CN213863941U - Calibrating device of former scroll - Google Patents

Abstract

The utility model relates to a calibrating device of former scroll, including transmission frame, install axial aligning gear and radial aligning gear on transmission frame, radial aligning gear is including installing the setting element at the feed end and the first driving piece that the drive setting element removed, radial aligning gear is equipped with two sets ofly, is located the both sides of transport mechanism direction of feed respectively for support former scroll lateral wall in order to calibrate its position, two the relative one side of setting element forms the direction inclined plane, the direction inclined plane is downward to being close to transport mechanism one side slope by keeping away from transport mechanism one side. This application has the effect that reduces former scroll material loading position deviation.

Description

Calibrating device of former scroll

Technical Field

The application relates to the field of corrugated paper production technology, in particular to a calibrating device for a raw paper roll.

Background

Corrugated paper is a plate-shaped object formed by bonding liner paper and corrugated paper formed by processing through a corrugated roller, and is generally divided into a single corrugated board and a double corrugated board, and a single-side corrugating machine is the most common equipment for processing corrugated boards at present.

At present, a conveying mechanism is arranged at the feed end of the corrugated single facer, and the conveying mechanism comprises two driving wheels arranged at intervals, a conveying belt wound around the two driving wheels in a tensioning manner, and a conveying motor driving one of the driving wheels to rotate. When the corrugated single facer is fed, the raw paper roll is generally conveyed to the upper surface of the conveying mechanism manually, the axis of the raw paper roll is parallel to the moving direction, and the raw paper roll is conveyed to the interior of the corrugated single facer by the conveying mechanism.

In the above-described related art, the raw paper roll is fed into the corrugator machine along with the conveyor belt, but there may be misalignment when the raw paper roll is placed on the conveyor belt. In the conveying process, due to inertia, the offset original paper roll is easy to laterally offset, so that the position deviation of feeding is overlarge when the paper roll is conveyed into the corrugating single-sided machine.

Disclosure of Invention

In order to reduce the deviation of former scroll material loading position, this application provides a calibrating device of former scroll.

The application provides a calibrating device of former scroll adopts following technical scheme:

the utility model provides a calibrating device of former scroll, includes the transmission frame, installs axial aligning gear and radial aligning gear on the transmission frame, radial aligning gear is including installing the setting element at the feed end and the first driving piece that the drive setting element removed, radial aligning gear is equipped with two sets ofly, is located the both sides of transport mechanism direction of feed respectively for support former scroll lateral wall in order to calibrate its position, two the relative one side of setting element forms the direction inclined plane, the direction inclined plane is downward to being close to transport mechanism one side slope by keeping away from transport mechanism one side.

By adopting the technical scheme, the axial calibration mechanism and the radial calibration mechanism are arranged on the transmission frame to calibrate the position of the raw paper roll on the transmission mechanism so as to reduce the position deviation of the raw paper roll transmitted into the corrugated single-sided machine. During the material loading, the manual work is arranged the former scroll in transport mechanism, and the radial aligning gear of transport mechanism both sides starts simultaneously, and first driving piece passes the setting element, and when the setting element of both sides was close to, passes the former scroll to transport mechanism middle part, reaches the effect of calibration radial position. The axial calibration mechanism calibrates the axial position of the raw paper roll, so that when the raw paper roll is conveyed into the corrugated single-sided machine, the position is accurate, and the device improves the accuracy of the loading position of the raw paper roll.

Preferably, the transmission frame is provided with a mounting groove, the inner wall of the mounting groove is fixedly provided with a rotating shaft along the feeding direction, two sets of radial calibration mechanisms are arranged in the mounting groove, two positioning pieces are connected to the rotating shaft in a rotating mode, and the first driving piece is used for driving the positioning pieces to rotate along the axis of the rotating shaft.

Through adopting above-mentioned technical scheme, when former scroll was located transport mechanism, start two sets of first driving pieces simultaneously, first driving piece drives the setting element and rotates along the pivot axis, and setting element pivoted in-process passes the former scroll on the transport mechanism, reaches the effect of calibration position. After the calibration finishes, first driving piece drives the setting element and gets back to initial position, and the existence of setting element can not cause the interference to the staff this moment, in addition, compares in the level and passes former scroll, and the setting element that rotates the setting has reduced area, and the practicality is higher.

Preferably, transport mechanism installs in the transmission frame, and fixed mounting has the conveying platform on the conveyer belt, the guide way has been seted up along the direction of feed on the transmission frame, the conveying platform wears to establish in the guide way, conveying platform butt in transmission frame upper surface, and along guide way length direction sliding connection in conveying platform.

Through adopting above-mentioned technical scheme, through the former scroll of conveying platform conveying, the guide way is worn to establish by the conveying platform part, and in the data send process, the conveying platform slides in the guide way. The conveying device is not high in stability, and when the conveying table abuts against the inner wall of the guide groove and the upper surface of the conveying frame, positioning and guiding are formed, so that the raw paper roll is conveyed more stably.

Preferably, the upper surface of the conveying table is provided with a positioning cambered surface, and the opening of the positioning cambered surface is upward.

Through adopting above-mentioned technical scheme, during the material loading, the manual work is arranged the former scroll in the conveying bench, sets up the location cambered surface at conveying bench upper surface, when the former scroll is arranged in the location cambered surface, because gravity is from the minimum of rolling to the location cambered surface, forms preliminary location, and subsequent position of being convenient for is corrected.

Preferably, the axial alignment mechanism is installed at the conveying bench, the axial alignment mechanism includes that the lead screw, threaded connection that wear to establish in the conveying bench along the direction of feed are in the calibration piece and the drive lead screw pivoted second driving piece of lead screw, the screw thread at lead screw both ends revolves to opposite, the calibration piece is equipped with two, and threaded connection is in the both ends of lead screw respectively for the former scroll both ends of butt.

Through adopting above-mentioned technical scheme, former scroll is through the position calibration back of radial calibration mechanism, and the second driving piece starts, and the control lead screw rotates, because two calibration piece threaded connection are in the lead screw, and when the lead screw rotated, drive two calibration piece and be close to each other, until supporting former scroll tightly, with its rigidity, prevent the transfer process, the offset of former scroll influences follow-up processing.

Preferably, the conveying table is provided with a sliding groove along the feeding direction, and the calibration piece comprises a sliding block in threaded connection with the screw rod, and a calibration plate which is arranged in the sliding groove in a penetrating mode and is fixedly installed on the sliding block.

Through adopting above-mentioned technical scheme, when fixed former scroll position, two sliders are close to each other, drive two calibration boards and are close to each other, if former scroll axial position is inaccurate, the former scroll of butt earlier of calibration board of one side, when continuing to remove, this calibration board passes former scroll to another calibration board one side, until two calibration boards support the former scroll tightly, at this moment, accomplish the axial positioning of former scroll.

Preferably, an inductor is fixedly installed on the conveying table and outputs a detection signal, and the inductor is coupled with a control circuit and used for detecting whether the original paper roll falls on the conveying table and controlling the opening and closing of the first driving piece and the second driving piece.

Through adopting above-mentioned technical scheme, set up the inductor at the conveying bench, during the material loading, the manual work carries former scroll to the conveying bench, and the existence of former scroll is sensed to the inductor, and control circuit controls first driving piece and second driving piece and starts, realizes the radial position calibration and the axial position calibration of former scroll, improves the degree of automation of calibration process, reduces workman's intensity of labour.

Preferably, the surface of the conveying table is provided with a plurality of anti-skid lines along the width direction of the conveying table.

Through adopting above-mentioned technical scheme, set up anti-skidding line on conveying table surface, when former scroll is located conveying bench, can play skid-proof effect, reduce the probability of former scroll skew.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the axial calibration mechanism and the radial calibration mechanism calibrate the position of the original paper roll, so that the accuracy of the feeding position of the original paper roll is improved.

2. The stability of conveyer itself is not high, when the conveying platform butt in guide way inner wall and transmission frame upper surface, has improved the stability of former scroll transmission.

3. The sensor is arranged, so that the automation degree of the calibration process is improved, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure;

FIG. 2 is a partial cross-sectional view for embodying a transport mechanism;

FIG. 3 is a partial cross-sectional view for embodying a radial alignment mechanism;

fig. 4 is a schematic structural diagram of a radial alignment mechanism and an axial alignment mechanism.

Description of reference numerals: 10. a transmission rack; 11. a guide groove; 20. a transport mechanism; 21. a driving wheel; 22. a conveyor belt; 23. a transfer motor; 24. a transfer table; 241. a guide block; 242. a transfer plate; 25. positioning the arc surface; 26. anti-skid lines; 30. an inductor; 31. mounting grooves; 32. a rotating shaft; 40. a radial alignment mechanism; 41. a positioning member; 411. a positioning table; 412. a transmission rod; 42. a first avoidance slot; 43. a second avoidance slot; 44. a first driving member; 45. a chute; 50. an axial alignment mechanism; 51. a calibration piece; 511. a slider; 512. a calibration plate; 52. a screw rod; 53. a second driving member.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses calibrating device of former scroll. Referring to fig. 1, including a transfer rack 10, an axial aligning mechanism 50 and a radial aligning mechanism 40 mounted on the transfer rack 10, a transfer mechanism 20 is mounted in the transfer rack 10. The conveying frame 10 is provided with a conveying table 24, the conveying table 24 is connected with a conveying mechanism 20 and used for driving the base paper roll to move along the feeding direction, and the axial aligning mechanism 50 is arranged on the conveying table 24.

During feeding, the original paper roll is manually placed on the conveying table 24, the radial position of the original paper roll is calibrated by the radial calibration mechanism 40, and the axial position of the original paper roll is calibrated by the axial calibration mechanism 50. After the position of the base roll is calibrated, the transfer mechanism 20 transfers the base roll on the transfer table 24 to the corrugating single-sided machine for subsequent processing.

Specifically, referring to fig. 1 and 2, the conveying frame 10 is provided with two groups of guide grooves 11 along the feeding direction, and the two groups of guide grooves 11 are spaced along the width direction of the conveying frame 10. Conveying platform 24 includes guide block 241 and conveying board 242, guide block 241 fixed mounting is at conveying board 242 lower surface, and is equipped with two along conveying board 242 width direction interval, and two guide blocks 241 wear to establish respectively in two guide ways 11, and guide block 241 lower extreme fixed mounting is on conveyer belt 22, and guide block 241 is along guide way 11 length direction sliding connection in guide way 11 inner wall, conveying board 242 lower surface butt in transmission frame 10 upper surface, and conveying board 242 is along direction of feed sliding connection in transmission frame 10.

Referring to fig. 3 and 4, the upper surface of the conveying plate 242 is provided with positioning grooves, the positioning grooves penetrate through two side walls of the conveying plate 242 in the length direction, and the positioning grooves form positioning arc surfaces 25 with upward openings. The positioning arc surface 25 is provided with anti-slip patterns 26, the anti-slip patterns 26 extend along the feeding direction, and a plurality of anti-slip patterns are arranged along the width direction of the conveying plate 242. The sensor 30 is installed at the center of the conveying plate 242, and the sensor 30 may be an infrared sensor of model RL-2088d, and is configured to detect whether the base paper roll falls on the conveying table 24 and output a detection signal. The sensor 30 is coupled with a control circuit, and the control circuit is used for receiving the detection signal and controlling the power on/off of the first driving member 44 and the second driving member 53.

During the material loading, the manual work is with former scroll transport to conveying platform 24 on, and former scroll receives gravity to roll to conveying platform 24 surperficial minimum, and the existence of former scroll is sensed to inductor 30, and control circuit controls first driving piece 44 and second driving piece 53 and starts, realizes the radial position calibration and the axial position calibration of former scroll. During feeding, the conveying mechanism 20 is started to drive the conveying table 24 to move towards one side of the corrugated single-sided machine, so that the raw paper is brought into the corrugated single-sided machine.

Specifically, referring to fig. 3 and 4, the conveying frame 10 is provided with two mounting grooves 31, the two mounting grooves 31 are respectively formed in two sides of the feeding end of the conveying mechanism 20, side walls of the two mounting grooves 31 are communicated, and the communication position is located on the feeding side of the conveying mechanism 20. The mounting groove 31 lateral wall is fixed and is equipped with pivot 32, and pivot 32 sets up along the direction of feed. The radial calibration mechanisms 40 are provided in two sets, respectively located in the two mounting grooves 31. The radial alignment mechanism 40 includes a positioning member 41 and a first driving member 44, the positioning member 41 includes a positioning table 411 and a transmission rod 412 fixedly installed on one side of the positioning table 411, the transmission rod 412 is sleeved outside the rotating shaft 32 on the side far away from the positioning table 411, and the transmission rod 412 is rotatably connected to the rotating shaft 32 along the axis of the rotating shaft 32. The first driving member 44 may be a hydraulic cylinder, a cylinder portion of the first driving member 44 is rotatably connected to an inner wall of the installation groove 31, and a piston rod of the first driving member 44 is rotatably connected to the positioning table 411.

In order to avoid interference between the positioning table 411 and the transmission frame 10 during the rotation process, a first avoiding groove 42 is formed in one side of the positioning table 411 close to the transmission mechanism 20, the first avoiding groove 42 is communicated with the lower surface of the positioning table 411, and an arc-shaped surface with an opening facing the transmission mechanism 20 is formed in the side wall of the positioning table 411. In order to avoid the positioning table 411, the surface of the conveying plate 242 is provided with two second avoiding grooves 43 along the feeding direction, and the two second avoiding grooves 43 are respectively located on two sides of the feeding direction of the conveying plate 242 and respectively communicated with two side walls in the width direction.

In order to install the axial calibration mechanism 50, the conveying plate 242 is provided with two sets of sliding grooves 45 along the feeding direction, and the sliding grooves 45 are spaced along the feeding direction. The axial aligning mechanism 50 includes an aligning member 51 disposed in the slide groove 45, a screw 52 passing through the aligning member 51 in the feeding direction, and a second driving member 53 driving the screw 52 to rotate. The two ends of the screw rod 52 are rotatably connected to the transfer plate 242 through bearings, the second driving member 53 can be a motor, the second driving member 53 is fixedly installed at one end of the transfer plate 242, and the bearing at the end of the second driving member is fixedly connected to the screw rod 52. The calibration piece 51 comprises a sliding block 511 and a calibration plate 512, the sliding block 511 is connected to the screw rod 52 in a threaded manner, three side walls of the sliding block 511 abut against the inner wall of the sliding groove 45 and are connected to the sliding groove 45 in a sliding manner along the length direction of the sliding groove 45, the calibration plate 512 is fixedly connected to the upper surface of the sliding block 511, the lower surface of the calibration plate 512 is arranged in an arc shape and is consistent with the arc shape of the positioning arc surface 25, and the lower surface of the calibration plate 512 abuts against the surface of the positioning groove.

After the original paper roll is manually placed on the conveying table 24, the first driving member 44 drives the positioning members 41 to rotate along the axis of the rotating shaft 32, and the original paper roll on the conveying table 24 is pushed simultaneously in the rotating process of the two positioning members 41, so that the effect of position calibration is achieved. After the radial position calibration is finished, the second driving part 53 is started to control the screw rod 52 to rotate, and as the two calibration parts 51 are in threaded connection with the screw rod 52, the screw rod 52 drives the two calibration parts 51 to approach each other when rotating until the original paper roll is tightly pressed, and the position of the original paper roll is fixed. After the calibration is completed, the first driving member 44 drives the positioning member 41 to return to the initial position, and the conveying mechanism 20 is started to convey the conveying table 24 and the raw paper roll on the conveying table 24 to one side of the single corrugated machine.

