CN115571444B

CN115571444B - Quartz tube surface printing device

Info

Publication number: CN115571444B
Application number: CN202211396327.6A
Authority: CN
Inventors: 宗志云
Original assignee: Lianyungang Jingming Silica Gel Products Co ltd
Current assignee: Lianyungang Jingming Silica Gel Products Co ltd
Priority date: 2022-11-09
Filing date: 2022-11-09
Publication date: 2023-09-19
Anticipated expiration: 2042-11-09
Also published as: CN115571444A

Abstract

The utility model provides a quartz tube surface stamp device, includes the supporter, supporter one side equidistance all is connected with first supporting wall and second supporting wall, first sliding tray and second sliding tray have all been seted up to this first supporting wall and second supporting wall one side, communicate with each other in the port of this first sliding tray and second sliding tray, and be connected with slewing mechanism between first sliding tray and the second sliding tray, this slewing mechanism rotates and is connected with pneumatic mechanism, at first, the user programs equipment and stamp through the numerical control panel, set for pattern and the conveyer belt rotational speed of stamp, then place the stamp subsides on the conveyer belt, the quartz capsule passes the one end of first axis of rotation through the workman to be fixed on the fastening disc, the workman holds the quartz capsule earlier, the internal surface of reuse quartz capsule supports the soft spheroid, let soft spheroid slide in the sliding hole, and extrude in first spring body.

Description

Quartz tube surface printing device

Technical Field

The invention relates to the technical field of quartz tubes, in particular to a quartz tube surface printing device.

Background

With the application of CAD technology such as electronic color separation and color matching in the dyeing industry, the application of textile digital printing technology in internationally is also becoming wider and wider. However, research on digital ink-jet printing technology of textiles still belongs to the primary stage, and only small-batch special products are put into the market at present.

Because current calico printing machine is when tailorring, need the workman to accomplish and prepare cutting tool earlier, after the surface of rotatory quartz capsule is pasted in the stamp, the workman cuts out with cutting tool, but the workman generally will accelerate the stamp work, the workman tailors the stamp and pastes work action faster, cause danger to the workman very easily, and the port shape of tailorring is uneven, can cause the uneven phenomenon of stamp to next quartz capsule, and the quartz capsule can store gas and appear the air pocket in the stamp, can influence the effect of stamp, and the quartz capsule is very easy because of the phenomenon of cutting out the end and appearance perk after the stamp is pasted rotatory.

In order to solve the problems, the invention provides a quartz tube surface printing device.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to solve the problems in the prior art, adapt to the actual needs, and provide a quartz tube surface printing device so as to solve the technical problems.

(2) Technical proposal

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows: the utility model provides a quartz tube surface stamp device, includes the supporter, supporter one side equidistance all is connected with first supporting wall and second supporting wall, and first sliding tray and second sliding tray have all been seted up to this first supporting wall and second supporting wall one side, and communicate with each other in the port of this first sliding tray and second sliding tray, and be connected with slewing mechanism between first sliding tray and the second sliding tray, this slewing mechanism rotates and is connected with air-compressing mechanism, and slewing mechanism one end is connected with tailors the mechanism, and this tailors the mechanism up end and be connected with and prevent the limit mechanism.

Preferably, the rotating mechanism comprises a double-shaft motor, the double-shaft motor is connected to the supporting block, the output end of the double-shaft motor is connected with a first rotating shaft, one end of the first rotating shaft is uniformly and uniformly distributed with a fastening disc, the circumference array of the outer surface of the fastening disc is provided with a sliding hole, the bottom of the sliding hole is connected with a first spring body, and one end of the first spring body is connected with a soft ball body.

Preferably, the pressure mechanism comprises a first gear connected to the outer surface of one end of the first rotating shaft, the first gear is meshed with the second gear for transmission, a supporting rod is sleeved inside the second gear, one end of the supporting rod is connected to the end face of one side of the second supporting wall, two ends of the supporting rod are sleeved with wetting pieces, a pressing wheel is connected between the two wetting pieces, and the pressing wheel is sleeved on the outer surface of the supporting rod.

