CN219602642U - Manual sucker glass blanking mechanism - Google Patents

Abstract

The utility model relates to an artificial sucking disc glass blanking mechanism. The glass grabbing device solves the problems that in the prior art, glass grabbing stability is poor and adjustment is not flexible enough. The novel suction cup comprises a control box body, wherein the upper side of one end of the control box body is connected with an external suspender which is vertically arranged through a rotating connection assembly, the control box body is connected with a suction cup support assembly through a linkage rod frame which is in crossed dislocation arrangement, two ends of the suction cup support assembly are provided with a plurality of double suction cup assemblies, the back of the suction cup support assembly is provided with an air pump structure which is pneumatically connected with the double suction cup assemblies, and the air pump structure is controlled through the control box body and is positioned through an air pump support which is arranged on the suction cup support assembly. The utility model has the advantages that: the operation is convenient, and the flexibility of use is good, and is better to glass snatch fastness moreover.

Description

Manual sucker glass blanking mechanism

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to an artificial sucker glass blanking mechanism.

Background

In the prior art, glass is placed beside a platform of a glass automatic cutting machine in a material frame stacking mode, at least two workers are usually required to operate simultaneously after the glass is automatically cut, the whole glass is conveyed to the next process, and the glass is conveyed only by manpower, so that the efficiency is low, the labor cost is high, and the risk of cutting arms is caused. The existing glass blanking machine is not suitable for carrying glass with a larger plane, only small glass blocks can be adsorbed and grabbed, then glass blanking is realized in a mode of overturning the glass blocks onto a conveying belt, when large glass blocks are grabbed, the glass blocks can interfere with the conveying belt in the overturning process of a rocker arm, glass damage is easy to occur, and alignment work of the glass on the conveying belt is difficult to realize; in addition, the existing glass lower piece grabbing device is poor in grabbing firmness of the large and fast glass, glass damage is caused by easy falling, grabbing and lower piece angles are difficult to adjust, and use flexibility is affected.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example, chinese patent literature discloses a glass loading machine [ CN201520628210.5], which includes a suction cup rotating arm mechanism and a support conveying mechanism, the suction cup rotating arm mechanism is disposed on one side of the support conveying mechanism, the suction cup rotating arm mechanism can be turned over in a vertical plane, the suction cup rotating arm mechanism is used for sucking glass and placing the glass on the support conveying mechanism, and the support conveying mechanism is used for conveying glass.

The above-mentioned scheme has solved among the prior art glass piece machine down and has been difficult to carry big glass and easily produces the interference with the conveyer belt, problem of inconvenient operation to a certain extent, but this scheme still has a great deal of shortages, for example: the grabbing firmness of the large and fast glass is poor, glass damage is caused by easy falling, and the grabbing and blanking angles are difficult to adjust, so that the use flexibility is affected.

Disclosure of Invention

The utility model aims to solve the problems and provides an artificial sucker glass blanking mechanism.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an artifical sucking disc glass unloading mechanism, includes the control box, and control box one end upside links to each other with the outside jib that is vertical setting through rotating coupling assembling, and the control box is connected with sucking disc bracket component through the gangbar frame that is alternately dislocation set, and sucking disc bracket component both ends are equipped with a plurality of double suction disc components, and sucking disc bracket component back is equipped with the air pump structure of pneumatic connection with double suction disc component, and the air pump structure is through control box control and through setting up the air pump support location on sucking disc bracket component.

The angle of snatching and falling the piece can be adjusted through rotating the coupling assembling through the setting, and the setting of two sucking disc subassemblies can effectively adsorb glass moreover, improves the stability of snatching and falling the piece, and glass is difficult for droing at snatching and absorbing in-process, excellent in use effect, and the flexibility is good.

