阅读说明：本技术 一种带除静电装置的印刷机 (Printing machine with destaticizing device ) 是由 陈少宽 于 2020-07-30 设计创作，主要内容包括：本发明公开了一种带除静电装置的印刷机,其结构包括支撑架、压印滚筒、控制面板、印版、布料放置框、支撑底座、版台,支撑架中部设有压印滚筒,通过贴合板进行平稳的移动,将涤纶布与底板进行紧密的贴合,压印滚筒与印版进行接触印刷挤压的过程中,确保下压块与底板的高度保持一致,确保将涤纶布上产生的静电进行消除,确保涤纶布印刷的完整度,通过导气管进行气压传导,使得气囊泡进行固定,这时气囊泡的底部涤纶布边缘进行挤压,这时压平板对涤纶布的边缘进行压平,在压平的过程中,通过连动杆的连动偏移,从而使得压平板对涤纶布边缘进行挤压的力度进行缓冲,提高了对涤纶布边缘的夹紧力度,防止涤纶布在进行印刷的过程中发生位置偏移。(The invention discloses a printing machine with a destaticizing device, which comprises a support frame, an impression cylinder, a control panel, a printing plate, a cloth placing frame, a support base and a plate table, wherein the impression cylinder is arranged in the middle of the support frame and is used for stably moving through an attaching plate to closely attach polyester fabric to a bottom plate, the heights of a lower pressing block and the bottom plate are ensured to be consistent in the process of contact printing and extrusion of the impression cylinder and the printing plate, static electricity generated on the polyester fabric is eliminated, the printing integrity of the polyester fabric is ensured, air pressure conduction is carried out through an air duct to fix air bag bubbles, the edge of the polyester fabric at the bottom of an air sac body is extruded, the pressing plate presses the edge of the polyester fabric, and the pressing plate buffers the extrusion force of the edge of the polyester fabric through the linkage deflection of a linkage rod in the pressing process, the clamping force to the edge of the terylene cloth is improved, and the terylene cloth is prevented from position deviation in the printing process.)

1. The utility model provides a printing machine that static device was removed in area, its structure includes that support frame (1), impression cylinder (2), control panel (3), printing plate (4), cloth place frame (5), support base (6), plateform (7), support frame (1) middle part is equipped with impression cylinder (2), control panel (3) have been inlayed to support frame (1) right side upper end surface, printing plate (4) inlay and place frame (5) upper surface in the cloth to printing plate (4) are located impression cylinder (2) below, the cloth is placed frame (5) and is installed at plateform (7) upper surface, plateform (7) fixed mounting is in support base (6) upper end to inside plateform (7) are established in support frame (1), its characterized in that:

frame (5) are placed to cloth includes frame (51), conflict mechanism (52), limit clamp mechanism (53), frame (51) inboard bottom is fixed and is equipped with conflict mechanism (52), frame (51) inside is equipped with limit clamp mechanism (53) to limit clamp mechanism (53) are located conflict mechanism (52) outside.

2. A printing press with destaticizing device as recited in claim 1, wherein: the interference mechanism (52) comprises a bottom plate (521), a static eliminator (522), a conduction rod (523), a contact mechanism (524) and a clamping mechanism (525), the bottom of the bottom plate (521) is fixedly installed on the inner bottom surface of the frame (51), the static eliminator (522) is installed inside the bottom plate (521), the static eliminator (522) is connected with the conduction rod (523), the conduction rod (523) is embedded at the lower end inside the contact mechanism (524), the lower end of the contact mechanism (524) is embedded inside the bottom plate (521), and the clamping mechanism (525) is arranged at two ends of the outer side of the bottom plate (521).

3. A printing press with destaticizing device according to claim 2, wherein: the contact mechanism (524) comprises a fixed pipe sleeve (24a), a spring rod (24b), a sealing ring (24c) and a lower pressing block (24d), the fixed pipe sleeve (24a) is embedded inside a bottom plate (521), the spring rod (24b) is arranged inside the fixed pipe sleeve (24a), the conducting rod (523) is abutted to the spring rod (24b), the upper end of the spring rod (24b) is embedded inside the lower end of the lower pressing block (24d) in a clearance fit mode, the lower pressing block (24d) is installed inside the upper end of the fixed pipe sleeve (24a) in a clearance fit mode, and the sealing ring (24c) is arranged at the joint of the lower pressing block (24d) and the fixed pipe sleeve (24 a).

