CN2709156Y - Driving dvice for knife rest lateral moving of paper box printing groove-cutting machine - Google Patents

Abstract

The utility model discloses a driving device for the lateral movement of a knife rest of a paper box printing groove-cutting machine, which is composed of a motor, a speed reducer driven by the motor, an upper and a lower gear boxes, an upper and a lower bearings, driving shafts, an upper and a lower cone gears and an upper and a lower first cone gears, wherein, the upper and the lower bearings are respectively and vertically installed in bearing assembling holes of the upper and the lower gear boxes, the driving shafts are installed in holes of the upper and the lower bearings and connected with the speed reducer, the upper cone gear is arranged on the driving shaft in a cavity of the upper gear box, the lower cone gear is arranged on the driving shaft in a cavity of the lower gear box, the upper first cone gear is engaged with the upper cone gear and assembled at a shaft end of an upper screw rod, and the lower first cone gear is engaged with the lower cone gear and assembled at a shaft end of a lower screw rod. The utility model has the characteristics of compact conformation, easy operation, accurate positioning and favorable stationarity.

Description

The transmission device that the cardboard box printing grooving machine tool rest is traversing

Technical field

The utility model relates to a kind of transmission device, belongs to the traversing transmission device of a kind of cardboard box printing grooving machine tool rest

Background technology

Cardboard box printing grooving machine adds man-hour at carton printing slotting, and the general shaping of carton is processed, and slots by side cut, corner cut and many places and finishes (as Fig. 3).The side cut of cardboard, corner cut and many places fluting normally on grooved shaft up and down, are equipped with upper and lower side cut, corner cut and a plurality of fluting tool rest (abbreviation tool rest).In order to guarantee the forming quality of carton, the cutting planes that the cutting planes that side cut, corner cut and necking tool form and the cutting edge of bed plate form is at grade.Because when the converted paper case packing, the packed in cases of various different sizes is arranged, so the size of cardboard is also different, the lateral separation of side cut, corner cut and each necking tool and position need be adjusted by the requirement of carton processing dimension.The lateral separation of side cut, corner cut and each necking tool and the adjustment of position mainly are the lateral attitudes of adjusting upper and lower tool rest.Because the cutting planes that the cutting planes that side cut, corner cut and necking tool form and the cutting edge of bed plate form should keep at grade, when adjusting the lateral attitude of upper and lower tool rest, corresponding upper and lower tool rest should be synchronous, equidirectional, equidistant moving.The traversing chain gearing that utilizes of traditional cardboard box printing grooving machine tool rest is realized, but chain gearing has weak points such as mechanism is huge, the location is very inaccurate, stationarity is relatively poor.

Summary of the invention

The purpose of this utility model provides a kind of compact conformation, locatees the traversing transmission device of cardboard box printing grooving machine tool rest accurate, that stationarity is good.

The purpose of this utility model is to realize like this, it is by motor, motor-driven reductor, upper gear box and lower tooth roller box, vertically arranged upper bearing (metal) of difference and lower bearing in the bearing pilot hole of upper gear box and lower tooth roller box, the power transmission shaft of in the hole of upper bearing (metal) and lower bearing, installing, power transmission shaft is connected with reductor, conical gear on adorning on the power transmission shaft of upper gear box inner chamber, the following conical gear of on the power transmission shaft of lower gear box cavity, adorning, with the engagement of last conical gear and be assemblied in last first conical gear of the axle head of upper screw rod, following first conical gear that meshes and be assemblied in down the axle head of screw mandrel with following conical gear is formed.

The utility model is owing to adopt motor-driven gear spindle gear, can finish effectively that corresponding upper and lower tool rest is synchronous, equidirectional, equidistant to be moved, and have compact conformation, easy to operate, location accurately, characteristics that stationarity is good.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment 1

Fig. 2 is the symmetrical upper and lower fluting tool rest of the utility model embodiment 1 and upper and lower fluting tool rest is provided with the structural representation of transmission device at each

Fig. 3 is the structural representation of side cut, corner cut and the many places fluting of cardboard

Fig. 4 is the last conical gear and the reverse structural representation of installing of following conical gear of the utility model embodiment 1

The structural representation that Fig. 5 installs in the same way for last conical gear and the following conical gear of the utility model embodiment 2

The structural representation that Fig. 6 installs in the same way for last conical gear and the following conical gear of the utility model embodiment 2