Preferably, the clipping mechanism comprises a baffle, the baffle is connected to one side upper portion of the first supporting wall on one side, the lower side of the baffle is connected with a connecting plate through a first fixing shaft, one side of the connecting plate is connected with a pressing plate, an arc groove is formed in one side of the pressing plate, a telescopic rod is pressed in the arc groove, the telescopic rod is in sliding fit with the sliding shell, one end face of the telescopic rod is connected with a second spring body, one end of the second spring body is connected to the inner bottom of the sliding shell, one end of the sliding shell is connected with a rotating disc, one side of the rotating disc is connected with a second rotating shaft in the middle, one end of the second rotating shaft is connected to the output end of the double-shaft motor, one side of the connecting plate is connected with a rotating shell, the inside of the rotating disc is in pushing connection with one end of the sliding plate, one side of the sliding plate penetrates through the inside of the first sliding groove and the second sliding groove, the sliding plate is in sliding connection with the first sliding groove and the second sliding groove, the upper end face of the sliding plate is connected with a cutting edge, the upper end of the cutting edge is pressed with a blocking body V plate, and two side ends of the blocking body are connected to the second supporting wall and one side of the supporting column.

Preferably, the edge lifting prevention mechanism comprises a transmission plate, the lower end surface of the transmission plate is connected to the upper end surface of the sliding plate, the transmission plate is in sliding connection with a third sliding groove, the third sliding groove is formed in a side upper wall of the second supporting wall, the upper end surface of the transmission plate is connected with a rocker through a second fixing shaft, one side of the rocker is connected with a fulcrum frame through a third fixing shaft, the lower end surface of one side of the rocker is propped against a transmission block, the transmission block is in sliding connection with a fourth sliding groove, the fourth sliding groove is formed in a side upper side of the second supporting wall, a third spring body is connected between the bottom of the fourth sliding groove and the transmission block, one side surface of the transmission block is connected with an arc pressing plate, and an arc pressing surface is formed in the lower end surface of the arc pressing plate.

Preferably, the outer surface of the soft sphere is extruded with a quartz tube, and one side of the outer surface of the quartz tube is contacted with the outer surface of the pinch roller.

Preferably, the inner surface of the pressing arc surface is propped against the upper end surface of the quartz tube, the outer surface of the wetting piece is contacted with the outer surface of the quartz tube, and a conveying plate is connected between the second supporting wall and one side of the supporting column.

(3) The beneficial effects are that:

A. firstly, a user programs equipment and printing through a numerical control panel, sets the pattern of the printing and the rotating speed of a conveyor belt, then places a printing paste on the conveyor belt, fixes a quartz tube on a fastening disc through a worker, holds the quartz tube, passes through one end of a first rotating shaft firstly, presses a soft sphere with the inner surface of the quartz tube, slides the soft sphere in a sliding hole and presses the first spring body to adjust the position of the soft sphere, and can effectively fix the inner surface of the quartz tube until the quartz tube penetrates through three fastening discs;

B. under the drive of a conveyor belt, printing pastes pass through the inside of a conveying plate through workers and then sequentially pass through blades until one side port of each printing paste is stuck on the outer surface of a quartz tube (the two ends of the quartz tube are driven by a double-shaft motor in advance, a wetting piece rotates in the quartz tube in advance to wet the two ends of the quartz tube, so that the two sides of the bottom of one side of each printing paste are stuck on the two sides of the printing paste without a clamp and can be replaced by water, the situation that the printing paste is damaged due to overlarge clamping force can be guaranteed in wrapping the quartz tube can be avoided), the double-shaft motor is started to drive a first rotating shaft to rotate after the printing paste is stuck, the first rotating shaft is transmitted to a fastening disc to drive the quartz tube to rotate, the quartz tube rotates to drive the attached printing paste to wrap, and the quartz tube rotates and simultaneously is also transmitted to a first gear to enable the first gear to be meshed with a second gear to drive a pressing wheel and the wetting piece to rotate on a supporting rod;

