CN220197990U - Surplus material collection device of two-sided slot milling machine - Google Patents

Abstract

The utility model discloses a residual material collecting device of a double-sided slot milling machine, which belongs to the technical field of plate processing and comprises a residual material conveying mechanism and a collecting hopper, wherein the residual material conveying mechanism comprises a driving roll shaft, a driven roll shaft and a conveying belt wound between the driving roll shaft and the driven roll shaft, and further comprises a driving module which is in driving connection with one end of the driving roll shaft and is arranged on the side edge of a rack of the double-sided slot milling machine; the aggregate hopper and the driving module are arranged on the same side of the double-sided slot milling machine and comprise an aggregate main body with a hollow cavity, the aggregate main body is provided with an aggregate port, the residual material conveying mechanism extends into the cavity through the aggregate port, and the aggregate main body is communicated with external air draft equipment. This clout collection device carries with the help of clout conveying mechanism's power to and the adsorption of outside updraft ventilator, the saw-dust that drops when can the automatic collection processing, application scope is wide, effectively saves installation space.

Description

Surplus material collection device of two-sided slot milling machine

Technical Field

The utility model belongs to the technical field of plate processing, and particularly relates to a residual material collecting device of a double-sided slot milling machine.

Background

The slot milling machine is a processing device which can obtain a plate product with a certain shape, size and surface state by the relative motion generated by the action of a cutter on the plate. After the automatic feeding system is additionally arranged on the slot milling machine, the continuous milling operation of the plate can be realized by matching with automatic feeding and discharging, and the slot milling machine is suitable for milling slots and flattening processing of various plates. Different slot milling machines have different uses, and the shape specification of the processed product determines the structural form of the slot milling machine. In order to meet the requirement of double-sided milling of the plate, a double-sided slot milling machine appears, and when the double-sided slot milling machine is used for processing the plate, the double-sided milling of the plate can be realized only by one clamping, so that the production efficiency is greatly improved. But the milling process of the double-sided slot milling machine can be carried out with the chips and dust left on the table top and the bottom of the equipment, so as to avoid the chips and dust from affecting the surface processing quality of the plate, operators are usually required to manually clean the table top and the bottom to carry out the next milling process, which is quite time-consuming and labor-consuming.

In the prior art, as disclosed in chinese patent CN210173801U, a dust collection and removal device for wood board processing machinery is provided, which comprises a frame main body, a supporting flat plate, a control box and an exhaust fan, wherein a workbench is arranged above the frame main body, the supporting flat plate is arranged on the workbench, adsorption holes are uniformly formed in the supporting flat plate, a shutter is arranged on the rear side of the workbench, one side of the frame main body is positioned above the shutter and provided with the control box, one side of the frame main body is positioned below the control box and provided with a supporting plate, a circulating pump is arranged on the supporting plate, and a water pipe is arranged on the circulating pump. The dust collection and dust removal equipment has the functions of collecting processing cuttings and reducing dust to a certain extent, but the installation space required by the dust collection and dust removal equipment is larger, and the double-sided slot milling machine is provided with an upper milling device and a lower milling device, so that the residual space is difficult to meet the erection requirement of the dust collection and dust removal equipment; in addition, the double-sided slot milling machine can not avoid falling chips with larger mass in the milling process, and reliable collection of the chips with large mass is difficult to realize by adopting suction devices such as an exhaust fan and the like.

Therefore, it is desirable to provide a residue collecting device suitable for a double-sided slot milling machine, so as to solve the above-mentioned drawbacks in the prior art.

Disclosure of Invention

Aiming at the problems in the related art, the utility model provides a residual material collecting device of a double-sided slot milling machine, which overcomes the technical problems existing in the prior related art, realizes automatic collection and removal of falling wood dust and dust during processing, effectively avoids dust accumulation, and solves the defects of larger installation space, difficult collection of large-quality chips and the like of the existing dust collection and dust removal equipment.

The technical scheme of the utility model is realized as follows: the residue collecting device of the double-sided slot milling machine comprises a residue conveying mechanism and a collecting hopper, wherein the double-sided slot milling machine comprises a frame and a processing platform arranged on the frame,

the excess material conveying mechanism is arranged below the frame of the double-sided slot milling machine and is opposite to the processing platform; the surplus material conveying mechanism comprises a driving roll shaft, a driven roll shaft and a conveying belt wound between the driving roll shaft and the driven roll shaft, and also comprises a driving module, wherein the driving module is in driving connection with one end of the driving roll shaft, the driving module is arranged on the side edge of a rack of the double-sided slot milling machine, and the driving roll shaft drives the conveying belt to sequentially convey from the driven roll shaft to the direction of the driving roll shaft under the driving of the driving module;

the utility model discloses a double-sided slot milling machine, including the main part that gathers materials, the main part that gathers materials is equipped with the mouth that gathers materials, the clout conveying mechanism passes through the mouth part that gathers materials stretches into in the cavity, the main part that gathers materials still is equipped with an air extraction opening, air extraction opening and outside air extraction equipment intercommunication each other.

