CN219544283U - Printing equipment with angularly adjustable structure - Google Patents

Abstract

The utility model discloses printing equipment with an angle-adjustable structure, which comprises an angle adjusting part, a toothed plate, a power part, three groups of clamping parts and a jacking mechanism. The angle adjusting part is provided with an arc-shaped structure frame group, a large plate assembly movably arranged on the arc-shaped structure frame group and an angle driving mechanism for driving the large plate assembly to move through a reaction force so as to adjust the angle of the large plate assembly, and the length direction of the plate surface of the large plate assembly is provided with a linear guide rail group; the toothed plate is slidingly connected to the linear guide rail group; the power part drives the toothed plate to reciprocate on the linear guide rail group; the three groups of clamping parts are arranged on the toothed plate; the jacking mechanism is provided with a first jacking component and a second jacking component which are oppositely arranged, and the first jacking component and the second jacking component are respectively arranged on two sides of the toothed plate. The beneficial effects of the utility model are as follows: the printing equipment provided by the utility model can realize rapid adjustment of the angle of the bottle by adjusting the angle of the large plate, and is convenient in angle adjustment and high in adjustment efficiency.

Description

Printing equipment with angularly adjustable structure

Technical Field

The utility model relates to printing equipment, in particular to printing equipment with an angle-adjustable structure.

Background

During the production of bottles, it is necessary to print designs and text. At present, the printing of patterns and characters is completed through automatic equipment, so that the working efficiency is improved, and the printing quality is also improved.

The traditional printing equipment is finished by automatic printing equipment in feeding, printing and discharging, but when some bottles are designed, printing patterns and fonts are printed on cambered surfaces, so that the angle of a printing head needs to be adjusted to meet the printing requirements. In adjusting the print head, the angle of the adjustment head and the entire drive set needs to be adjusted as a whole so that the direction of movement of the print head can reach the arc of the bottle. However, this adjustment is time-consuming and requires constant fine adjustment to meet the angle requirements. The angular printing head moves obliquely, which is easy to make the driving group unstable

Accordingly, there is a need for improvements over conventional printing devices.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the utility model is to provide the printing equipment with the angle-adjustable structure, and the purpose of designing the printing equipment is to meet the requirement of angle adjustment by adjusting the angle of the large plate without adjusting the printing head, and the adjusting efficiency is high.

In order to solve the technical problems, the utility model is realized by the following scheme: the utility model relates to a printing device with an angle-adjustable structure, which comprises

The angle adjusting part is provided with an arc-shaped structure frame group, a large plate assembly movably arranged on the arc-shaped structure frame group and an angle driving mechanism for driving the large plate assembly to move through a reaction force so as to adjust the angle of the large plate assembly, and the length direction of the plate surface of the large plate assembly is provided with a linear guide rail group;

the toothed plate is slidingly connected to the linear guide rail group;

the power part is arranged on the large plate assembly and is in driving connection with the toothed plate, and the power part drives the toothed plate to reciprocate on the linear guide rail group;

three groups of clamping parts arranged on the toothed plate;

the propping mechanism is arranged on the large plate assembly and is provided with a first propping assembly and a second propping assembly which are oppositely arranged, and the first propping assembly and the second propping assembly are respectively arranged on two sides of the toothed plate.

Further, the arc structure frame group includes:

the two vertical plates with a certain distance are provided with arc-shaped tracks at the top ends, wherein one vertical plate is provided with a plurality of positioning holes, and the radial direction of the wire formed by the positioning holes and the arc-shaped tracks are in the same arc;

the arc-shaped rack is fixed on the inner side surface of the vertical plate and is arranged in parallel with the arc-shaped track, and the arc angles of the arc-shaped rack and the arc-shaped track are the same.

Further, the big plate assembly comprises a bottom frame, a big plate arranged on the bottom frame, two groups of supporting rollers rotatably arranged on two sides of the bottom surface of the big plate, and a group of coupling gears for supporting the big plate;

wherein, the two groups of supporting rollers roll on the two arc-shaped tracks respectively;

the coupling gear comprises a connecting rod and first gears fixed at two ends of the connecting rod, and the first gears are in meshed connection with the arc racks.

Further, the angle driving mechanism is arranged on the large plate assembly and comprises a speed reducing mechanism and a manual rocking handle, the manual rocking handle is in driving connection with the speed reducing mechanism, and the speed reducing mechanism is in driving connection with the connecting rod.

