CN205062089U - Numerical control leather cutting machine - Google Patents

Abstract

The utility model discloses a numerical control leather cutting machine, including fuselage, at least one cutter head, conveyer belt I, drive belt II, power device I, power device II and controlling means. When cutting the leather on conveyer belt I, the staff can stand and cut the collection of cut -parts on drive belt II is accomplished on drive belt II both sides, and cut paving and typesetting of cladding next time, conveyer belt I is gone up and is cut the back that finishes, with I reverse conveying of conveyer belt, to cut cut -parts withdraws from below the cutter head, and the below of conveying the cutter head with the leather on the drive belt II, leather to on the drive belt II cuts, the simultaneous working personnel can stand and cut the collection of cut -parts on conveyer belt I is accomplished on conveyer belt I both sides, and cut paving and typesetting of cladding next time, conveyer belt I forms two non -interfering cutting regions with drive belt II, can be in turn carry out cutting process to the leather on conveyer belt I and the drive belt II, the cutting efficiency is increased.

Description

Numerical control leather cutting machine

Technical field

The utility model relates to a kind of numerical control leather cutting machine.

Background technology

Existing leather cutting machine, when collecting cut-parts spread skin and cutting before cutting hides after, staff must climb up cutting working platform face and carry out work, this mode of operation not only affects working efficiency, and can bring potential safety hazard to staff, and when cutting new leather, the leather must waiting until on worktable has cut just can be changed afterwards, while changing, leather cutting machine is out-of-work, and this cutting mode has had a strong impact on cutting efficiency, improves cutting cost.

Utility model content

The purpose of this utility model is to provide a kind of numerical control leather cutting machine, with at least one in solving the problems of the technologies described above.

According to an aspect of the present utility model, provide a kind of numerical control leather cutting machine, comprise fuselage, at least one cutter head, travelling belt I, transmission belt II, power set I, power set II and control device, travelling belt I and transmission belt II are located at the top of fuselage, travelling belt I and transmission belt II laid out in parallel, power set I drives travelling belt I and transmission belt II individual drive separately, cutter head is positioned at the top of travelling belt I and transmission belt II, power set II drives cutter head to move back and forth with Y-direction in X direction, control device is respectively to power set I, power set II transmits control signal, control device sends cutoff signal to cutter head.

Two transmission of independently retreating are provided with in the utility model, the travelling belt I of laid out in parallel and transmission belt II, when cutting machine cuts leather on travelling belt I, staff may stand in the collection that transmission belt II both sides complete last cutting cut-parts on transmission belt II, and cut paving and typesetting preparation work of cladding next time, wait for after travelling belt I cuts, pass through operating control device, travelling belt I is oppositely transmitted, cutting cut-parts are exited below cutter head, and control transmission belt II transmission, leather to be cut on transmission belt II is sent to the below of cutter head, pass through operating control device, cutter head is cut the leather on transmission belt II, staff may stand in the collection that travelling belt I both sides complete last cutting cut-parts on travelling belt I simultaneously, and cut paving and typesetting preparation work of cladding next time, travelling belt I and transmission belt II form two non-interfering cutting zones, cutting processing can be carried out in turn to the leather on travelling belt I and transmission belt II, cutting work stoppage can not be forced when paving cladding and collecting cut-parts, reduce productivity effect, same staff only need stand in travelling belt I and transmission belt II both sides, the work of paving cladding and collecting cut-parts just easily can be completed by the forward and reverse transmission controlling travelling belt I and transmission belt II, work is carried out without the need to climbing up cutting working platform face, so both safety was also quick, improve cutting efficiency, simultaneously staff can regulate according to the requirement of oneself that transfer rate is coherent finishes the work.

In some embodiments, four cylinders can also be comprised, four cylinder arranged in parallel are at fuselage roof, be rotationally connected with fuselage, wherein two cylinders are arranged in travelling belt I, and two other cylinder is arranged in transmission belt II, power set I comprises the first motor and the second motor, first motor is rotated by head roll and drives travelling belt I transmission, and the second motor is rotated by head roll and drives transmission belt II transmission, and control device transmits control signal respectively to the first motor and the second motor.Thus, first motor and the second motor head roll rotate, cylinder can drive travelling belt I and transmission belt II transmission, thus the leather to be cut on travelling belt I or transmission belt II is sent to the below of cutter head, or the leather cut-parts of well cutting is exited from the below of cutter head.

