CN204369102U - A kind of sheet vacuum is inhaled and is sent device - Google Patents

Abstract

A kind of sheet vacuum is inhaled and is sent device, comprises frame, rotary drive mechanism, slip lifting mechanism, vacuum device, vacuum breaker mechanism, eccentric wheel driver train and sucker; Rotary drive mechanism is installed in rotation in frame; Slip lifting mechanism is arranged in frame, and slip lifting mechanism is positioned at the top of rotary drive mechanism; Vacuum device and vacuum breaker mechanism are located on the middle part of rotary drive mechanism respectively, and vacuum device and vacuum breaker mechanism break-make coordinate; Eccentric wheel driver train is located between rotary drive mechanism and slip lifting mechanism, and the lower end of eccentric wheel driver train and the clutch end of rotary drive mechanism are in transmission connection, and upper end and the slip lifting mechanism of eccentric wheel driver train are in transmission connection; Sucker is fixedly mounted on slip lifting mechanism vertically, and sucker is communicated with vacuum device.This sheet material vacuum suction and raise device just can constantly vacuum suction and raise sheet material without the need to artificial debugging, therefore, and this sheet material vacuum suction and raise device fast simple, convenient.

Description

A kind of sheet vacuum is inhaled and is sent device

Technical field

The utility model relates to the suction of a kind of sheet material and send device, and more particularly, the utility model relates to the suction of a kind of sheet vacuum and send device.

Background technology

At present, the suction of sheet material is sent and is generally adopted vacuum suction and raise, existing sheet vacuum is inhaled and is sent device to generally comprise frame, cylinder, sucker, sucker erecting frame, vacuum pump, vacuum lamp and electromagnetic valve, the cylinder body of above-mentioned cylinder is fixedly mounted in frame vertically, above-mentioned sucker is fixedly mounted on the piston rod of cylinder by sucker erecting frame, above-mentioned vacuum pump is communicated with sucker by vacuum lamp, and above-mentioned electromagnetic valve is located on vacuum lamp.

When the piston rod of cylinder extends, the piston rod of cylinder drive sucker erecting frame and on sucker upward movement together, until the sucker on sucker erecting frame contacts with the lower surface of sheet material, now, solenoid valve conduction, vacuum pump is communicated with sucker by vacuum lamp, thus makes sucker be in vacuum state, like this, sucker just can hold the lower surface of sheet material;

After dish holds the lower surface of sheet material, the piston rod of cylinder extends, the piston rod of cylinder drive sucker erecting frame and on sucker move downward together, when the sheet material on sucker is transported to the position of setting, closed electromagnetic valve, such sucker just with sheet separation, the sucker after separation continues to move downward under the driving of the piston rod of cylinder, so that be separated the conveying of rear sheet material, the sheet material after separation is carried by other feedway again;

When the piston rod of cylinder extends again, the piston rod of cylinder again drive sucker erecting frame and on sucker upward movement together, until the sucker on sucker erecting frame contacts with the lower surface of sheet material again, now, electromagnetic valve is conducting again, and sucker holds the lower surface of sheet material again, thus again carries out the vacuum suction and raise of sheet material, like this, existing sheet vacuum is inhaled and is sent device just constantly vacuum suction and raise sheet material.

Although existing sheet vacuum is inhaled and is sent device can constantly vacuum suction and raise sheet material, existing sheet vacuum is inhaled and is sent device constantly to debug artificially, the elongation of cylinder piston rod and sucker vacuum just can be made to hold sheet material synchronous; Existing sheet vacuum is inhaled and is sent device constantly to debug artificially, and when sheet material just can be made to arrive desired location, sucker disconnects with vacuum pump, and therefore, existing sheet vacuum suction send the operation easier of device high.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of simple, convenient suction of sheet vacuum efficiently and send device.In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is as follows:

A kind of sheet vacuum is inhaled and is sent device, it is characterized in that: comprise frame, rotary drive mechanism, slip lifting mechanism, vacuum device, vacuum breaker mechanism, eccentric wheel driver train and sucker;

Above-mentioned rotary drive mechanism is installed in rotation in frame;