Furthermore, the bottom surface of the big plate is vertical to the connected limiting plate, the limiting plate is provided with a strip-shaped hole, and the moving track of the strip-shaped hole can reach any one positioning hole.

Further, the linear guide rail group comprises a straight slat fixed on the large slat surface and a linear guide rail fixed on the straight slat, and the toothed plate is slidingly connected on the linear guide rail.

Further, a rack is arranged on one side of the toothed plate, the power part is a stepping motor, the stepping motor is connected with a second gear in a driving mode, and the second gear is meshed with the rack.

Further, the three groups of clamping parts are equidistantly arranged on the toothed plate, and the feeding clamping part, the middle turnover clamping part and the discharging clamping part are respectively arranged from the feeding end to the discharging end;

the feeding clamping part and the discharging clamping part are respectively provided with a first rotary driving mechanism and a first clamping mechanism in driving connection with the first rotary driving mechanism, the middle turnover clamping part is a second clamping mechanism with an upward clamping opening, and the power sources of the first clamping mechanism and the second clamping mechanism are all air cylinders.

Further, the first tightening assembly includes:

the first supporting frame is fixed on the large plate assembly;

two first guide rails arranged on the top surface of the first support frame;

the first movable plates are slidingly connected to the two first guide rails;

the first cylinder is arranged on the top surface of the first support frame and is in driving connection with the first movable plate;

the second rotary driving mechanisms are fixed on two sides of the upper plate surface of the first movable plate, and the driving ends of the second rotary driving mechanisms are connected with first tightening heads;

the second tightening assembly includes:

the second support frame is fixed on the large plate assembly, and the second support frame and the first support frame are respectively positioned at two sides of the toothed plate;

two second guide rails mounted on the top surface of the second support frame;

the second movable plates are slidingly connected to the two second guide rails;

the second cylinder is arranged on the top surface of the second support frame and is in driving connection with the second movable plate;

the second jacking head is arranged in the direction facing the first jacking head, and is elastically mounted on the stress part.

Further, the first propping head and the second propping head are rubber heads.

Compared with the prior art, the utility model has the beneficial effects that: the printing equipment provided by the utility model can realize rapid adjustment of the angle of the bottle by adjusting the angle of the large plate, and is convenient in angle adjustment and high in adjustment efficiency.

The feeding and discharging of the printing equipment are finished automatically, and the printing efficiency is high.

Drawings

Fig. 1 is a structural view of a printing apparatus of the present utility model.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B of fig. 1.

The reference numerals in the drawings: the device comprises a chassis 1, a first supporting frame 2, a second rotary driving mechanism 3, a limiting plate 4, a vertical plate 5, a speed reducing mechanism 6, a manual rocking handle 7, an arc-shaped rack 8, a feeding clamping part 9, a stress part 10, a second guide rail 11, a second movable plate 12, a second air cylinder 13, a rack 14, an intermediate turnover clamping part 17, a discharging clamping part 19, a supporting roller 20, a first guide rail 21, a straight slat 22, a first movable plate 23, a second gear 24, a large plate 25, a toothed plate 26, a straight guide rail 27 and a first air cylinder 221.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described in the following with reference to the drawings in the embodiments of the present utility model, so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, and thus the protection scope of the present utility model is more clearly and clearly defined. In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1: the specific structure of the utility model is as follows:

referring to FIGS. 1-3, a printing apparatus with an angle-adjustable structure according to the present utility model comprises

The angle adjusting part is provided with an arc-shaped structure frame group, a large plate assembly movably arranged on the arc-shaped structure frame group and an angle driving mechanism for driving the large plate assembly to move through a reaction force so as to adjust the angle of the large plate assembly, and the length direction of the plate surface of the large plate assembly is provided with a linear guide rail group;

a toothed plate 26 slidingly coupled to the linear guide set;

a power part which is arranged on the large plate assembly and is in driving connection with the toothed plate 26, wherein the power part drives the toothed plate 26 to reciprocate on the linear guide rail group;

three sets of clips mounted on the toothed plate 26;

the propping mechanism is arranged on the large plate assembly and is provided with a first propping assembly and a second propping assembly which are oppositely arranged, and the first propping assembly and the second propping assembly are respectively arranged on two sides of the toothed plate 26.