The specific embodiment

Embodiment 1, with reference to Fig. 1, Fig. 2, this transmission device is laterally to move fluting tool rest quantity as required to be provided with, because upper and lower side cut tool rest, laterally moving by upper and lower push pedal of upper and lower corner cut tool rest and upper and lower fluting tool rest promotes, and just each is provided with a transmission device to upper and lower push pedal.On wallboard 11 or wallboard 22 reductor mount pad 3 is housed, reductor 2 is fixed on the reductor mount pad 3, and motor 1 is installed on the reductor 2; 9 fens upper and lower being installed on wallboard 11 or the wallboard 22 of upper gear box 5 and lower tooth roller box; Upper bearing (metal) 23 and lower bearing 23 ' be vertically mounted on respectively in the bearing pilot hole of upper gear box 5 and lower tooth roller box 9, power transmission shaft 4 pass upper gear box 5 and lower tooth roller box 9 be installed in upper bearing (metal) 23 and lower bearing 23 ' the hole in, and be connected with reductor 2; On the power transmission shaft 4 of upper gear box 5 inner chambers the dress on conical gear 24, on the power transmission shaft 4 of lower tooth roller box 9 inner chambers the dress following conical gear 26, last conical gear 24 is consistent with the gear principal parameter of following conical gear 26.Last clutch shaft bearing 28 and following clutch shaft bearing 28 ' laterally be installed in respectively in the bearing pilot hole of upper gear box 5 and lower tooth roller box 9; Last push pedal 13 is assemblied on the guiding mechanism 12, and last guiding mechanism 12 is installed between wallboard 11 and the wallboard 22, and last push pedal 13 can be moved along last guiding mechanism 12 is laterally left and right; Following push pedal 20 is assemblied on the lower guide mechanism 21, and lower guide mechanism 21 is installed between wallboard 11 and the wallboard 22, and following push pedal 20 can laterally be moved along lower guide mechanism 21; Upper screw rod nut 14 is installed in the installing hole of push pedal 13 and is fixed in the push pedal 13, upper screw rod 6 screws in the screw of upper screw rod nut 14, one end of upper screw rod 6 is assemblied in the endoporus of the last clutch shaft bearing 28 on the gear-box 5, and last first conical gear 25 is assemblied in the axle head of upper screw rod 6; Following feed screw nut 19 is installed in down in the installing hole of push pedal 20 and is fixed on down in the push pedal 20, following screw mandrel 10 screws in feed screw nut's 19 screws, one end of following screw mandrel 10 be assemblied in following clutch shaft bearing 28 on the lower tooth roller box 9 ' endoporus in, first conical gear 27 is assemblied in down the axle head of screw mandrel 10 down; Last first conical gear 25 is consistent with the gear principal parameter of following first conical gear 27, thread parameters such as the pitch of upper screw rod 6 and following screw mandrel 10, major diameter of thread are consistent, and upper screw rod 6 is decided on the installation direction of conical gear 24 and following conical gear 26 with the thread rotary orientation of following screw mandrel 10; Thread parameters such as upper screw rod nut 14 and following feed screw nut's 19 pitch, bottom diameter are consistent, and upper screw rod nut 14 is decided on the installation direction of conical gear 24 and following conical gear 26 with following feed screw nut's 19 thread rotary orientation.Upper cutter head 16 is installed on the grooved shaft 7, and upper cutter head 16 can rotate with last grooved shaft 7, and can be along last grooved shaft 7 left and right slips; Following tool rest 17 is installed in down on the grooved shaft 8, and following tool rest 17 can rotate with following grooved shaft 8, and can be along grooved shaft 8 left and right slips down; Last shifting block 15 is fixed in the push pedal 13, and matches with the last shifting block groove of upper cutter head 16; Following shifting block 18 is fixed on down in the push pedal 20, and matches with the following shifting block groove of following tool rest 17.With reference to Fig. 2, Fig. 4, last conical gear 24 is oppositely to install with following conical gear 26, just goes up conical gear 24 and is installed in top, and following conical gear 26 is installed in the bottom or goes up conical gear 24 and is installed in the bottom, and following conical gear 26 is installed in top.When last conical gear 24 was oppositely installation with following conical gear 26, following feed screw nut's 19 thread rotary orientation was opposite with the thread rotary orientation of upper screw rod nut 14, and the thread rotary orientation of following screw mandrel 10 is opposite with the thread rotary orientation of upper screw rod 6.The course of work: when tool rest is adjusted, motor 1 drives reductor 2, reductor 2 drives power transmission shaft 4 rotations, last conical gear 24 that connects with power transmission shaft 4 and following conical gear 26 be with power transmission shaft 4 rotations, last first conical gear 25 that meshes with last conical gear 24 and also rotate with following first conical gear 27 that following conical gear 26 meshes.The rotation of last first conical gear 25 drives upper screw rod 6 and rotates, and screw mandrel 10 rotated under the rotation of first conical gear 27 drove down.The rotation of upper screw rod 6 promotes upper screw rod nut 14 and moves laterally along the screw thread on the upper screw rod; The rotation of following screw mandrel 10 promotes down, and feed screw nut 19 edges move laterally on the screw mandrel down.Upper screw rod nut 14 promotes to go up push pedal 13 and moves laterally along last guiding mechanism 12, and push pedal 20 moved laterally along lower guide mechanism 21 under following feed screw nut 19 promoted; Be fixed on last shifting block 15 in the push pedal 13 when moving laterally along last guiding mechanism 12, stir upper cutter head 16 and do laterally to slide along grooved shaft 7 along with last push pedal 13; Be fixed on down following shifting block 18 in the push pedal 20 when down push pedal 20 moves laterally along lower guide mechanism 21, stir down tool rest 17 and do laterally slip along grooved shaft 8.Horizontal slip and the horizontal slip of following tool rest 17 along grooved shaft 8 works that upper cutter head 16 is done along grooved shaft 7 are synchronously, move with reverse, equidistant.

