CN114311998A - Printing equipment with conveying interval automatic adjustment control function - Google Patents

Abstract

The invention discloses printing equipment with a conveying interval automatic adjusting and controlling function, which comprises an interval control adjusting structure, a control panel, a printing cavity, a sliding door opening and closing structure, a transmission conveying structure and an adsorption limiting structure, wherein the control panel is arranged at the upper end of the interval control adjusting structure, the printing cavity is arranged on the right side of the control panel, and the sliding door opening and closing structure is arranged at the right end of the printing cavity. This lithography apparatus who contains transport interval automatic adjustment control function, control panel obtains object width and thickness information after the conversion analysis, control horizontal telescopic link and vertical telescopic link move, when the distance between infrared emission module and the receiving module of unilateral level to be half of object width, horizontal telescopic link stops to move, when the distance between infrared emission module and the receiving module of perpendicular to equals object thickness, vertical telescopic link stops to move, interval control adjusts the structure and is convenient for carry out appropriate regulation with the printing mouth.

Description

Printing equipment with conveying interval automatic adjustment control function

Technical Field

The invention relates to the technical field of printing equipment, in particular to printing equipment with a conveying distance automatic adjusting and controlling function.

Background

Printing is a technique of transferring ink to the surface of a material such as paper, fabric, leather, etc. by processes such as plate making, inking, pressing, etc. to copy the contents of the original in bulk, in a simple sense, printing is a process technique of transferring graphic information on the original to a printing material by using a printing plate or other means, or a copying process of transferring a color former or a coloring material (such as ink) to the printing material by using an analog or digital image carrier, and a printing device is used in the printing process.

The printing apparatus on the market does not have the automatic adjusting function of the conveying distance in use, so that paper with different widths is difficult to adapt to a single printing inlet, and has great limitation in the using process.

Disclosure of Invention

The invention aims to provide a printing device with a conveying distance automatic adjusting control function, and aims to solve the problems that the printing device in the market, which is proposed in the background art, does not have the conveying distance automatic adjusting function in use, so that paper with different widths is difficult to adapt to a single printing inlet, and the printing device has large limitation in use.

In order to achieve the purpose, the invention provides the following technical scheme: a printing device with a conveying interval automatic adjustment control function comprises an interval control adjustment structure, a control panel, a printing cavity, a sliding door opening and closing structure, a transmission conveying structure and an adsorption limiting structure, wherein the control panel is arranged at the upper end of the interval control adjustment structure, the printing cavity is arranged on the right side of the control panel, the sliding door opening and closing structure is arranged at the right end of the printing cavity, the transmission conveying structure is arranged inside the printing cavity, and the adsorption limiting structure is arranged on the left side behind the transmission conveying structure;

the interval control adjusting structure comprises:

the detection cavity is arranged at the lower end of the control panel;

a light projecting device disposed at an upper end of the detection chamber;

a light receiving device disposed below the light projecting device;

the groove frame is arranged at the bottom end of the detection cavity;

the receiving module is arranged at the middle end in the groove frame;

the infrared transmitting module is arranged on the left side of the receiving module;

the baffle is arranged at the upper end of the infrared emission module;

the horizontal telescopic rod is arranged on the left side of the baffle;

the belt pulley is arranged behind the horizontal telescopic rod;

the vertical telescopic rod is arranged below the belt pulley;

a roller provided on the right side of the pulley;

a spring provided inside the pulley;

and the rotating shaft is arranged on the inner side of the spring.

Preferably, the detection cavity and the baffle form a telescopic structure through a horizontal telescopic rod, and the horizontal telescopic rod is provided with a group.

Preferably, the horizontal telescopic rod is electrically connected with the infrared transmitting module, and the infrared transmitting module is associated with the receiving module.

Preferably, the detection cavity and the belt pulley form a lifting structure through a vertical telescopic rod, and the belt pulley and the rotating shaft form an elastic structure through a spring.

