp two ends, is filled with micro-argon and thin mercury vapour in fluorescent tube, scribbles fluorescent material on tube inner wall, when gaseous conduction between two filaments, sends ultraviolet ray, makes fluorescent material send visible ray.Owing to containing heavy metal pollutants " mercury ", make the fluorescent tube scrapped very serious to the pollution of environment.And LED fluorescent tube adopts light emitting diode as light source, light efficiency is higher, more energy-conservation, longer service life, and more environmental protection.Become the ideal product that the current stage replaces fluorescent tube.
LED fluorescent tube is installed fairly simple, its point driving power is built-in and external two kinds, when the LED fluorescent tube installation of on-chip power, original fluorescent lamp is taken off and changes LED fluorescent tube, and ballast and starter are removed, allow 220V alternating current directly be added to LED lamp tube ends.
What existing LED fluorescent tube used is all PC cover substantially, all mix again spread powder manufacture and form by PC particle (chemical name: Merlon) processing, LED fluorescent tube is generally two ends and has the tubular structure of opening, power supply and plug need to be installed to for lamp tube power supply and by fluorescent tube sealing, need to offer the installing hole matching with mounting structure on plug and power supply to facilitate installation on LED fluorescent tube in the process that plug and power supply are installed at LED lamp tube end.
The processing mode of existing installing hole mostly is processing manually, and working (machining) efficiency is low, Working position is accurate not, wants to use automatic punching equipment to carry out the processing of installing hole, and it is very necessary that a kind of perforating mold is provided.
Utility model content
The technical problem that the utility model solves is: a kind of perforating mold is provided, and it can improve working (machining) efficiency and the machining accuracy of fluorescent tube installing hole.
For reaching this object, the utility model by the following technical solutions:
A kind of perforating mold, comprise punch die, described punch die is the column structure of hollow, the monosymmetric cross sliding clock that can slide in the horizontal direction that is provided with of described punch die, described cross sliding clock is provided with horizontal drift near the end of described punch die, corresponding with the described horizontal drift horizontal punching that is provided with on the sidewall of described punch die; On described cross sliding clock, be provided with for control the projection that described cross sliding clock slides in the horizontal direction under the effect of drive unit, described projection is cylindrical, in described cylindrical protrusions, is provided with bearing.
This mould adopts a side's disposed thereon power set to drive, cross sliding clock slides in the horizontal direction and need to apply active force in side, bulge-structure is as the direct stress point of this active force, driving process protrusions and force application mechanism that relative motion can occur, carry out relative sliding between the two, because frictional force in sliding process more easily causes slide block card master, also easily cause the damage of projection or force application mechanism, bearing is set in projection sliding friction is converted into rolling friction, can effective anti-limited slip block card master, and can prevent the damage of projection or force application mechanism.
As the preferred technical scheme of one, described punch die is arranged on die main body, and described die main body has orthogonal the first installing plate and the second installing plate, and the middle part of described the second installing plate arranges described punch die.
As the preferred technical scheme of one, described the second installing plate and described the first installing plate are structure as a whole, and described the second installing plate is positioned at one end of described the first installing plate.
As the preferred technical scheme of one, on described the second installing plate and the both sides that are positioned at described punch die are provided with frid, are provided with the chute for described cross sliding clock is installed on described frid.
Preferably, described the second installing plate and described frid are structure as a whole.
Preferably, on described the second installing plate, be provided with frid mounting groove, described frid is fixedly mounted on described the second installing plate by described frid mounting groove.
Frid and frid mounting groove are set, and to make frid and the second installing plate be detachable connection, adds and can only change frid man-hour at the installing hole that need to carry out different size specification, improves the versatility of equipment.
As the preferred technical scheme of one, the end away from described horizontal drift on described frid is provided with postive stop baffle, and described postive stop baffle is mounted by means of bolts on described frid.
Postive stop baffle is set can come off by anti-limited slip block in chute.
As the preferred technical scheme of one, described cross sliding clock middle part is provided with slide block restoring board, on described frid, is provided with back-moving spring mounting rod away from the end of described horizontal drift, between described slide block restoring board and described back-moving spring mounting rod, is provided with extension spring.
Slide block carries out to punch die direction motion by projection, slide block being applied to active force in the process of punching, by extension spring, slide block is retracted in chute, until the end of slide block contacts with described postive stop baffle in reseting procedure.
As the preferred technical scheme of one, the top of described punch die is provided with the upright slide block can in the vertical direction sliding, described upright slide block is provided with vertical drift near the end of described punch die, on described punch die, be provided with the vertical punching corresponding with described vertical drift, on described upright slide block, be provided with the projection of sliding for control described upright slide block in the vertical direction under the effect of drive unit.
As the preferred technical scheme of one, on the second installing plate of described punch die top, the vertical frid that is provided with, is provided with the chute for described upright slide block is installed on described frid.
As the preferred technical scheme of one, the end away from described vertical drift on described frid is provided with postive stop baffle, and described postive stop baffle is mounted by means of bolts on described frid.
As the preferred technical scheme of one, described slide block middle part is provided with slide block restoring board, on described frid, is provided with back-moving spring mounting rod away from the end of described drift, between described slide block restoring board and described back-moving spring mounting rod, is provided with extension spring.