According to the utility model, the residual material conveying mechanism extends into the bottom of the frame of the double-sided slot milling machine, the collecting hopper is arranged on one side of the double-sided slot milling machine, the structure is small, the application range is wide, the installation space is greatly saved, and the regular cleaning of chips and dust in the collecting hopper is also convenient.

As the further improvement of above scheme, clout conveying mechanism includes a support frame, and initiative roller, driven roller are along circumference rotation and follow axial fixity and distribute the both ends of support frame, still are provided with a plurality of transition roller between initiative roller and the driven roller, each transition roller respectively with the support frame rotates to be connected.

As a further improvement of the scheme, the support frame comprises two parallel line profiles, a plurality of support ribs are connected between the two line profiles, the upper side of each support rib is connected with a support plate, one outward end of each support plate is bent obliquely downwards to form a guide plate, and two sides of the guide plate are respectively connected with the two line profiles;

as a further improvement of the scheme, the conveying belt comprises an upper layer conveying belt and a lower layer conveying belt which are connected with each other in a closed loop manner, and the supporting plate is positioned between the upper layer conveying belt and the lower layer conveying belt; the upper end face of the supporting plate and the lower end face of the upper layer conveying belt are in sliding abutting fit with each other;

it is to be noted that, after the traditional belt transmission mechanism is used for a long time, the defects of insufficient tension and the like exist, so that the upper layer belt is easy to collapse downwards, and the conveying effect of chips and dust is affected; further, the supporting plate is abutted against the lower side of the upper layer conveying belt, and the conveying belt can be ensured to be always kept in a straight conveying state through the supporting function of the supporting plate, so that the operation reliability of the residual material collecting device is improved.

As a further improvement of the scheme, the residue conveying mechanism extending into the cavity is also provided with a guide plate, the guide plate is positioned at the outer side of the driving roll shaft, and the guide plate is obliquely downwards arranged towards the collecting hopper; when the quality of the cuttings is too large, the effective collection and adsorption of the cuttings are difficult to realize by a single suction device; furthermore, the waste collection device can automatically collect the falling wood dust and dust during processing by means of the power transmission of the waste conveying mechanism and the adsorption action of external air draft equipment, so that dust accumulation, aggregation and agglomeration are effectively avoided, manual cleaning is not needed, labor cost is reduced, and production efficiency is improved; meanwhile, the guide plate is arranged on the outer side of the driving roll shaft, and the waste conveying mechanism conveys the cuttings to the collecting hopper through the guide plate, so that the collection and adsorption effects of the cuttings and dust can be effectively ensured.

As a further improvement of the scheme, the driving module comprises a support fixed on the support frame, a motor is installed on the support, an output shaft of the motor is connected with a driving wheel, a driving wheel is correspondingly connected to the driving roll shaft, the driving wheel is arranged below the driving wheel in the vertical direction, and the driving wheel and the driven wheel are in transmission connection through a transmission belt.

As a further improvement of the scheme, the outer contour of the aggregate main body is cylindrical, the side wall of the aggregate main body is opened towards one side of the driving roll shaft, and the opening extends and is closed on the periphery of the driving roll shaft to form the aggregate port; the collection port is arranged to enclose the active roll shaft, so that the collection effect on the cuttings and dust can be greatly improved, and the cuttings and dust are effectively prevented from drifting around.

As a further improvement of the scheme, a plurality of connecting rib plates are also distributed on two sides of the excess material conveying mechanism, and each connecting rib plate extends from bottom to top and is respectively and fixedly connected with the rack of the double-sided slot milling machine; in order to improve the operation reliability of the residual material collecting device, further, a connecting rib plate is arranged to be in fastening fit with the frame, so that the connection stability of the residual material collecting device and the double-sided slot milling machine is ensured.

As a further improvement of the scheme, a plurality of rollers and/or foot supports are also distributed at the bottom of the residue conveying mechanism.

As a further improvement of the scheme, the upper edge of the residual material collecting device is 100-200 mm away from the ground; it should be noted that, the double-sided slot milling machine has the upper and lower milling devices, so the residual space is small, the residual material conveying mechanism extends into the bottom of the rack of the double-sided slot milling machine, the ground clearance of the upper edge of the double-sided slot milling machine is configured between 100mm and 200mm, the installation space can be effectively saved, and the applicability is strong.

