CN219427718U - Printing device for heat preservation pipe - Google Patents

Printing device for heat preservation pipe Download PDF

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Publication number
CN219427718U
CN219427718U CN202320092460.6U CN202320092460U CN219427718U CN 219427718 U CN219427718 U CN 219427718U CN 202320092460 U CN202320092460 U CN 202320092460U CN 219427718 U CN219427718 U CN 219427718U
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Prior art keywords
positive
negative screw
motor
screw rod
pair
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CN202320092460.6U
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Chinese (zh)
Inventor
姜浩
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Hubei Aoweisi Energy Saving Technology Co ltd
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Hubei Aoweisi Energy Saving Technology Co ltd
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Priority to CN202320092460.6U priority Critical patent/CN219427718U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/10Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

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  • Thermal Insulation (AREA)
  • Inking, Control Or Cleaning Of Printing Machines (AREA)

Abstract

The utility model discloses a printing device for a heat-insulating pipe, which comprises the heat-insulating pipe and a workbench, wherein a first motor is arranged on the workbench, the output end of the first motor is coaxially and fixedly connected with a spiral feeding mechanism, the spiral feeding mechanism comprises a telescopic rod for driving the heat-insulating pipe to rotate, and a pair of mounting plates are fixedly arranged on the workbench.

Description

Printing device for heat preservation pipe
Technical Field
The utility model relates to the technical field of printing, in particular to a printing device for a heat preservation pipe.
Background
After the pipe is inspected and qualified, various character information such as manufacturers, product models and the like are required to be printed on the surface of the pipe before the pipe is packaged and sold, the process is generally finished by means of a pipe typewriter in the prior art, various types of the pipe typewriter on the market are currently provided with various forms such as stamping, jet printing, wheel printing and the like, a reference comparison file CN205553542U is adopted, a frame and a bracket arranged on the frame are adopted, a box body movably suspended on the bracket, a character printing mechanism arranged on the box body, a power device for driving the box body to lift and a pipe character printing structure formed by rollers arranged on the base are adopted, the box body and the character printing mechanism can slide up and down along guide posts on two sides of the bracket, and the machine is good in stability, convenient to adjust and convenient to assemble and disassemble; however, when the device mentioned in the above-mentioned reference document prints a character on a tube, the print wheel is in linear line contact with the side wall of the tube, and the device mentioned in the above-mentioned reference document does not have the effect of spiral feeding, so that the effect that the tube can not print a character on the side wall of the tube in a spiral winding manner in the process of printing.
Therefore, we design a printing device for the thermal insulation pipe.
Disclosure of Invention
The utility model aims to solve the problem that when the device mentioned in the above-mentioned comparison document prints characters on a pipe, the printing wheel is in linear line contact with the side wall of the pipe, and the device mentioned in the above-mentioned comparison document does not have the effect of spiral feeding, so that the effect that characters are printed on the side wall of the pipe in a spiral coiling manner cannot be realized in the process of printing the characters on the pipe, and provides the heat-insulating pipe printing device.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
the utility model provides a thermal-insulation pipe printing device, includes thermal-insulation pipe and workstation, install first motor on the workstation, the coaxial fixedly connected with screw feeding mechanism of output of first motor, screw feeding mechanism is including the telescopic link that is used for driving thermal-insulation pipe pivoted, fixedly on the workstation be equipped with a pair of mounting panel, a pair of the mounting panel both ends are rotated respectively and are connected with drive roll and driven voller, one of them be equipped with the motor support on the mounting panel, fixed mounting has the second motor on the motor support, the coaxial fixed connection of output and drive roll of second motor, be equipped with a plurality of bearing rollers that are used for carrying the thermal-insulation pipe between drive roll and the driven voller, the thermal-insulation pipe is placed on the bearing roller, be equipped with the wheel printer that is used for the printing to the thermal-insulation pipe on the workstation, be equipped with a pair of first spout on the workstation, be equipped with the cavity in the workstation, thermal-insulation pipe both sides are equipped with stop gear.