In the above-mentioned people sucking disc glass unloading mechanism, double suction disc subassembly includes outer sucking disc, and outer sucking disc circumference inboard is equipped with interior sucking disc, and forms the outer sucking disc negative pressure chamber that is annular setting between outer sucking disc circumference inboard and the interior sucking disc circumference outside, and interior sucking disc circumference inboard forms interior sucking disc negative pressure chamber, and outer sucking disc negative pressure chamber and interior sucking disc negative pressure chamber link to each other with the air pump structure through the negative pressure straw respectively, and outer sucking disc back passes through positioning component adjustable location on the sucking disc bracket subassembly.

Through setting up interior sucking disc and outer sucking disc and forming the double circle and adsorb, improve absorptive stability, be difficult for droing.

In the above-mentioned people sucking disc glass unloading mechanism, locating component includes the connecting seat that links to each other with outer sucking disc, is equipped with the locking connecting portion that is the bilateral symmetry setting on the connecting seat, and forms the locking clearance between the locking connecting portion, is equipped with the locking hole on the locking connecting portion, and is equipped with a plurality of connecting holes on the connecting seat, has the structure strengthening rib between connecting seat and the locking connecting portion. The setting of locating component can effectively fix double suction disc subassembly, improves bearing capacity.

In the above-mentioned people sucking disc glass unloading mechanism, sucking disc bracket component includes the sucking disc installation horizontal pole of mutual parallel arrangement, links to each other through a plurality of vertical connecting rods that set up between the sucking disc installation horizontal pole, and foretell outer sucking disc sets up respectively in sucking disc installation horizontal pole both ends position, gangbar frame one end and connecting rod fixed connection. The sucking disc support subassembly can install the double suction disc subassembly of more quantity, improves adsorption performance.

In the human sucking disc glass blanking mechanism, a plurality of locking adjusting holes are formed in two ends of the sucking disc mounting cross rod, and the locking connecting portion is fixed through a locking screw rod penetrating through the locking holes and the locking adjusting holes.

In the above-mentioned people sucking disc glass unloading mechanism, the air pump structure includes negative pressure air pump, and negative pressure air pump output has the negative pressure pipe, and the negative pressure pipe passes through the negative pressure trachea and links to each other with each double suction disc subassembly.

In the above-mentioned people sucking disc glass unloading mechanism, the air pump support is including setting up the air pump backup pad at sucking disc support assembly back, and the air pump backup pad downside is equipped with the negative pressure pipe bracing piece of being connected with sucking disc support assembly, and negative pressure pipe bracing piece tip is equipped with the locking ring body. The negative pressure tube can be positioned by means of the locking ring.

In the above-mentioned people sucking disc glass unloading mechanism, rotate coupling assembling and include support the horizontal pole, support horizontal pole one end and sucking disc bracket component connection and the other end and control box body are connected, are equipped with the rotation locating lever that is vertical setting on the support horizontal pole, and rotate locating lever circumference outside cover and be equipped with the rotation adapter sleeve, rotate and be equipped with the location horizontal pole on the adapter sleeve, and the one end that the rotation adapter sleeve was kept away from to the location horizontal pole links to each other with foretell outside jib.

The suction cup support assembly can circumferentially rotate to adjust the suction angle through the arrangement of the rotating connection assembly, and the use flexibility is good.

In the above-mentioned people's sucking disc glass unloading mechanism, be equipped with barometer and on-off switch on the control box, and control box both sides are equipped with the grip. The holding handle is arranged to enable the sucker support assembly to rotate more conveniently.

In the human sucking disc glass blanking mechanism, a double sucking disc component is arranged in the middle of the connecting rod.

Compared with the prior art, the utility model has the advantages that: the convenient operation, convenient to use connects outside jib and sucking disc bracket component through rotating coupling assembling, makes sucking disc bracket component can realize circumference rotation, and arbitrary regulation turned angle adsorbs the piece of snatching down glass, and setting up of two sucking disc components can effectively adsorb moreover that the glass prevents the slippage, and adsorption stability is good.