The utility model has the beneficial effects that:

the waste conveying mechanism stretches into the bottom of the rack of the double-sided slot milling machine, the collecting hopper is arranged on one side of the double-sided slot milling machine, the structure is small, the application range is wide, the installation space is greatly saved, and the regular cleaning of chips and dust accumulation in the collecting hopper is also facilitated; by means of the power transmission of the excess material conveying mechanism and the adsorption effect of external air draft equipment, the wood dust falling during processing is automatically collected, dust accumulation, aggregation and agglomeration are effectively avoided, manual cleaning is not needed, labor cost is reduced, and production efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view of the present utility model and an enlarged partial view of the cull conveying mechanism;

FIG. 3 is a schematic structural view of a supporting frame of the residue conveying mechanism of the utility model;

FIG. 4 is a schematic diagram of the connection of the cullet conveying mechanism and the collecting hopper of the present utility model;

FIG. 5 is a schematic diagram of the installation of the present utility model with a double-sided slot milling machine;

reference numerals:

1. a frame;

41. a residue conveying mechanism;

411. a support frame; 412. a driving roll shaft; 413. a driven roll shaft; 414. a transition roll shaft; 415. a conveyor belt; 415a, upper conveyor belt; 415b, lower conveyor belt;

4111. a wire profile; 4112. support ribs; 4113. a support plate; 4114. a guide plate; 4115. a deflector; 42. a collecting hopper; 421. an aggregate body; 4211. a material collecting port; 4212. an air suction port; 4213. a filter screen; q1, cavity;

43. connecting rib plates;

44. a driving module; 441. a support; 442. a motor; 443. a driving wheel; 444. driven wheel; 445. a transmission belt;

45. a roller;

46. and (5) a foot support.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 5, a residue collecting device of a double-sided slot milling machine, which comprises a frame 1, and a processing platform arranged on the frame 1,

the excess material conveying mechanism 41 is arranged below the frame 1 of the double-sided slot milling machine and is opposite to the processing platform;

the excess material conveying mechanism 41 comprises a driving roll shaft 412, a driven roll shaft 413 and a conveying belt 415 wound between the driving roll shaft 412, and further comprises a driving module 44, wherein the driving module 44 is in driving connection with one end of the driving roll shaft 412, the driving module 44 is arranged on the side edge of the frame 1 of the double-sided slot milling machine, and the driving roll shaft 412 drives the conveying belt 415 to sequentially convey from the driven roll shaft 413 to the direction of the driving roll shaft 412 under the driving of the driving module 44; in this embodiment, the driving module 44 includes a support 441 fixed on the support 411, a motor 442 is mounted on the support 441, an output shaft of the motor 442 is connected with a driving wheel 443, the driving roller shaft 412 is correspondingly connected with a driven wheel 444, the driven wheel 444 is disposed below the driving wheel 443 in a vertical direction, and the driving wheel 443 and the driven wheel 444 are in transmission connection with each other through a transmission belt 445; specifically, the driving wheel 443 and the driven wheel 444 are both sprockets, and the driving belt 445 is a chain wound between the two sprockets.

In this embodiment, the excess material conveying mechanism 41 includes a supporting frame 411, a driving roller shaft 412 and a driven roller shaft 413 are circumferentially rotated and axially fixedly distributed at two ends of the supporting frame 411, a plurality of transition roller shafts 414 are further disposed between the driving roller shaft 412 and the driven roller shaft 413, and each transition roller shaft 414 is respectively rotatably connected with the supporting frame 411; specifically, the number of the transition roller shafts 414 is 1, and the transition roller shafts are located at the middle positions of the driving roller shaft 412 and the driven roller shaft 413; in the embodiment, the upper edge of the residue collecting device is 100-200 mm away from the ground; it should be noted that, the double-sided slot milling machine is provided with an upper milling device and a lower milling device, so that the residual space is small, the residual material conveying mechanism 41 extends into the bottom of the frame 1 of the double-sided slot milling machine, the ground clearance of the upper edge of the residual material conveying mechanism is configured between 100mm and 200mm, the installation space can be effectively saved, and the applicability is strong; in this embodiment, the height of the upper edge of the remainder collecting device from the ground is 150mm.