A preferred technical scheme of the embodiment is as follows: the arc structure frame group includes:

the two vertical plates 5 with a certain distance are arranged at the top ends of the two vertical plates 5 to form an arc-shaped track, a plurality of positioning holes are formed in one vertical plate 5, and the radial direction of a line formed by the positioning holes and the arc-shaped track are in the same arc;

the arc-shaped rack 8 is fixed on the inner side surface of the vertical plate 5 and is arranged in parallel with the arc-shaped track, and the arc angles of the arc-shaped rack 8 and the arc-shaped track are the same.

A preferred technical scheme of the embodiment is as follows: the large plate assembly comprises a bottom frame 1, a large plate 25 arranged on the bottom frame 1, two groups of supporting rollers 20 rotatably arranged on two sides of the bottom surface of the large plate 25, and a group of coupling gears for supporting the large plate 25;

wherein, the two groups of support rollers 20 roll on the two arc-shaped tracks respectively;

the coupling gear comprises a connecting rod and first gears fixed at two ends of the connecting rod, and the first gears are in meshed connection with the arc-shaped racks 8.

A preferred technical scheme of the embodiment is as follows: the angle driving mechanism is arranged on the large plate assembly and comprises a speed reducing mechanism 6 and a manual rocking handle 7, the manual rocking handle 7 is in driving connection with the speed reducing mechanism 6, and the speed reducing mechanism 6 is in driving connection with the connecting rod.

A preferred technical scheme of the embodiment is as follows: the limiting plate 4 is connected with the bottom surface of the big plate 25 vertically, the limiting plate 4 is provided with a strip-shaped hole, and the moving track of the strip-shaped hole can reach any positioning hole.

A preferred technical scheme of the embodiment is as follows: the linear guide rail group comprises a straight slat 22 fixed on the surface of the big slat 25, and a linear guide rail 27 fixed on the straight slat 22, and the toothed plate 26 is slidingly connected on the linear guide rail 27.

A preferred technical scheme of the embodiment is as follows: the rack 14 is arranged on one side of the toothed plate 26, the power part is a stepping motor, a second gear 24 is connected with the stepping motor in a driving mode, and the second gear 24 is connected with the rack 14 in a meshed mode.

A preferred technical scheme of the embodiment is as follows: the three groups of clamping parts are equidistantly arranged on the toothed plate 26, and the feeding clamping part 9, the middle turnover clamping part 17 and the discharging clamping part 19 are respectively arranged from the feeding end to the discharging end;

the feeding clamping part 9 and the discharging clamping part 19 are respectively provided with a first rotary driving mechanism and a first clamping mechanism in driving connection with the first rotary driving mechanism, the middle turnover clamping part 17 is a second clamping mechanism with an upward clamping opening, and the power sources of the first clamping mechanism and the second clamping mechanism are cylinders.

A preferred technical scheme of the embodiment is as follows: the first tightening assembly includes:

a first support frame 2 fixed to the large plate assembly;

two first guide rails 21 mounted on the top surface of the first support frame 2;

a first movable plate 23 slidably connected to the two first guide rails 21;

a first cylinder 221 mounted on the top surface of the first support frame 2 and drivingly connected to the first movable plate 23;

the second rotary driving mechanisms 3 are fixed on two sides of the upper plate surface of the first movable plate 23, and the driving ends of the second rotary driving mechanisms 3 are connected with first tightening heads;

the second tightening assembly includes:

the second supporting frame is fixed on the large plate assembly, and the second supporting frame and the first supporting frame 2 are respectively arranged at two sides of the toothed plate 26;

two second guide rails 11 mounted on the top surface of the second support frame;

the second movable plates 12 are slidingly connected to the two second guide rails 11;

the second air cylinder 13 is arranged on the top surface of the second support frame and is in driving connection with the second movable plate 12;

the force receiving parts 10 are fixed on two sides of the upper plate surface of the second movable plate 12, and the force receiving parts 10 are provided with second tightening heads towards the first tightening heads, and the second tightening heads are elastically installed on the force receiving parts 10.

A preferred technical scheme of the embodiment is as follows: the first propping head and the second propping head are rubber heads.