Preferably, the sliding door opening and closing structure includes:

the hollow frame is fixed above the right end of the printing cavity;

a sliding door which is clamped inside the hollow frame;

and the magnetic suction handle is fixed in the middle of the lower end of the surface of the sliding door.

Preferably, the transmission conveying structure comprises:

a motor disposed at a right side of the printing chamber;

a drum disposed at a left side of the motor;

a conveyor belt wrapped around the outside of the drum;

a pedestal provided on the left side of the drum;

the belt is arranged on the surface of the shaft bracket.

Preferably, the motor and the conveyor belt form a rotating structure through a roller, and the roller and the belt form a transmission structure through a shaft bracket.

Preferably, the adsorption limiting structure comprises:

the fixing frame is fixed on the inner wall of the printing cavity;

the exhaust fan is arranged at the upper end of the fixing frame;

the collecting channel is arranged at the right end of the exhaust fan;

the air cavity is arranged on the right side of the collecting channel;

and the flow guide openings are distributed on the surface of the wind cavity.

Preferably, the exhaust fan is communicated with the air cavity through the collecting channel, and the flow guide openings are uniformly distributed on the surface of the air cavity.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, a user starts the device, places paper to be printed at the front end of the detection cavity, the light projecting device emits laser beams to the light receiving device, because an object is arranged between the light projecting device and the light receiving device, the light receiving quantity of the laser is reduced, so the width and thickness change of the object is output in a linear output change form, the control panel obtains the converted and analyzed object width and thickness information and controls the horizontal telescopic rod and the vertical telescopic rod to move, when the distance between the infrared transmitting module and the receiving module in the horizontal direction at one side is half of the width of the object, the horizontal telescopic rod stops moving, when the distance between the infrared transmitting module and the receiving module in the vertical direction is equal to the thickness of an object, the vertical telescopic rod stops moving, the distance control adjusting structure is convenient for carrying out proper adjustment on a printing opening, and certain adaptation is carried out on the required printing object.

2. According to the device, when the device is started, the motor drives the roller and the conveying belt to perform transmission movement, the shaft bracket on the left side of the roller is connected with the belt pulley through the belt, so that the belt pulley also performs corresponding rotation through the belt while the motor rotates, the belt pulley drives the roller to rotate through the rotating shaft, the printed matter at the printing port is conveniently limited and conveyed to the surface of the conveying belt along the central axis, and the belt pulley is conveniently matched with the belt pulley at different heights through an elastic structure formed by the spring and the rotating shaft, so that the belt is prevented from being broken due to over-tensioning.

3. According to the invention, when the printed matter is conveyed to the surface of the conveying belt, the exhaust fan performs air suction with the air cavity through the collecting channel, and the conveying belt is in a hollow shape because the flow guide ports are uniformly distributed on the surface of the air cavity, so that the printed matter on the surface of the conveying belt can be effectively adsorbed, the printed matter is limited, and meanwhile, the adhesion between the printed matter and the printing roller is avoided, and the printing efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of a printing apparatus having a function of automatically adjusting and controlling a feeding distance according to the present invention;

FIG. 2 is a left side view of the inspection chamber of the printing apparatus with the automatic adjustment and control function of the feeding distance according to the present invention;

FIG. 3 is a schematic view of the internal structure of a belt pulley of a printing apparatus having a function of automatically adjusting and controlling a conveying distance according to the present invention;

FIG. 4 is a schematic top view of the printing apparatus with the automatic adjustment and control function for the feeding distance according to the present invention;

fig. 5 is a schematic top view of an adsorption spacing structure of a printing apparatus with a conveying distance automatic adjustment control function according to the present invention.