In this embodiment, the supporting frame 411 includes two parallel linear materials 4111, a plurality of supporting ribs 4112 are connected between the two linear materials 4111, and in particular, the supporting ribs 4112 preferably adopt a "" sheet metal structure with upward notches; the upper side of each supporting rib 4112 is connected with a supporting plate 4113, one outward end of the supporting plate 4113 is bent obliquely downwards to form a guiding plate 4114, and two sides of the guiding plate 4114 are respectively connected with two linear materials 4111; in this embodiment, the conveyor belt 415 includes an upper conveyor belt 415a and a lower conveyor belt 415b that are connected to each other in a closed loop, and the support plate 4113 is located between the upper conveyor belt 415a and the lower conveyor belt 415 b; wherein, the upper end surface of the support plate 4113 and the lower end surface of the upper conveyor belt 415a are in sliding contact with each other.

It is to be noted that, after the traditional belt transmission mechanism is used for a long time, the defects of insufficient tension and the like exist, so that the upper layer belt is easy to collapse downwards, and the conveying effect of chips and dust is affected; further, the lower side of the upper layer conveying belt 415a abuts against the supporting plate 4113, and the supporting function of the supporting plate 4113 ensures that the conveying belt 415 can always keep in a flat conveying state, so that the operation reliability of the residual material collecting device is improved.

In this embodiment, a guide plate 4115 is further disposed on the remainder conveying mechanism 41 extending into the cavity Q1, the guide plate 4115 is located at the outer side of the driving roller shaft 412, and the guide plate 4115 is inclined downward toward the collecting hopper 42; specifically, the inclination angle of the baffle 4115 with the horizontal plane ranges from 10 ° to 45 °, and the height of the baffle 4115 from the ground is lower than the plane of the upper conveyor 415 a;

when the quality of the cuttings is too large, the effective collection and adsorption of the cuttings are difficult to realize by a single suction device; further, the waste collection device can automatically collect the falling wood dust and dust during processing by means of the power transmission of the waste conveying mechanism 41 and the adsorption action of external air draft equipment, so that dust accumulation, aggregation and agglomeration are effectively avoided, manual cleaning is not needed, labor cost is reduced, and production efficiency is improved; meanwhile, the guide plate 4115 is arranged on the outer side of the driving roller shaft 412, and the waste conveying mechanism 41 conveys the cuttings to the collecting hopper 42 through the guide plate 4115, so that the collection and adsorption effects of the cuttings and the dust can be effectively ensured.

The collecting hopper 42 and the driving module 44 are disposed on the same side of the double-sided slot milling machine, and comprise an aggregate main body 421 with a hollow cavity Q1, the aggregate main body 421 is provided with an aggregate port 4211, the residual material conveying mechanism 41 extends into the cavity Q1 through the aggregate port 4211, the aggregate main body 421 is further provided with an exhaust port 4212, and the exhaust port 4212 is mutually communicated with external exhaust equipment. Specifically, the suction port 4212 is further provided with a filter screen 4213, so that large-sized chips can be effectively prevented from being sucked into the suction device.

In this embodiment, the outer contour of the aggregate body 421 is cylindrical, the side wall of the aggregate body 421 is opened toward one side of the driving roller shaft 412, and the opening extends and closes around the periphery of the driving roller shaft 412 to form the aggregate opening 4211; the collection port 4211 is arranged to enclose the driving roll shaft 412, so that the collection effect of the cuttings and dust can be greatly improved, and the cuttings and dust can be effectively prevented from drifting around.

In this embodiment, a plurality of rollers 45 and a plurality of braces 46 are also distributed at the bottom of the remainder conveying mechanism 41; specifically, the rollers 45 and the braces 46 are respectively distributed along the extending direction of the two linear materials 4111 at intervals, and the rollers 45 are arranged so that a user can push the residue collecting device to adjust the arrangement position according to actual requirements; the height of the residue collecting device can be correspondingly adjusted by the heel support 46 according to the requirement, so that the installation requirement of a narrow space is met.

In this embodiment, a plurality of connecting rib plates 43 are further distributed on two sides of the excess material conveying mechanism 41, and each connecting rib plate 43 extends from bottom to top and is respectively fastened and connected with the frame 1 of the double-sided slot milling machine; in order to improve the operation reliability of the residual material collecting device, a connecting rib plate 43 is further arranged to be in fastening fit with the frame 1, so that the connection stability of the residual material collecting device and the double-sided slot milling machine is ensured; specifically, the connecting rib plate 43 may be bent upwards according to actual requirements, and fastened to the frame 1 by screw/bolt connection.