4. A printing press with destaticizing device according to claim 2, wherein: card limit mechanism (525) include screw rod (25a), meshing piece (25b), propelling movement ball (25c), rigging board (25d), sliding ball (25e), screw rod (25a) and meshing piece (25b) internal thread are connected to meshing piece (25b) fixed mounting is inboard in frame (51), propelling movement ball (25c) are fixed mutually with screw rod (25a) end, propelling movement ball (25c) adopt clearance fit to install inside rigging board (25d), inside the inlayed sliding ball (25e) of rigging board (25d), rigging board (25d) are located the upside of bottom plate (521).

5. A printing press with destaticizing device as recited in claim 1, wherein: the side clamp mechanism (53) comprises an extrusion mechanism (531), an installation shaft (532), a connecting rod (533) and a pressing plate mechanism (534), the extrusion mechanism (531) is fixedly installed inside the frame (51), the lower end of the extrusion mechanism (531) is fixed with the upper end of the connecting rod (533) through the installation shaft (532), and the lower end of the connecting rod (533) is fixed with the pressing plate mechanism (534).

6. A printing machine with destaticizing device according to claim 5, wherein: the squeezing mechanism (531) comprises a fixing frame (31a), supporting legs (31b), a telescopic hose (31c), an air guide pipe (31d) and an air sac (31e), the upper end of the fixing frame (31a) is fixedly installed inside a frame (51), the upper end of the supporting legs (31b) is installed inside the fixing frame (31a) in a clearance fit mode, the lower ends of the supporting legs (31b) are fixed to the upper end of a connecting rod (533), the upper ends of the supporting legs (31b) are fixed to the bottom of the telescopic hose (31c), the telescopic hose (31c) is communicated with the inside of the air guide pipe (31d), the lower end of the air guide pipe (31d) is communicated with the inside of the air sac bubble (31e), and the air sac bubble (31e) is arranged in the middle of the lower end.

7. A printing machine with destaticizing device according to claim 5, wherein: the pressing plate mechanism (534) comprises a connecting plate (34a), a sliding rail (34b), a spring (34c), a sliding shaft (34d), an interlocking rod (34e), a magnetic block (34f) and a pressing plate (34g), wherein the outer portion of the connecting plate (34a) is fixed to the lower end of the connecting rod (533), the sliding rail (34b) is arranged inside the connecting plate (34a), the spring (34c) is arranged inside the sliding rail (34b), the sliding shaft (34d) is connected with the inner portion of the sliding rail (34b) in a sliding mode, the sliding shaft (34d) is fixed to the spring (34c), the sliding shaft (34d) is hinged to the upper end of the interlocking rod (34e), the lower end of the interlocking rod (34e) is fixed to the upper surface of the magnetic block (34f), and the magnetic block (34f) is embedded inside the upper end of the pressing plate (34 g).

Technical Field

The invention relates to the field of printing machines, in particular to a printing machine with a destaticizing device.

Background

The printing machine is a printing machine with a cylindrical pressing mechanism and a planar loading mechanism, wherein a printing plate is fixed on a plate table and horizontally reciprocates, an impression cylinder rotates at a fixed position, printing is finished by the aid of printing pressure when the impression cylinder is in contact with the printing plate, but a certain friction force is generated between polyester fabric and the impression cylinder in the process of printing the polyester, the impression cylinder easily loses electrons, the polyester fabric easily obtains electrons, more static electricity is carried by the polyester during printing, the polyester fabric bulges in the printing plate, four sides of the polyester fabric are easily tilted, unevenness is caused in the printing process of the polyester fabric, and the cylinder and the polyester fabric roll in an overlapping mode at the moment, so that the integrity of a printed image is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this printing machine with remove electrostatic device, its structure includes that support frame, impression cylinder, control panel, printing plate, cloth place the frame, support base, plateform, the support frame middle part is equipped with the impression cylinder, support frame right side upper end surface has inlayed control panel, the printing plate inlays the cloth and places the frame upper surface to the printing plate is located impression cylinder below, the cloth is placed the frame and is installed at the plateform upper surface, plateform fixed mounting is in supporting the base upper end to the plateform is established inside the support frame middle-end, the frame is placed to the cloth and is included frame, conflict mechanism, limit clamp mechanism, the fixed conflict mechanism that is equipped with in the inboard bottom of frame, the inside limit that is equipped with of frame presss from both sides the mechanism to limit clamp mechanism is located the conflict mechanism outside, the length of impression cylinder and the width phase-match of printing.