In some embodiments, the quantity of cutter head can be two.Thus, by two cutter heads, leather is cut simultaneously, can cutting efficiency be improved.

In some embodiments, crossbeam I and crossbeam II can also be comprised, power set II can comprise the 3rd motor, 4th motor, 5th motor and the 6th motor, a cutter head is located on crossbeam I, another cutter head is located on crossbeam II, 3rd motor drives the cutter head on crossbeam I to move back and forth along crossbeam I, 4th motor drives the cutter head on crossbeam II to move back and forth along crossbeam II, the both sides of fuselage are provided with sawtooth guide rail, 5th motor is located on crossbeam I, 6th motor is located on crossbeam II, the rotation axis of the 5th motor is provided with the first gear engaged with sawtooth guide rail, the rotation axis of the 6th motor is provided with the second gear engaged with sawtooth guide rail, 5th motor drives crossbeam I to move back and forth along sawtooth guide rail by the first pinion rotation, 6th motor drives crossbeam II to move back and forth along sawtooth guide rail by the second pinion rotation, control device is respectively to the 3rd motor, 4th motor, 5th motor and the 6th motor transmit control signal.Thus, 3rd motor and the 5th motor can drive the cutter head on crossbeam I to move with Y-direction in X direction, meet leather split requirement, the 4th motor and the 6th motor can drive the cutter head on crossbeam II to move with Y-direction in X direction, meet leather split requirement.

In some embodiments, the first belt and the second belt can also be comprised, crossbeam I and crossbeam II are equipped with guide-track groove, cutter head is provided with draw-in groove, draw-in groove is connected in guide-track groove, cutter head is provided with gripping unit, cutter head on crossbeam I is fixed on the first belt by gripping unit, 3rd motor drives the first belt transmission, the cutter head on crossbeam I is driven to move back and forth along crossbeam I, cutter head on crossbeam II is fixed on the second belt by gripping unit, 4th motor drives the second belt transmission, the cutter head on crossbeam II is driven to move back and forth along crossbeam II.Thus, 3rd motor is by driving first belt transmission, thus the cutter head on the first belt can be driven to move back and forth along the guide-track groove on crossbeam I, 4th motor by driving second belt transmission, thus can drive the cutter head on the second belt to move back and forth along crossbeam II upper rail groove.

In some embodiments, can also comprise projection arrangement, projection arrangement is positioned at the top of cutter head, and control device transmits control signal to projection arrangement.Thus, before cutting hides, the cutting profile of leather is projected on leather to be cut by projection arrangement, and cutter head carries out cutting processing according to cutting profile to leather.

In some embodiments, can also comprise belt transmission switch, the opening/break of belt transmission on-off control power set I, belt transmission switch is located at the sidepiece of fuselage.Thus, after having spread skin before cutting or when collecting cut-parts after cutting, staff presses the belt transmission switch of side-of-body, travelling belt I or transmission belt II can carry out forward transmission or oppositely transmit, thus the leather to be cut on travelling belt I or transmission belt II is sent to the below of cutter head, or the leather cut-parts of well cutting are exited from the below of cutter head, as belt transmission switch is arranged on the lower position of side-of-body, staff can carry out pressing operation with pin, convenient and swift.

Accompanying drawing explanation

Fig. 1 is the structural representation of the numerical control leather cutting machine of a kind of embodiment of utility model;

Fig. 2 hides the structural representation of travelling belt I and transmission belt II for the numerical control leather cutting machine shown in Fig. 1;

Fig. 3 is for hiding the structural representation of fuselage front part shell in the numerical control leather cutting machine shown in Fig. 2;

Fig. 4 is the structure for amplifying schematic diagram in A portion in the numerical control leather cutting machine shown in Fig. 3;

Fig. 5 is the structural representation of sawtooth guide rail in the numerical control leather cutting machine shown in Fig. 3;