Preferably, a plurality of carrier rollers are rotatably connected with a pair of mounting plates, belt pulleys are arranged on the driving roller and the driven roller, and the same first belt is wound on the pair of belt pulleys.
Preferably, the spiral feeding mechanism further comprises a telescopic cylinder, a plurality of second sliding grooves and a plurality of second sliding blocks, the output end of the first motor is fixedly connected with the telescopic cylinder in a coaxial mode, the second sliding grooves are uniformly distributed on the inner wall of the telescopic cylinder, the second sliding blocks are arranged on the telescopic rod, and the second sliding blocks move in the second sliding grooves respectively.
Preferably, the telescopic rod is inserted into the inner wall of the heat preservation pipe.
Preferably, the limiting mechanism comprises a first positive and negative screw rod, a second belt, a third motor, a pair of movable frames and a plurality of rollers, the screw thread settings of the first positive and negative screw rod and the second positive and negative screw rod are the same, the first positive and negative screw rod and the second positive and negative screw rod are respectively arranged in a pair of first sliding grooves, the third motor is fixedly arranged on the inner wall of one of the first sliding grooves, the output end of the third motor is fixedly connected with the first positive and negative screw rod, one end of the first positive and negative screw rod, which is far away from the third motor, is rotationally connected with the inner wall of the first sliding groove, two ends of the second positive and negative screw rod are respectively rotationally connected with two inner side walls, which are opposite to the other first sliding groove, a pair of first sliding blocks are respectively arranged at the bottom of the movable frames, the first sliding blocks are provided with screw threads which are matched with the first positive and negative screw rod and the second positive and negative screw rod, and a plurality of rollers are rotationally connected with the movable frames through shafts, and the pair of rollers are clamped on two sides of the heat insulation pipe.
Preferably, the first positive and negative screw rods and the second positive and negative screw rods are respectively provided with a belt pulley, and the second belt is wound on a pair of belt pulleys.
Preferably, the bottom of the workbench is provided with a plurality of supporting frames for supporting the device.
The beneficial effects of the utility model are as follows:
1. according to the utility model, the insulating tube is placed on the carrier roller, the outer side wall of the insulating tube is limited by the limiting mechanism, so that the insulating tube is prevented from deviating in the printing process, the printing effect is not ideal, the first motor drives the spiral feeding mechanism to enable the insulating tube to be transported on the carrier roller in a rotating mode in the limiting mechanism, the effect that fonts are printed on the side wall of the insulating tube in a spiral winding mode is realized, and when the first motor stops working, the insulating tube is in linear line contact with the printing wheel of the wheel printer, so that a customer can conveniently select a printing mode.
2. The utility model is fixedly connected with the telescopic cylinder through the output end of the first motor, the inner wall of the telescopic cylinder is provided with the second sliding groove, one end of the telescopic rod, which is positioned in the cavity of the telescopic cylinder, is provided with the second sliding block, the telescopic cylinder and the telescopic rod are prevented from rotating relatively through the cooperation of the second sliding groove and the second sliding block, one end of the telescopic rod, which is far away from the telescopic cylinder, is inserted into the inner wall of the heat-preserving pipe, when a printer is required to print fonts on the side wall of the pipe in a spiral winding manner, the printer wheel of the printer is contacted with the side wall of the heat-preserving pipe in a spiral line manner through driving the output end of the first motor to rotate and driving the heat-preserving pipe to move by the carrier roller, and when the first motor stops working, the printer wheel of the printer and the printer wheel of the printer are contacted with each other in a straight line manner.