Example 2:

the following is a procedure of how the utility model adjusts the large plate angle:

as shown in fig. 1, the manual rocking handle 7 is rotated, the manual rocking handle 7 drives the speed reducing mechanism 6 to work, the speed reducing mechanism 6 drives the connecting rod to rotate, the connecting rod drives the first gears at two ends to rotate, and as the first gears are meshed with the arc-shaped racks 8, the first gears roll through the reaction force of the arc-shaped racks 8, and then the first gears drive the large plate assembly and the angle driving mechanism to move along the arc-shaped racks 8 together, and after the rotating to a preset angle, the rotation of the manual rocking handle 7 is stopped.

The screws pass through the strip-shaped holes on the limiting plate 4 and the positioning holes on the vertical plate 5 and are locked, so that the large plate assembly is fixed at an angle, and the angle adjustment is completed.

As the angle of the big plate assembly is changed along with the change of the bottle in the conveying process, the arc part area of the bottle can be printed.

Example 3:

the following is the working principle of the printing device of the utility model:

taking front side printing as an example, as shown in fig. 1, the large plate assembly is angularly adjusted to the horizontal plane.

The feeding clamping part 9 at the feeding station drives the first clamping mechanism to turn over to the side of the clamping opening to face through the first rotary driving mechanism, the standing bottle is clamped by the first clamping mechanism at the feeding station, and then the bottle is turned over to the transverse direction through the first rotary driving mechanism at the feeding station.

The power part drives the toothed plate 26 to move to the right direction in fig. 1, the toothed plate 26 drives the first bottle to a first propping position, the bottle is propped tightly and the angle is adjusted by the propping mechanism, the first clamping mechanism on the feeding clamping part 9 is loosened, and meanwhile, the printing mechanism performs printing action. The power part drives the feeding clamping part 9 to move leftwards for resetting, and at the moment, the middle turnover clamping part 17 reaches the position below the bottle at the printing station and clamps the bottle, and the feeding clamping part 9 takes the second bottle.

After printing of the first bottle is completed, the propping mechanism is loosened, the toothed plate 26 is driven to move to the right direction in fig. 1 by the power part for the second time, the middle turnover clamping part 17 drives the first bottle after printing to the second propping position, meanwhile, the feeding clamping part 9 brings the second bottle to the first propping position, the propping mechanism proppes the two bottles tightly, the feeding clamping part 9 and the middle turnover clamping part 17 are loosened synchronously and reset to move leftwards, at the moment, the middle turnover clamping part 17 returns to the first propping position again, the discharging clamping part 19 reaches the second propping position, and the feeding clamping part 9 returns to the feeding position and takes the third bottle.

If the bottle needs to be printed on two sides, the second propping position rotates the bottle to the other side, and the two printing mechanisms print the bottles on the two propping positions respectively.

After printing, the middle turnover clamping part 17 and the blanking clamping part 19 clamp the bottle on the first propping position and the bottle on the second propping position respectively, and the propping mechanisms are loosened.

The power part drives the toothed plate 26 to move to the right direction in fig. 1, and the blanking clamping part 19 returns the bottles with the printed two sides to a standing state and sends the bottles onto the conveying belt.

The action cycle realizes uninterrupted printing.

Example 4:

the drive between the power section and the toothed plate 26 of the present utility model may also be a screw drive.

In summary, the beneficial effects of the utility model are as follows: the printing equipment provided by the utility model can realize rapid adjustment of the angle of the bottle by adjusting the angle of the large plate, and is convenient in angle adjustment and high in adjustment efficiency. The feeding and discharging of the printing equipment are finished automatically, and the printing efficiency is high.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the utility model.

Claims (10)

1. A printing apparatus having an angularly adjustable structure, comprising

The angle adjusting part is provided with an arc-shaped structure frame group, a large plate assembly movably arranged on the arc-shaped structure frame group and an angle driving mechanism for driving the large plate assembly to move through a reaction force so as to adjust the angle of the large plate assembly, and the length direction of the plate surface of the large plate assembly is provided with a linear guide rail group;

a toothed plate (26) slidingly connected to the linear guide group;

a power part which is arranged on the large plate assembly and is in driving connection with the toothed plate (26), wherein the power part drives the toothed plate (26) to reciprocate on the linear guide rail group;

three sets of clamping portions mounted on the toothed plate (26);

the propping mechanism is arranged on the large plate assembly and is provided with a first propping assembly and a second propping assembly which are oppositely arranged, and the first propping assembly and the second propping assembly are respectively arranged on two sides of the toothed plate (26).

