CN209550755U - A kind of numerical control high-precision high-velocity wire slabber - Google Patents

Abstract

The utility model discloses a kind of numerical control high-precision high-velocity wire slabbers.Belong to slabber technical field of structures, which can be improved the working efficiency of slabber, and then reduce manual operation, and structure is simple, easy to use.Including " L " type pedestal, the cutoff device that mating is slided with it is installed on transverse part of pedestal, the feeding device for being secured to mating is installed in the vertical portion of the pedestal, the feeding device includes the clamping component for being slidably connected at pedestal and indulging portion upper end, the front end of the feeding device is equipped with the pressing device being fixedly mounted with pedestal, and the pressing device is between feeding device and cutoff device.

Description

A kind of numerical control high-precision high-velocity wire slabber

Technical field

The utility model relates to slabber technical field of structures, and in particular to a kind of numerical control high-precision high-velocity wire saw plate Machine.

Background technique

Slabber is to be cut using saw blade to metal works, and a complete process includes feeding, feeding, cuts It cuts.

Chinese invention patent if notification number is CN105689793A disclosed one kind automatically on 06 22nd, 2016 Change circular sawing machine, including feed mechanism, feeding mechanism and circular sawing machine, in which: the sliding rail that the circular sawing machine is mounted on the base On, feeding mechanism is mounted on circular sawing machine side, cooperates with circular sawing machine and completes feeding, cutting action；The feeding mechanism is by leading Former and later two clamping devices of column connection are constituted, and forward and backward clamping device is equipped with clamping assembly, and wherein front clamp mechanism is solid Fixed, rear grip mechanism can move back and forth along guide post；The feed mechanism includes cradle and is located at cradle side Storage rack, the workpiece on the storage rack are transferred to cradle by jacking mechanism；Feeding mechanism is located at the storage of feed mechanism Expect frame end portion, the clamping part of the workpiece positive alignment rear grip mechanism on storage rack.

In actual production, many processes need manually to complete, not only inefficiency, but also cutting accuracy cannot also be protected Barrier.

Utility model content

The utility model is that there are the deficiencies of low efficiency in order to solve existing slabber, and providing one kind can be improved slabber Working efficiency, and then reduce manual operation, and structure is simple, numerical control high-precision high-velocity wire slabber easy to use.

The above technical problem is solved through the following technical scheme:

A kind of numerical control high-precision high-velocity wire slabber, including " L " type pedestal, be equipped on the transverse part of the pedestal and its The cutoff device of mating is slided, the feeding device for being secured to mating, the feeding device are installed in the vertical portion of the pedestal The clamping component of portion upper end is indulged including being slidably connected at pedestal, the front end of the feeding device is equipped with the pressure being fixedly mounted with pedestal Tight device, the pressing device is between feeding device and cutoff device.

Preferably, setting on the pedestal, there are two be placed in parallel and be in wedge-shaped exfoliation slot, the notch of the exfoliation slot Lower section is equipped with the chip removal component matched with it, and the chip removal component is fixedly mounted on the middle of the base, and the chip removal component includes For collecting the chip space of scrap in exfoliation slot, the chip removal trench bottom installation is with several cyclic annular tooth form items for pushing away bits block, institute It states tooth form item and engages connection with the driving gear of motor, the quantity for pushing away bits block is eight, and is evenly distributed on tooth form item Outer surface.

Preferably, the pressing device includes holding down assembly to hold down assembly in horizontal positioned second with first, it is described It includes pressed seat that first holds down assembly holds down assembly with second, and the left and right ends of the pressed seat are equipped with to be slided with guide post The guide groove of mating, first hold down assembly on two guiding top ends be fixedly connected in the bottom end of No.1 pressing plate, the second pressure Two guiding top ends on tight component are fixedly connected in the bottom end of No. two pressing plates, and guide post lower end is equipped with corresponding sliding The compressed oil cylinder of mating, the compressed oil cylinder are fixedly connected on the bottom end of pressed seat, the pressed seat upper end set there are two and its It is corresponding to fix mating and in the wearing plate being placed in parallel.

