CN211419052U - Auxiliary material stripping machine - Google Patents

Abstract

The utility model discloses an auxiliary material stripping machine, which comprises a base frame, a stripping device, a discharging device, a material receiving device and a feeding device; the stripping device comprises a stripping plate capable of moving along the length direction of the base frame, and a stripping edge is arranged at the stripping end of the stripping plate; the discharging device is arranged at one end of the base frame; the material receiving device comprises a material receiving wheel for winding the waste belt; the feeding device comprises a feeding gear and a clutch gear, the clutch gear can be meshed with or clutched with the feeding gear, the whole stripping machine is compact in structure, small in size, high in stripping precision, and high in working efficiency, and has a certain automatic function.

Description

Auxiliary material stripping machine

Technical Field

The utility model relates to a shell material mechanical technical field, in particular to auxiliary material shells material machine.

Background

The existing auxiliary material stripping machine is large in size, inconvenient to operate, low in working efficiency and precision and difficult to meet production requirements, production quality and efficiency are guaranteed in order to improve production technology, the auxiliary material stripping machine is required to be more space-saving, high in stripping precision and fast in speed, the auxiliary material stripping machine is easy to adjust and control, different production equipment and production lines can be matched, and certain automatic functions are achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a material machine is shelled to auxiliary material, peel off the board and be equipped with and peel off the sword, improve and peel off the quality, pay-off gear can mesh or the separation and reunion is controlled with clutch gear, improves the precision and the preferred process of feeding the material area product, improves work efficiency, has solved current material machine of shelling bulky, and has peeled off the problem that the precision is not high. And, the bed frame can be adjusted for the base, improves application scope, solves current shell material machine accommodation performance lower, the not high problem of suitability.

To achieve the purpose, the utility model adopts the following technical proposal:

an auxiliary material stripping machine comprises a base frame, a stripping device, a discharging device, a receiving device and a feeding device;

the stripping device comprises a stripping plate capable of moving along the length direction of the base frame, and a stripping edge is arranged at the stripping end of the stripping plate;

the discharging device is arranged at one end of the base frame;

the material receiving device comprises a material receiving wheel for winding the waste belt;

the feeding device comprises a feeding gear and a clutch gear, and the clutch gear can be meshed with or clutched with the feeding gear.

From this, the auxiliary material stripper's stripping off device, blowing device, material collecting device and material feeding unit constitute the machine that is used for peeling off the material area product, and compact structure is equipped with clutch gear, conveniently controls the chronogenesis of pay-off, does benefit to and improves and peels off the precision, peels off the sword and more is favorable to improving and peels off the quality, has solved current stripper bulky, and peels off the problem that the precision is not high.

In some embodiments, the peeling device further comprises a peeling seat, a guide rail, a sliding block, a rack, a first gear and a first motor, wherein the peeling seat is connected below the peeling plate, the guide rail is arranged on the base frame, the sliding block which moves in cooperation with the guide rail is arranged on the peeling seat, the peeling seat is provided with the rack, the first motor is fixed on the base frame, the output end of the first motor is linked with the first gear, and the rack is meshed with the first gear.

Therefore, the reciprocating stripping motion is realized through the guide rail slide block guide structure and the rack and gear transmission structure, the guide rail slide block guide precision is high, the feeding precision of the rack and gear is high, and the stripping precision and quality are improved.

In some embodiments, the emptying device comprises an emptying wheel, a resistance wheel and a damping part, wherein the resistance wheel is linked with the emptying wheel, and the damping part can be abutted against the resistance wheel.

From this, damping portion can produce frictional resistance when contacting with the resistance wheel, and frictional resistance does benefit to the blowing wheel from slow to fast rotation when the material area is carried originated, and when the material area was carried and is stopped, frictional resistance can have quick stopping blowing wheel and continue to rotate because of inertia, and certain resistance just can be carried in the material area transportation process material area need to be overcome, so for the material area receives certain tension effect all the time and is in the state of tightening, does benefit to the precision that improves the material area and feed.

In some embodiments, the damping part comprises a damping piece, a damping slide block and an adjusting screw rod, wherein the damping piece can be abutted against the resistance wheel, one end of the damping slide block is connected with the damping piece, and the other end of the damping slide block is connected with the adjusting screw rod.

Therefore, the resistance piece realizes the adjustment of the position through the adjusting screw rod, so that different contact friction resistance is generated with the resistance wheel, different friction resistance can be adjusted, and the application range is improved.