In the figure: 1. a spacing control adjustment structure; 101. a detection chamber; 102. a light projecting device; 103. A light receiving device; 104. a slot frame; 105. a receiving module; 106. an infrared emission module; 107. A baffle plate; 108. a horizontal telescopic rod; 109. a vertical telescopic rod; 110. a belt pulley; 111. rolling a roller; 112. a spring; 113. a rotating shaft; 2. a control panel; 3. a printing chamber; 4. a sliding door opening and closing structure; 401. a hollow frame; 402. moving the door; 403. a magnetic suction handle; 5. a transmission conveying structure; 501. a motor; 502. a drum; 503. a conveyor belt; 504. a pedestal; 505. a belt; 6. an adsorption limit structure; 601. a fixed mount; 602. an exhaust fan; 603. a collecting channel; 604. A wind cavity; 605. and a flow guide opening.

Detailed Description

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-3, the present invention provides a technical solution: a printing apparatus having a conveying pitch automatic adjustment control function, comprising: spacing control adjusts structure 1, and spacing control adjusts structure 1's upper end and is provided with control panel 2, and control panel 2's right side is provided with printing chamber 3, and printing chamber 3's right-hand member is provided with moves a switching structure 4, and spacing control adjusts structure 1 and includes: a detection chamber 101 provided at a lower end of the control panel 2; a light projector 102 provided at the upper end of the detection chamber 101; a light receiving device 103 provided below the light projecting device 102; a slot frame 104 disposed at the bottom end of the detection chamber 101; a receiving module 105 disposed at an inner middle end of the slot frame 104; an infrared ray emitting module 106 disposed on the left side of the receiving module 105; a baffle 107 disposed at an upper end of the infrared emission module 106; a horizontal telescopic rod 108 provided on the left side of the baffle 107; a belt pulley 110 disposed behind the horizontal telescopic rod 108; a vertical telescopic rod 109 disposed below the belt pulley 110; a roller 111 provided at the right of the pulley 110; a spring 112 disposed inside the pulley 110; a rotating shaft 113 disposed inside the spring 112, the detection chamber 101 forms a telescopic structure with the baffle 107 through a horizontal telescopic rod 108, the horizontal telescopic rod 108 is provided with a group, the horizontal telescopic rod 108 is electrically connected with the infrared emitting module 106, the infrared emitting module 106 is associated with the receiving module 105, the detection chamber 101 forms a lifting structure with the belt pulley 110 through a vertical telescopic rod 109, the belt pulley 110 forms an elastic structure with the rotating shaft 113 through the spring 112, a user starts the device to place a paper to be printed at the front end of the detection chamber 101, the light projecting device 102 emits a laser beam to the light receiving device 103, since there is an object between the light projecting device 102 and the light receiving device 103, the light receiving amount of the laser is reduced, so that the width and thickness variation of the object are output in a linear output variation form, and the control panel 2 obtains the width and thickness information of the object after conversion and analysis, control horizontal telescopic link 108 and vertical telescopic link 109 and remove, when the distance between unilateral level to infrared emission module 106 and receiving module 105 is half of object width, horizontal telescopic link 108 stops to move, when the distance between perpendicular to infrared emission module 106 and receiving module 105 equals object thickness, vertical telescopic link 109 stops to move, interval control adjusts structure 1 and is convenient for carry out appropriate regulation with the printing mouth, carry out certain adaptation to required printing object, move a switching structure 4 and include: a hollow frame 401 fixed above the right end of the printing chamber 3; a sliding door 402 engaged with the inside of the hollow frame 401; the magnetism handle 403 is fixed in the middle of the lower end of the surface of the sliding door 402, when the device is started, a user pulls the magnetism handle 403 to lift the sliding door 402 upwards, so that the magnetism handle 403 and the hollow frame 401 are attracted, the sliding door 402 is convenient to open, and the moving and collecting of printed matters are facilitated.