As a further improvement of the present invention, the abutting mechanism includes a bottom plate, an electrostatic eliminator, a conducting rod, contact mechanisms, and edge clamping mechanisms, the bottom of the bottom plate is fixedly installed on the bottom surface of the inner side of the frame, the electrostatic eliminator is installed inside the bottom plate, and the electrostatic eliminator is connected with the conducting rod, the conducting rod is embedded in the lower end of the contact mechanism, the lower end of the contact mechanism is embedded in the bottom plate, the edge clamping mechanisms are arranged at two ends of the outer side of the bottom plate, thirty-four contact mechanisms are arranged and uniformly distributed on the upper end surface of the bottom plate, and each contact mechanism is connected through the conducting rod.

As a further improvement of the present invention, the contact mechanism includes a fixed pipe sleeve, a spring rod, a sealing ring, and a lower pressing block, the fixed pipe sleeve is embedded inside the bottom plate, the spring rod is disposed inside the fixed pipe sleeve, the conductive rod is abutted against the spring rod, the upper end of the spring rod is embedded inside the lower end of the lower pressing block in a clearance fit manner, the lower pressing block is mounted inside the upper end of the fixed pipe sleeve in a clearance fit manner, the sealing ring is disposed at the joint of the lower pressing block and the fixed pipe sleeve, the lower pressing block is in a cylindrical structure, and the bottom of the lower pressing block is connected with the conductive rod through the spring rod, so that the lower pressing block can press down inside the fixed pipe sleeve when the impression cylinder rolls.

As a further improvement of the invention, the edge clamping mechanism comprises a screw rod, a meshing block, a pushing ball, a fitting plate and a sliding ball, the screw rod is in threaded connection with the inside of the meshing block, the meshing block is fixedly arranged on the inner side of the frame, the pushing ball is fixed with the tail end of the screw rod, the pushing ball is arranged inside the fitting plate in a clearance fit manner, the sliding ball is embedded inside the fitting plate, the fitting plate is positioned on the upper side of the bottom plate, a ball groove is arranged inside the fitting plate, the diameter of the ball groove is one centimeter greater than that of the pushing ball, and the fitting plate is in a right-angle folded plate structure.

As a further improvement of the present invention, the side clamping mechanism includes an extrusion mechanism, an installation shaft, two connecting rods, and a platen mechanism, the extrusion mechanism is fixedly installed inside the frame, the lower end of the extrusion mechanism is fixed to the upper end of the connecting rod through the installation shaft, the lower end of the connecting rod is fixed to the platen mechanism, four connecting rods are provided, two connecting rods are in one group, the two connecting rods are installed on the front and rear sides of the bottom of the extrusion mechanism through the two installation shafts, two platen mechanisms are provided, and the platen mechanism is fixed to the four connecting rods in a left-right symmetry manner.

As a further improvement of the invention, the squeezing mechanism comprises a fixed frame, supporting legs, a telescopic hose, an air duct and an air bag bubble, wherein the upper end of the fixed frame is fixedly arranged inside the frame, the upper ends of the supporting legs are arranged inside the fixed frame in a clearance fit manner, the lower ends of the supporting legs are fixed with the upper end of the connecting rod, the upper ends of the supporting legs are fixed with the bottom of the telescopic hose, the telescopic hose is communicated with the inside of the air duct, the lower ends of the air duct are communicated with the inside of the air bag bubble, the air bag bubble is arranged in the middle of the lower end of the fixed frame, and the air bag bubble is made.