Embodiment 2, embodiment 2 is identical with embodiment 1 structure, with reference to Fig. 5, Fig. 6, be that the described conical gear 24 of going up is installation in the same way with following conical gear 26, just go up conical gear 24 and be installed in top, following conical gear 26 also is installed in top or goes up conical gear 24 and is installed in the bottom, and following conical gear 26 also is installed in the bottom.Last conical gear 24 and following conical gear 26 are when installing in the same way, and following feed screw nut's 19 thread rotary orientation is identical with the thread rotary orientation of upper screw rod nut 14, and the thread rotary orientation of following screw mandrel 10 is identical with the thread rotary orientation of upper screw rod 6.

Claims (5)

1, the traversing transmission device of a kind of cardboard box printing grooving machine tool rest, it is characterized in that: it is by motor (1), the reductor (2) that motor (1) drives, upper gear box (5) and lower tooth roller box (9), vertically arranged upper bearing (metal) 23 of difference and lower bearing 23 in the bearing pilot hole of upper gear box (5) and lower tooth roller box (9) ', the power transmission shaft of in the hole of upper bearing (metal) (23) and lower bearing (23 '), installing (4), power transmission shaft (4) is connected with reductor (2), goes up the last conical gear (24) of dress at the power transmission shaft (4) of upper gear box (5) inner chamber, go up the following conical gear (26) of dress at the power transmission shaft (4) of lower tooth roller box (9) inner chamber, mesh and be assemblied in last first conical gear (25) of the axle head of upper screw rod with last conical gear (24), mesh and be assemblied in down following first conical gear (27) of the axle head of screw mandrel forms with following conical gear (26).

2, the traversing transmission device of cardboard box printing grooving machine tool rest according to claim 1 is characterized in that: described upward conical gear (24) is consistent with the gear principal parameter of following conical gear (26).

3, the traversing transmission device of cardboard box printing grooving machine tool rest according to claim 1 and 2, it is characterized in that: described last first conical gear (25) is consistent with the gear principal parameter of following first conical gear (27), thread parameters such as the pitch of upper screw rod (6) and following screw mandrel (10), major diameter of thread are consistent, and upper screw rod (6) is decided on the installation direction of conical gear (24) and following conical gear (26) with the thread rotary orientation of following screw mandrel (10); Thread parameters such as upper screw rod nut (14) and following feed screw nut's (19) pitch, bottom diameter are consistent, and upper screw rod nut (14) is decided on the installation direction of conical gear (24) and following conical gear (26) with following feed screw nut's (19) thread rotary orientation.

4, the traversing transmission device of cardboard box printing grooving machine tool rest according to claim 3, it is characterized in that: when described upward conical gear (24) is oppositely installation with following conical gear (26), following feed screw nut's (19) thread rotary orientation is opposite with the thread rotary orientation of upper screw rod nut (14), and the thread rotary orientation of following screw mandrel (10) is opposite with the thread rotary orientation of upper screw rod (6).

5, the traversing transmission device of cardboard box printing grooving machine tool rest according to claim 3, it is characterized in that: described conical gear (24) and the following conical gear (26) gone up is when installing in the same way, following feed screw nut's (19) thread rotary orientation is identical with the thread rotary orientation of upper screw rod nut (14), and the thread rotary orientation of following screw mandrel (10) is identical with the thread rotary orientation of upper screw rod (6).

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