C. the double-shaft motor drives the second rotating shaft to rotate at the same time of rotating, compressing air and wetting, the second rotating shaft drives the rotating disc and the sliding shell to rotate in turn, the outer surface of the telescopic rod on the sliding shell is propped against the inner part of the circular arc groove, the force born by the circular arc groove is transmitted to the propping plate and the connecting plate and drives the connecting plate to rotate upwards, one side of the connecting plate is connected with the sliding plate through the rotation of the rotating shell, the connecting plate is prevented from being blocked in the upward direction, the force transmitted to the connecting plate is regulated through the rotation of the rotating shell and the sliding plate, the sliding plate slides upwards in the first sliding groove and the second sliding groove, the cutting edge is cut off along with the upward power of the sliding plate, the cutting edge can drive the sliding plate to slide upwards in the third sliding groove along with the positive-coated printing pasting direction V plate included angle, the rocker one side is lifted up along with the power of the transmission plate, the rocker other side moves downwards and is propped against the upper end face of the transmission block by utilizing the fulcrum of the fulcrum frame, the transmission block slides downwards in the fourth sliding groove, the lower end face of the transmission block is extruded on the third spring body, the arc pressing plate connected with one side of the transmission block is downwards simultaneously and propped against the printing paste which is just coated and lifted up by the knife blade, the edge lifting printing paste is larger than the edge lifting of the wrapping quartz tube, in order to prevent the problem of larger edge lifting, the arc pressing plate is simultaneously lifted upwards and downwards along with the knife blade, the arc pressing surface can avoid the bigger edge lifting of the printing paste, prevent the position of the wrapping quartz tube from being adjusted, the printing paste can give the knife blade a tight effect in cutting after the arc pressing printing paste is pressed, the loose wrapping printing paste can be effectively prevented in cutting, the edge is also improved to be flat after the cutting edge is cut, the phenomenon of uneven printing on the next quartz tube is avoided, and the working efficiency and the attractiveness are improved;

D. after cutting off, the stamp paste wraps up one circle, the baffle department has been rotated to the sliding shell, the sliding plate has been slided to the interior top of first sliding tray and second sliding tray, telescopic link on the sliding shell can be through inside the sliding shell, and extrude in the second spring body, and telescopic link one end surface is scratched in the circular arc groove, the sliding plate can get back to the home position automatically because of cutting edge weight and vertically high, the stamp paste after the arc pressing plate returns to the home position through the third spring body, and the stamp paste after the fracture can leave a part whereabouts, accessible pinch roller and the piece of beating carry out the parcel of stamp paste that leaves on the quartz tube (let again biax motor idle rotation round), prevent to accomplish the stamp paste because of the residual part does not wrap up, and the parcel is accomplished the stamp paste and drops easily.

Drawings

FIG. 1 is a schematic perspective view of a quartz tube surface printing device;

FIG. 2 is an enlarged view of a portion of a rotary mechanism of a quartz tube surface printing apparatus according to the present invention;

FIG. 3 is an enlarged view of a portion of the air compressing mechanism of the quartz tube surface printing device of the invention;

FIG. 4 is a schematic view of a cutting mechanism of a quartz tube surface printing device according to the present invention;

FIG. 5 is an enlarged view of a part of a telescopic rod and a circular arc groove of a quartz tube surface printing device of the invention;

FIG. 6 is a schematic structural view of an edge lifting prevention mechanism of a quartz tube surface printing device.

The reference numerals are as follows:

1-supporting body, 11-first supporting wall, 12-second supporting wall, 13-first sliding groove, 14-second sliding groove, 15-third sliding groove, 16-supporting column, 17-conveying plate, 2-rotating mechanism, 21-biaxial motor, 22-first rotating shaft, 23-fastening disc, 231-sliding hole, 24-first spring body, 25-soft ball, 3-compressing mechanism, 31-first gear, 32-second gear, 33-supporting rod, 34-wetting piece, 35-pressing wheel, 4-cutting mechanism, 41-baffle, 42-connecting plate, 421-pressing plate, 422-arc groove, 423-telescopic rod, 424-sliding shell, 425-second spring body, 426-rotating disc, 427-second rotating shaft, 43-rotating shell, 44-sliding plate, 45-pressing wheel, 46-blocking V plate, 5-edge-preventing mechanism, 51-sliding plate, 52-tilting plate, 53-supporting point frame, 54-transmitting block, 541-fourth sliding groove, 55-pressing plate, 551-arc pressing plate, 6-arc pressing tube.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The invention is further illustrated below with reference to figures 1-6 and examples:

in this embodiment, as shown in fig. 1-6, a quartz tube surface printing device includes a support body 1, a first support wall 11 and a second support wall 12 are connected to one side of the support body 1 at equal intervals, a first sliding groove 13 and a second sliding groove 14 are formed on one side of the first support wall 11 and one side of the second support wall 12, the first sliding groove 13 is communicated with the inside of a port of the second sliding groove 14, a rotating mechanism 2 is connected between the first sliding groove 13 and the second sliding groove 14, the rotating mechanism 2 is rotationally connected with an air compressing mechanism 3, one end of the rotating mechanism 2 is connected with a cutting mechanism 4, and an edge lifting preventing mechanism 5 is connected to an upper end face of the cutting mechanism 4.

In this embodiment, the rotating mechanism 2 includes a dual-shaft motor 21, the dual-shaft motor 21 is connected to a supporting block, and an output end of the dual-shaft motor 21 is connected to a first rotating shaft 22, one end of the first rotating shaft 22 is uniformly and uniformly distributed and connected to a fastening disc 23, a circumferential array of an outer surface of the fastening disc 23 is provided with a sliding hole 231, a first spring body 24 is connected to an inner bottom of the sliding hole 231, and one end of the first spring body 24 is connected to a soft ball 25. Firstly, a user programs equipment and printing through a numerical control panel, sets the pattern of the printing and the rotating speed of a conveyor belt, then places the printing paste on the conveyor belt, fixes a quartz tube on a fastening disc 23 through a worker, holds the quartz tube, passes through one end of a first rotating shaft 22, presses a soft sphere 25 with the inner surface of the quartz tube, slides the soft sphere 25 in a sliding hole 231 and presses the sliding hole on a first spring body 24, adjusts the position of the soft sphere 25, and can effectively fix the inner surface of the quartz tube until the quartz tube penetrates through three fastening discs 23.

In this embodiment, the air compressing mechanism 3 includes an air compressing mechanism 3 including a first gear 31, the first gear 31 is connected to an outer surface of one end of the first rotating shaft 22, and the first gear 31 is meshed with a second gear 32 for transmission, a supporting rod 33 is sleeved inside the second gear 32, one end of the supporting rod 33 is connected to an end surface of one side of the second supporting wall 12, two ends of the supporting rod 33 are sleeved with a wetting piece 34, a pressing wheel 35 is connected between the two wetting pieces 34, and the pressing wheel 35 is sleeved inside the outer surface of the supporting rod 33. Under the drive of the conveyer belt, the stamp paste runs through in the conveying plate 17 through the workman, and then loops through the cutting edge 45, until stamp paste one side port pastes on the surface of the quartz tube 6 (quartz tube both ends are driven by the double-shaft motor 21 in advance, let the piece 34 that wets rotate in the quartz tube in advance and wet the quartz tube both ends, so stamp paste one side bottom both sides paste can be at the anchor clamps of not using, can replace water, can guarantee in wrapping up the quartz tube, prevent because of the excessive clamp force, cause destruction to stamp paste itself), start the rotation of double-shaft motor 21 drive first rotating shaft 22, this first rotating shaft 22 transmits to fastening disc 23, drive quartz tube 6 rotation with it, this quartz tube 6 rotation drives the stamp paste of pasting and wraps up, and the quartz tube is rotating simultaneously, also transmit to first gear 31, let first gear 31 mesh in second gear 32, it drives pinch roller 35 and the piece 34 and rotates on bracing piece 33, the piece 34 can also wet the stamp both sides in wrapping up, prevent to paste the both sides and wet, prevent because of the clamp force is too big, and prevent to lead to the defect of the adsorption force to be gone on, the defect of pressing stamp paste, the defect is gone on in wrapping up, the quality of the reliability is improved, the package quality is guaranteed, the defect is wrapped up, and the quality is avoided.