Fig. 6 is for hiding the structural representation of fuselage rear section shell and the first motor in the numerical control leather cutting machine shown in Fig. 1;

Fig. 7 is the side-looking structural representation of the numerical control leather cutting machine shown in Fig. 1;

Fig. 8 is for hiding the structural representation of the shell of crossbeam I in the numerical control leather cutting machine shown in Fig. 1;

Fig. 9 is the structure for amplifying schematic diagram in B portion in the numerical control leather cutting machine shown in Fig. 8;

Figure 10 is the workflow diagram of the numerical control leather cutting machine shown in Fig. 1;

Figure 11 is the another kind of workflow diagram of the numerical control leather cutting machine shown in Fig. 1.

Embodiment

Below in conjunction with accompanying drawing, utility model is described in more detail.

Fig. 1 to Fig. 9 show schematically show the structure of the numerical control leather cutting machine of a kind of embodiment of utility model.

As shown in Figures 1 to 9, numerical control leather cutting machine, comprises fuselage 1, cutter head 2, travelling belt I 3, transmission belt II 4, power set I, power set II and control device 7.In addition, numerical control leather cutting machine can also comprise cylinder 8, crossbeam I 9, crossbeam II 10, first belt 11, second belt, projection arrangement 14, belt transmission switch 15 and projecting rack 16.

As shown in Figure 1, travelling belt I 3 and transmission belt II 4 are arranged on the top of fuselage 1 side by side, form two cutting zones.

As shown in Figure 2, in the present embodiment, four cylinder 8 arranged in parallel are at the top of fuselage 1, each cylinder 8 is rotationally connected with fuselage 1, two ends as each cylinder 8 can be fixing on the fuselage 1 by bearing, wherein two cylinders 8 are arranged in travelling belt I 3, and two other cylinder 8 is arranged in transmission belt II 4.In other embodiments, the quantity of cylinder 8 and position can be changed, and transmit as long as travelling belt I 3 and transmission belt II 4 can be driven independently to rotate separately.

As shown in Figure 2, power set I comprises the first motor 51 and the second motor 52; The rotation axis of the first motor 51 is connected with the cylinder 8 of fuselage 1 rightmost side, first motor 51 is rotated by head roll 8 thus drives travelling belt I 3 transmission, the rotating of the first motor 51 can realize travelling belt I 3 transmission to the right and to Left Drive, thus the leather to be cut on travelling belt I 3 is sent to the below of cutter head 2, or the leather cut-parts of well cutting on travelling belt I 3 are exited from the below of cutter head 2; The rotation axis of the second motor 52 is connected with the cylinder 8 of fuselage 1 leftmost side, second motor 52 is rotated by head roll 8 thus drives transmission belt II 4 transmission, the rotating of the second motor 52 can realize transmission belt II 4 transmission to the right and to Left Drive, thus the leather to be cut on transmission belt II 4 is sent to the below of cutter head 2, or the leather cut-parts of well cutting on transmission belt II 4 are exited from the below of cutter head 2, travelling belt I 3 and transmission belt II 4 individual drive separately, is independent of each other.

As shown in Figure 1, in the present embodiment, the quantity of cutter head 2 is two, and two cutter heads 2 are positioned at the top of travelling belt I 3 and transmission belt II 4.Cut by two cutter heads, 2 pairs of leathers simultaneously, can cutting efficiency be improved.In other embodiments, the quantity of cutter head 2 can require to be arranged to more than one or three according to cutting efficiency.

As shown in Figure 2, crossbeam I 9 and crossbeam II 10 are across the top at fuselage 1, and crossbeam I 9 is identical with crossbeam II 10 structure.

As shown in Figure 2, a cutter head 2 is arranged on crossbeam I 9, and another cutter head 2 is arranged on crossbeam II 10.

Power set II comprises the 3rd motor 61, the 4th motor, the 5th motor 63 and the 6th motor.