Preferably, the feeding device includes several idler wheels in parallelly distribute on being mounted on support base, the branch Support seat lower part is equipped with the clamping bracket that upwardly extends of both ends, the left and right ends for clamping bracket be separately installed with auxiliary cylinder with Clamping cylinder.

Preferably, the No.1 pressing plate is strip plate, No. two pressing plates are " L " type pressing plate.

Preferably, the cutoff device includes the head for being slidably connected at fuselage right end, the fuselage is sliding by No.1 Rail is slidably connected at the transverse part upper end of pedestal, and the head is slidably connected at fuselage right end by No. two sliding rails.

The utility model can reach following effect:

The utility model provides a kind of numerical control high-precision high-velocity wire slabber, can be improved the work effect of slabber Rate, and then manual operation is reduced, and structure is simple, it is easy to use.

Detailed description of the invention

Fig. 1 is a kind of overall structure diagram of the embodiment of the present invention.

Fig. 2 is a kind of structural schematic diagram of pedestal in the embodiment of the present invention.

Fig. 3 is a kind of structural schematic diagram of chip removal component in the embodiment of the present invention.

Fig. 4 is a kind of structural schematic diagram of feeding device in the embodiment of the present invention.

Fig. 5 is a kind of structural schematic diagram of pressing device in the embodiment of the present invention.

In figure: pedestal 1, transverse part 11 indulge portion 12, feeding device 2, clamping component 3, pressing device 4, cutoff device 5, exfoliation Slot 13, chip removal component 14, chip space 15 push away bits block 141, tooth form item 142, and motor 143 drives gear 144, support base 20, rolling Wheel 21, clamping cylinder 22 clamp bracket 23, and auxiliary cylinder 24, first holds down assembly 41, and second holds down assembly 42, pressed seat 40, No.1 pressing plate 43, No. two pressing plates 44, wearing plate 45, guide post 46, guide groove 47, compressed oil cylinder 48, head 51, fuselage 52, one Number sliding rail 6, No. two sliding rails 7.

Specific embodiment

The utility model is described further with embodiment with reference to the accompanying drawing.

Embodiment, a kind of numerical control high-precision high-velocity wire slabber is shown in Figure 1, including " L " type pedestal 1, the bottom The cutoff device 5 for sliding mating with it is installed on the transverse part 11 of seat 1, is equipped with and is secured in the vertical portion 12 of the pedestal 1 The feeding device 2 of mating, the feeding device 2 include being slidably connected at the clamping component 3 that pedestal 1 indulges 12 upper end of portion, it is described on The front end of material device 2 is equipped with the pressing device 4 being fixedly mounted with pedestal 1, and the pressing device 4 is located at feeding device 2 and blank Between device 5.

Shown in referring to figure 2-3, set on the pedestal 1 there are two being placed in parallel and in wedge-shaped exfoliation slot 13, the exfoliation The chip removal component 14 matched with it is equipped with below the notch of slot 13, the chip removal component 14 is fixedly mounted on 1 middle part of pedestal, institute Stating chip removal component 14 includes the chip space 15 for collecting scrap in exfoliation slot 13, and 15 bottom of the chip space installation is with several The cyclic annular tooth form item 142 of bits block 141 is pushed away, the tooth form item 142 engages connection with the driving gear 144 of motor 143, described to push away bits The quantity of block 141 is eight, and is evenly distributed on the outer surface of tooth form item 142.

Shown in Figure 4, the feeding device 2 includes several idler wheels in parallelly distribute on being mounted on support base 20 21,20 lower part of support base is equipped with the clamping bracket 23 that both ends upwardly extend, the left and right ends difference for clamping bracket 23 Auxiliary cylinder 24 and clamping cylinder 22 are installed.