In some embodiments, the material receiving device further comprises a driven pulley, a driving pulley and a second motor, the driven pulley is connected to one end of the material receiving wheel, the driving pulley is linked with the output end of the second motor, and a transmission belt is connected between the driving pulley and the driven pulley.

From this, receive the material wheel and realize the rolling to the waste material area through second motor, belt and band pulley transmission structure.

In some embodiments, the receiving wheel is connected with a gripping bar.

Therefore, the material clamping rod extends along the axial direction of the material receiving wheel, and the waste material belt can be wound neatly, tightly and smoothly.

In some embodiments, the feeding device further comprises a driving gear, a driven gear, a second motor and a clutch driving part, wherein an output end of the second motor is linked with the driving gear, the driving gear is meshed with the driven gear, the feeding gear is linked with the driven gear, and the clutch driving part can drive the clutch gear to be meshed with or to be in clutch with the feeding gear.

Therefore, the feeding gear is driven by the second motor, when the clutch gear is meshed with the feeding gear, the material belt is clamped to perform feeding operation, and when the clutch gear is meshed with the feeding gear, the feeding operation is stopped, so that the clutch driving part drives the clutch gear to move, the feeding control of the material belt is realized, the stripping precision is improved, and the performance and the application range of the stripping machine are improved.

In some embodiments, the clutch driving portion comprises a pressing plate, a spring pressing pin, a crank, a rotating shaft, a rotating plate and a handle, wherein one end of the rotating shaft is connected with the handle, the crank is connected with the rotating shaft, the rotating plate is connected with the crank, one end of the spring pressing pin is connected with the rotating plate, and the other end of the spring pressing pin is connected with the pressing plate.

Therefore, the rotary motion is converted into linear motion through the transmission structures such as the crank, the spring pressing pin and the material pressing plate, the structure is simple and reliable, and the operation and the control are convenient.

In some embodiments, the device further comprises a first optical fiber displacement sensor and a second optical fiber displacement sensor, wherein the first optical fiber displacement sensor is arranged above the stripping plate, and the second optical fiber displacement sensor is arranged in the anti-sticking rubber plate at the upper end part of the positioning plate of the base frame.

From this, the degree of automation and the peeling precision of machine are peeled off further to optic fibre displacement sensor's setting, and first optic fibre displacement sensor is used for detecting material area product feed position, and the feed position in second optic fibre displacement sensor detection waste material area can only set up one of them displacement sensor, also sets up two simultaneously, and when setting up two, it is higher to detect the precision. The optical fiber displacement sensor is the prior art and is only applied in the scheme.

In some embodiments, the base frame comprises a bottom plate and a positioning plate, the bottom plate is provided with a T-shaped guide rail and a limiting block, and the base is provided with a T-shaped groove matched with the T-shaped guide rail; the locating plate is connected in the tip of bottom plate, and the locating plate is equipped with the locating pin, and the base is equipped with adjusts the riser, adjusts the riser and is equipped with the locating hole with locating pin matched with.

Therefore, the base frame can move relative to the base frame, mainly for the purpose of adjustment, so that the stripping machine can be widely applied to different equipment or production lines; the T-shaped guide rail and the T-shaped groove have a guiding function, so that the adjusting precision is improved, the limiting block limits the adjusting range of the base frame, and the base frame is prevented from being separated; and a matching structure of the positioning pin and the positioning hole is further arranged, so that the adjusting precision is further improved.

The utility model has the advantages that: the stripping end of the stripping plate is provided with a stripping edge, so that the stripping quality is improved;

in addition, the feeding gear and the clutch gear of the feeding device are meshed and in clutch fit with each other through a clutch driving part controlled by a handle, so that the feeding device is convenient to operate and controls the feeding time sequence efficiently, and the feeding precision and the material stripping machine performance are improved;

the feeding device and the receiving device share the second motor, so that feeding and receiving are carried out synchronously, the working efficiency is improved, the structure is compact, the space is saved, and the manufacturing cost is reduced;

the material receiving device is provided with a material clamping rod, so that the material receiving device is favorable for orderly and smoothly rolling;

moreover, the discharging device is provided with a resistance wheel and a damping part, so that the power moment of the discharging wheel can be adjusted, a material belt product has certain tension in conveying, the discharging wheel is prevented from generating redundant and unnecessary rotation, and the performance and the application range of the stripping machine are improved;

finally, the base frame realizes the relative movement adjusting function through the guide rail and groove structure and the positioning pin and positioning hole structure, the adjusting precision is high, so that the stripping machine can be matched with different equipment or production more, and the application range is improved; and an optical fiber displacement sensor is arranged to improve the material stripping precision and the automation degree.