As shown in fig. 4, the present invention provides a technical solution: the utility model provides a lithography apparatus who contains transport interval automatically regulated control function, the inside in printing chamber 3 is provided with transmission transport structure 5, and transmission transport structure 5's rear left side is provided with adsorbs limit structure 6, and transmission transport structure 5 includes: a motor 501 provided at the right side of the printing chamber 3; a drum 502 provided on the left side of the motor 501; a conveyor 503 wrapped around the outside of the drum 502; a pedestal 504 provided on the left side of the drum 502; the belt 505 is arranged on the surface of the shaft bracket 504, the motor 501 and the conveyor belt 503 form a rotating structure through the roller 502, and the roller 502 and the belt 505 form a transmission structure through the shaft bracket 504 and the belt 505, when the device is started, the motor 501 drives the roller 502 and the conveyor belt 503 to perform transmission motion, because the shaft bracket 504 on the left side of the roller 502 is connected with the belt pulley 110 through the belt 505, the belt pulley 110 also performs corresponding rotation through the belt 505 while the motor 501 rotates, the belt pulley 110 drives the roller 111 to rotate through the rotating shaft 113, so that the printed matter at the printing port is transmitted to the surface of the conveyor belt 503 along the central axis in a limiting manner, and the belt pulley 110 is convenient to adapt to the positions of the belt pulleys 110 with different heights through an elastic structure formed by the spring 112 and the rotating shaft 113, and the belt 505 is prevented from being broken due to over-tensioning.

As shown in fig. 5, the present invention provides a technical solution: the utility model provides a lithography apparatus who contains transport interval automatically regulated control function, adsorbs limit structure 6 includes: a fixing frame 601 fixed to an inner wall of the printing chamber 3; an exhaust fan 602 disposed at an upper end of the fixing frame 601; a collecting channel 603 provided at the right end of the exhaust fan 602; a wind chamber 604 disposed to the right of the summing channel 603; flow guide port 605, its surface in wind chamber 604 that distributes, air exhauster 602 is linked together through summarizing passageway 603 and wind chamber 604, and flow guide port 605 is in wind chamber 604 surface evenly distributed, when printed matter transmits to conveyer belt 503 surface, air exhauster 602 induced drafts through summarizing passageway 603 and wind chamber 604, because flow guide port 605 is in wind chamber 604 surface evenly distributed, conveyer belt 503 is the fretwork form, consequently, can effectually adsorb the printed matter that conveys 503 surfaces, avoid the adhesion between printed matter and the printing roller when carrying out spacingly to the printed matter, improve printing efficiency.

In summary, in the printing apparatus with the automatic conveying pitch adjustment control function, a user pulls the magnetic suction handle 403 to lift the sliding door 402 upwards, so that the magnetic suction handle 403 is attracted to the hollow frame 401, the sliding door 402 is opened, the user starts the apparatus, a piece of paper to be printed is placed at the front end of the detection chamber 101, the light projecting device 102 emits a laser beam to the light receiving device 103, since an object is located between the light projecting device 102 and the light receiving device 103, the light receiving amount of the laser beam is reduced, therefore, the width and thickness change of the object is output in a linear output change form, the control panel 2 obtains the width and thickness information of the object after conversion and analysis, controls the horizontal telescopic rod 108 and the vertical telescopic rod 109 to move, when the distance between the infrared ray emitting module 106 and the receiving module 105 in the horizontal direction on one side is half of the width of the object, the horizontal telescopic rod 108 stops moving, when the distance between the vertical infrared emitting module 106 and the receiving module 105 is equal to the thickness of an object, the vertical telescopic rod 109 stops moving, the distance control and adjustment structure 1 facilitates proper adjustment of the printing port, and performs certain adaptation on the object to be printed, the motor 501 drives the roller 502 and the conveyor belt 503 to perform transmission motion, because the shaft bracket 504 on the left side of the roller 502 is connected with the belt pulley 110 through the belt 505, the belt pulley 110 correspondingly rotates through the belt 505 while the motor 501 rotates, the belt pulley 110 drives the roller 111 to rotate through the rotating shaft 113, so that the printed matter at the printing port is transmitted to the surface of the conveyor belt 503 along the central axis in a limiting manner, the belt pulley 110 facilitates adaptation of the positions of the belt pulleys 110 with different heights through the elastic structure formed by the spring 112 and the rotating shaft 113, so as to avoid breakage caused by over-tensioning of the belt 505, when the printed matter is transmitted to the surface of the conveyor belt 503, air exhauster 602 induced drafts through gathering passageway 603 and wind chamber 604, because water conservancy diversion mouth 605 is at wind chamber 604 surface evenly distributed, conveyer belt 503 is the fretwork form, consequently can adsorb the printed matter that conveys belt 503 surface, avoids the adhesion between printed matter and the printing roller when carrying on spacingly to the printed matter, improves printing efficiency.