In this embodiment, the clipping mechanism 4 includes a baffle 41, one side of the baffle 41 is connected above one side of the first supporting wall 11, the lower side of the baffle 41 is connected with a connecting plate 42 through a first fixing shaft, one side of the connecting plate 42 is connected with a pressing plate 421, one side of the pressing plate 421 is provided with an arc groove 422, a telescopic rod 423 is pressed inside the arc groove 422, the telescopic rod 423 is slidably matched with the sliding shell 424, one end face of the telescopic rod 423 is connected with a second spring body 425, one end of the second spring body 425 is connected at the bottom of the sliding shell 424, one end of the sliding shell 424 is connected with a rotating disc 426, one side of the rotating disc 426 is connected with a second rotating shaft 427, one end of the second rotating shaft 427 is connected at the output end of the dual-shaft motor 21, one side of the connecting plate 42 is connected with a rotating shell 43, the inside of the rotating shell 43 is in push connection with one end of the sliding plate 44, one side of the sliding plate 44 penetrates inside the first sliding groove 13 and the second sliding groove 14, the sliding plate 44 is slidably connected with the first sliding groove 13 and the second sliding groove 14, one side of the upper end face of the sliding plate 44 is connected with a rotating disc 426, one side of the upper end face of the sliding plate 45 is connected with the blade edge 45, one side of the supporting edge 45 is pressed against the supporting edge 16V 16, and one side of the supporting edge 46 is connected with one side edge 46. The double-shaft motor 21 also drives the second rotating shaft 427 to rotate during rotation and air compression and wetting, the second rotating shaft 427 drives the rotating disc 426 and the sliding shell 424 to rotate sequentially, the outer surface of the telescopic rod 423 on the sliding shell 424 is propped against the inner part of the circular arc groove 422, the force received by the circular arc groove 422 is transmitted to the propping plate 421 and the connecting plate 42 and drives the connecting plate 42 to rotate upwards, one side of the connecting plate 42 is connected through the rotation of the rotating shell 43 and the sliding plate 44, the connecting plate 42 is prevented from being blocked in the upward direction, the force transmitted to the connecting plate 42 is regulated through the rotation of the rotating shell 43 and the sliding plate 44, further, the sliding plate 44 slides upwards in the first sliding groove 13 and the second sliding groove 14, the cutting edge 45 is cut off along with the upward power of the sliding plate 44, the cutting edge 45 is attached to the inner included angle of the V plate 46 of the printing which is just coated, the cutting edge 45 is cut off, the printing edge after the cutting edge 45 is prevented from being blocked, and the uneven phenomenon of the next quartz tube is avoided, and the working efficiency and the attractiveness are improved.

In this embodiment, the edge lifting prevention mechanism 5 includes a driving plate 51, the lower end surface of the driving plate 51 is connected to the upper end surface of the sliding plate 44, the driving plate 51 is slidably connected with the third sliding groove 15, the third sliding groove 15 is formed on a side upper wall of the second supporting wall 12, the upper end surface of the driving plate 51 is connected with a rocker 52 through a second fixing shaft, one side of the rocker 52 is connected with a supporting point frame 53 through a third fixing shaft, the lower end surface of one side of the rocker 52 abuts against a transmission block 54, the transmission block 54 is slidably connected with a fourth sliding groove 541, the fourth sliding groove 541 is formed on a side surface of the second supporting wall 12, a third spring 542 is connected between the bottom of the fourth sliding groove 541 and the transmission block 54, one side surface of the driving block is connected with an arc pressing plate 55, and the lower end surface of the arc pressing plate 55 is formed with an arc pressing surface 551. And the sliding plate 44 drives the sliding plate 51 to slide upwards in the third sliding groove 15 while upwards, the rocker 52 side is lifted upwards along with the power of the transmission plate 51, the other side of the rocker 52 moves downwards and is propped against the upper end surface of the transmission block 54 by utilizing the fulcrum of the fulcrum frame 53, the transmission block 54 slides downwards in the fourth sliding groove 541, and the lower end surface of the transmission block 54 is extruded in the third spring body 542, the arc pressing plate 55 connected with one side of the transmission block 54 is downwards simultaneously, and is propped against the positively coated printing paste lifted by the knife edge 45, the lifting edge of the printing paste to the wrapped quartz tube is larger because of the knife edge 45, the arc pressing plate 55 is downwards along with the upward movement of the knife edge 45, the arc pressing surface 551 can avoid the printing paste edge being larger, the position of the wrapped quartz tube is prevented from being adjusted, the arc pressing surface 551 presses the printing paste to have a tight effect on the knife edge 45 in cutting, looseness can be effectively prevented, the printing paste after the cutting edge 45 is cut off is also improved, the printing paste after the cutting edge 45 is cut off is flat, the printing paste is led to cause a phenomenon of wrapping the wrapped quartz tube, the printing paste after the cutting edge is cut, the cut off, the printing paste is uneven, and the work efficiency is improved.