3. According to the utility model, the first positive and negative screw rod and the second positive and negative screw rod are driven by the second belt and the belt pulley, and when the first positive and negative screw rod is driven to rotate by the output end of the third motor, the pair of moving frames relatively move on the first positive and negative screw rod and the second positive and negative screw rod through the first sliding block, so that the limit clamping of the heat preservation pipe is realized, and the heat preservation pipe with different sizes is clamped.
Drawings
FIG. 1 is a schematic diagram of a printing device for a thermal insulation pipe according to the present utility model;
fig. 2 is a front view of a printing device for a thermal insulation pipe according to the present utility model;
FIG. 3 is a schematic diagram of an adjusting mechanism of a printing device for a thermal insulation pipe;
fig. 4 is a schematic diagram of a screw feeding mechanism of a printing device for a thermal insulation pipe.
In the figure: 1. a work table; 2. a heat preservation pipe; 3. a first motor; 4. a mounting plate; 5. a drive roll; 6. driven roller; 7. a second motor; 8. a first belt; 9. a first chute; 10. a moving rack; 11. a roller; 12. a first positive and negative screw rod; 13. a second positive and negative screw rod; 14. a second belt; 15. a third motor; 16. a telescopic cylinder; 17. a telescopic rod; 18. a second chute; 19. a second slider; 20. a rotary printing machine; 21. a support frame; 22. and (3) carrying rollers.
Detailed Description
Referring to fig. 1-4, a printing device for a thermal insulation pipe comprises a thermal insulation pipe 2 and a workbench 1, wherein a first motor 3 is installed on the workbench 1, an output end of the first motor 3 is coaxially and fixedly connected with a spiral feeding mechanism, the spiral feeding mechanism comprises a telescopic rod 17 for driving the thermal insulation pipe 2 to rotate, a pair of mounting plates 4 are fixedly arranged on the workbench 1, two ends of the pair of mounting plates 4 are respectively and rotatably connected with a driving roller 5 and a driven roller 6, a motor support is arranged on one of the mounting plates 4, a second motor 7 is fixedly installed on the motor support, an output end of the second motor 7 is coaxially and fixedly connected with the driving roller 5, a plurality of carrier rollers 22 for conveying the thermal insulation pipe 2 are arranged between the driving roller 5 and the driven roller 6, the thermal insulation pipe 2 is placed on the carrier rollers 22, a wheel printer 20 for printing the thermal insulation pipe 2 is arranged on the workbench 1, a pair of first sliding grooves 9 are arranged on the workbench 1, cavities are arranged in the workbench 1, and limiting mechanisms are arranged on two sides of the thermal insulation pipe 2.
Referring to fig. 1, a plurality of carrier rollers 22 are rotatably connected to a pair of mounting plates 4, a driving roller 5 and a driven roller 6 are provided with belt pulleys, a pair of belt pulleys are wound with a first belt 8, and a plurality of supporting frames 21 for supporting devices are provided at the bottom of the working table 1.
Referring to fig. 1 and 4, the screw feeding mechanism further comprises a telescopic cylinder 16, a plurality of second sliding grooves 18 and a plurality of second sliding blocks 19, the output end of the first motor 3 is fixedly connected with the telescopic cylinder 16 in a coaxial mode, the plurality of second sliding grooves 18 are evenly distributed on the inner wall of the telescopic cylinder 16, the plurality of second sliding blocks 19 are arranged on the telescopic rod 17, the plurality of second sliding blocks 19 respectively move in the plurality of second sliding grooves 18, the telescopic rod 17 is inserted into the inner wall of the heat preservation tube 2, the effect of the arrangement is that the output end of the first motor 3 is fixedly connected with the telescopic cylinder 16, the inner wall of the telescopic cylinder 16 is provided with the second sliding grooves 18, the telescopic rod 17 is arranged at one end of a cavity of the telescopic cylinder 16, the telescopic rod 17 and the telescopic rod 17 are prevented from relatively rotating through the cooperation of the second