Drawings

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

FIG. 2 is a schematic view of a chuck support assembly according to the present utility model;

FIG. 3 is a schematic view of a double suction disc assembly according to the present utility model;

FIG. 4 is a schematic view of a positioning assembly according to the present utility model;

in the figure: the control box body 1, the barometer 11, the on-off switch 12, the holding handle 13, the rotary connecting component 2, the supporting cross rod 21, the rotary positioning rod 22, the rotary connecting sleeve 23, the positioning cross rod 24, the linkage rod frame 3, the sucker support component 4, the sucker mounting cross rod 41, the connecting rod 42, the locking adjusting hole 43, the locking screw 44, the double sucker component 5, the outer sucker 51, the inner sucker 52, the outer sucker negative pressure cavity 53, the sucker negative pressure cavity 54, the air pump structure 6, the negative pressure air pump 61, the negative pressure pipe 62, the air pump support 7, the air pump support plate 71, the negative pressure pipe support rod 72, the locking ring body 73, the positioning component 8, the connecting seat 81, the locking connecting part 82, the locking gap 83, the locking hole 84, the connecting hole 85 and the structural reinforcing rib 86.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-4, an artificial sucking disc glass blanking mechanism comprises a control box body 1, wherein one end upper side of the control box body 1 is connected with an external suspension rod which is vertically arranged through a rotary connecting component 2, the control box body 1 is connected with a sucking disc support component 4 through a linkage rod frame 3 which is in staggered arrangement, two ends of the sucking disc support component 4 are provided with a plurality of double sucking disc components 5, the back of the sucking disc support component 4 is provided with an air pump structure 6 which is pneumatically connected with the double sucking disc components 5, and the air pump structure 6 is controlled by the control box body 1 and is positioned through an air pump support 7 which is arranged on the sucking disc support component 4.

When carrying out circumference rotation to sucking disc support subassembly 4, outside jib keeps motionless, utilizes control box 1 control air pump structure 6 to open and close, after the good adsorption angle of adjustment, pneumatic air pump structure 6 and adsorb glass through double suction disc subassembly 5 and snatch the piece down, and the quantity of double suction disc subassembly 5 has 5 at least.

Wherein, double suction disc subassembly 5 includes outer sucking disc 51, and outer sucking disc 51 circumference inboard is equipped with interior sucking disc 52, and forms the outer sucking disc negative pressure chamber 53 that is annular setting between outer sucking disc 51 circumference inboard and interior sucking disc 52 circumference outside, and interior sucking disc 52 circumference inboard forms interior sucking disc negative pressure chamber 54, and outer sucking disc negative pressure chamber 53 and interior sucking disc negative pressure chamber 54 link to each other with air pump structure 6 through the negative pressure straw respectively, and outer sucking disc 51 back is adjustable through locating component 8 and is located sucking disc support subassembly 4.

The inner suction cup 52 performs primary suction, and the outer suction cup 51 performs secondary suction, ensuring suction effect.

Obviously, positioning assembly 8 includes connecting seat 81 that links to each other with outer sucking disc 51, is equipped with on the connecting seat 81 to be the locking connecting portion 82 that sets up of vertical symmetry, and forms locking clearance 83 between the locking connecting portion 82, is equipped with locking hole 84 on the locking connecting portion 82, and is equipped with a plurality of connecting holes 85 on the connecting seat 81, has structure strengthening rib 86 between connecting seat 81 and the locking connecting portion 82.

The positioning assembly 8 is used for fixing the sucker support assembly 4 on the support cross bar 21, and the structural reinforcing ribs 86 are used for improving structural strength.

Visibly, the sucker support assembly 4 comprises sucker mounting cross bars 41 which are arranged in parallel, the sucker mounting cross bars 41 are connected through a plurality of connecting rods 42 which are arranged vertically, the outer suckers 51 are respectively arranged at two ends of the sucker mounting cross bars 41, and one end of the linkage rod frame 3 is fixedly connected with the connecting rods 42. The arrangement of the connecting rod 42 is used for improving the connection stability between the sucker mounting cross rod 41 and the control box body 1 and improving the linkage effect.