In this embodiment, the outer surface of the soft sphere 25 is extruded with a quartz tube 6, and one side of the outer surface of the quartz tube 6 contacts the outer surface of the pinch roller 35. The quartz tube is fixed on the fastening disc 23 by a worker, the worker holds the quartz tube and passes through one end of the first rotating shaft 22, then the inner surface of the quartz tube is pressed against the soft sphere 25, the soft sphere 25 slides in the sliding hole 231 and is extruded on the first spring body 24, the position of the soft sphere 25 is adjusted, the inner surface of the quartz tube can be effectively fixed, and the quartz tube can be penetrated through the three fastening discs 23.

In this embodiment, the inner surface of the pressing arc surface 551 is pressed against the upper end surface of the quartz tube 6, the outer surface of the wetting element 34 contacts the outer surface of the quartz tube 6, and a conveying plate 17 is connected between the second supporting wall 12 and one side of the supporting column 16. The arc pressing plate 55 connected to one side of the transmission block 54 is also downward at the same time and abuts against the printing paste which is just coated and lifted by the cutter blade 45, and the edge 45 lifts the printing paste to be larger than the edge of the coated quartz tube, so that the arc pressing plate 55 is also downward along with the upward and downward movement of the cutter blade 45 in order to prevent the problem of larger edge lifting, and the arc pressing plate 551 can prevent the printing paste from being larger and prevent the position of the coated quartz tube from being adjusted.

The invention has the beneficial effects that:

firstly, a user programs equipment and printing through a numerical control panel, sets the pattern of the printing and the rotating speed of a conveyor belt, then places the printing paste on the conveyor belt, fixes a quartz tube on a fastening disc 23 through a worker, holds the quartz tube, passes through one end of a first rotating shaft 22, presses a soft sphere 25 with the inner surface of the quartz tube, slides the soft sphere 25 in a sliding hole 231 and presses the sliding hole on a first spring body 24, adjusts the position of the soft sphere 25, and can effectively fix the inner surface of the quartz tube until the quartz tube penetrates through three fastening discs 23.

Under the drive of the conveyer belt, the stamp paste runs through in the conveying plate 17 through the workman, and then loops through the cutting edge 45, until stamp paste one side port pastes on the surface of the quartz tube 6 (quartz tube both ends are driven by the double-shaft motor 21 in advance, let the piece 34 that wets rotate in the quartz tube in advance and wet the quartz tube both ends, so stamp paste one side bottom both sides paste can be at the anchor clamps of not using, can replace water, can guarantee in wrapping up the quartz tube, prevent because of the excessive clamp force, cause destruction to stamp paste itself), start the rotation of double-shaft motor 21 drive first rotating shaft 22, this first rotating shaft 22 transmits to fastening disc 23, drive quartz tube 6 rotation with it, this quartz tube 6 rotation drives the stamp paste of pasting and wraps up, and the quartz tube is rotating simultaneously, also transmit to first gear 31, let first gear 31 mesh in second gear 32, it drives pinch roller 35 and the piece 34 and rotates on bracing piece 33, the piece 34 can also wet the stamp both sides in wrapping up, prevent to paste the both sides and wet, prevent because of the clamp force is too big, and prevent to lead to the defect of the adsorption force to be gone on, the defect of pressing stamp paste, the defect is gone on in wrapping up, the quality of the reliability is improved, the package quality is guaranteed, the defect is wrapped up, and the quality is avoided.

