CN105415871A - Printing assembly line mechanism - Google Patents
Printing assembly line mechanism Download PDFInfo
- Publication number
- CN105415871A CN105415871A CN201510845047.2A CN201510845047A CN105415871A CN 105415871 A CN105415871 A CN 105415871A CN 201510845047 A CN201510845047 A CN 201510845047A CN 105415871 A CN105415871 A CN 105415871A
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- conveyer belt
- impeller
- motor
- shelf
- assembly
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Abstract
The invention discloses a printing assembly line mechanism which comprises a base, a first conveyor belt, a second conveyor belt, a carrying board, a printing assembly, a first push assembly and a second push assembly. The carrying board is arranged on the base. A motor is arranged below the base. The carrying board can be driven by the motor to rotate. The first conveyor belt and the second conveyor belt are arranged on the sides of the base. The first push assembly is arranged on the side of the first conveyor belt. The second push assembly is arranged on the side of the second conveyor belt. The rotation direction of a first impeller of the first push assembly is from the first conveyor belt to the carrying board. The rotation direction of a second impeller of the second push assembly is from the carrying board to the second conveyor belt. The printing assembly is arranged on the side of the base. A printing head is arranged below the printing assembly. The design of the two conveyor belts is adopted, objects can be conveyed in the opposite direction after being printed, and the occupied area can be effectively reduced through the design.
Description
Technical field:
The present invention relates to printing machinery technical field, in particular to a kind of print stream waterline mechanism.
Background technology:
Printing mechanism's streamline of prior art is all straight line, carries out printing the operating line needing to grow very much if need to treat printed matter on a large scale, and such streamline floor space is large, and the operating personnel needed from streamline one end to the other end are many.
Summary of the invention:
For the problems referred to above, technical scheme of the present invention is as follows: a kind of print stream waterline mechanism, comprises base, the first conveyer belt, the second conveyer belt, shelf, printing assembly, the first propelling movement assembly and the second propelling movement assembly; Shelf is provided with on described base, the below of base is provided with motor, shelf can rotate under the drive of motor, the sidepiece of base is provided with the first conveyer belt and the second conveyer belt, the sidepiece of described first conveyer belt is provided with the first propelling movement assembly, the sidepiece of the second conveyer belt is provided with the second propelling movement assembly, and the described first direction of rotation pushing the first impeller of assembly is by the first conveyer belt to shelf, and the described second direction of rotation pushing the second impeller of assembly is to the second conveyer belt by shelf; The sidepiece of base is provided with printing assembly, and the below of described printing assembly is provided with print head.
According to technique scheme, motor can drive shelf to rotate, object can push on shelf by the first conveyer belt by the first the first impeller pushing assembly, object is along with the rotation of shelf is gradually near the print head of printing assembly, when object arrives below print head, print head can carry out presswork to object, and continue under the drive of shelf, rotate to the below reaching the second impeller, be pushed on the second conveyer belt by the second impeller, the object printed can be delivered to initially by the second conveyer belt.
Present invention employs the design of two conveyer belts, can be sent back to contrary direction after making object to be printed, so design effectively can reduce floor space.
As the explanation to the base in technique scheme, the top of described base is provided with rolling disc and sheave, and described rolling disc is connected with the output shaft of the motor below base, and sheave and shelf are connected on same axle.Described sheave is provided with engagement notch and non-engagement notch, and the quantity of described engagement notch and non-engagement notch is all six, and described six are engaged between notches and six non-engagement notches or arrange; Described rolling disc is provided with rotational pin and rack circle, described rotational pin with engage notch and engage, described rack circle engages with the non-notch that engages.Sheave and rolling disc is provided with on base, sheave is hexagonal sheave, rolling disc is rotatable under the drive of motor, when rotational pin can drive sheave to rotate 60 degree with engaging when notch engages, rack circle engages with the non-notch that engages subsequently, sheave keeps static, so sheave keep static in shelf also keep static, the print head be positioned at above shelf can print object, when sheave is by rolling disc driven rotary, shelf also carries out the rotation of same angle, so, next object can rotate to the below of print head, and so forth.
As the explanation first in technique scheme being pushed to assembly, described first pushes assembly comprises the first motor and the first impeller, described first impeller is arranged on the output shaft of the first motor, first impeller is positioned at directly over the first conveyer belt, described first vane rotary direction is by the first conveyer belt to shelf, and the below of described first motor is also provided with the first motor support bar.Described first impeller can under the drive of the first motor slow circumvolve, it can utilize impeller blade to be pushed on shelf by the first conveyer belt by object.
As the explanation second in technique scheme being pushed to assembly, described second pushes assembly comprises the second motor and the second impeller, described second impeller is arranged on the output shaft of the second motor, second impeller is positioned at directly over shelf, described second vane rotary direction is by shelf to the second conveyer belt, and the below of described second motor is also provided with the second motor support bar.Described second impeller can under the drive of the second motor slow circumvolve, it can utilize impeller blade to be pushed on the second conveyer belt by shelf by object.