As shown in Figure 8 and Figure 9, crossbeam I 9 is provided with guide-track groove 13, cutter head 2 on crossbeam I 9 is provided with draw-in groove 21, draw-in groove 21 is connected in guide-track groove 13, cutter head 2 is provided with gripping unit 22, cutter head 2 on crossbeam I 9 is fixed on the first belt 11 by gripping unit 22, and the 3rd motor 61 drives the first belt 11 transmission (as shown in Figure 8), and the first belt 11 transmission can drive the cutter head 2 on crossbeam I 9 to move back and forth along crossbeam I 9.

Crossbeam I 9 is identical with crossbeam II 10 structure, cutter head 2 on crossbeam II 10 is also be fixed on (Fig. 8 is not shown) on the second belt by gripping unit 22,4th motor drives the second belt transmission, and the second belt transmission can drive the cutter head 2 on crossbeam II 10 to move back and forth along crossbeam II 10.

In the present embodiment, the 3rd motor 61 drives the cutter head 2 on crossbeam I 9 to move back and forth along crossbeam I 9 by the first belt 11, and the 4th motor is moved back and forth along crossbeam II 10 by the cutter head 2 on the second belt drive crossbeam II 10.In other embodiments, 3rd motor 61 also can be moved back and forth along crossbeam I 9 by the cutter head 2 on crawler belt or chain-driving crossbeam I 9, and the 4th motor also can be moved back and forth along crossbeam II 10 by the cutter head 2 on crawler belt or chain-driving crossbeam II 10.

As shown in Figure 3 and Figure 5,5th motor 63 is arranged on crossbeam I 9, the both sides of fuselage 1 are provided with sawtooth guide rail 101, the rotation axis of the 5th motor 63 is fixed with the first gear 631 engaged with sawtooth guide rail 101, when 5th motor 63 drives the first gear 631 to rotate, the sawtooth guide rail 101 of crossbeam I 9 along fuselage 1 both sides together with the 5th motor 63 meeting moves back and forth, and the rotating of the 5th motor 63 can realize crossbeam I 9 and moves right along sawtooth guide rail 101 and be moved to the left.

The principle that crossbeam II 10 moves back and forth along the sawtooth guide rail 101 of fuselage 1 both sides is identical with crossbeam I 9 with structure, 6th motor is arranged on crossbeam II 10, the rotation axis of the 6th motor is fixed with the second gear (Fig. 3 is not shown) engaged with sawtooth guide rail 101, when 6th motor drives the second pinion rotation, crossbeam II 10 and the 6th motor can together with move back and forth along the sawtooth guide rail 101 of fuselage 1 both sides, the rotating of the 6th motor can realize crossbeam II 10 and moves right and be moved to the left.

3rd motor 61 and the 5th motor 63 can drive the cutter head 2 on crossbeam I 9 to move with Y-direction in X direction, meet leather split requirement, 4th motor and the 6th motor can drive the cutter head 2 on crossbeam II 10 to move with Y-direction in X direction, meet leather split requirement.

As shown in Figure 1, the quantity of projection arrangement 14 is two, and be arranged in projecting rack 16, projecting rack 16 is placed on the side of fuselage 1, and guarantee that a projection arrangement 14 is positioned at above travelling belt I 3, another projection arrangement 14 is positioned on transmission belt II 4.Before cutting hides, the cutting profile of leather is projected on leather to be cut by projection arrangement 14, and cutter head 2 carries out cutting processing according to cutting profile to leather.

As shown in Figure 1, in the present embodiment, belt transmission switch 15 is arranged on bottom the front side of fuselage 1, and belt transmission switch 15 is electrically connected with the first motor 51 and the second motor 52, controls opening/breaking of the first motor 51 and the second motor 52.After having spread skin before cutting or when collecting cut-parts after cutting, staff presses the belt transmission switch 15 of side-of-body with pin, travelling belt I 3 or transmission belt II 4 can carry out forward transmission or oppositely transmit, thus the leather to be cut on travelling belt I 3 or transmission belt II 4 is sent to the below of cutter head 2, or the leather cut-parts of well cutting are exited from the below of cutter head 2, staff can carry out pressing operation with pin, convenient and swift.In other embodiments, the installation site of belt transmission switch 15 can be arranged on other position of fuselage 1 according to actual needs.