Further, a plurality of locking adjusting holes 43 are formed at two ends of the sucker mounting cross rod 41, and the locking connecting portion 82 is fixed through locking screws 44 penetrating through the locking holes 84 and the locking adjusting holes 43.

Further, the air pump structure 6 includes a negative pressure air pump 61, the output end of the negative pressure air pump 61 has a negative pressure pipe 62, and the negative pressure pipe 62 is connected with each double suction disc assembly 5 through a negative pressure air pipe.

Specifically, the air pump support 7 includes the air pump backup pad 71 that sets up at sucking disc support assembly 4 back, and air pump backup pad 71 downside is equipped with the negative pressure pipe bracing piece 72 that is connected with sucking disc support assembly 4, and negative pressure pipe bracing piece 72 tip is equipped with locking ring body 73.

The locking ring body 73 is used for positioning the negative pressure pipe 62, and preventing shaking in the working process.

More specifically, the rotary connecting assembly 2 comprises a support cross rod 21, one end of the support cross rod 21 is connected with the sucker support assembly 4, the other end of the support cross rod is connected with the control box body 1, a rotary positioning rod 22 which is vertically arranged is arranged on the support cross rod 21, a rotary connecting sleeve 23 is sleeved on the outer side of the periphery of the rotary positioning rod 22, a positioning cross rod 24 is arranged on the rotary connecting sleeve 23, and one end, far away from the rotary connecting sleeve 23, of the positioning cross rod 24 is connected with the external suspender.

The control box body 1 is moved by the holding handle 13, the components 4 between the suckers synchronously rotate, and the rotating and positioning rod 22 has the function of axial center positioning.

Specifically, the control box 1 is provided with a barometer 11 and an on-off switch 12, and two sides of the control box 1 are provided with holding handles 13.

Preferably, the middle part of the connecting rod 42 is also provided with a double suction disc assembly 5.

In summary, the principle of this embodiment is as follows: the direction of the sucker support assembly 4 is adjusted by controlling the holding handle 13 on the box body 1 to rotate, so that the adsorption angle of the double sucker assembly 5 is adjusted, and the outer sucker 51 and the inner sucker 52 of the double sucker assembly 5 are utilized to adsorb, grab and rotate the glass.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although terms such as the control box 1, the barometer 11, the on-off switch 12, the grip handle 13, the rotary connection assembly 2, the support rail 21, the rotary positioning lever 22, the rotary connection sleeve 23, the positioning lever 24, the link lever bracket 3, the suction cup holder assembly 4, the suction cup mounting lever 41, the connection lever 42, the lock adjustment hole 43, the lock screw 44, the double suction cup assembly 5, the outer suction cup 51, the inner suction cup 52, the outer suction cup negative pressure chamber 53, the suction cup negative pressure chamber 54, the air pump structure 6, the negative pressure air pump 61, the negative pressure pipe 62, the air pump holder 7, the air pump support plate 71, the negative pressure pipe support lever 72, the lock ring 73, the positioning assembly 8, the connection seat 81, the lock connection portion 82, the lock gap 83, the lock hole 84, the connection hole 85, the structural reinforcement rib 86 are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides an artifical sucking disc glass unloading mechanism, includes control box (1), control box (1) one end upside link to each other with the outside jib that is vertical setting through rotating coupling assembling (2), its characterized in that, control box (1) be connected with sucking disc bracket component (4) through being linkage rod frame (3) that the cross dislocation set up, sucking disc bracket component (4) both ends be equipped with a plurality of double suction disc components (5), and sucking disc bracket component (4) back be equipped with double suction disc component (5) pneumatic connection's air pump structure (6), air pump structure (6) control through control box (1) and fix a position through air pump bracket (7) that set up on sucking disc bracket component (4).