Shown in Figure 5, the pressing device 4 includes holding down assembly 41 to hold down assembly in horizontal positioned second with first 42, described first hold down assembly 1 and second hold down assembly 2 include pressed seat 40, the left and right ends of the pressed seat 40 are all provided with There is the guide groove 47 with the sliding mating of guide post 46, the first two 46 tops of guide post to hold down assembly on 41 are fixedly connected with The bottom end of No.1 pressing plate 43, the second two 46 tops of guide post to hold down assembly on 42 are fixedly connected at the bottom of No. two pressing plates 44 End, 46 lower end of guide post are equipped with the compressed oil cylinder 48 of corresponding sliding mating, and the compressed oil cylinder 48 is fixedly connected on compression The bottom end of seat 40,40 upper end of pressed seat are set there are two corresponding fixed mating and in the wearing plate 45 being placed in parallel.Institute Stating No.1 pressing plate 43 is strip plate, and No. two pressing plates 44 are " L " type pressing plate.

The cutoff device 5 includes the head 51 for being slidably connected at 52 right end of fuselage, and the fuselage 52 passes through No.1 sliding rail 6 It is slidably connected at 11 upper end of transverse part of pedestal 1, the head 51 is slidably connected at 52 right end of fuselage by No. two sliding rails 7.

The concrete operations process and working principle of the present embodiment are as follows: one: before powering on, checking the company of each equipment State is connect, while feeding device 2, clamping component 3, pressing device 4 and cutoff device 5 being connected on computers by electric signal, Power on and opens computer；Two: first being held down assembly and 41 and second holds down assembly and 42 is in turn mounted to pedestal in sequence On 41, the oil pressure in compressed oil cylinder 48 is controlled by computer, when hydraulic raising in compressed oil cylinder 48, guide post 46 is in oil pressure Under effect, drives No.1 pressing plate 43 to rise simultaneously with No. two pressing plates 44, be increased to maximum value, i.e., one when hydraulic in compressed oil cylinder 48 Number pressing plate 43 and No. two pressing plates 44 rise to highest point simultaneously, pass through for material；Three: material being sent to feeding device 2, material On idler wheel 21 through feeding device 2, the cut place of the right end to feeding device 2 is sent, then computer control clamps bracket 23 Clamping cylinder 22 is worked at the same time with auxiliary cylinder 24, convenient for clamping 23 fastening material of bracket；Four: when material passes through the first compression group Part 41 and second holds down assembly and reaches designated position after 42, and after signal passes to computer, computer control first holds down assembly in 41 Hydraulic reduction in compressed oil cylinder 48, guide post 46 drive No.1 pressing plate 43 to decline, when compressed oil cylinder 48 under the action of oil pressure It is interior it is hydraulic drop to minimum value, i.e. No.1 pressing plate 43 is dropped to after minimum point positions material and is fastened；Five: and then the first compression group Low-voltage signal is passed to computer by the compressed oil cylinder 48 of part 41, the liquid that computer control second holds down assembly in 42 in compressed oil cylinder 48 Pressure drop is low, and guide post 46 drives No. two pressing plates 44 to decline, drop to minimum when hydraulic in compressed oil cylinder 48 under the action of oil pressure Value, i.e. No. two pressing plates 44 drop to minimum point and fasten material again；Six: then second hold down assembly 42 compressed oil cylinder 48 will After low-voltage signal passes to computer, the fuselage 52 of computer control 5 slides into the right end of No.1 sliding rail 6 along No.1 sliding rail 6, then Signal is passed into computer, the head 51 of computer control cutoff device 5 cuts material；Seven: when next section of material send to At feeding device 2, step 2 is repeated to six.

The workflow of the cutoff device 5 are as follows: after material is sent to designated position, the fuselage 52 of cutoff device 5 is driven Head 51 slides into the right end of No.1 sliding rail 6 along No.1 sliding rail 6, and then head 51 slides into No. two sliding rails 7 along No. two sliding rails 7 Bottom material is cut, cutting action complete after, head 51 first slides into No. two sliding rails 7 along No. two sliding rails 7 Topmost, the left end that then fuselage 52 drives head 51 to slide into No.1 sliding rail 6 along No.1 sliding rail 6 completes primary cutting stream Journey.