Above-mentioned slip lifting mechanism is arranged in frame, and above-mentioned slip lifting mechanism is positioned at the top of rotary drive mechanism;

Above-mentioned vacuum device and vacuum breaker mechanism are located on the middle part of rotary drive mechanism respectively, and above-mentioned vacuum device and vacuum breaker mechanism break-make coordinate;

Above-mentioned eccentric wheel driver train is located between rotary drive mechanism and slip lifting mechanism, and the above-mentioned lower end of eccentric wheel driver train and the clutch end of rotary drive mechanism are in transmission connection, and upper end and the slip lifting mechanism of eccentric wheel driver train are in transmission connection;

Above-mentioned sucker is fixedly mounted on slip lifting mechanism vertically, and above-mentioned sucker is communicated with vacuum device.

When rotary drive mechanism rotates, rotary drive mechanism drives slip lifting mechanism to rise by eccentric wheel driver train, and slip lifting mechanism drives sucker to rise together;

When rotary drive mechanism drives slip lifting mechanism to rise to summit by eccentric wheel driver train, sucker on slip lifting mechanism also rises to summit, now, sucker contacts with the lower surface of sheet material, and vacuum device and vacuum breaker mechanism are in off-state, because vacuum device is communicated with sucker, so, sucker is in vacuum state, and like this, sucker just can hold the lower surface of sheet material;

When rotary drive mechanism continues to rotate, rotary drive mechanism drives slip lifting mechanism to decline by eccentric wheel driver train, slip lifting mechanism drives sucker to decline together, now, vacuum device is still in off-state with vacuum breaker mechanism, therefore, sucker holds the lower surface of sheet material and sheet material is carried downwards;

When the sheet material on sucker is transported to the position of setting, vacuum device and vacuum breaker mechanism connection, therefore, sucker is also communicated with outside air, like this, sucker just with sheet separation, the sucker after separation continues to move downward under the driving of rotary drive mechanism, so that be separated the conveying of rear sheet material, the sheet material after separation is carried by other feedway again;

When slip lifting mechanism and on sucker drop to nadir time, rotary drive mechanism just rotates a circle, then, rotary drive mechanism continue rotate, rotary drive mechanism by eccentric wheel driver train again drive slip lifting mechanism and on sucker rise;

When rotary drive mechanism again to be driven by eccentric wheel driver train slip lifting mechanism and on sucker rise to summit time, sucker just can contact with the lower surface of sheet material again, vacuum device disconnects with vacuum breaker mechanism again, sucker just can hold the lower surface of sheet material again, thus again carries out the vacuum suction and raise of sheet material;

Like this, when rotary drive mechanism constantly rotates, rotary drive mechanism by eccentric wheel driver train drive slip lifting mechanism and on sucker rise or decline, meanwhile, the vacuum device on rotary drive mechanism and vacuum breaker mechanism break-make coordinate, thus make sucker constantly vacuum suction and raise sheet material, so, this sheet material vacuum suction and raise device just can constantly vacuum suction and raise sheet material without the need to artificial debugging, therefore, and this sheet material vacuum suction and raise device fast simple, convenient.

Optimal technical scheme as rotary drive mechanism in the utility model:

Described rotary drive mechanism comprises mount pad, installation sleeve, wear-resistant liner cover, rotating shaft and axle sleeve;

Above-mentioned mount pad is fixedly mounted in frame;

Above-mentioned installation sleeve is fixedly mounted on mount pad;

Above-mentioned wear-resistant liner cover is fixedly mounted in the middle part of installation sleeve;

Above-mentioned rotating shaft is located in installation sleeve, and the both ends of above-mentioned rotating shaft are rotatably connected respectively by the both ends of bearing and installation sleeve;

Above-mentioned axle sleeve is fixedly mounted on the middle part of rotating shaft, the inside face bearing fit hermetically that the outside face of above-mentioned axle sleeve and wear-resistant liner overlap.

When the spindle is rotated, rotating shaft drives axle sleeve to rotate, and like this, the outside face of axle sleeve just slides hermetically on the inside face of wear-resistant liner cover.