The beneficial effects of the utility model are: can process multiple installing holes by mould simultaneously, in projection, be provided with the mode of action that bearing can change power, make force of sliding friction be changed to rolling friction, can improve punching efficiency, prevent the damage of projection or force application mechanism.
Brief description of the drawings
According to drawings and embodiments the utility model is described in further detail below.
Fig. 1 is punch model structure schematic diagram described in embodiment mono-.
Fig. 2 is cross sliding clock structural representation in Fig. 1.
Fig. 3 is punch model structure schematic diagram described in embodiment bis-.
Fig. 4 is die main body structural representation described in embodiment bis-.
In Fig. 1,2:
1, punch die; 2, cross sliding clock; 3, horizontal drift; 4, projection; 5, bearing; 6, the first installing plate; 7, the second installing plate; 8, frid; 9, postive stop baffle; 10, slide block restoring board; 11, back-moving spring mounting rod; 12, extension spring.
In Fig. 3,4:
20, cross sliding clock; 21, upright slide block; 22, punch die; 23, vertical drift; 24, projection; 25, frid mounting groove; 26, the second installing plate.
Detailed description of the invention
Further illustrate the technical solution of the utility model below in conjunction with accompanying drawing and by detailed description of the invention.
Embodiment mono-:
As shown in Figure 1, 2, in the present embodiment, a kind of perforating mold described in the utility model, comprise die main body, die main body has orthogonal the first installing plate 6 and the second installing plate 7, the first installing plate 6 and the second installing plate 7 are integral type structure, and the first installing plate 6 is horizontally disposed with, and the second installing plate 7 is positioned at one end of the first installing plate 6.
The middle part of the second installing plate 7 arranges punch die 1, the column structure that punch die 1 is hollow, axis horizontal arranges, on the second installing plate 7, be positioned at punch die 1 both sides be respectively arranged with the frid 8 that protrudes from the second installing plate 7 planes, on every frid 8, be provided with a chute that runs through frid 8, in chute, be provided with the cross sliding clock 2 that can slide in the horizontal direction, cross sliding clock 2 is provided with horizontal drift 3 near the end of punch die 1, corresponding with horizontal drift 3 horizontal punching that is provided with on the sidewall of punch die 1; Horizontal drift 3 coordinates with horizontal punching and carries out punching.
Cross sliding clock 2 is arranged in chute, is provided with postive stop baffle 9 at frid 8 away from the end of punch die 1, and postive stop baffle 9 is mounted by means of bolts on frid 8.
On cross sliding clock 2, be provided with the projection 4 of sliding in the horizontal direction for level of control slide block 2 under the effect of drive unit, projection 4 is cylindrical, is provided with bearing 5 in cylindrical protrusions 4.
This mould slide block adopts a side's disposed thereon power set to drive, cross sliding clock 2 slides and need to apply active force in side in the horizontal direction, projection 4 structures are as the direct stress point of this active force, can there is relative motion in the process of driving protrusions 4 with force application mechanism, carry out relative sliding between the two, because frictional force in sliding process more easily causes cross sliding clock 2 cards main, also easily cause the damage of projection 4 or force application mechanism, in projection 4, bearing 5 is set sliding friction is converted into rolling friction, can effectively prevent that cross sliding clock 2 cards are main, and can prevent the damage of projection 4 or force application mechanism.
Be provided with slide block restoring board 10 at cross sliding clock 2 middle parts, on frid 8, be provided with back-moving spring mounting rod 11 away from the end of horizontal drift 3, between slide block restoring board 10 and back-moving spring mounting rod 11, be provided with extension spring 12.Cross sliding clock 2 carries out to punch die 1 direction motion applying active force by 4 pairs of cross sliding clocks 2 of projection in the process of punching, by extension spring 12, cross sliding clock 2 is retracted in chute, until the end of cross sliding clock 2 contacts with postive stop baffle 9 in reseting procedure.
Embodiment bis-:
As Fig. 3, shown in 4, perforating mold described in the present embodiment is identical with above-described embodiment basic structure, its difference is, in the present embodiment, except being set in the horizontal direction of die main body, two chutes that cross sliding clock 20 is installed also above punch die 22, are vertically provided with chute, upright slide block 21 is set in chute, near the end of punch die 22, vertical drift 23 is set at upright slide block 21, position corresponding with vertical drift 23 on punch die 22 arranges vertical punching, and on upright slide block 21, be provided for equally controlling the projection 24 that upright slide block in the vertical direction slides under the effect of drive unit, in the present embodiment because the force direction of upright slide block 21 drive unit in the process of punching is identical with the direction of motion of upright slide block 21, therefore do not need to arrange bearing arrangement.
In the present embodiment, on the second installing plate 26, be provided with frid mounting groove 25, in frid mounting groove 25, frid be set, chute is arranged on frid and runs through frid.
Frid and frid mounting groove 25 are set, and to make frid be detachable connection with the second installing plate 26, adds and can only change frid man-hour, the versatility of raising equipment at the installing hole that need to carry out different size specification.
What need statement is; above-mentioned detailed description of the invention is only preferred embodiment of the present utility model and institute's application technology principle; in technical scope disclosed in the utility model; the variation that any those skilled in the art of being familiar with easily expect or replacement, all should be encompassed in protection domain of the present utility model.