During rotation, air compression and wetting, the double-shaft motor 21 drives the second rotating shaft 427 to rotate, the second rotating shaft 427 drives the rotating disc 426 and the sliding shell 424 to rotate in turn, the outer surface of the telescopic rod 423 on the sliding shell 424 is propped against the inner part of the circular arc groove 422, the force received by the circular arc groove 422 is transmitted to the propping plate 421 and the connecting plate 42 and drives the connecting plate 42 to rotate upwards, one side of the connecting plate 42 is connected with the rotating shell 43 through the rotation of the rotating plate 43 and the sliding plate 44, the blocking of the connecting plate 42 is avoided in the upward direction, the force transmitted to the connecting plate 42 is regulated through the rotation of the rotating shell 43 and the sliding plate 44, further, the sliding plate 44 slides upwards in the first sliding groove 13 and the second sliding groove 14, the cutting edge 45 is cut off along with the upward power of the sliding plate 44 and the included angle of the printing being covered towards the inner part of the V plate 46, and the sliding plate 44 drives the sliding plate 51 to slide upwards in the third sliding groove 15 while upwards, one side of the seesaw 52 is lifted upwards along with the power of the transmission plate 51, the other side of the seesaw 52 moves downwards and is propped against the upper end surface of the transmission block 54 by utilizing the fulcrum of the fulcrum frame 53, the transmission block 54 slides downwards in the fourth sliding groove 541, the lower end surface of the transmission block 54 is extruded on the third spring body 542, the arc pressing plate 55 connected with one side of the transmission block 54 is downwards simultaneously and is propped against the printing paste which is just coated and lifted by the knife edge 45, the lifting edge of the knife edge 45 is larger because the printing paste lifts the edge of the wrapping quartz tube, the arc pressing plate 55 is downwards along with the upward and the downward edge of the knife edge 45, the arc pressing plate 551 can avoid the lifting edge of the printing paste to prevent the position of the wrapping quartz tube from being adjusted, the arc pressing plate 551 presses the printing paste to a tightly effect of the knife edge 45 in cutting, can effectively prevent to appear wrapping up the stamp and paste not hard up in cutting off, still improve cutting edge 45 and paste broken edge leveling to the stamp after cutting off, avoid can causing the inhomogeneous phenomenon of stamp to next quartz capsule, improve work efficiency and aesthetic property.

After cutting off, the printed paste is wrapped for one circle, the sliding shell 424 is rotated to the baffle 41, the sliding plate 44 is slid to the inner top parts of the first sliding groove 13 and the second sliding groove 14, the telescopic rod 423 on the sliding shell 424 passes through the inside of the sliding shell 424 and is extruded on the second spring body 425, the outer surface of one end of the telescopic rod 423 is scratched on the circular arc groove 422, the sliding plate 44 automatically returns to the original position due to the weight and the vertical height of the cutting edge 45, the arc pressing plate 55 returns to the original position through the third spring body 542, a part of the broken printed paste can be left to fall down, the left printed paste can be wrapped on a quartz tube through the pressing wheel 35 and the wetting piece 34 (the double-shaft motor 21 is allowed to idle for one circle), and the situation that the wrapped printed paste is easily fallen off due to the fact that the residual part is not wrapped is prevented.

Working principle:

The embodiments of the present invention are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various extensions and modifications can be made without departing from the spirit of the present invention.