Optimal technical scheme as vacuum device in the utility model:

Described vacuum device comprises T-pipe joint and vacuum pump;

Above-mentioned T-pipe joint is fixedly mounted on its installation sleeve of rotary drive mechanism;

First joint of above-mentioned T-pipe joint coordinates with the vacuum breaker mechanism break-make on rotary drive mechanism;

Second joint of above-mentioned T-pipe joint is communicated with vacuum pump;

3rd joint of above-mentioned T-pipe joint is communicated with sucker.

When the vacuum breaker mechanism on first joint and rotary drive mechanism of T-pipe joint disconnects, vacuum pump is communicated with sucker with the 3rd joint by the second joint of T-pipe joint, thus makes sucker be in vacuum state.

When vacuum breaker mechanism connection on first joint and rotary drive mechanism of T-pipe joint, sucker is in communication with the outside by the 3rd joint of T-pipe joint, the first joint and vacuum breaker mechanism.

Optimal technical scheme as vacuum breaker mechanism in the utility model:

Described vacuum breaker mechanism comprises plasmas channel, linear vacuum breaker passage and arc vacuum breaker passage;

Above-mentioned plasmas channel is located at the installation sleeve of rotary drive mechanism vertically and wear-resistant liner puts;

Above-mentioned linear vacuum breaker passage is located at the installation sleeve of rotary drive mechanism vertically and wear-resistant liner puts, the first fittings of above-mentioned linear vacuum breaker passage and T-pipe joint;

Above-mentioned arc vacuum breaker passage is axially located on the outside face of axle sleeve, and the axial two ends of above-mentioned arc vacuum breaker passage coordinate with plasmas channel and linear vacuum breaker passage break-make respectively.

When the spindle is rotated, rotating shaft drives axle sleeve to rotate, and like this, the outside face of axle sleeve just slides hermetically on the inside face of wear-resistant liner cover.

When the axial two ends of the arc vacuum breaker passage on sleeve outer surface are respectively with plasmas channel and linear vacuum breaker channel connection, extraneous air is communicated with vacuum pump with the second joint of T-pipe joint by plasmas channel, arc vacuum breaker passage, linear vacuum breaker passage, the first joint of T-pipe joint, and extraneous air is communicated with sucker with the 3rd joint of T-pipe joint by plasmas channel, arc vacuum breaker passage, linear vacuum breaker passage, the first joint of T-pipe joint.

When the axial two ends of the arc vacuum breaker passage on sleeve outer surface disconnect with plasmas channel and linear vacuum breaker passage respectively, vacuum pump is communicated with sucker with the 3rd joint of T-pipe joint by the second joint of T-pipe joint, thus makes sucker be in vacuum state.

Optimal technical scheme as eccentric wheel driver train in the utility model:

Described eccentric wheel driver train comprises the first adapter shaft, the second adapter shaft and crank;

Above-mentioned first adapter shaft is fixedly mounted on the end face of its rotating shaft of rotary drive mechanism, and above-mentioned first adapter shaft departs from the axle center of rotating shaft;

Above-mentioned second adapter shaft is fixedly mounted on slip lifting mechanism;

Above-mentioned crank is located between rotary drive mechanism and slip lifting mechanism, and the lower end of above-mentioned crank is flexibly connected with the first adapter shaft, and the upper end of above-mentioned crank is flexibly connected with the second adapter shaft.

When the axis of rotation of rotary drive mechanism, the rotating shaft of rotary drive mechanism is by the first adapter shaft driving crank motion, and crank drives slip lifting mechanism to rise by the second adapter shaft or declines.

Optimal technical scheme as the lifting mechanism that slides in the utility model:

Described slip lifting mechanism comprises line slideway and cliding seat;

Above-mentioned line slideway is fixedly mounted in frame, and above-mentioned line slideway is vertically arranged, and above-mentioned line slideway is positioned at the top of rotary drive mechanism;

Above-mentioned cliding seat can slide up and down to be arranged on line slideway, and the above-mentioned sliding seat of gig is in the top of rotary drive mechanism, and the upper end of above-mentioned cliding seat and eccentric wheel driver train is in transmission connection, and above-mentioned cliding seat is fixedly connected with sucker.