Through the scheme of the utility model, in specific application: firstly, the installation space at the bottom of the frame 1 of the double-sided slot milling machine is measured, the height of each heel brace 46 is correspondingly adjusted, one end of a driven roll shaft 413 of the residue conveying mechanism 41 extends into the bottom of the frame 1 to be opposite to a processing platform, and a collecting hopper 42 is arranged at one side of the double-sided slot milling machine, so that a collecting port 4211 is enclosed at the periphery of the driving roll shaft 412. After the double-sided slot milling machine cuts, the cuttings and dust fall onto the conveying belt 415 of the residue conveying mechanism 41, and are conveyed into the collecting hopper 42 by the power of the conveying belt 415, and when the collecting hopper 42 is full, the collecting hopper 42 can be detached for dumping treatment, so that the device is convenient and quick. The waste collection device can automatically collect the falling wood dust and dust during processing by means of the power transmission of the waste conveying mechanism 41 and the adsorption action of external air draft equipment, and has the advantages of small integral structure, wide application range, great saving of installation space and quite remarkable application prospect.

Variations and modifications to the above would be obvious to persons skilled in the art to which the utility model pertains from the foregoing description and teachings. Therefore, the utility model is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the utility model should be also included in the scope of the claims of the utility model. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present utility model in any way.

Claims (10)

1. The utility model provides a two-sided slotter's clout collection device, includes clout conveying mechanism and collecting hopper, two-sided slotter includes a frame to and set up the processing platform in the frame, its characterized in that:

the excess material conveying mechanism is arranged below the frame of the double-sided slot milling machine and is opposite to the processing platform; the surplus material conveying mechanism comprises a driving roll shaft, a driven roll shaft and a conveying belt wound between the driving roll shaft and the driven roll shaft, and also comprises a driving module, wherein the driving module is in driving connection with one end of the driving roll shaft, the driving module is arranged on the side edge of a rack of the double-sided slot milling machine, and the driving roll shaft drives the conveying belt to sequentially convey from the driven roll shaft to the direction of the driving roll shaft under the driving of the driving module;

the utility model discloses a double-sided slot milling machine, including the main part that gathers materials, the main part that gathers materials is equipped with the mouth that gathers materials, the clout conveying mechanism passes through the mouth part that gathers materials stretches into in the cavity, the main part that gathers materials still is equipped with an air extraction opening, air extraction opening and outside air extraction equipment intercommunication each other.

2. The residue collecting device according to claim 1, wherein the residue conveying mechanism comprises a supporting frame, the driving roll shaft and the driven roll shaft are circumferentially rotated and axially fixedly distributed at two ends of the supporting frame, a plurality of transition roll shafts are further arranged between the driving roll shaft and the driven roll shaft, and each transition roll shaft is respectively connected with the supporting frame in a rotating mode.

3. The excess material collecting device according to claim 2, wherein the supporting frame comprises two parallel line profiles, a plurality of supporting ribs are connected between the two line profiles, the upper side of each supporting rib is connected with a supporting plate, one outward end of the supporting plate is bent obliquely downwards to form a guide plate, and two sides of the guide plate are respectively connected with the two line profiles.

4. The excess material collecting device according to claim 3, wherein the conveyor belt comprises an upper conveyor belt and a lower conveyor belt which are connected with each other in a closed loop, and the support plate is positioned between the upper conveyor belt and the lower conveyor belt; the upper end face of the supporting plate and the lower end face of the upper layer conveying belt are in sliding abutting fit with each other.

5. The excess material collecting device according to claim 4, wherein the excess material conveying mechanism extending into the cavity is further provided with a deflector, the deflector is located at the outer side of the driving roll shaft, and the deflector is inclined downward toward the collecting hopper.

6. The excess material collecting device according to claim 5, wherein the driving module comprises a support fixed on the supporting frame, a motor is installed on the support, an output shaft of the motor is connected with a driving wheel, a driven wheel is correspondingly connected to the driving roll shaft, the driven wheel is arranged below the driving wheel in the vertical direction, and the driving wheel and the driven wheel are in transmission connection through a transmission belt.

7. The excess material collecting device according to claim 1 or 6, wherein the outer contour of the aggregate main body is cylindrical, the side wall of the aggregate main body is opened toward one side of the active roll shaft, and the opening extends and is closed around the peripheral side of the active roll shaft to form the aggregate port.

8. The excess material collecting device according to claim 1, wherein a plurality of connecting rib plates are further distributed on two sides of the excess material conveying mechanism, and each connecting rib plate extends from bottom to top and is respectively and fixedly connected with a rack of the double-sided slot milling machine.

9. The residue collecting device according to claim 1, wherein a plurality of rollers and/or foot supports are further distributed at the bottom of the residue conveying mechanism.

10. The cull collector of claim 1, wherein the cull collector has an upper edge height from ground ranging from 100mm to 200mm.