CN205766287U - A kind of equidistant cutter sweep - Google Patents

Abstract

The utility model discloses a kind of equidistant cutter sweep, including Working rack, be located at conveying assembly on Working rack, be located at the supply assembly of the feed side of conveying assembly, be located at the cutting assembly of the exit side of conveying assembly；Conveying assembly includes the motor being fixedly arranged on Working rack, upper roller setting up and down and lower roller, makes the drive mechanism that step motor drive upper roller and lower roller rotate；Cutting assembly includes the cutter being fixedly arranged on Working rack, and the feed side of cutter is provided with the first clamp system of clamping material, and exit side is provided with the second clamp system driving material to move to cutter；Motor and the second clamp system are all connected to control assembly.Passed between upper roller and lower roller by the mutual rotational band animal material of upper roller and lower roller, control assembly and be accurately controlled the rotational angle of motor, regulation upper roller and the speed of lower roller conveying material, make to cut gained material error in length every time and reduce.

Description

A kind of equidistant cutter sweep

Technical field

This utility model relates to automatic cutting device field, particularly relates to a kind of equidistant cutter sweep.

Background technology

In assembling production, it will usually need to be cut by material according to dimensional requirement, in order to meet assembling product Demand.At present when carrying out material and cutting, it is common that the dimensional requirement cut as required is marked on material, according to mark Remember row into cut.But the material size precision out cut is the highest, it is impossible to meet subsequent production or use demand.

Utility model content

The purpose of this utility model is to provide a kind of equidistant cutter sweep, the dimensional accuracy cut with raising.

For reaching this purpose, this utility model by the following technical solutions:

A kind of equidistant cutter sweep, including Working rack, is located at conveying assembly on Working rack, is located at conveying assembly The supply assembly of feed side, and it is located at the cutting assembly of the exit side of conveying assembly；

Described conveying assembly includes the motor being fixedly arranged on Working rack, upper roller setting up and down and lower conveying Roller, and make step motor drive upper roller and the drive mechanism of lower roller rotation；Described supply assembly is positioned at conveying Roller and the feed side of lower roller；

Described cutting assembly includes being fixedly arranged on Working rack and is positioned at the cutting of exit side of upper roller and lower roller Cutter, the feed side of described cutter is provided with the first clamp system of clamping material, and exit side is provided with driving material to cutter Second clamp system of motion；

Described motor and the second clamp system are all connected to control assembly.

Further, described supply assembly includes being located at Working rack and being positioned at the feed side of upper roller and lower roller Conveying axis, described conveying axis is arranged with axle ring.

Further, described drive mechanism includes the first belt wheel being connected to motor outfan, leads to the first belt wheel Cross the second belt wheel that belt connects, the first gear being coaxially disposed with described second belt wheel, and the engaged with the first gear Two gears；The axle being provided with the first gear is provided with lower roller, and the axle being provided with the second gear is provided with upper roller.

Further, described Working rack includes the second support of the first support and the side of being provided thereon, described second support Including support baseboard be respectively arranged on both sides and the support side plate of parallel distribution above support baseboard, described upper roller and under defeated Roller is sent to be located between two support side plate；

Described conveying assembly also includes that adjustment structure, described adjustment structure include being located between two described support side plate On support baseboard and be connected to control the first lift cylinder of assembly, the first lift cylinder drive and move up and down and be parallel to The pushing plate that support base plate is arranged, is located at pushing plate away from the side of the first lift cylinder and symmetrical elevating lever, is located at institute State the gripper shoe of one of them support side plate side relative with another support side plate and be located at the regulation in described gripper shoe Plate, described elevating lever runs through gripper shoe and is connected to adjustable plate；

The axle being provided with the first gear passes through one of support side plate, lower roller and penetrates another support side plate, The axle and two the described support side plate that are provided with the first gear are rotationally connected；

Support side plate near described first gear is provided with opening up regulating tank, and the axle being provided with the second gear is worn Overregulate groove, one of them gripper shoe, upper roller and penetrate another gripper shoe, the axle of the first gear and two institutes are installed State gripper shoe to be rotationally connected.

Further, the photoswitch being connected to control assembly it is provided with between described supply assembly and conveying assembly.

Further, the second support of the side being positioned at the exit side of conveying assembly is provided with the 3rd support；

Described first clamp system includes the first briquetting being located on the support baseboard of the exit side of described conveying assembly, position Directly over the first briquetting and slide and run through the contour post of the 3rd support in one end, it is connected to the second briquetting of the contour post other end, And the first spring being sheathed on the contour post between the second briquetting and the 3rd support；

Described cutter be fixedly arranged on the 3rd support and be positioned at the first clamp system away from conveying assembly exit side one Side.

Further, described second clamp system includes being positioned at cutter and runs through away from side and the slip of the first briquetting The guide pillar of three supports, the lower end of described guide pillar is provided with the 4th briquetting, and being arranged right below of described 4th briquetting is connected to second liter 3rd briquetting of sending down the abnormal ascending QI cylinder, the guide pillar between the 4th briquetting and the 3rd support is provided with the second spring, described second lifting Cylinder is fixedly arranged on the first support and is connected to control assembly.

Further, described 3rd support is provided with the sensor whether arriving setting position for detection the 3rd briquetting, Described sensor is connected to control assembly.

Further, each described support side plate upper surface being equipped with a limiting plate, described adjustable plate is positioned at spacing Between plate and gripper shoe.

This utility model passes through the mutual rotational band animal material of upper roller and lower roller from upper roller and lower conveying Pass between roller, it is achieved the conveying of material, and the rotational angle of motor can be accurately controlled by controlling assembly, and then adjust Joint upper roller and the speed of lower roller conveying material so that the error in length every time cutting gained material reduces.

By the first clamp system and the second clamp system, the material of cutter both sides is clamped, it is simple to by cutter pair Material cuts, and makes the upper surface of material act on the blade of cutter by the second clamp system so that material is cut Disconnected.

Accompanying drawing explanation

Fig. 1 is the structural representation of equidistant cutter sweep described in the utility model；

Fig. 2 is the structural representation of conveying assembly described in the utility model；

Fig. 3 is the rearview of Fig. 1；

Fig. 4 is the structural representation of not shown second clamp system of equidistant cutter sweep described in the utility model；

Fig. 5 is the close-up schematic view in Fig. 4 at I.

In figure:

1, Working rack；11, the first support；12, the second support；121, support baseboard；122, support side plate；1221, adjust Joint groove；13, the 3rd support；

2, conveying assembly；21, motor；22, drive mechanism；221, the first belt wheel；222, belt；223, the second band Wheel；224, the first gear；225, the second gear；23, lower roller；24, upper roller；25, adjustment structure；251, the first lifting Cylinder；252, pushing plate；253, elevating lever；254, gripper shoe；255, adjustable plate；256, limiting plate；

3, supply assembly；31, conveying axis；32, axle ring；33, photoswitch；

4, cutting assembly；41, cutter；42, the first clamp system；421, the first briquetting；422, contour post；423, second Briquetting；424, the first spring；43, the second clamp system；431, guide pillar；432, the 4th briquetting；433, the second lift cylinder；434、 3rd briquetting；435, the second spring；

5, material.

Detailed description of the invention

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by detailed description of the invention.

Present embodiments provide a kind of equidistant cutter sweep, as it is shown in figure 1, include Working rack 1, conveying assembly 2, supply Expecting assembly 3 and cutting assembly 4, above-mentioned conveying assembly 2 and cutting assembly 4 are all connected to control assembly (not shown), its In,

As it is shown in figure 1, described Working rack 1 includes the second support 12 of the first support 11 and the side of being provided thereon, described the Two supports 12 include support baseboard 121 and be respectively arranged on support baseboard both sides and the support side plate 122 of parallel distribution above 121, One of them described support side plate 122 is provided with opening up regulating tank 1221；It is positioned at the side of the exit side of conveying assembly 2 The second support 12 be provided with the 3rd support 13.

Described conveying assembly 2 is located on Working rack 1, concrete, as in figure 2 it is shown, described conveying assembly 2 includes being fixedly arranged on Second support 12 and be connected to control assembly motor 21, setting up and down and be located between two support side plate 122 upper Conveying roller 24 and lower roller 23, and make motor 21 drive the drive mechanism that upper roller 24 and lower roller 23 rotate 22.Wherein said drive mechanism 22 is located therein the support side plate 122 side away from another support side plate 122, and it includes It is connected to the first belt wheel 221 of motor 21 outfan, the second belt wheel being connected with the first belt wheel 221 by belt 222 223, the first gear 224 being coaxially disposed with described second belt wheel 223, and the second gear engaged with the first gear 224 225；The axle being provided with the first gear 224 is provided with described lower roller 23, and the axle being provided with the second gear 225 is provided with described Upper roller 24.