Drawings

Fig. 1 is a structural diagram of an auxiliary material stripping machine of the present invention;

fig. 2 is another structural diagram of an auxiliary material stripping machine of the present invention;

FIG. 3 is a structural view of the connecting position between the base frame and the stripping device of the auxiliary material stripping machine of the present invention;

fig. 4 is a structural diagram of a feeding device of an auxiliary material stripping machine of the utility model;

fig. 5 is a structural diagram of a material receiving device of the auxiliary material stripping machine of the utility model;

fig. 6 is a structural diagram of a discharging device of an auxiliary material stripping machine of the present invention;

wherein: 1-a base; 11-adjusting the vertical plate; 111-locating holes; 2-a base frame; 21-a bottom plate; 211-a limiting block; 22-a vertical plate; 23-a positioning plate; 231-a locating pin; 24-anti-sticking rubber plates;

3-a stripping device; 31-a peel plate; 311-a stripping edge; 32-a peeling seat; 33-a guide rail; 34-a slide block; 35-a rack; 36-a first gear; 37-a first motor;

4-a discharging device; 41-a discharging wheel; 42-a discharge baffle; 43-resistance wheel; 44-a damping member; 45-damping slide block; 46-adjusting screw; 47-a support plate;

5-a material receiving device; 51-a take-up wheel; 52-a driven pulley; 53-a clamping bar; 54-a connecting plate; 55-a second motor; 56-driving pulley;

6-a feeding device; 61-a feed gear; 62-clutch gear; 63-a drive gear; 64-a driven gear; 65-clutch drive; 651-swage plate; 652-spring press pin; 653-a rotating shaft; 654-rotating plate; 655-handle;

71-a first fiber displacement sensor; 72 second fiber optic displacement sensor.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, an auxiliary material stripping machine includes a base frame 2, a stripping device 3, a discharging device 4, a receiving device 5 and a feeding device 6;

the stripping device 3 comprises a stripping plate 31 capable of moving along the length direction of the base frame 2, and a stripping edge 311 is arranged at the stripping end of the stripping plate 31;

the discharging device 4 is arranged at one end of the base frame 2;

the material receiving device 5 comprises a material receiving wheel 51 for winding the waste belt;

the feeding device 6 comprises a feeding gear 61 and a clutch gear 62, and the clutch gear 62 can be meshed with or clutched with the feeding gear 61.

Further, as shown in fig. 3, the peeling apparatus 3 further includes a peeling seat 32, a guide rail 33, a sliding block 34, a rack 35, a first gear 36 and a first motor 37, the peeling seat 32 is connected below the peeling plate 31, the guide rail 33 is disposed on the base frame 2, the sliding block 34 moving in cooperation with the guide rail 33 is disposed on the peeling seat 32, the peeling seat 32 is provided with the rack 35, the first motor 37 is fixed on the base frame 2, an output end of the first motor 37 is linked with the first gear 36, and the rack 35 is engaged with the first gear 36.

To explain further, as shown in fig. 6, the discharge device 4 includes a discharge wheel 41, a resistance wheel 43, and a damping portion, the resistance wheel 43 is linked with the discharge wheel 41, and the damping portion can be abutted against the resistance wheel 43.

Further, the damping portion includes a damping member 44 capable of abutting against the resistance wheel 43, a damping slider 45, and an adjusting screw 46, one end of the damping slider 45 is connected to the damping member 44, and the other end of the damping slider 45 is connected to the adjusting screw 46.

Further, as shown in fig. 4 and 5, the material receiving device 5 further includes a driven pulley 52, a driving pulley 56 and a second motor 55, the driven pulley 52 is connected to one end of the material receiving wheel 51, the driving pulley 56 is linked with an output end of the second motor 55, and a transmission belt is connected between the driving pulley 56 and the driven pulley 52.

Further, the material receiving wheel 51 is connected with a material clamping rod 53. The material clamping rod 53 extends along the axial direction of the material receiving wheel 51, so that the waste material belt can be wound neatly, tightly and smoothly.

Further, as shown in fig. 4, the feeding device 6 further includes a driving gear 63, a driven gear 64, a second motor 55 and a clutch driving portion 65, an output end of the second motor 55 is linked with the driving gear 63, the driving gear 63 is engaged with the driven gear 64, the feeding gear 61 is linked with the driven gear 64, and the clutch driving portion 65 can drive the clutch gear 62 to be engaged with or disengaged from the feeding gear 61.