sliding grooves 18 and the second sliding blocks 19, one end of the telescopic rod 17, which is far away from the telescopic rod 16, is inserted into the inner wall of the heat preservation tube 2, when a printer 20 is required to print on the side wall of the heat preservation tube 2 in a spiral mode, the output end of the first motor 3 is driven to rotate and the roller 22 is driven to drive the heat preservation tube 2 to move, so that the heat preservation tube 2 is in contact with the side wall of the heat preservation tube 2 and the printer 2 in a linear mode of the printer 20 and the heat preservation tube 2 is contacted with the heat preservation roller and the printer 2 when the printer is in a line contact with the heat preservation roller 20.
Referring to fig. 1 and 3, the limiting mechanism comprises a first positive and negative screw rod 12, a second positive and negative screw rod 13, a second belt 14, a third motor 15, a pair of moving frames 10 and a plurality of rollers 11, wherein the threads of the first positive and negative screw rod 12 and the second positive and negative screw rod 13 are identical, the first positive and negative screw rod 12 and the second positive and negative screw rod 13 are respectively arranged in a pair of first sliding grooves 9, the third motor 15 is fixedly arranged on the inner wall of one of the first sliding grooves 9, the output end of the third motor 15 is fixedly connected with the first positive and negative screw rod 12, one end of the first positive and negative screw rod 12 far away from the third motor 15 is rotationally connected with the inner wall of the first sliding groove 9, two ends of the second positive and negative screw rod 13 are respectively rotationally connected with two inner side walls opposite to the other first sliding groove 9, a pair of first sliding blocks are respectively arranged at the bottom of the moving frames 10, the first sliding block is provided with threads matched with the first positive and negative screw rods 12 and the second positive and negative screw rods 13, the plurality of rollers 11 are rotationally connected with the movable frame 10 through shafts, the pair of rollers 11 are clamped on two sides of the heat-insulating pipe 2, belt pulleys are arranged on the first positive and negative screw rods 12 and the second positive and negative screw rods 13, the second belt 14 is wound on the pair of belt pulleys, the second belt 14 is arranged in the cavity of the workbench 1, the effect of being arranged is that the first positive and negative screw rods 12 and the second positive and negative screw rods 13 are driven through the second belt 14 and the belt pulleys, and when the first positive and negative screw rods 12 are driven to rotate through the output end of the third motor 15, the pair of movable frames 10 relatively move on the first positive and negative screw rods 12 and the second positive and negative screw rods 13 through the first sliding block, so that limit clamping of the heat-insulating pipe 2 is realized, and the heat-insulating pipe 2 with different sizes is clamped.
The working principle of the utility model is as follows:
firstly, through placing the insulating tube 2 on the carrier roller 22, when the output end of the third motor 15 drives the first positive and negative screw rod 12 to rotate, a pair of movable frames 10 relatively move on the first positive and negative screw rod 12 and the second positive and negative screw rod 13 through the first sliding block, limit clamping of the insulating tube 2 is achieved, the insulating tube 2 with different sizes is clamped, deviation of the insulating tube 2 in the printing process is prevented, printing effect is not ideal, the insulating tube 2 is transported on the carrier roller 22 in a rotating mode in the limit mechanism through driving of the first motor 3, the effect that fonts are spirally coiled and printed on the side wall of the insulating tube 2 is achieved, and when the first motor 3 stops working, the insulating tube 2 and a printing wheel of the wheel printer 20 are in linear line contact, so that a customer can conveniently select a printing mode.