Driving the first belt wheel 221 to rotate by controlling assembly control motor 21, the first belt wheel 221 is by belt 222 Driving the second belt wheel 223 to rotate, the second belt wheel 223 drives the first gear 224 being coaxial therewith arranging and lower roller 23 to rotate, First gear 224 drives the second gear 225 engaged to rotate, and then drives upper defeated with what the second gear 225 was coaxially disposed Roller 24 is sent to rotate.By the mutual rotational band animal material 5 of upper roller 24 and lower roller 23 from upper roller 24 and lower conveying Pass between roller 23, it is achieved the conveying of material 5, and the rotational angle of motor 21 can be accurately controlled by controlling assembly, And then regulation carries the speed of material 5 by upper roller 24 and lower roller 23 so that cut the length of gained material 5 every time Error reduces.

In the present embodiment, described conveying assembly 2 also includes that adjustment structure 25, described adjustment structure 25 include being located at two institutes State on the support baseboard 121 between support side plate 122 and be connected to control the first lift cylinder 251 of assembly, by the first lifting Cylinder 251 drives and moves up and down and be parallel to the pushing plate 252 that support baseboard 121 is arranged, and is located at pushing plate 252 away from first liter The two ends, side of sending down the abnormal ascending QI cylinder 251 and symmetrical elevating lever 253, the elevating lever 253 that concrete pushing plate 252 is often held is set to Two, it is located therein the gripper shoe 254 of support side plate 122 side relative with another support side plate 122, and is located at Adjustable plate 255 in described gripper shoe 254, described elevating lever 253 runs through gripper shoe 254 and is connected to adjustable plate 255.

The axle arranging the first gear 224 passes through one of support side plate 122, lower roller 23 and penetrates another support Side plate 122, the axle and two the described support side plate 122 that are provided with the first gear 224 are rotationally connected；Described regulating tank 1221 is located at In the support side plate 122 of described first gear 224, the axle being provided with the second gear 225 passes regulating tank 1221, Qi Zhongyi Individual gripper shoe 254, upper roller 24 also penetrate another gripper shoe 254, are provided with described in the axle of the first gear 224 and two Fagging 254 is rotationally connected.When needs are according to the gap between thickness adjusted upper roller 24 and the lower roller 23 of material 5, Controlling the first lift cylinder 251 drive pushing plate 252 to move up or down by controlling assembly, elevating lever 253 will be relative to Gripper shoe 254 is slided up or down and drives adjustable plate 255 to move up or down, and then makes to be provided with upper roller 24 Axle move up or down, it is achieved gap between upper roller 24 and lower roller 23 increases or reduces, and meets material 5 Thickness requirement, it is ensured that do not damage material 5 while carrying material 5 by conveying assembly 2.It should be noted that the present embodiment When the gap regulated between above-mentioned upper roller 24 and lower roller 23, need to ensure the first gear 224 and the second gear 225 Engagement.

In the present embodiment, each described support side plate 122 upper surface is equipped with a limiting plate 256, described adjustable plate 255 between limiting plate 256 and gripper shoe 254, limiting plate 256 and gripper shoe 254 limit adjustable plate 255 and rise or fall Scope.

Described supply assembly 3 is located at the feed side of conveying assembly 2, and as shown in Figure 1 and Figure 3, described supply assembly 3 includes It is located at the conveying axis 31 on the first support 11, described conveying axis 31 is arranged with axle ring 32, by the material 5 to be cut of web-like It is sheathed on the conveying axis 31 between two axle rings 32.When carrying material 5 by conveying assembly 2, it is possible to drive treating of web-like The material 5 cut is constantly to conveying assembly 2 feed.

As optimal technical scheme, in the present embodiment, it is provided with between described supply assembly 3 and conveying assembly 2 and is connected to control By photoswitch 33, the photoswitch 33 of assembly processed, has detected whether that material 5 is supplied to conveying assembly 2 and will to detect signal anti- It is fed to control assembly, if testing result is not for having material 5 to be supplied to conveying assembly 2, controls assembly and motor 21 will be made to stop Only work.

Described cutting assembly 4 is located at the exit side of conveying assembly 2, and as shown in Figure 1 and Figure 4, described cutting assembly 4 includes solid Being located at the cutter 41 of the second support 12, the feed side of described cutter 41 is provided with the first clamp system 42 of clamping material 5, and Exit side is provided with the second clamp system 43 driving material 5 to move to cutter 41.