As further illustrating the printing assembly in technique scheme, described printing assembly comprises print head, cylinder and cylinder fixed mount, described print head is positioned at the end of cylinder, and described cylinder is positioned at the below of cylinder fixed mount, and described cylinder fixed mount is vertically arranged.Described print head can carry out up and down periodically regular movement under the control of cylinder, when shelf and the object that holds thereof keep static, the surface that print head moves to object from top to bottom under the control of cylinder is printed, when shelf and the object that holds thereof rotate, print head leaves object surface from the bottom to top under the control of cylinder.
As further illustrating the first conveyer belt in technique scheme and the second conveyer belt, the end of described first conveyer belt is provided with the first slope, and the head end of described second conveyer belt is provided with the second slope.Set slope is more conducive to object and expediently descends conveyer belt when being pushed by impeller.
Accompanying drawing illustrates:
Below in conjunction with accompanying drawing, the present invention is described further:
Fig. 1 is perspective view of the present invention;
Fig. 2 observes resulting structures schematic diagram of the present invention from the left back of Fig. 1;
Fig. 3 is forward sight structural representation of the present invention;
Fig. 4 is understructure schematic diagram of the present invention.
Detailed description of the invention:
Composition graphs 1 to Fig. 4, a kind of print stream waterline mechanism, comprises base 10, first conveyer belt 20, second conveyer belt 30, shelf 40, printing assembly 50, first propelling movement assembly 60 and the second propelling movement assembly 70; Shelf 40 is provided with on described base 10, the below of base 10 is provided with motor 13, shelf 40 can rotate under the drive of motor 13, the sidepiece of base 10 is provided with the first conveyer belt 20 and the second conveyer belt 30, the sidepiece of described first conveyer belt 20 is provided with the first propelling movement assembly 60, the sidepiece of the second conveyer belt 30 is provided with the second propelling movement assembly 70, described first direction of rotation pushing the first impeller 63 of assembly 60 is by the first conveyer belt 20 to shelf 40, and the described second direction of rotation pushing the second impeller 73 of assembly 70 is to the second conveyer belt 30 by shelf 40; The sidepiece of base 10 is provided with printing assembly 50, and the below of described printing assembly 50 is provided with print head 53.
Composition graphs 3 and Fig. 4, the top of described base 10 is provided with rolling disc 11 and sheave 12, and described rolling disc 11 is connected with the output shaft of the motor 13 below base 10, and sheave 12 and shelf 40 are connected on same axle.
Composition graphs 4, described sheave 12 is provided with engagement notch 120 and non-engagement notch 121, and the quantity of described engagement notch 120 and non-engagement notch 121 is all six, and described six are engaged between notches 120 and six non-engagement notches 121 or arrange; Described rolling disc 11 is provided with rotational pin 110 and rack circle 111, described rotational pin 110 with engage notch 120 and engage, described rack circle 111 engages with the non-notch 121 that engages.
Composition graphs 1 to Fig. 3, described first pushes assembly 60 comprises the first motor 62 and the first impeller 63, described first impeller 63 is arranged on the output shaft of the first motor 62, first impeller 63 is positioned at directly over the first conveyer belt 20, described first impeller 63 direction of rotation is by the first conveyer belt 20 to shelf 40, and the below of described first motor 62 is also provided with the first motor support bar 61.
Composition graphs 1 to Fig. 3, described second pushes assembly 70 comprises the second motor 72 and the second impeller 73, described second impeller 73 is arranged on the output shaft of the second motor 72, second impeller 73 is positioned at directly over shelf 40, described second impeller 73 direction of rotation is by shelf 40 to the second conveyer belt 30, and the below of described second motor 72 is also provided with the second motor support bar 71.
Composition graphs 1 to Fig. 3, described printing assembly 50 comprises print head 53, cylinder 52 and cylinder fixed mount 51, and described print head 53 is positioned at the end of cylinder 52, and described cylinder 52 is positioned at the below of cylinder fixed mount 51, and described cylinder fixed mount 51 is vertically arranged.
Composition graphs 2, the end of described first conveyer belt 20 is provided with the first slope 200, and the head end of described second conveyer belt 30 is provided with the second slope 300.