When the axis of rotation of rotary drive mechanism, the rotating shaft of rotary drive mechanism is by the first adapter shaft driving crank motion, and crank drives cliding seat to rise by the second adapter shaft or declines, and cliding seat drives sucker rise together or decline.

The utility model beneficial effect is against existing technologies:

Because this sheet material vacuum suction and raise device comprises frame, rotary drive mechanism, slip lifting mechanism, vacuum device, vacuum breaker mechanism, eccentric wheel driver train and sucker; Above-mentioned rotary drive mechanism is installed in rotation in frame; Above-mentioned slip lifting mechanism is arranged in frame, and above-mentioned slip lifting mechanism is positioned at the top of rotary drive mechanism; Above-mentioned vacuum device and vacuum breaker mechanism are located on the middle part of rotary drive mechanism respectively, and above-mentioned vacuum device and vacuum breaker mechanism break-make coordinate; Above-mentioned eccentric wheel driver train is located between rotary drive mechanism and slip lifting mechanism, and the above-mentioned lower end of eccentric wheel driver train and the clutch end of rotary drive mechanism are in transmission connection, and upper end and the slip lifting mechanism of eccentric wheel driver train are in transmission connection; Above-mentioned sucker is fixedly mounted on slip lifting mechanism vertically, and above-mentioned sucker is communicated with vacuum device;

So, when rotary drive mechanism constantly rotates, rotary drive mechanism by eccentric wheel driver train drive slip lifting mechanism and on sucker rise or decline, meanwhile, the vacuum device on rotary drive mechanism and vacuum breaker mechanism break-make coordinate, thus make sucker constantly vacuum suction and raise sheet material, like this, this sheet material vacuum suction and raise device just can constantly vacuum suction and raise sheet material without the need to artificial debugging, therefore, and this sheet material vacuum suction and raise device fast simple, convenient.

Meanwhile, because the rotary drive mechanism of this sheet material vacuum suction and raise device can rotate at high speed, so the speed of this sheet material vacuum suction and raise device vacuum suction and raise sheet material is high, this sheet material vacuum suction and raise device per minute can vacuum suction and raise sheet material up to 800.

In addition, this sheet material vacuum suction and raise device also have that structure is simple, reasonable in design, stable and reliable operation, easy to maintenance, be easy to the advantages such as popularization.

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, to enable those skilled in the art to understand content of the present utility model fully.

Accompanying drawing explanation

Fig. 1 is the structural representation under the utility model preferred embodiment initial condition;

Fig. 2 is the structural representation of the utility model preferred embodiment when holding sheet material;

Fig. 3 is structural representation when resetting after sheet material before the utility model preferred embodiment is inhaled;

Fig. 4 is the cutaway view of Fig. 1;

Fig. 5 is the cutaway view of Fig. 2;

Fig. 6 is the cutaway view of Fig. 3;

Fig. 7 is that the A-A of Fig. 1 is to section-drawing;

Fig. 8 is that the B-B of Fig. 2 is to section-drawing;

Fig. 9 is the structural representation of the utility model preferred embodiment bottom bracket axle.

Detailed description of the invention

As shown in Figures 1 to 9, the sheet vacuum in this preferred embodiment is inhaled and is sent device, comprises frame 1, rotary drive mechanism 2, slip lifting mechanism 3, vacuum device 4, vacuum breaker mechanism 5, eccentric wheel driver train 6 and sucker 7.

Above-mentioned rotary drive mechanism 2 comprises mount pad 21, installation sleeve 22, wear-resistant liner cover 23, rotating shaft 24 and axle sleeve 25;

Above-mentioned mount pad 21 is fixedly mounted in frame 1;

Above-mentioned installation sleeve 22 is fixedly mounted on mount pad 21;

Above-mentioned wear-resistant liner cover 23 is fixedly mounted in the middle part of installation sleeve 22;

Above-mentioned rotating shaft 24 is located in installation sleeve 22, and the both ends of above-mentioned rotating shaft 24 are rotatably connected respectively by the both ends of bearing 240 with installation sleeve 22;

Above-mentioned rotating shaft 24 is connected with additionaling power by drive wheel 241;

Above-mentioned axle sleeve 25 is fixedly mounted on the middle part of rotating shaft 24, and the outside face of above-mentioned axle sleeve 25 and wear-resistant liner overlap the inside face bearing fit hermetically of 23.