Control device 7 is electrically connected with the first motor 51 and the second motor 52 respectively, control device 7 transmits control signal respectively to the first motor 51, second motor 52, control the first motor 51 and the second motor 52 forward or reverse, thus the forward realizing travelling belt I 3 and transmission belt II 4 transmits and oppositely transmits.

Control device 7 is electrically connected with the 3rd motor 61, the 4th motor, the 5th motor 63 and the 6th motor respectively, control device 7 transmits control signal respectively to the 3rd motor 61, the 4th motor, the 5th motor 63, the 6th motor, control the 3rd motor 61, the 4th motor, the 5th motor 63, the 6th motor forward or reverse, thus two cutter heads 2 can be realized move with Y-direction in X direction.

Control device 7 is electrically connected with two cutter heads 2, and control device 7 sends cutoff signal to cutter head 2 or stops cutoff signal, controls cutter head 2 and cuts the leather to be cut on travelling belt I 3 or transmission belt II 4 according to projection cutting profile.

Control device 7 is electrically connected with projection arrangement 14, and control device 7 transmits control signal to projection arrangement 14, controls projection arrangement 14 and to project on travelling belt I 3 and transmission belt II 4 the leather cutting profile set.

In the utility model, travelling belt I 3 and the separate advance and retreat of transmission belt II 4 transmit, and laid out in parallel, when cutting machine cuts according to projected outline with two cutter heads, 2 pairs of leathers on travelling belt I 3, staff may stand in the collection that transmission belt II 4 both sides complete last cutting cut-parts on transmission belt II 4, and cut paving and typesetting preparation work of cladding next time, wait for after travelling belt I 3 cuts, by operating control device 7, travelling belt I 3 is oppositely transmitted, cutting cut-parts are exited below two cutter heads 2, and control transmission belt II 4 transmission, leather to be cut on transmission belt II 4 is sent to the below of two cutter heads 2, by operating control device 7, leather on two cutter heads, 2 pairs of transmission belts II 4 is cut according to projected outline, staff may stand in travelling belt I 3 both sides simultaneously, the collection of last cutting cut-parts on travelling belt I 3 is completed by the forward and reverse transmission controlling travelling belt I 3, and cut paving and typesetting preparation work of cladding next time, travelling belt I 3 and transmission belt II 4 form two non-interfering cutting zones, cutting processing can be carried out in turn to the leather on travelling belt I 3 and transmission belt II 4, cutting work stoppage can not be forced when paving cladding and collecting cut-parts, reduce productivity effect, same staff only need stand in travelling belt I 3 and transmission belt II 4 both sides, the work of paving cladding and collecting cut-parts just easily can be completed by the forward and reverse transmission controlling travelling belt I 3 or transmission belt II 4, work is carried out without the need to climbing up cutting working platform face, so both safety was also quick, improve cutting efficiency, simultaneously staff can regulate according to the requirement of oneself that transfer rate is coherent finishes the work.

Figure 10 show schematically show the workflow of numerical control leather cutting machine.

As shown in Figure 10, the workflow of numerical control leather cutting machine is as follows:

S101: control device 7 transmits control signal to power set I, controls travelling belt I 3 or the transmission of transmission belt II 4 forward, makes the leather to be cut on travelling belt I 3 or transmission belt II 4 be positioned at the below of two cutter heads 2;

S102: control device 7 transmits control signal to projection arrangement 14, controls projection arrangement 14 to the leather projection cutting profile to be cut on travelling belt I 3 or transmission belt II 4;

S103: control device 7 transmits control signal to power set II, cutoff signal is sent to two cutter heads 2, two cutter heads 2 are moved with Y-direction in X direction, and control two cutter heads 2 according to projection cutting profile the leather to be cut on travelling belt I 3 or transmission belt II 4 is cut;

S104: after the leather on travelling belt I 3 or transmission belt II 4 has cut, control device 7 transmits control signal to power set II, the cutter head 2 completed to cutting sends stopping cutoff signal, and the cutter head 2 controlling to have cut quits work and moves;

S105: control device 7 transmits control signal to power set I, controls travelling belt I 3 or transmission belt II 4 oppositely transmits, and the leather of well cutting on travelling belt I 3 or transmission belt II 4 is exited below two cutter heads 2;