In practical operation, motor 13 is positioned at the below of base 10, and rolling disc 11 is connected with the output shaft of the motor 13 below base 10, and sheave 12 and shelf 40 are connected on same axle.Sheave 12 and rolling disc 11 is provided with on base 10, sheave 12 is hexagonal sheave, rolling disc 11 is rotatable under the drive of motor 13, when rotational pin 110 can drive sheave 12 to rotate 60 degree with engaging when notch 120 engages, rack circle 111 engages with the non-notch 121 that engages subsequently, sheave 12 keeps static, so sheave 12 keep static in shelf 40 also keep static, the print head 53 be positioned at above shelf 40 can print object 80, when sheave 12 is by rolling disc 11 driven rotary, shelf 40 also carries out the rotation of same angle, so, next object 80 can rotate to the below of print head 53.Print head 53 can carry out up and down periodically regular movement under the control of cylinder 52, when shelf 40 and the object 80 that holds thereof keep static, the surface that print head 53 moves to object 80 from top to bottom under the control of cylinder 52 is printed, when shelf 40 and the object 80 that holds thereof rotate, print head 53 leaves object 80 surface from the bottom to top under the control of cylinder 52, and so forth.First impeller 63 can under the drive of the first motor 62 slow circumvolve, it can utilize the first impeller 63 to push on shelf 40 by object 8 by the first conveyer belt 20, second impeller 73 can under the drive of the second motor 72 slow circumvolve, it can utilize the second impeller 73 that object is pushed to the second conveying 30 by shelf 40 and bring, and object 80 can be sent back to initially by the second conveyer belt 30.
Above content is only better embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.
Claims (7)
1. a print stream waterline mechanism, comprises base (10), the first conveyer belt (20), the second conveyer belt (30), shelf (40), printing assembly (50), the first propelling movement assembly (60) and the second propelling movement assembly (70), it is characterized in that: on described base (10), be provided with shelf (40), the below of base (10) is provided with motor (13), shelf (40) can rotate under the drive of motor (13), the sidepiece of base (10) is provided with the first conveyer belt (20) and the second conveyer belt (30), the sidepiece of described first conveyer belt (20) is provided with the first propelling movement assembly (60), the sidepiece of the second conveyer belt (30) is provided with the second propelling movement assembly (70), described first direction of rotation pushing first impeller (63) of assembly (60) is to shelf (40) by the first conveyer belt (20), described second direction of rotation pushing second impeller (73) of assembly (70) is to the second conveyer belt (30) by shelf (40), the sidepiece of base (10) is provided with printing assembly (50), and the below of described printing assembly (50) is provided with print head (53).
2. a kind of print stream waterline mechanism as claimed in claim 1, it is characterized in that: the top of described base (10) is provided with rolling disc (11) and sheave (12), described rolling disc (11) is connected with the output shaft of the motor (13) of base (10) below, and sheave (12) and shelf (40) are connected on same axle.
3. a kind of print stream waterline mechanism as claimed in claim 2, it is characterized in that: described sheave (12) is provided with engagement notch (120) and non-engagement notch (121), the quantity of described engagement notch (120) and non-engagement notch (121) is all six, and described six are engaged between notch (120) and six non-engagement notches (121) or arrange; Described rolling disc (11) is provided with rotational pin (110) and rack circle (111), described rotational pin (110) with engage notch (120) and engage, described rack circle (111) engages with the non-notch (121) that engages.
4. a kind of print stream waterline mechanism as claimed in claim 1, it is characterized in that: described first pushes assembly (60) comprises the first motor (62) and the first impeller (63), described first impeller (63) is arranged on the output shaft of the first motor (62), first impeller (63) is positioned at directly over the first conveyer belt (20), described first impeller (63) direction of rotation is by the first conveyer belt (20) to shelf (40), and the below of described first motor (62) is also provided with the first motor support bar (61).
5. a kind of print stream waterline mechanism as claimed in claim 1, it is characterized in that: described second pushes assembly (70) comprises the second motor (72) and the second impeller (73), described second impeller (73) is arranged on the output shaft of the second motor (72), second impeller (73) is positioned at directly over shelf (40), described second impeller (73) direction of rotation is by shelf (40) to the second conveyer belt (30), and the below of described second motor (72) is also provided with the second motor support bar (71).
6. a kind of print stream waterline mechanism as claimed in claim 1, it is characterized in that: described printing assembly (50) comprises print head (53), cylinder (52) and cylinder fixed mount (51), described print head (53) is positioned at the end of cylinder (52), described cylinder (52) is positioned at the below of cylinder fixed mount (51), and described cylinder fixed mount (51) is vertically arranged.
7. a kind of print stream waterline mechanism as claimed in claim 1, it is characterized in that: the end of described first conveyer belt (20) is provided with the first slope (200), the head end of described second conveyer belt (30) is provided with the second slope (300).
Priority Applications (1)
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CN201510845047.2A CN105415871A (en) | 2015-11-27 | 2015-11-27 | Printing assembly line mechanism |
Applications Claiming Priority (1)
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CN201510845047.2A CN105415871A (en) | 2015-11-27 | 2015-11-27 | Printing assembly line mechanism |
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CN105415871A true CN105415871A (en) | 2016-03-23 |
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CN201510845047.2A Pending CN105415871A (en) | 2015-11-27 | 2015-11-27 | Printing assembly line mechanism |
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