Wherein, as shown in Figure 4 and Figure 5, described first clamp system 42 includes being located at the exit side of described conveying assembly 2 The first briquetting 421 on support baseboard 121, be positioned at directly over the first briquetting 421 and one end slide run through the 3rd support 13 etc. High post 422, is connected to the second briquetting 423 of contour post 422 other end, and is sheathed on and is positioned at the second briquetting 423 and the 3rd The first spring 424 on contour post 422 between frame 13.In the present embodiment, described contour post 422 is provided with two and is symmetrically set in The two ends of the second briquetting 423 upper surface, to ensure to be applied to thing by the first briquetting 421 and the second briquetting 423 when compressing material 5 Power on material 5 is more uniform.Owing to the thickness of different material 5 is different, at material 5 through the first briquetting 421 and the second briquetting 423 Time, the upper surface of material 5 will act on the second briquetting 423 and drives the second briquetting 423 to move up relative to the 3rd support 13, First spring 424 compresses, and makes the second briquetting 423 that material 5 be pressed on the upper end of the first briquetting 421 by the first spring 424 On face.

Described cutter 41 are fixedly arranged on the 3rd support 13 and are positioned at the discharging away from conveying assembly 2 of first clamp system 42 The side of side, is clamped the material 5 of cutter 41 side by the first clamp system 42.

As it is shown in figure 1, described second clamp system 43 includes being positioned at cutter 41 away from the side of the first briquetting 421 and cunning The dynamic guide pillar 431 running through the 3rd support 13, the lower end of described guide pillar 431 is provided with the 4th briquetting 432, described 4th briquetting 432 It is arranged right below being connected to the 3rd briquetting 434 of the second lift cylinder 433, between the 4th briquetting 432 and the 3rd support 13 Guide pillar 431 be provided with the second spring 435, described second lift cylinder 433 is fixedly arranged on the first support 11 and is connected to control group Part.In the present embodiment, described guide pillar 431 is provided with two and is symmetrically set in the two ends of the 4th briquetting 432 upper surface, to ensure to pass through The power that 3rd briquetting 434 and the 4th briquetting 432 are applied on material 5 when compressing material 5 is more uniform.

In the present embodiment, described 3rd support 13 is provided with for whether detection the 3rd briquetting 434 arrives setting position Sensor (not shown), described sensor is connected to control assembly.Described setting position refers to the upper of the 3rd briquetting 434 Surface is positioned at same level with the upper surface of the first briquetting 421 contacting material 5.

Controlling the second lift cylinder 433 by control assembly drives the 3rd briquetting 434 to move up, and treats the 3rd briquetting 434 When arriving setting position, the second lift cylinder 433 quits work, and according to the difference of the thickness of material 5, the upper surface of material 5 will Acting on the 4th briquetting 432, drive the 3rd briquetting 434 to move up relative to the 3rd support 13, the second spring 435 is compressed, By the second spring 435, the material 5 of cutter 41 opposite side is clamped by the 3rd briquetting 434 and the 4th briquetting 432, in order to By cutter 41, material 5 is cut.

Described in the present embodiment, the detailed process of equidistant cutter sweep is as follows: controls assembly control motor 21 and works, The material 5 on supply assembly 3 is made constantly to be delivered to cutting assembly 4 by conveying assembly 2；Motor 21 often rotates N degree and stops Only work, is then clamped the material 5 of cutter 41 both sides by the first clamp system 42 and the second clamp system 43, control group Part controls the second lift cylinder 433 and drives the 3rd briquetting 434 to move up so that be positioned at material 5 immediately below cutter 41 by Gradually close to the blade of cutter 41 and contact the blade of cutter 41, along with the second lift cylinder 433 continues to drive the 3rd pressure Block 434 moves up, and the 3rd briquetting 434 will act on material 5 and makes material 5 be cut cutter 41 to cut off；Second lift cylinder 433 Returning in situ, motor 21 will rotate N degree again, repeat above-mentioned action and carry out cutting of material 5 next time.

Obviously, above-described embodiment of the present utility model is only used to understand explanation this utility model example, and It it is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above On the basis of can also make other changes in different forms.Here without also all of embodiment being given Exhaustive.All any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, should be included in Within this utility model scope of the claims.

Claims (9)

1. an equidistant cutter sweep, including Working rack (1), is located at the upper conveying assembly (2) of Working rack (1), is located at defeated The supply assembly (3) of the feed side of sending component (2), and it is located at the cutting assembly (4) of the exit side of conveying assembly (2)；It is special Levy and be,

Described conveying assembly (2) includes the motor (21) being fixedly arranged on Working rack (1), upper roller (24) setting up and down With lower roller (23), and motor (21) is made to drive upper roller (24) and the drive mechanism that rotates of lower roller (23) (22)；Described supply assembly (3) is positioned at upper roller (24) and the feed side of lower roller (23)；

Described cutting assembly (4) includes being fixedly arranged on Working rack (1) and is positioned at going out of upper roller (24) and lower roller (23) The cutter (41) of material side, the feed side of described cutter (41) is provided with first clamp system (42) of clamping material (5), and goes out Material side is provided with the second clamp system (43) driving material (5) to move to cutter (41)；

Described motor (21) and the second clamp system (43) are all connected to control assembly.