Leather to be cut on S106: two cutter heads 2 pairs of travelling belts I 3 and transmission belt II 4 cuts in turn, when namely the leather on travelling belt I 3 being cut, staff may stand in the collection that travelling belt II 4 both sides complete last cutting cut-parts on travelling belt II 4, and cut paving and typesetting preparation work of cladding next time, after leather on travelling belt I 3 has cut, cutting cut-parts on travelling belt I 3 are exited from the below of two cutter heads 2, and collect, leather to be cut on travelling belt II 4 is sent to the below of two cutter heads 2 simultaneously, when leather on travelling belt II 4 is cut, staff may stand in the collection that travelling belt I 3 both sides complete last cutting cut-parts on travelling belt I 3, and cut paving and typesetting preparation work of cladding next time, travelling belt I 3 and transmission belt II 4 form two non-interfering cutting zones, cutting processing can be carried out in turn to the leather on travelling belt I 3 and transmission belt II 4.

Figure 11 show schematically show the another kind of workflow of numerical control leather cutting machine.

As shown in figure 11, the another kind of workflow of numerical control leather cutting machine is as follows:

S201: control device 7 transmits control signal to the first motor 51 or the second motor 52, controls travelling belt I 3 or the transmission of transmission belt II 4 forward, makes the leather to be cut on travelling belt I 3 or transmission belt II 4 be positioned at the below of two cutter heads 2;

S202: control device 7 transmits control signal to projection arrangement 14, controls projection arrangement 14 to the leather projection cutting profile to be cut on travelling belt I 3 or transmission belt II 4;

S203: control device 7 transmits control signal to the 3rd motor 61, the cutter head 2 controlled on crossbeam I 9 moves along crossbeam I 9, control device 7 transmits control signal to the 5th motor 63, control crossbeam I 9 to move along sawtooth guide rail 101, cutoff signal is sent to the cutter head 2 on crossbeam I 9 with timed unit 7, cutter head 2 on crossbeam I 9 is cut the leather to be cut on travelling belt I 3 or transmission belt II 4 according to projection cutting profile

Transmit control signal to the 4th motor with timed unit 7, the cutter head 2 controlled on crossbeam II 10 moves along crossbeam II 10, control device 7 transmits control signal to the 6th motor, control crossbeam II 10 to move along sawtooth guide rail 101, send cutoff signal with timed unit 7 to the cutter head 2 on crossbeam II 10, the cutter head 2 on crossbeam II 10 is cut the leather to be cut on travelling belt I 3 or transmission belt II 4 according to projection cutting profile;

S204: after the leather on travelling belt I 3 or transmission belt II 4 has cut, control device 7 transmits control signal to the 3rd motor 61, the 5th motor 63 or the 4th motor, the 6th motor, the cutter head 2 completed to cutting sends stopping cutoff signal, and the cutter head 2 controlling to have cut quits work and moves;

S205: control device 7 transmits control signal to the first motor 51 or the second motor 52, controls travelling belt I 3 or transmission belt II 4 oppositely transmits, and the leather of well cutting on travelling belt I 3 or transmission belt II 4 is exited below two cutter heads 2;

Leather to be cut on S206: two cutter heads 2 pairs of travelling belts I 3 and transmission belt II 4 cuts in turn, when namely the leather on travelling belt I 3 being cut, staff may stand in the collection that travelling belt II 4 both sides complete last cutting cut-parts on travelling belt II 4, and cut paving and typesetting preparation work of cladding next time, after leather on travelling belt I 3 has cut, cutting cut-parts on travelling belt I 3 are exited from the below of two cutter heads 2, and collect, leather to be cut on travelling belt II 4 is sent to the below of two cutter heads 2 simultaneously, when leather on travelling belt II 4 is cut, staff may stand in the collection that travelling belt I 3 both sides complete last cutting cut-parts on travelling belt I 3, and cut paving and typesetting preparation work of cladding next time, travelling belt I 3 and transmission belt II 4 form two non-interfering cutting zones, cutting processing can be carried out in turn to the leather on travelling belt I 3 and transmission belt II 4.