Further, the clutch driving part 65 includes a pressing plate 651, a spring pressing pin 652, a crank, a rotating shaft 653, a rotating plate 654 and a handle 655, wherein one end of the rotating shaft 653 is connected to the handle 655, the crank is connected to the rotating shaft 653, the rotating plate 654 is connected to the crank, one end of the spring pressing pin 652 is connected to the rotating plate 654, and the other end of the spring pressing pin 652 is connected to the pressing plate 651.

Further, the stripper further comprises a first optical fiber displacement sensor 71 and a second optical fiber displacement sensor 72, wherein the first optical fiber displacement sensor 71 is disposed above the stripper plate 31, and the second optical fiber displacement sensor 72 is disposed in the anti-adhesive plate 24 at the upper end of the positioning plate 23 of the base frame 2.

Further explaining, as shown in fig. 1 and fig. 2, the base frame 2 includes a bottom plate 21 and a positioning plate 23, the bottom plate 21 is provided with a T-shaped guide rail and a limiting block 211, and the base 1 is provided with a T-shaped groove matched with the T-shaped guide rail; the locating plate 23 is connected in the tip of bottom plate 21, and the locating plate 23 is equipped with locating pin 231, and base 1 is equipped with adjusts riser 11, adjusts riser 11 and is equipped with the locating hole 111 with locating pin 231 matched with.

The working principle is as follows:

the base frame 2 is composed of a bottom plate 21, a vertical plate 22 and a positioning plate 23, a guide rail 33 of the stripping device 3 is fixed on the vertical plate 22, a first motor 37 is fixed on the bottom plate 21, and the first motor 37 drives the stripping plate 31 to reciprocate through the cooperation of a first gear 36 and a rack 35 to strip a product.

The supporting plate 47 of the discharging device 4 is connected with the vertical plate 22, the resistance wheel 43 and the damping piece 44 are matched to adjust the rotating torque of the discharging wheel 41, namely the contact force between the damping piece 44 and the resistance wheel 43 is adjusted through the adjusting screw rod 46, and the larger the contact force between the damping piece 44 and the resistance wheel 43 is, the larger the generated friction resistance is; the material discharging device is characterized in that a material discharging baffle 42 linked with a material discharging wheel 41 is further arranged and used for shielding a label, the material discharging wheel 41 is rotatably installed on a material discharging shaft, a clamping jaw is detachably connected to the material discharging wheel 41 through a spring structure and used for positioning the position of the material discharging wheel 41, and the material discharging wheel 41 can be conveniently replaced through a detachable structure. In order to further improve the resistance adjustment effect, the support plate 47 is provided with a linear guide rail which is matched with the damping slide block 45 and plays a role in guiding.

The material receiving wheel 51 of the material receiving device 5 is driven by the second motor 55, the material receiving wheel 51 is connected to the vertical plate 22 through the connecting plate 54, and the material clamping rod 53 can clamp the waste belt, so that the material receiving is more tidy.

The feeding device 6 is used for conveying a material belt product, the feeding gear 61 and the clutch gear 62 realize a feeding function in an engaged state, feeding is stopped in a clutch state, the clutch driving portion 65 is used for driving the clutch gear 62 to be engaged or disengaged, the handle 655 is rotated, the rotating shaft 653 drives the crank to swing, the rotating plate 654 swinging along with the crank pushes the spring pressing pin 652 to move, the rotating motion is converted into linear motion, the spring pressing pin 652 transmits power to the pressing plate 651, and the pressing plate 651 pushes the clutch gear 62 to move.

The material receiving device 5 and the feeding device 6 share the second motor 55, so that on one hand, the space is saved, the parts are reduced, on the other hand, the material receiving and feeding are started and stopped synchronously, and the material stripping precision is improved.

In order to further improve the stripping precision, a first optical fiber displacement sensor 71 and a second optical fiber displacement sensor 72 are provided, the first optical fiber displacement sensor 71 is fixed on the vertical plate 22 above the stripping plate 31, the second optical fiber displacement sensor 72 is arranged in the anti-sticking rubber plate 24 at the upper end of the positioning plate 23, and when the optical fiber displacement sensor detects that the strip material product moves or detects that the anti-sticking rubber plate 24 has stripped waste materials, the stripping plate 31 of the stripping device 3 moves to strip the product.

The base frame 2 is movable with respect to the base 1, mainly to enable adjustment of the position, enabling a greater range of applications of the stripping machine to different apparatuses or production lines.