Above-mentioned slip lifting mechanism 3 comprises line slideway 31 and cliding seat 32;

Above-mentioned line slideway 31 is fixedly mounted in frame 1, and above-mentioned line slideway 31 is vertically arranged, and above-mentioned line slideway 31 is positioned at the top of rotary drive mechanism 2;

Above-mentioned cliding seat 32 can slide up and down to be arranged on line slideway 31, and above-mentioned cliding seat 32 is positioned at the top of rotary drive mechanism 2.

Above-mentioned sucker 7 is fixedly mounted on cliding seat 32 vertically.

Above-mentioned vacuum device 4 comprises T-pipe joint 41 and vacuum pump 42;

Above-mentioned T-pipe joint 41 is fixedly mounted on its installation sleeve 22 of rotary drive mechanism 22;

First joint 411 of above-mentioned T-pipe joint 41 is positioned on installation sleeve 22;

Second joint 412 of above-mentioned T-pipe joint 41 is communicated with vacuum pump 42;

3rd joint 413 of above-mentioned T-pipe joint 41 is communicated with sucker 7.

Above-mentioned vacuum breaker mechanism 5 comprises plasmas channel 51, linear vacuum breaker passage 52 and arc vacuum breaker passage 53;

Above-mentioned plasmas channel 51 is located on the installation sleeve 22 of rotary drive mechanism 2 and wear-resistant liner cover 23 vertically;

Above-mentioned linear vacuum breaker passage 52 is located on the installation sleeve 22 of rotary drive mechanism 2 and wear-resistant liner cover 23 vertically, and above-mentioned linear vacuum breaker passage 52 is communicated with the first joint 411 of T-pipe joint 41;

Above-mentioned arc vacuum breaker passage 53 is axially located on the outside face of axle sleeve 25, and the axial two ends of above-mentioned arc vacuum breaker passage 53 coordinate with plasmas channel 51 and linear vacuum breaker passage 52 break-make respectively.

Above-mentioned eccentric wheel driver train 6 comprises the first adapter shaft 61, second adapter shaft 62 and crank 63;

Above-mentioned first adapter shaft 61 is fixedly mounted on the end face of its rotating shaft 24 of rotary drive mechanism 2, and above-mentioned first adapter shaft 61 departs from the axle center of rotating shaft 24;

Above-mentioned second adapter shaft 62 is fixedly mounted on the cliding seat 32 of slip lifting mechanism 3;

Above-mentioned crank 63 is located between rotary drive mechanism 2 and slip lifting mechanism 3, and the lower end of above-mentioned crank 63 is flexibly connected with the first adapter shaft 61, and the upper end of above-mentioned crank 63 is flexibly connected with the second adapter shaft 62.

When the rotating shaft 24 of rotary drive mechanism 2 is rotated, rotating shaft 24 drives axle sleeve 25 to rotate, and like this, the outside face of axle sleeve 25 just slides hermetically on the inside face of wear-resistant liner cover 23;

When the rotating shaft 24 of rotary drive mechanism 2 is rotated, rotating shaft 24 is moved by the first adapter shaft 61 driving crank 63, crank 63 drives the cliding seat 32 of slip lifting mechanism 3 to rise or decline by the second adapter shaft 62, and cliding seat 32 drives sucker 7 rise together or decline.

As Fig. 2, shown in Fig. 5 and Fig. 7, when rotating shaft 24 drives the cliding seat 32 of slip lifting mechanism 3 to rise to summit by eccentric wheel driver train 6, sucker 7 on cliding seat 32 also rises to summit, now, sucker 7 contacts with the lower surface of sheet material 10, the axial two ends of the arc vacuum breaker passage 53 on axle sleeve 25 outside face disconnect with plasmas channel 51 and linear vacuum breaker passage 52 respectively, vacuum pump 42 is communicated with sucker 7 with the 3rd joint 413 of T-pipe joint 41 by the second joint 412 of T-pipe joint 41, thus make sucker 7 be in vacuum state, like this, sucker 7 just can hold the lower surface of sheet material 10,