Above-described is only embodiments more of the present utility model.For the person of ordinary skill of the art, under the prerequisite not departing from the utility model creation design, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (7)

1. numerical control leather cutting machine, it is characterized in that, comprise fuselage (1), at least one cutter head (2), travelling belt I (3), transmission belt II (4), power set I, power set II and control device (7), described travelling belt I (3) and transmission belt II (4) are located at the top of fuselage (1), travelling belt I (3) and transmission belt II (4) laid out in parallel, described power set I drives travelling belt I (3) and the respective individual drive of transmission belt II (4), described cutter head (2) is positioned at the top of travelling belt I (3) and transmission belt II (4), described power set II drives cutter head (2) to move back and forth with Y-direction in X direction, described control device (7) is respectively to power set I, power set II transmits control signal, described control device (7) sends cutoff signal to cutter head (2).

2. numerical control leather cutting machine according to claim 1, it is characterized in that, also comprise four cylinders (8), four cylinder (8) arranged in parallel are at fuselage (1) top, be rotationally connected with fuselage (1), wherein two cylinders (8) are arranged in travelling belt I (3), two other cylinder (8) is arranged in transmission belt II (4), described power set I comprises the first motor (51) and the second motor (52), described first motor (51) is rotated by head roll (8) and is driven travelling belt I (3) transmission, second motor (52) is rotated by head roll (8) and drives transmission belt II (4) transmission, described control device (7) transmits control signal respectively to the first motor (51) and the second motor (52).

3. numerical control leather cutting machine according to claim 1, is characterized in that, the quantity of described cutter head (2) is two.

4. numerical control leather cutting machine according to claim 3, it is characterized in that, also comprise crossbeam I (9) and crossbeam II (10), described power set II comprises the 3rd motor (61), 4th motor, 5th motor (63) and the 6th motor, a cutter head (2) is located on crossbeam I (9), another cutter head (2) is located on crossbeam II (10), described 3rd motor (61) drives the cutter head (2) on crossbeam I (9) to move back and forth along crossbeam I (9), described 4th motor drives the cutter head (2) on crossbeam II (10) to move back and forth along crossbeam II (10), the both sides of described fuselage (1) are provided with sawtooth guide rail (101), described 5th motor (63) is located on crossbeam I (9), described 6th motor is located on crossbeam II (10), the rotation axis of described 5th motor (63) is provided with the first gear (631) engaged with sawtooth guide rail (101), the rotation axis of described 6th motor is provided with the second gear engaged with sawtooth guide rail (101), described 5th motor (63) is rotated by the first gear (631) and drives crossbeam I (9) to move back and forth along sawtooth guide rail (101), described 6th motor drives crossbeam II (10) to move back and forth along sawtooth guide rail (101) by the second pinion rotation, described control device (7) is respectively to the 3rd motor (61), 4th motor, 5th motor (63) and the 6th motor transmit control signal.

5. numerical control leather cutting machine according to claim 4, it is characterized in that, also comprise the first belt (11) and the second belt, described crossbeam I (9) and crossbeam II (10) are equipped with guide-track groove (13), described cutter head (2) is provided with draw-in groove (21), described draw-in groove (21) is connected in guide-track groove (13), described cutter head (2) is provided with gripping unit (22), cutter head (2) on described crossbeam I (9) is fixed on the first belt (11) by gripping unit (22), 3rd motor (61) drives the first belt (11) transmission, the cutter head (2) on crossbeam I (9) is driven to move back and forth along crossbeam I (9), cutter head (2) on described crossbeam II (10) is fixed on the second belt by gripping unit (22), 4th motor drives the second belt transmission, the cutter head (2) on crossbeam II (10) is driven to move back and forth along crossbeam II (10).

6. the numerical control leather cutting machine according to any one of Claims 1 to 5, it is characterized in that, also comprise projection arrangement (14), described projection arrangement (14) is positioned at the top of cutter head (2), and described control device (7) transmits control signal to projection arrangement (14).

7. numerical control leather cutting machine according to claim 6, it is characterized in that, also comprise belt transmission switch (15), described belt transmission switch (15) controls opening/breaking of power set I, and described belt transmission switch (15) is located at the sidepiece of fuselage (1).