The utility model provides a kind of numerical control high-precision high-velocity wire slabber, can be improved the work effect of slabber Rate, and then manual operation is reduced, and structure is simple, easy to use, high reliablity.

The embodiments of the present invention have been described above with reference to the accompanying drawings, and however, the implementation is not limited to the above embodiments, this Field those of ordinary skill can various changes and modifications may be made within the scope of the appended claims.

Claims (6)

1. a kind of numerical control high-precision high-velocity wire slabber, including " L " type pedestal (1), which is characterized in that the pedestal (1) The cutoff device (5) for sliding mating with it is installed on transverse part (11), is equipped in the vertical portion (12) of the pedestal (1) solid with it Surely the feeding device (2) being coupled, the feeding device (2) include the clamping group for being slidably connected at pedestal (1) and indulging portion (12) upper end Part (3), the front end of the feeding device (2) are equipped with the pressing device (4) being fixedly mounted with pedestal (1), the pressing device (4) Between feeding device (2) and cutoff device (5).

2. a kind of numerical control high-precision high-velocity wire slabber according to claim 1, which is characterized in that the pedestal (1) On set that there are two be placed in parallel and be equipped in wedge-shaped exfoliation slot (13), below the notch of the exfoliation slot (13) matched with it Chip removal component (14), the chip removal component (14) is fixedly mounted in the middle part of pedestal (1), and the chip removal component (14) includes being used for The chip space (15) of exfoliation slot (13) interior scrap is collected, chip space (15) the bottom installation considers block (141) to be worth doing with several push away Cyclic annular tooth form item (142), the tooth form item (142) engages connection with the driving gear (144) of motor (143), described to push away bits block (141) quantity is eight, and is evenly distributed on the outer surface of tooth form item (142).

3. a kind of numerical control high-precision high-velocity wire slabber according to claim 1, which is characterized in that the pressing device (4) include with first hold down assembly (41) hold down assembly (42) in horizontal positioned second, described first hold down assembly (41) and Second holds down assembly (42) including pressed seat (40), and the left and right ends of the pressed seat (40) are equipped with sliding with guide post (46) The guide groove (47) of dynamic mating, the first two guide post (46) tops to hold down assembly on (41) are fixedly connected in No.1 pressing plate (43) bottom end, the second two guide post (46) tops to hold down assembly on (42) are fixedly connected at the bottom of No. two pressing plates (44) End, guide post (46) lower end are equipped with the compressed oil cylinder (48) of corresponding sliding mating, and the compressed oil cylinder (48) is fixedly connected In the bottom end of pressed seat (40), pressed seat (40) upper end is set there are two corresponding fixed mating and resistance in being placed in parallel Nog plate (45).

4. a kind of numerical control high-precision high-velocity wire slabber according to claim 1, which is characterized in that the feeding device It (2) include several idler wheels (21) in parallelly distribute on being mounted on support base (20), support base (20) lower part is equipped with two The clamping bracket (23) upwardly extended is held, the left and right ends for clamping bracket (23) are separately installed with auxiliary cylinder (24) and folder Locking oil cylinder (22).

5. a kind of numerical control high-precision high-velocity wire slabber according to claim 3, which is characterized in that the No.1 pressing plate It (43) is strip plate, No. two pressing plates (44) are " L " type pressing plate.

6. a kind of numerical control high-precision high-velocity wire slabber according to claim 1, which is characterized in that the cutoff device It (5) include the head (51) for being slidably connected at fuselage (52) right end, the fuselage (52) is slidably connected at by No.1 sliding rail (6) Transverse part (11) upper end of pedestal (1), the head (51) are slidably connected at fuselage (52) right end by No. two sliding rails (7).