When the rotating shaft 24 of rotary drive mechanism 2 continues to rotate, rotating shaft 24 drives the cliding seat 32 of slip lifting mechanism 3 to decline by eccentric wheel driver train 6, cliding seat 32 drives sucker 7 to decline together, now, the axial two ends of the arc vacuum breaker passage 53 on axle sleeve 25 outside face are still in off-state with plasmas channel 51 and linear vacuum breaker passage 52 respectively, sucker 7 is still in vacuum state, and therefore, sucker 7 holds the lower surface of sheet material 10 and sheet material 10 is carried downwards;

When the sheet material 10 on sucker 7 is transported to the position of setting, the axial two ends of the arc vacuum breaker passage 53 on axle sleeve 25 outside face are communicated with linear vacuum breaker passage 52 with plasmas channel 51 respectively, as shown in Figure 8, extraneous air is by plasmas channel 51, arc vacuum breaker passage 53, linear vacuum breaker passage 52, first joint 411 of T-pipe joint 41 is communicated with vacuum pump 42 with the second joint 412 of T-pipe joint 41, extraneous air is by plasmas channel 51, arc vacuum breaker passage 53, linear vacuum breaker passage 52, first joint 411 of T-pipe joint 41 is communicated with sucker 7 with the 3rd joint 413 of T-pipe joint 41, like this, sucker 7 is just separated with sheet material 10, sucker 7 after separation continues to move downward under the driving of rotating shaft 24, so that be separated the conveying of rear sheet material 10, sheet material 10 after separation is carried by other feedway again,

As shown in Figure 3 and Figure 6, when cliding seat 32 and on sucker 7 drop to nadir and reset time, the rotating shaft 24 of rotary drive mechanism 2 just rotates a circle, then, rotating shaft 24 continue rotate, rotating shaft 24 by eccentric wheel driver train 6 again drive cliding seat 32 and on sucker 7 rise;

When the rotating shaft 24 of rotary drive mechanism 2 again to be driven by eccentric wheel driver train 6 cliding seat 32 and on sucker 7 rise to summit time, sucker 7 just can contact with the lower surface of sheet material 10 again, the axial two ends of the arc vacuum breaker passage 53 on axle sleeve 25 outside face disconnect with plasmas channel 51 and linear vacuum breaker passage 52 again respectively, vacuum pump 42 is communicated with sucker 7 with the 3rd joint 413 of T-pipe joint 41 by the second joint 412 of T-pipe joint 41 again, thus make sucker 7 again be in vacuum state, like this, sucker 7 just can hold the lower surface of sheet material 10 again, thus again carry out the vacuum suction and raise of sheet material 10,

Like this, when the rotating shaft 24 of rotary drive mechanism 2 constantly rotates, rotating shaft 24 by eccentric wheel driver train 6 drive the cliding seat 32 of slip lifting mechanism 3 and on sucker 7 rise or decline, simultaneously, vacuum device 4 on rotary drive mechanism and vacuum breaker mechanism 5 break-make coordinate, thus make sucker 7 constantly vacuum suction and raise sheet material 10, so, this sheet material vacuum suction and raise device just can constantly vacuum suction and raise sheet material without the need to artificial debugging, therefore, this sheet material vacuum suction and raise device is fast simple, convenient.

In above-mentioned accompanying drawing, arrow represents the flow direction of gas.

Above preferred embodiment has fully demonstrated the essence of the technical scheme that the utility model adopts; but; above preferred embodiment is the preferred example in the utility model detailed description of the invention; above preferred embodiment is not used for limiting protection domain of the present utility model; therefore; every various equivalents made according to claims of the present utility model, all fall into the protection domain of claim of the present utility model.