2. An artificial sucking disc glass blanking mechanism according to claim 1, characterized in that, the double sucking disc subassembly (5) include outer sucking disc (51), outer sucking disc (51) circumference inboard be equipped with interior sucking disc (52), and outer sucking disc (51) circumference inboard and interior sucking disc (52) circumference outside between form and be outer sucking disc negative pressure chamber (53) that the annular set up, interior sucking disc (52) circumference inboard form interior sucking disc negative pressure chamber (54), and outer sucking disc negative pressure chamber (53) and interior sucking disc negative pressure chamber (54) link to each other with air pump structure (6) through the negative pressure straw respectively, outer sucking disc (51) back through locating component (8) adjustable location on sucking disc support subassembly (4).

3. An artificial sucking disc glass blanking mechanism as claimed in claim 2, characterized in that the positioning assembly (8) comprises a connecting seat (81) connected with the outer sucking disc (51), the connecting seat (81) is provided with locking connecting parts (82) which are arranged symmetrically up and down, locking gaps (83) are formed between the locking connecting parts (82), the locking connecting parts (82) are provided with locking holes (84), the connecting seat (81) is provided with a plurality of connecting holes (85), and structural reinforcing ribs (86) are arranged between the connecting seat (81) and the locking connecting parts (82).

4. An artificial sucking disc glass blanking mechanism according to claim 3, characterized in that, the sucking disc support assembly (4) comprises sucking disc installation cross bars (41) which are arranged in parallel, the sucking disc installation cross bars (41) are connected through a plurality of connecting rods (42) which are arranged vertically, the outer sucking discs (51) are respectively arranged at two ends of the sucking disc installation cross bars (41), and one end of the linkage rod support (3) is fixedly connected with the connecting rods (42).

5. The artificial sucking disc glass blanking mechanism of claim 4, wherein a plurality of locking adjusting holes (43) are formed at two ends of the sucking disc mounting cross rod (41), and the locking connecting part (82) is fixed through locking screws (44) penetrating through the locking holes (84) and the locking adjusting holes (43).

6. The artificial sucking disc glass blanking mechanism according to claim 1, wherein the air pump structure (6) comprises a negative pressure air pump (61), the output end of the negative pressure air pump (61) is provided with a negative pressure pipe (62), and the negative pressure pipe (62) is connected with each double sucking disc assembly (5) through a negative pressure air pipe.

7. The artificial sucking disc glass blanking mechanism of claim 6, wherein the air pump support (7) comprises an air pump support plate (71) arranged at the back of the sucking disc support assembly (4), a negative pressure pipe support rod (72) connected with the sucking disc support assembly (4) is arranged at the lower side of the air pump support plate (71), and a locking ring body (73) is arranged at the end part of the negative pressure pipe support rod (72).

8. An artificial suction cup glass blanking mechanism according to claim 1, characterized in that the rotary connecting assembly (2) comprises a supporting cross rod (21), one end of the supporting cross rod (21) is connected with the suction cup bracket assembly (4) and the other end is connected with the control box body (1), the supporting cross rod (21) is provided with a rotary positioning rod (22) which is vertically arranged, the circumferential outer side of the rotary positioning rod (22) is sleeved with a rotary connecting sleeve (23), the rotary connecting sleeve (23) is provided with a positioning cross rod (24), and one end of the positioning cross rod (24) far away from the rotary connecting sleeve (23) is connected with the external hanging rod.

9. The artificial sucking disc glass blanking mechanism of claim 1, wherein the control box body (1) is provided with an air pressure gauge (11) and an on-off switch (12), and two sides of the control box body (1) are provided with holding handles (13).

10. The artificial sucking disc glass blanking mechanism according to claim 4, wherein a double sucking disc component (5) is arranged in the middle of the connecting rod (42).