It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (9)

1. The utility model provides a lithography apparatus who contains transport interval automatically regulated control function, includes that interval control adjusts structure (1), control panel (2), printing chamber (3), moves a close structure (4), transmission transport structure (5) and adsorbs limit structure (6), its characterized in that: a control panel (2) is arranged at the upper end of the spacing control and adjustment structure (1), a printing cavity (3) is arranged on the right side of the control panel (2), a sliding door opening and closing structure (4) is arranged at the right end of the printing cavity (3), a transmission conveying structure (5) is arranged inside the printing cavity (3), and an adsorption limiting structure (6) is arranged on the left side behind the transmission conveying structure (5);

the spacing control adjustment structure (1) comprises:

a detection chamber (101) arranged at the lower end of the control panel (2);

a light projection device (102) disposed at an upper end of the detection chamber (101);

a light receiving device (103) provided below the light projecting device (102);

a slot frame (104) arranged at the bottom end of the detection cavity (101);

a receiving module (105) disposed at an inner middle end of the slot frame (104);

an infrared ray transmitting module (106) disposed on the left side of the receiving module (105);

a baffle plate (107) arranged at the upper end of the infrared emission module (106);

a horizontal telescopic rod (108) arranged on the left side of the baffle plate (107);

a belt pulley (110) disposed behind the horizontal telescopic rod (108);

a vertical telescopic rod (109) disposed below the pulley (110);

a roller (111) provided on the right side of the pulley (110);

a spring (112) provided inside the pulley (110);

and a rotating shaft (113) which is disposed inside the spring (112).

2. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: the detection cavity (101) and the baffle (107) form a telescopic structure through a horizontal telescopic rod (108), and the horizontal telescopic rod (108) is provided with a group.

3. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: the horizontal telescopic rod (108) is electrically connected with the infrared transmitting module (106), and the infrared transmitting module (106) is associated with the receiving module (105).

4. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: the detection cavity (101) and the belt pulley (110) form a lifting structure through the vertical telescopic rod (109), and the belt pulley (110) and the rotating shaft (113) form an elastic structure through the spring (112).

5. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: the sliding door opening and closing structure (4) comprises:

a hollow frame (401) fixed above the right end of the printing chamber (3);

a sliding door (402) that is engaged with the inside of the hollow frame (401);

and the magnetic suction handle (403) is fixed in the middle of the lower end of the surface of the sliding door (402).

6. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: the transmission conveying structure (5) comprises:

a motor (501) arranged on the right side of the printing chamber (3);

a drum (502) provided on the left side of the motor (501);

a conveyor (503) wrapped around the outside of the drum (502);

a pedestal (504) provided on the left side of the drum (502);

a belt (505) disposed on a surface of the pedestal (504).

7. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 6, wherein: the motor (501) and the conveyor belt (503) form a rotating structure through the roller (502), and the roller (502) and the belt (505) form a transmission structure through the shaft bracket (504).

8. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 1, wherein: adsorb limit structure (6) and include:

a fixing frame (601) fixed to the inner wall of the printing chamber (3);

an exhaust fan (602) disposed at an upper end of the fixing frame (601);

a collecting channel (603) arranged at the right end of the exhaust fan (602);

a wind chamber (604) disposed to the right of the summing channel (603);

flow guide openings (605) distributed on the surface of the wind cavity (604).

9. A printing apparatus having a function of automatically adjusting and controlling a transport distance according to claim 8, wherein: the exhaust fan (602) is communicated with the air cavity (604) through the collecting channel (603), and the flow guide ports (605) are uniformly distributed on the surface of the air cavity (604).

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