Claims (6)

1. sheet vacuum is inhaled and is sent a device, it is characterized in that: comprise frame, rotary drive mechanism, slip lifting mechanism, vacuum device, vacuum breaker mechanism, eccentric wheel driver train and sucker;

Above-mentioned rotary drive mechanism is installed in rotation in frame;

Above-mentioned slip lifting mechanism is arranged in frame, and above-mentioned slip lifting mechanism is positioned at the top of rotary drive mechanism;

Above-mentioned vacuum device and vacuum breaker mechanism are located on the middle part of rotary drive mechanism respectively, and above-mentioned vacuum device and vacuum breaker mechanism break-make coordinate;

Above-mentioned eccentric wheel driver train is located between rotary drive mechanism and slip lifting mechanism, and the above-mentioned lower end of eccentric wheel driver train and the clutch end of rotary drive mechanism are in transmission connection, and upper end and the slip lifting mechanism of eccentric wheel driver train are in transmission connection;

Above-mentioned sucker is fixedly mounted on slip lifting mechanism vertically, and above-mentioned sucker is communicated with vacuum device.

2. sheet vacuum according to claim 1 is inhaled and is sent device, it is characterized in that: described rotary drive mechanism comprises mount pad, installation sleeve, wear-resistant liner cover, rotating shaft and axle sleeve;

Above-mentioned mount pad is fixedly mounted in frame;

Above-mentioned installation sleeve is fixedly mounted on mount pad;

Above-mentioned wear-resistant liner cover is fixedly mounted in the middle part of installation sleeve;

Above-mentioned rotating shaft is located in installation sleeve, and the both ends of above-mentioned rotating shaft are rotatably connected respectively by the both ends of bearing and installation sleeve;

Above-mentioned axle sleeve is fixedly mounted on the middle part of rotating shaft, the inside face bearing fit hermetically that the outside face of above-mentioned axle sleeve and wear-resistant liner overlap.

3. sheet vacuum according to claim 2 is inhaled and is sent device, it is characterized in that: described vacuum device comprises T-pipe joint and vacuum pump;

Above-mentioned T-pipe joint is fixedly mounted on its installation sleeve of rotary drive mechanism;

First joint of above-mentioned T-pipe joint coordinates with the vacuum breaker mechanism break-make on rotary drive mechanism;

Second joint of above-mentioned T-pipe joint is communicated with vacuum pump;

3rd joint of above-mentioned T-pipe joint is communicated with sucker.

4. sheet vacuum according to claim 3 is inhaled and is sent device, it is characterized in that: described vacuum breaker mechanism comprises plasmas channel, linear vacuum breaker passage and arc vacuum breaker passage;

Above-mentioned plasmas channel is located at the installation sleeve of rotary drive mechanism vertically and wear-resistant liner puts;

Above-mentioned linear vacuum breaker passage is located at the installation sleeve of rotary drive mechanism vertically and wear-resistant liner puts, the first fittings of above-mentioned linear vacuum breaker passage and T-pipe joint;

Above-mentioned arc vacuum breaker passage is axially located on the outside face of axle sleeve, and the axial two ends of above-mentioned arc vacuum breaker passage coordinate with plasmas channel and linear vacuum breaker passage break-make respectively.

5. sheet vacuum according to claim 2 is inhaled and is sent device, it is characterized in that: described eccentric wheel driver train comprises the first adapter shaft, the second adapter shaft and crank;

Above-mentioned first adapter shaft is fixedly mounted on the end face of its rotating shaft of rotary drive mechanism, and above-mentioned first adapter shaft departs from the axle center of rotating shaft;

Above-mentioned second adapter shaft is fixedly mounted on slip lifting mechanism;

Above-mentioned crank is located between rotary drive mechanism and slip lifting mechanism, and the lower end of above-mentioned crank is flexibly connected with the first adapter shaft, and the upper end of above-mentioned crank is flexibly connected with the second adapter shaft.

6. sheet vacuum according to claim 1 is inhaled and is sent device, it is characterized in that: described slip lifting mechanism comprises line slideway and cliding seat;

Above-mentioned line slideway is fixedly mounted in frame, and above-mentioned line slideway is vertically arranged, and above-mentioned line slideway is positioned at the top of rotary drive mechanism;

Above-mentioned cliding seat can slide up and down to be arranged on line slideway, and the above-mentioned sliding seat of gig is in the top of rotary drive mechanism, and the upper end of above-mentioned cliding seat and eccentric wheel driver train is in transmission connection, and above-mentioned cliding seat is fixedly connected with sucker.