The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a thermal-insulation pipe printing device, includes thermal-insulation pipe (2) and workstation (1), its characterized in that, install first motor (3) on workstation (1), the coaxial fixedly connected with spiral feeding mechanism of output of first motor (3), spiral feeding mechanism is including being used for driving thermal-insulation pipe (2) pivoted telescopic link (17), fixedly on workstation (1) be equipped with a pair of mounting panel (4), a pair of mounting panel (4) both ends are rotated respectively and are connected with driving roll (5) and driven voller (6), one of them be equipped with the motor support on mounting panel (4), fixed mounting has second motor (7) on the motor support, the output and the coaxial fixed connection of driving roll (5) of second motor (7), be equipped with a plurality of bearing rollers (22) that are used for carrying thermal-insulation pipe (2) between driving roll (5) and driven voller (6), thermal-insulation pipe (2) are placed on bearing roller (22), be equipped with on workstation (1) and be equipped with on workstation (1) be equipped with printer (20) to thermal-insulation pipe (2), be equipped with in workstation (9) both sides, workstation (1) are equipped with thermal-insulation pipe (9).
2. The printing device for the thermal insulation pipe according to claim 1, wherein a plurality of carrier rollers (22) are rotatably connected with a pair of mounting plates (4), belt pulleys are arranged on the driving roller (5) and the driven roller (6), and a pair of first belts (8) are wound on the belt pulleys.
3. The printing device for the thermal insulation pipe according to claim 1, wherein the spiral feeding mechanism further comprises a telescopic cylinder (16), a plurality of second sliding grooves (18) and a plurality of second sliding blocks (19), the output end of the first motor (3) is fixedly connected with the telescopic cylinder (16) in a coaxial mode, the second sliding grooves (18) are uniformly distributed on the inner wall of the telescopic cylinder (16), the second sliding blocks (19) are arranged on the telescopic rod (17), and the second sliding blocks (19) move in the second sliding grooves (18) respectively.
4. A printing device for heat preservation pipes according to claim 1, characterized in that the telescopic rod (17) is inserted into the inner wall of the heat preservation pipe (2).
5. The printing device for the thermal insulation pipe according to claim 1, wherein the limiting mechanism comprises a first positive and negative screw rod (12), a second positive and negative screw rod (13), a second belt (14), a third motor (15), a pair of moving frames (10) and a plurality of rollers (11), threads of the first positive and negative screw rod (12) and threads of the second positive and negative screw rod (13) are identical, the first positive and negative screw rod (12) and the second positive and negative screw rod (13) are respectively arranged in a pair of first sliding grooves (9), the third motor (15) is fixedly arranged on the inner wall of one first sliding groove (9), the output end of the third motor (15) is fixedly connected with the first positive and negative screw rod (12), one end, far away from the third motor (15), of the first positive and negative screw rod (12) is rotatably connected with the inner wall of the first sliding groove (9), two ends of the second positive and negative screw rod (13) are respectively rotatably connected with two inner side walls opposite to the other first sliding groove (9), a pair of moving frames (10) are respectively provided with a pair of first sliding blocks, and the first positive and negative screw rod (12) is rotatably connected with the rollers (11) on two sides of the first positive and negative screw rod (11) through the first positive and the second positive and negative screw rod (11).
6. The printing device for the thermal insulation pipe according to claim 5, wherein the first positive and negative screw rods (12) and the second positive and negative screw rods (13) are respectively provided with a belt pulley, the second belt (14) is wound on a pair of belt pulleys, and the second belt (14) is arranged in a cavity of the workbench (1).
7. A printing device for thermal insulation pipes according to claim 3, characterized in that the bottom of the workbench (1) is provided with a plurality of supporting frames (21) for supporting the device.
CN202320092460.6U 2023-01-31 2023-01-31 Printing device for heat preservation pipe Active CN219427718U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320092460.6U CN219427718U (en) 2023-01-31 2023-01-31 Printing device for heat preservation pipe

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320092460.6U CN219427718U (en) 2023-01-31 2023-01-31 Printing device for heat preservation pipe

Publications (1)

Publication Number Publication Date
CN219427718U true CN219427718U (en) 2023-07-28

Family

ID=87336131

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320092460.6U Active CN219427718U (en) 2023-01-31 2023-01-31 Printing device for heat preservation pipe

Country Status (1)

Country Link
CN (1) CN219427718U (en)

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