Claims

1. The utility model provides a quartz tube surface stamp device, includes support body (1), its characterized in that, support body (1) one side equidistance all is connected with first supporting wall (11) and second supporting wall (12), first sliding tray (13) and second sliding tray (14) have all been seted up to this first supporting wall (11) and second supporting wall (12) one side, communicate with each other in the port of this first sliding tray (13) and second sliding tray (14), and be connected with slewing mechanism (2) between first sliding tray (13) and second sliding tray (14), this slewing mechanism (2) rotate and are connected with air compressing mechanism (3), and slewing mechanism (2) one end is connected with tailors mechanism (4), this tailors mechanism (4) up end and is connected with edge lifting prevention mechanism (5); the rotating mechanism (2) comprises a double-shaft motor (21), the double-shaft motor (21) is connected to the supporting block, the output end of the double-shaft motor (21) is connected with a first rotating shaft (22), one end of the first rotating shaft (22) is uniformly and uniformly provided with a fastening disc (23), a sliding hole (231) is formed in the circumferential array of the outer surface of the fastening disc (23), a first spring body (24) is connected to the inner bottom of the sliding hole (231), and one end of the first spring body (24) is connected with a soft ball body (25); the air compressing mechanism (3) comprises a first gear (31), the first gear (31) is connected to the outer surface of one end of a first rotating shaft (22), the first gear (31) is in meshed transmission with a second gear (32), a supporting rod (33) is sleeved in the second gear (32), one end of the supporting rod (33) is connected to one side end surface of a second supporting wall (12), two ends of the supporting rod (33) are respectively sleeved with a wetting piece (34), a pressing wheel (35) is connected between the two wetting pieces (34), and the inner part of the pressing wheel (35) is sleeved on the outer surface of the supporting rod (33); the cutting mechanism (4) comprises a baffle (41), one side of the baffle (41) is connected above one side of the first supporting wall (11), the lower side of the baffle (41) is connected with a connecting plate (42) through a first fixed shaft, one side of the connecting plate (42) is connected with a pressing plate (421), an arc groove (422) is formed in one side of the pressing plate (421), a telescopic rod (423) is pressed in the arc groove (422), the telescopic rod (423) is in sliding fit with a sliding shell (424), one end of the telescopic rod (423) is connected with a second spring body (425), one end of the second spring body (425) is connected with an inner bottom of the sliding shell (424), one end of the sliding shell (424) is connected with a rotating disc (426), one end of the rotating disc (426) is connected with a second rotating shaft (427) in the middle of one side of the rotating disc (426), one side of the connecting plate (42) is connected with a rotating shell (43), one end of the rotating shell (43) is in pushing connection with one end of a sliding plate (44), one end of the sliding plate (44) is in sliding connection with one end of the sliding plate (44), one side of the sliding plate (44) penetrates through the first groove (14) and the first sliding plate (14) and the first groove (13) and the second groove (14) and the first groove (14) in sliding groove (13), the upper end face of one side of the sliding plate (44) is connected with a cutting edge (45), the upper end edge of the cutting edge (45) is propped against a resistance V plate (46), and two side ends of the resistance V plate (46) are connected to one side ends of the second supporting wall (12) and the supporting column (16); the edge lifting prevention mechanism (5) comprises a transmission plate (51), the lower end surface of the transmission plate (51) is connected with the upper end surface of a sliding plate (44), the transmission plate (51) is connected with a third sliding groove (15) in a sliding mode, the third sliding groove (15) is formed in a side upper wall of a second supporting wall (12), the upper end surface of the transmission plate (51) is connected with a rocker (52) through a second fixing shaft, one side of the rocker (52) is connected with a fulcrum frame (53) through a third fixing shaft, the lower end surface of one side of the rocker (52) is abutted against a transmission block (54), the transmission block (54) is connected with a fourth sliding groove (541) in a sliding mode, the fourth sliding groove (541) is formed in a side upper side surface of the second supporting wall (12), a third spring body (542) is connected between the bottom of the fourth sliding groove (541) and the transmission block (54), one side surface of the transmission block is connected with an arc pressing plate (55), and the lower end surface of the arc pressing plate (55) is provided with an arc pressing surface (551).

2. A quartz tube surface printing apparatus as in claim 1, wherein: the outer surface of the soft sphere (25) is extruded with a quartz tube (6), and one side of the outer surface of the quartz tube (6) is contacted with the outer surface of the pinch roller (35).

3. A quartz tube surface printing apparatus as in claim 2, wherein: the inner surface of the pressing arc surface (551) is propped against the upper end surface of the quartz tube (6), the outer surface of the wetting piece (34) is contacted with the outer surface of the quartz tube (6), and one side between the second supporting wall (12) and the supporting column (16) is connected with a conveying plate (17).