The whole auxiliary material stripping machine is compact in structure and light, can be applied to different stripping equipment or production lines, and is high in automation degree and stripping precision.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. An auxiliary material stripping machine is characterized by comprising a base frame (2), a stripping device (3), a discharging device (4), a receiving device (5) and a feeding device (6);

the stripping device (3) comprises a stripping plate (31) capable of moving along the length direction of the base frame (2), and a stripping edge (311) is arranged at the stripping end of the stripping plate (31);

the discharging device (4) is arranged at one end of the base frame (2);

the material receiving device (5) comprises a material receiving wheel (51) for winding the waste material belt;

the feeding device (6) comprises a feeding gear (61) and a clutch gear (62), wherein the clutch gear (62) can be meshed with or clutched with the feeding gear (61).

2. The auxiliary material stripping machine according to claim 1, characterized in that the stripping device (3) further comprises a stripping seat (32), a guide rail (33), a sliding block (34), a rack (35), a first gear (36) and a first motor (37), the stripping seat (32) is connected below the stripping plate (31), the guide rail (33) is arranged on the base frame (2), the sliding block (34) moving in cooperation with the guide rail (33) is arranged on the stripping seat (32), the stripping seat (32) is provided with the rack (35), the first motor (37) is fixed on the base frame (2), the output end of the first motor (37) is linked with the first gear (36), and the rack (35) is meshed with the first gear (36).

3. The auxiliary material stripping machine according to claim 1, characterized in that the discharging device (4) comprises a discharging wheel (41), a resistance wheel (43) and a damping part, wherein the resistance wheel (43) is linked with the discharging wheel (41), and the damping part can be abutted against the resistance wheel (43).

4. The auxiliary material stripping machine according to claim 3, characterized in that the damping part comprises a damping piece (44) capable of abutting against the resistance wheel (43), a damping slide block (45) and an adjusting screw (46), one end of the damping slide block (45) is connected with the damping piece (44), and the other end of the damping slide block (45) is connected with the adjusting screw (46).

5. The auxiliary material stripping machine according to claim 1, characterized in that the receiving device (5) further comprises a driven pulley (52), a driving pulley (56) and a second motor (55), the driven pulley (52) is connected to one end of the receiving wheel (51), the driving pulley (56) is linked with the output end of the second motor (55), and a transmission belt is connected between the driving pulley (56) and the driven pulley (52).

6. Auxiliary material stripper as in claim 1 or 5, characterized in that the receiving wheel (51) is connected with a material gripping bar (53).

7. The auxiliary material stripping machine according to claim 1, characterized in that the feeding device (6) further comprises a driving gear (63), a driven gear (64), a second motor (55) and a clutch driving part (65), the output end of the second motor (55) is linked with the driving gear (63), the driving gear (63) is meshed with the driven gear (64), the feeding gear (61) is linked with the driven gear (64), and the clutch driving part (65) can drive the clutch gear (62) to be meshed with or to be in clutch with the feeding gear (61).

8. The auxiliary material stripping machine according to claim 7, characterized in that the clutch driving part (65) comprises a pressing plate (651), a spring pressing pin (652), a crank, a rotating shaft (653), a rotating plate (654) and a handle (655), one end of the rotating shaft (653) is connected with the handle (655), the crank is connected with the rotating shaft (653), the rotating plate (654) is connected with the crank, one end of the spring pressing pin (652) is connected with the rotating plate (654), and the other end of the spring pressing pin (652) is connected with the pressing plate (651).

9. The auxiliary material stripper as defined in claim 1, further comprising a first optical fiber displacement sensor (71) and a second optical fiber displacement sensor (72), wherein the first optical fiber displacement sensor (71) is disposed above the stripping plate (31), and the second optical fiber displacement sensor (72) is disposed in the anti-sticking glue plate (24) at the upper end of the positioning plate (23) of the base frame (2).

10. The auxiliary material stripping machine according to claim 1, characterized in that the base frame (2) comprises a bottom plate (21) and a positioning plate (23), wherein a T-shaped guide rail and a limiting block (211) are arranged on the bottom plate (21), the stripping machine further comprises a base (1), and the base (1) is provided with a T-shaped groove matched with the T-shaped guide rail; the positioning plate (23) is connected to the end portion of the bottom plate (21), the positioning plate (23) is provided with a positioning pin (231), the base (1) is provided with an adjusting vertical plate (11), and the adjusting vertical plate (11) is provided with a positioning hole (111) matched with the positioning pin (231).

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