The implementation principle of the calibrating device of this application embodiment raw paper roll is: during feeding, the original paper roll is manually placed on the conveying table 24, the radial position of the original paper roll is calibrated by the radial calibration mechanism 40, and the axial position of the original paper roll is calibrated by the axial calibration mechanism 50. After the position of the base roll is calibrated, the transfer mechanism 20 transfers the base roll on the transfer table 24 to the corrugating single-sided machine for subsequent processing.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A calibrating device of former scroll which characterized in that: including transmission frame (10), install axial alignment mechanism (50) and radial alignment mechanism (40) on transmission frame (10), radial alignment mechanism (40) are including installing setting element (41) at the feed end and driving first driving piece (44) that setting element (41) removed, radial alignment mechanism (40) are equipped with two sets ofly, are located transport mechanism (20) feeding direction's both sides respectively for support former scroll lateral wall in order to calibrate its position, two the relative one side of setting element (41) forms the direction inclined plane, the direction inclined plane is downward to being close to transport mechanism (20) lopsidedness by keeping away from transport mechanism (20) one side.

2. A device for calibrating logs, as in claim 1, characterized in that: the transmission frame (10) is provided with a mounting groove (31), the inner wall of the mounting groove (31) is fixedly provided with a rotating shaft (32) along the feeding direction, two sets of radial calibration mechanisms (40) are arranged in the mounting groove (31), two positioning pieces (41) are rotationally connected to the rotating shaft (32), and a first driving piece (44) is used for driving the positioning pieces (41) to rotate along the axis of the rotating shaft (32).

3. A device for calibrating logs, as in claim 1, characterized in that: transport mechanism (20) are installed in transmission frame (10), and fixed mounting has conveying platform (24) on conveyer belt (22), guide way (11) have been seted up along the direction of feed on transmission frame (10), conveying platform (24) are worn to establish in guide way (11), conveying platform (24) butt in transmission frame (10) upper surface, and along guide way (11) length direction sliding connection in conveying platform (24).

4. A device for calibrating logs, as claimed in claim 3, characterized in that: the conveying table is characterized in that a positioning arc surface (25) is arranged on the upper surface of the conveying table (24), and an opening of the positioning arc surface (25) is upward.

5. A device for calibrating logs, as claimed in claim 3, characterized in that: the utility model discloses a conveying platform, including conveying platform (24), axial aligning gear (50), drive lead screw (52) and drive lead screw (52) pivoted second driving piece (53), the screw thread of lead screw (52) is worn to establish lead screw (52), threaded connection in conveying platform (24) along the direction of feed in axial aligning gear (50), the screw thread at lead screw (52) both ends is revolved to opposite, aligning gear (51) are equipped with two, and threaded connection is in the both ends of lead screw (52) respectively for the former scroll both ends of butt.

6. A device for calibrating logs as to claim 5, characterized in that: the conveying table (24) is provided with a sliding groove (45) along the feeding direction, and the calibration piece (51) comprises a sliding block (511) connected with the screw rod (52) in a threaded manner and a calibration plate (512) arranged in the sliding groove (45) in a penetrating manner and fixedly mounted on the sliding block (511).

7. A device for calibrating logs as to claim 5, characterized in that: the automatic paper roll conveying device is characterized in that an inductor (30) is fixedly mounted on the conveying table (24) and outputs a detection signal, and a control circuit is coupled with the inductor (30) and used for detecting whether a raw paper roll falls on the conveying table (24) or not and controlling the opening and closing of the first driving piece (44) and the second driving piece (53).

8. A device for calibrating logs, as claimed in claim 3, characterized in that: the conveying table is characterized in that anti-skid grains (26) are arranged on the surface of the conveying table (24), and a plurality of anti-skid grains (26) are arranged in the width direction of the conveying table (24).

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