Equidistant cutter sweep the most according to claim 1, it is characterised in that described supply assembly (3) includes being located at work Make support (1) and be positioned at the conveying axis (31) of feed side of upper roller (24) and lower roller (23), described conveying axis (31) On be arranged with axle ring (32).

Equidistant cutter sweep the most according to claim 2, it is characterised in that described drive mechanism (22) includes being connected to First belt wheel (221) of motor (21) outfan, the second belt wheel being connected by belt (222) with the first belt wheel (221) (223), the first gear (224) being coaxially disposed with described second belt wheel (223), and engaged with the first gear (224) Two gears (225)；The axle being provided with the first gear (224) is provided with lower roller (23), is provided with the axle of the second gear (225) It is provided with upper roller (24).

Equidistant cutter sweep the most according to claim 3, it is characterised in that described Working rack (1) includes first Second support (12) of frame (11) and the side of being provided thereon, described second support (12) includes support baseboard (121) and is respectively arranged on Support baseboard (121) both sides, top and the support side plate (122) of parallel distribution, described upper roller (24) and lower roller (23) It is located between two support side plate (122)；

Described conveying assembly (2) also includes that adjustment structure (25), described adjustment structure (25) include being located at two described support-side Support baseboard (121) between plate (122) is upper and is connected to control first lift cylinder (251) of assembly, by the first lifting air Cylinder (251) drive move up and down and be parallel to the pushing plate (252) that support baseboard (121) is arranged, be located at pushing plate (252) away from The side of the first lift cylinder (251) and symmetrical elevating lever (253), be located at described one of them support side plate (122) The gripper shoe (254) of the side relative with another support side plate (122) and be located at the adjustable plate in described gripper shoe (254) (255), described elevating lever (253) runs through gripper shoe (254) and is connected to adjustable plate (255)；

The axle arranging the first gear (224) passes through one of support side plate (122), lower roller (23) and penetrates another Support side plate (122), the axle and two the described support side plate (122) that arrange the first gear (224) are rotationally connected；

It is provided with opening up regulating tank (1221) near the support side plate (122) of described first gear (224), is provided with the The axle of two gears (225) is through regulating tank (1221), one of them gripper shoe (254), upper roller (24) and penetrates another Gripper shoe (254), the axle and two the described gripper shoes (254) that are provided with the first gear (224) are rotationally connected.

Equidistant cutter sweep the most according to claim 2, it is characterised in that described supply assembly (3) and conveying assembly (2) photoswitch (33) being connected to control assembly it is provided with between.

Equidistant cutter sweep the most according to claim 4, it is characterised in that be positioned at the exit side of conveying assembly (2) Second support (12) of side is provided with the 3rd support (13)；

Described first clamp system (42) includes be located on the support baseboard (121) of the exit side of described conveying assembly (2) One briquetting (421), is positioned at directly over the first briquetting (421) and slides and run through the contour post (422) of the 3rd support (13), even in one end It is connected to second briquetting (423) of contour post (422) other end, and is sheathed on and is positioned at the second briquetting (423) and the 3rd support (13) the first spring (424) on contour post (422) between；

Described cutter (41) are fixedly arranged on the 3rd support (13) and above and are positioned at the first clamp system (42) away from conveying assembly (2) The side of exit side.

Equidistant cutter sweep the most according to claim 6, it is characterised in that described second clamp system (43) includes position The guide pillar (431) of the 3rd support (13), described guide pillar is run through away from the side of the first briquetting (421) and slip in cutter (41) (431) lower end is provided with the 4th briquetting (432), and being arranged right below of described 4th briquetting (432) is connected to the second lift cylinder (433) the 3rd briquetting (434), the guide pillar (431) being positioned between the 4th briquetting (432) and the 3rd support (13) is provided with second Spring (435), described second lift cylinder (433) is fixedly arranged on the first support (11) and is connected to control assembly.

Equidistant cutter sweep the most according to claim 7, it is characterised in that described 3rd support (13) be provided with for Detecting whether the 3rd briquetting (434) arrives the sensor of setting position, described sensor is connected to control assembly.

Equidistant cutter sweep the most according to claim 4, it is characterised in that each described support side plate (122) upper end Being equipped with a limiting plate (256) on face, described adjustable plate (255) is positioned between limiting plate (256) and gripper shoe (254).