2. The printing apparatus having an angularly adjustable structure of claim 1, wherein said arcuate structure frame set comprises:

the two vertical plates (5) with a certain distance are arranged at the top ends of the two vertical plates (5) to form an arc track, a plurality of positioning holes are arranged on one vertical plate (5), and the radial direction of a wire formed by the positioning holes and the arc track are in the same arc;

the arc-shaped rack (8) is fixed on the inner side surface of the vertical plate (5) and is arranged in parallel with the arc-shaped track, and the arc angles of the arc-shaped rack (8) and the arc-shaped track are the same.

3. Printing apparatus with an angularly adjustable structure according to claim 2, characterized in that said large plate assembly comprises a chassis (1), a large plate (25) mounted on said chassis (1), two sets of support rollers (20) rotatably mounted on both sides of the bottom surface of said large plate (25), a set of coupling gears supporting said large plate (25);

wherein, two groups of support rollers (20) roll on the two arc-shaped tracks respectively;

the coupling gear comprises a connecting rod and first gears fixed at two ends of the connecting rod, and the first gears are in meshed connection with the arc-shaped racks (8).

4. A printing apparatus having an angularly adjustable structure according to claim 3, characterized in that the angular drive mechanism is mounted on the large plate assembly and comprises a reduction mechanism (6) and a manual crank (7), the manual crank (7) being drivingly connected to the reduction mechanism (6), the reduction mechanism (6) being drivingly connected to the connecting rod.

5. A printing apparatus with an angularly adjustable structure according to claim 3, characterized in that the bottom surface of the large plate (25) is vertically connected with a limiting plate (4), the limiting plate (4) being provided with a bar-shaped hole, the trajectory of which can reach any one of the positioning holes.

6. A printing apparatus with an angularly adjustable structure according to claim 3, characterized in that said set of linear guides comprises a linear slat (22) fixed to the plate surface of said large plate (25), a linear guide (27) fixed to said linear slat (22), said toothed plate (26) being slidingly connected to this linear guide (27).

7. Printing apparatus with an angularly adjustable structure according to claim 1, characterized in that the toothed plate (26) is provided with a rack on one side, the power unit is a stepper motor, the stepper motor is in driving connection with a second gear (24), the second gear (24) being in meshing connection with the rack.

8. Printing equipment with an angle adjustable structure according to claim 1, characterized in that the three groups of clamping parts are equidistantly arranged on the toothed plate (26), and the feeding clamping part (9), the middle turnover clamping part (17) and the blanking clamping part (19) are respectively arranged from the feeding end to the discharging end;

the feeding clamping part (9) and the discharging clamping part (19) are respectively provided with a first rotary driving mechanism and a first clamping mechanism in driving connection with the first rotary driving mechanism, the middle turnover clamping part (17) is a second clamping mechanism with an upward clamping opening, and the power sources of the first clamping mechanism and the second clamping mechanism are cylinders.

9. The printing apparatus having an angularly adjustable structure of claim 1, wherein said first take-up assembly comprises:

the first supporting frame (2) is fixed on the large plate assembly;

two first guide rails (21) arranged on the top surface of the first support frame (2);

a first movable plate (23) slidingly connected to the two first guide rails (21);

the first air cylinder (221) is arranged on the top surface of the first support frame (2) and is in driving connection with the first movable plate (23);

the second rotary driving mechanisms (3) are fixed on two sides of the upper plate surface of the first movable plate (23), and the driving ends of the second rotary driving mechanisms (3) are connected with first tightening heads;

the second tightening assembly includes:

the second support frame is fixed on the large plate assembly, and the second support frame and the first support frame (2) are respectively arranged at two sides of the toothed plate (26);

two second guide rails (11) mounted on the top surface of the second support frame;

the second movable plates (12) are slidingly connected to the two second guide rails (11);

the second air cylinder (13) is arranged on the top surface of the second support frame and is in driving connection with the second movable plate (12);

the second movable plate (12) is provided with a second propping head which is elastically installed on the stress part (10), wherein the stress part (10) is fixed on two sides of the upper plate surface of the second movable plate, and the second propping head is arranged in the direction of the first propping head.

10. The printing apparatus of claim 9, wherein the first and second gripping heads are rubber heads.