As a further improvement of the invention, the platen mechanism comprises a connecting plate, a slide rail, a spring, a slide shaft, linkage rods, magnetic blocks and a platen, the outside of the connecting plate is fixed with the lower end of the connecting rod, the slide rail is arranged inside the connecting plate, the spring is arranged inside the slide rail, the slide shaft is connected with the inside of the slide rail in a sliding manner, the slide shaft is fixed with the spring, the slide shaft is hinged with the upper end of the linkage rods, the lower end of the linkage rods is fixed with the upper surface of the magnetic blocks, the magnetic blocks are embedded inside the upper end of the platen, the slide shaft and the linkage rods are respectively provided with four, the two slide shafts and the linkage rods form a group, the two linkage rods form a V-shaped structure, and the slide shaft slides inside the slide shaft, so that the angle between the linkage rods is increased, and the.

The invention has the beneficial effects that:

1. the screw rod rotates and pushes the meshing block, the pushing ball rotates and pushes the meshing block, the attaching plate is guaranteed to move stably, the terylene cloth is attached to the bottom plate tightly, the lower pressing block is abutted to the terylene cloth, the heights of the lower pressing block and the bottom plate are guaranteed to be consistent in the process that the impression cylinder and the printing plate are in contact printing extrusion, static electricity generated on the terylene cloth is eliminated, the middle of the terylene cloth is prevented from bulging due to the fact that the edge of the terylene cloth is wrinkled in the printing process, and the printing integrity of the terylene cloth is guaranteed.

2. The supporting legs extrude the telescopic hose to enable air pressure to be generated inside the telescopic hose, air pressure conduction is conducted through the air guide tube to enable the air bag bubble to be fixed, the edge of the polyester fabric at the bottom of the air bag bubble is extruded, the pressing plate presses the edge of the polyester fabric flatly, and the pressing plate is enabled to buffer the force of extruding the edge of the polyester fabric through linkage deflection of the linkage rod in the process of flatly pressing, so that the clamping force of the edge of the polyester fabric is improved, and the position deflection of the polyester fabric in the printing process is prevented.

Drawings

FIG. 1 is a schematic structural diagram of a printing press with a destaticizing device according to the present invention.

Fig. 2 is a schematic view of an internal structure of a cloth placing frame according to the present invention.

Fig. 3 is a schematic top view of a collision mechanism according to the present invention.

Fig. 4 is a schematic cross-sectional structural view of a contact mechanism according to the present invention.

Fig. 5 is a schematic diagram of an internal structure of a card edge mechanism according to the present invention.

Fig. 6 is a schematic perspective view of an edge clamp mechanism according to the present invention.

Fig. 7 is a schematic view of the internal structure of an extrusion mechanism according to the present invention.

Fig. 8 is a schematic diagram of the internal structure of a platen mechanism according to the present invention.

In the figure: the printing machine comprises a support frame 1, an impression cylinder 2, a control panel 3, a printing plate 4, a cloth placing frame 5, a support base 6, a plate table 7, a frame 51, an abutting mechanism 52, a side clamping mechanism 53, a bottom plate 521, a static eliminator 522, a conducting rod 523, a contact mechanism 524, a clamping mechanism 525, a fixed pipe sleeve 24a, a spring rod 24b, a sealing ring 24c, a lower pressing block 24d, a screw rod 25a, an engaging block 25b, a propelling ball 25c, an attaching plate 25d, a sliding ball 25e, a squeezing mechanism 531, a mounting shaft 532, a connecting rod 533, a pressing plate mechanism 534, a fixed frame 31a, supporting legs 31b, a telescopic hose 31c, an air duct 31d, an air bag bubble 31e, a connecting plate 34a, a sliding rail 34b, a spring 34c, a sliding shaft 34d, an interlocking rod 34e, a magnetic block 34f and.

Detailed Description

The invention is further described below with reference to the accompanying drawings: