CN218799860U - Laser inkjet printer for surface of aluminum profile - Google Patents

Abstract

The utility model discloses an aluminium alloy surface laser inkjet printer relates to aluminium alloy production facility field, including handheld laser inkjet printer, the equal fixed mounting in both sides of handheld laser inkjet printer has spacing, and equal movable mounting has the regulation structure on two spacing, and two equal movable mounting in bottom side of adjusting the structure have the location to adjust the structure, and two are adjusted structural equal slidable mounting and have two connecting rods. The utility model discloses, through the locating plate, the setting of regulation gyro wheel isotructure, to hand laser inkjet printer during use put the surface at the aluminium alloy, continuously rotate the knob of both sides, can make two locating plates drive the both sides of two regulation gyro wheel extrusion aluminium alloies, thereby realize fixing a position handheld laser inkjet printer's position, make handheld laser inkjet printer be located the intermediate position of aluminium alloy, prevent that handheld laser inkjet printer from placing the skew and lead to spouting the sign indicating number and do not spout totally or crooked, and then promote the accuracy of sign indicating number and the degree of distinguishing of spouting the sign indicating number.

Description

Laser inkjet printer for surface of aluminum profile

Technical Field

The utility model relates to an aluminium alloy production facility technical field especially relates to an aluminium alloy surface laser inkjet printer.

Background

A handheld laser code spraying machine is flexible and small laser identification equipment which can be lifted by an operator with hands and can perform fixed-point laser code spraying on products as the name suggests, and is suitable for almost all materials such as crystals, wood boards, names, stones, aluminum profiles, metal plates and the like.

Among the prior art, handheld laser inkjet printer need place it on the surface of aluminium alloy when spouting the sign indicating number to the aluminium alloy, because do not set up any positioning measure on handheld laser inkjet printer, the position of handheld laser inkjet printer of inaccurate judgement when placing appears spouting the sign indicating number skew easily or not comprehensive condition, consequently needs an aluminium alloy surface laser inkjet printer to satisfy people's demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminium alloy surface laser inkjet printer to the handheld laser inkjet printer who provides in solving above-mentioned background art does not set up the location measure, places easy skew when spouting the sign indicating number on the aluminium alloy and leads to spouting the problem of sign indicating number incomplete face or slope.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an aluminium alloy surface laser inkjet printer, includes handheld laser inkjet printer, the equal fixed mounting in both sides of handheld laser inkjet printer has spacing, and equal movable mounting has the regulation structure on two spacing, and two equal movable mounting in bottom side of adjusting the structure have a location to adjust the structure, and two are adjusted structural equal slidable mounting and have two connecting rods, lie in fixed mounting with same one same spacing structure on two connecting rods of one side.

Preferably, the adjusting structure comprises a positioning plate, the positioning plate is slidably mounted on inner walls of two sides of the limiting frame, a threaded rod is mounted on the positioning plate in a threaded mode, one end of the threaded rod is rotatably mounted on one side of the handheld laser inkjet printer, and the other end of the threaded rod penetrates through the limiting frame and is fixedly mounted with a knob.

Preferably, a threaded hole is formed in the positioning plate, and the threaded rod is installed in the threaded hole in a threaded manner.

Preferably, horizontal chutes are formed in the inner walls of the two sides of the limiting frame, horizontal sliding blocks are arranged in the two horizontal chutes in a sliding mode, and the two horizontal sliding blocks are fixedly arranged on the two sides of the positioning plate respectively.

Preferably, the positioning and adjusting structure comprises three fixing shafts, the three fixing shafts are fixedly arranged at the bottom side of the same positioning plate, and the three fixing shafts are all rotatably provided with adjusting rollers.

Preferably, the adjusting roller is provided with a rotating hole, the fixed shaft is rotatably installed in the rotating hole, the fixed shaft is provided with an anti-falling hole, the anti-falling hole is rotatably provided with an anti-falling block, and the anti-falling block is fixedly installed at the bottom side of the fixed shaft.

Preferably, limit structure includes spacing cardboard, spacing cardboard fixed mounting is in the bottom side of two connecting rods, the top side fixed mounting of two connecting rods has same push rod, the top side fixed mounting of spacing cardboard has two perpendicular slivers, two perpendicular slivers are respectively slidable mounting in the both sides of locating plate, the top side fixed mounting of spacing cardboard has three fixed tooth piece, spacing tooth's socket has all been seted up on the three regulating roller, three fixed tooth piece is movable mounting respectively in three spacing tooth's socket, the equal slip has cup jointed auxiliary spring on two connecting rods, two auxiliary spring's both ends are respectively one side that fixed mounting is close to each other at push rod and locating plate.

Preferably, a vertical sliding groove is formed in the vertical sliding strip, a vertical sliding block is slidably mounted in the vertical sliding groove, the vertical sliding block is fixedly mounted on one side of the positioning plate, a movable hole is formed in the positioning plate, and the connecting rod is slidably mounted in the movable hole.

The beneficial effects of the utility model are that:

the utility model discloses in, through the locating plate, the setting of regulation gyro wheel isotructure, to hand laser inkjet printer during use put the surface at the aluminium alloy, continuously rotate the knob of both sides, can make two locating plates drive the both sides of two regulation gyro wheel extrusion aluminium alloies, thereby realize fixing a position to the position of handing laser inkjet printer, make handheld laser inkjet printer be located the intermediate position of aluminium alloy, prevent that handheld laser inkjet printer from placing the skew and lead to spouting the sign indicating number and not spout totally or crooked, and then promote the accuracy of spouting the sign indicating number and the degree of distinguishing of spouting the sign indicating number.

The utility model discloses in, through the setting of spacing cardboard, push rod isotructure, when needing to spout the second sign indicating number on same aluminium alloy, the push rod of both sides is pressed downwards, makes spacing cardboard move down, can contact both sides regulating roller's restriction this moment, later promotes handheld laser inkjet printer at the level, can adjust under the condition that does not influence handheld laser inkjet printer horizontal position, makes two spout the sign indicating number and can be in same water flat line, and is more pleasing to the eye, promotes the impression.

Drawings

Fig. 1 is a schematic structural view of the laser inkjet printer for the surface of the aluminum profile provided by the utility model;

fig. 2 is a schematic structural view of a limiting frame part of the laser inkjet printer for the surface of the aluminum profile provided by the utility model;

fig. 3 is a schematic view of a cross-sectional structure of a positioning plate portion of the laser inkjet printer for the surface of the aluminum profile provided by the present invention;

fig. 4 is a schematic structural view of an adjusting roller part of the laser inkjet printer for aluminum profile surface according to the present invention;

fig. 5 is the utility model provides an aluminium alloy surface laser inkjet printer's partial sectional structure schematic diagram of adjusting roller.

In the figure: 100. a laser code spraying machine is held; 200. a limiting frame; 201. positioning a plate; 202. a threaded rod; 203. a knob; 204. a threaded hole; 205. a horizontal chute; 206. a horizontal slider; 300. a fixed shaft; 301. adjusting the roller; 302. rotating the hole; 303. anti-drop holes; 304. an anti-drop block; 400. a connecting rod; 401. a push rod; 402. a limiting clamping plate; 403. a vertical slide bar; 404. fixing the toothed block; 405. a limiting tooth socket; 406. a movable hole; 407. an auxiliary spring; 408. a vertical chute; 409. a vertical slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, a laser inkjet printer for aluminum profile surfaces, including a handheld laser inkjet printer 100, both sides of the handheld laser inkjet printer 100 are fixedly installed with a limiting frame 200, both limiting frames 200 are movably installed with an adjusting structure, both bottom sides of the two adjusting structures are movably installed with a positioning adjusting structure, both adjusting structures are slidably installed with two connecting rods 400, both connecting rods 400 located on the same side are fixedly installed with the same limiting structure, in use, the handheld laser inkjet printer 100 is placed above an aluminum profile, at the same time, two positioning plates 201 are located on both sides of the aluminum profile, simultaneously two knobs 203 are rotated, the knobs 203 drive the threaded rods 202 to rotate when rotating, through cooperation between the threaded rods 202 and threaded holes 204, the positioning plates 201 can horizontally slide while the threaded rods 202 rotate, the positioning plates 201 slide while driving two horizontal sliding blocks 206 to respectively slide in two horizontal sliding chutes 205 on the limiting frames 200, thereby ensuring that the positioning plates 201 can only slide in the horizontal direction, the positioning plates 201 can drive the adjusting rollers 301 to move while the positioning plates 201 slide, so that the adjusting rollers 301 can drive two adjusting plates 402 to move while the positioning plates 201 slide, thereby preventing the push rods 400 from moving downwards and preventing the push rods 400 from moving downwards in the sliding processes, and preventing the push rods 400 from moving downwards, the vertical sliding bar 403 can slide on the vertical sliding block 409 through the vertical sliding groove 408 when moving downwards, and further the limiting clamping plate 402 can only slide in the vertical direction, and the stability of the limiting clamping plate 402 is improved, the downward movement of the limiting clamping plate 402 can drive the fixing toothed block 404 to separate from the limiting toothed groove 405 on the adjusting roller 301, at the moment, the limitation on the adjusting roller 301 can be removed, so that the adjusting roller 301 can rotate, the horizontal pushing handheld laser inkjet printer 100 can enable the adjusting roller 301 on two sides to rotate and move along two sides of an aluminum profile, meanwhile, the position of the handheld laser inkjet printer 100 cannot be shifted, the adjusting roller 301 rotates to rotate on the anti-falling hole 303 through the rotating hole 302, the rotating effect is achieved, the adjusting roller 301 can rotate on the anti-falling block 304 through the anti-falling hole 303, it is ensured that the adjusting roller 301 cannot fall off in the rotating process, the push rod 401 is loosened after adjustment is completed, at the moment, the auxiliary spring 407 can push the push rod 401 can push the adjusting roller 401 to restore to the original position, thereby the reset limiting clamping plate 402 can drive the fixing toothed block 404 to reinsert the adjusting roller 301, and the adjusting roller 405 can prevent the adjusting roller from shifting in the adjusting inkjet printer.

Further, the adjusting structure includes a positioning plate 201, the positioning plate 201 is slidably mounted on the inner walls of the two sides of the limiting frame 200, a threaded rod 202 is mounted on the positioning plate 201 through threads, one end of the threaded rod 202 is rotatably mounted on one side of the handheld laser inkjet printer 100, the other end of the threaded rod 202 runs through the limiting frame 200 and is fixedly mounted with a knob 203, the handheld laser inkjet printer 100 is placed above an aluminum profile during use, two positioning plates 201 are located on two sides of the aluminum profile at the moment, two knobs 203 are rotated simultaneously, the knob 203 can drive the threaded rod 202 to rotate when rotating, through the cooperation between the threaded rod 202 and a threaded hole 204, the threaded rod 202 can horizontally slide while rotating, the positioning plate 201 can drive two horizontal sliding blocks 206 to respectively slide in two horizontal sliding grooves 205 on the limiting frame 200 while sliding, and therefore it is ensured that the positioning plate 201 can only slide in the horizontal direction, the positioning plate 201 can drive an adjusting roller 301 to move through a fixing shaft 300 while sliding, so that the adjusting rollers 301 on two sides contact and extrude two sides of the aluminum profile, the aluminum profile and the two sides, the position of the handheld laser inkjet printer 100 are positioned, and the position is prevented from being deviated in the inkjet printing process.

Furthermore, set up threaded hole 204 on the locating plate 201, threaded rod 202 threaded mounting is in threaded hole 204, and through the cooperation between threaded rod 202 and the threaded hole 204, the threaded rod 202 pivoted can make locating plate 201 horizontal slip simultaneously.

Further, horizontal sliding grooves 205 are formed in inner walls of two sides of the limiting frame 200, horizontal sliding blocks 206 are installed in the two horizontal sliding grooves 205 in a sliding mode, the two horizontal sliding blocks 206 are fixedly installed on two sides of the positioning plate 201 respectively, the positioning plate 201 can drive the two horizontal sliding blocks 206 to slide in the two horizontal sliding grooves 205 on the limiting frame 200 respectively when sliding, and therefore the positioning plate 201 is guaranteed to slide in the horizontal direction only.

Further, the positioning adjustment structure comprises three fixing shafts 300, the three fixing shafts 300 are fixedly installed at the bottom side of the same positioning plate 201, and the three fixing shafts 300 are all rotatably installed with the adjustment roller 301.

Further, rotation hole 302 has been seted up on adjusting roller 301, fixed axle 300 rotates and installs in rotation hole 302, anti-disengaging hole 303 has been seted up on fixed axle 300, anti-disengaging block 304 is installed to anti-disengaging hole 303 internal rotation, anti-disengaging block 304 fixed mounting is in the bottom side of fixed axle 300, locating plate 201 can drive adjusting roller 301 through fixed axle 300 and remove when gliding, make the both sides of the adjusting roller 301 contact of both sides and extruded the aluminium alloy, realize fixing a position to aluminium alloy and handheld laser inkjet printer 100, prevent that the skew from appearing at the inkjet printer in-process, when removing the restriction to adjusting roller 301, make adjusting roller 301 rotate, horizontal promotion handheld laser inkjet printer 100 can make the both sides that adjusting roller 301 of both sides is pasting the aluminium alloy rotate and remove, can not hand the position of laser inkjet printer 100 and can not squint simultaneously, adjusting roller 301 rotates and can rotate on anti-disengaging hole 303 through rotation hole 302, realize pivoted effect, adjusting roller 301 rotates on anti-disengaging hole 304 through anti-disengaging hole 303 when rotating, it can not drop in-course to have guaranteed that adjusting roller 301 rotates.

Further, the limiting structure includes a limiting clamping plate 402, the limiting clamping plate 402 is fixedly installed at the bottom sides of the two connecting rods 400, the top sides of the two connecting rods 400 are fixedly installed with the same push rod 401, the top side of the limiting clamping plate 402 is fixedly installed with the two vertical sliding strips 403, the two vertical sliding strips 403 are respectively slidably installed at two sides of the positioning plate 201, the top side of the limiting clamping plate 402 is fixedly installed with three fixed tooth blocks 404, the three adjusting rollers 301 are all provided with limiting tooth grooves 405, the three fixed tooth blocks 404 are respectively and movably installed in the three limiting tooth grooves 405, the two connecting rods 400 are respectively and slidably sleeved with the auxiliary springs 407, two ends of the two auxiliary springs 407 are respectively and fixedly installed at one sides of the push rod 401 and the positioning plate 201, the push rods 401 at two sides are pressed, the push rod 401 can drive the two connecting rods 400 to move downwards and compress the two auxiliary springs 407, the connecting rod 400 can slide in the movable hole 406 when moving downwards, it is ensured that the connecting rod 400 cannot shift in the sliding process of sliding, the connecting rod 400 can drive the limiting clamping plate 402 to move downwards while moving downwards, so that the limiting clamping plate 402 can only drive the limiting clamping plate 402 to move downwards when the vertical sliding strips 403 move, and the limiting clamping plate can only drive the limiting sliding blocks 402 to lift the limiting clamping plate 402 and can lift the limiting sliding blocks in the limiting sliding chutes 402.

Further, vertical sliding groove 408 is formed in the vertical sliding strip 403, vertical sliding block 409 is slidably mounted in the vertical sliding groove 408, the vertical sliding block 409 is fixedly mounted on one side of the positioning plate 201, movable holes 406 are formed in the positioning plate 201, the connecting rod 400 is slidably mounted in the movable holes 406, the vertical sliding strip 403 can slide on the vertical sliding block 409 through the vertical sliding groove 408 when moving downwards, and therefore the limiting clamping plate 402 can only slide in the vertical direction, the connecting rod 400 can slide in the movable holes 406 when moving downwards, and it is ensured that the connecting rod 400 cannot shift in the sliding process.

The utility model discloses the theory of operation:

when the handheld laser inkjet printer 100 is used, the handheld laser inkjet printer 100 is placed above an aluminum profile, the two positioning plates 201 are positioned on two sides of the aluminum profile, the two knobs 203 are rotated simultaneously, the threaded rod 202 is driven to rotate when the knob 203 rotates, the positioning plates 201 can horizontally slide when the threaded rod 202 rotates, the two horizontal sliding blocks 206 are driven to slide in the two horizontal sliding grooves 205 on the limiting frame 200 respectively when the knob 203 slides, and therefore it is ensured that the positioning plates 201 can only slide in the horizontal direction, the positioning plates 201 can drive the adjusting rollers 301 to move through the fixed shafts 300 when sliding, so that the adjusting rollers 301 on two sides contact and extrude two sides of the aluminum profile, the positions of the aluminum profile and the handheld laser inkjet printer 100 are positioned, the situation that the aluminum profile does not deviate in the inkjet printing process is prevented, the push rods 401 on two sides can be pressed downwards when other positions need to be sprayed, the push rods 401 can drive the two connecting rods 400 to move downwards and compress the two auxiliary springs 407 is caused, the connecting rods 400 can slide downwards and can slide in the movable holes 406 when the connecting rods 400 move downwards, and the connecting rods 400 can drive the adjusting rollers 402 to move downwards, and the adjusting sliding plate can only drive the adjusting rollers 402 to move downwards, and the adjusting sliding plate can move downwards, and the adjusting rollers 402, and the adjusting plate can move vertically, and the aluminum profile can be lifted by the vertical sliding of the limiting sliding plate can be lifted sliding chute 402, and the limiting sliding plate can be lifted by the limiting rack 402, and the vertical sliding bar 402, the vertical sliding plate can be lifted sliding plate can be removed, when the vertical sliding bar 402, meanwhile, the position of the laser inkjet printer 100 cannot be held in a hand, the adjusting roller 301 rotates to rotate on the anti-falling hole 303 through the rotating hole 302, the rotating effect is achieved, the adjusting roller 301 rotates to rotate on the anti-falling block 304 through the anti-falling hole 303, the adjusting roller 301 is guaranteed to rotate and cannot fall off in the process, the push rod 401 is loosened after adjustment is well, the auxiliary spring 407 can push the push rod 401 to restore the original position, the reset push rod 401 can drive the limiting clamping plate 402 to restore the original position through the connecting rod 400, the reset limiting clamping plate 402 can drive the fixing tooth block 404 to be inserted into the limiting tooth groove 405 on the adjusting roller 301 again, the adjusting roller 301 is fixed, and the deviation is prevented when the inkjet is sprayed.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides an aluminium alloy surface laser inkjet printer, includes handheld laser inkjet printer (100), its characterized in that: the equal fixed mounting in both sides of handheld laser inkjet printer (100) has spacing (200), and equal movable mounting has the regulation structure on two spacing (200), and the equal movable mounting in bottom side of two regulation structures has the location to adjust the structure, and equal slidable mounting has two connecting rods (400) on two regulation structures, lies in fixed mounting on two connecting rods (400) with one side and has same limiting structure.

2. The laser inkjet printer for the surface of the aluminum profile according to claim 1, characterized in that: the adjusting structure comprises a positioning plate (201), the positioning plate (201) is slidably mounted on inner walls of two sides of the limiting frame (200), a threaded rod (202) is mounted on the positioning plate (201) in a threaded mode, one end of the threaded rod (202) is rotatably mounted on one side of the handheld laser inkjet printer (100), and the other end of the threaded rod (202) penetrates through the limiting frame (200) and is fixedly mounted with a knob (203).

3. The laser inkjet printer for the surface of the aluminum profile according to claim 2, characterized in that: a threaded hole (204) is formed in the positioning plate (201), and the threaded rod (202) is installed in the threaded hole (204) in a threaded mode.

4. The laser inkjet printer for the surface of the aluminum profile according to claim 1, characterized in that: horizontal sliding grooves (205) are formed in the inner walls of the two sides of the limiting frame (200), horizontal sliding blocks (206) are installed in the two horizontal sliding grooves (205) in a sliding mode, and the two horizontal sliding blocks (206) are fixedly installed on the two sides of the positioning plate (201) respectively.

5. The laser inkjet printer for the surface of the aluminum profile according to claim 1, characterized in that: the positioning adjusting structure comprises three fixing shafts (300), the three fixing shafts (300) are fixedly arranged on the bottom side of the same positioning plate (201), and adjusting rollers (301) are rotatably arranged on the three fixing shafts (300).

6. The laser inkjet printer for the surface of the aluminum profile as claimed in claim 5, wherein the laser inkjet printer comprises: the adjusting roller (301) is provided with a rotating hole (302), the fixing shaft (300) is rotatably installed in the rotating hole (302), the fixing shaft (300) is provided with an anti-falling hole (303), the anti-falling block (304) is rotatably installed in the anti-falling hole (303), and the anti-falling block (304) is fixedly installed on the bottom side of the fixing shaft (300).

7. The laser inkjet printer for the surface of the aluminum profile as claimed in claim 1, characterized in that: limiting structure includes spacing cardboard (402), spacing cardboard (402) fixed mounting is in the bottom side of two connecting rods (400), the top side fixed mounting of two connecting rods (400) has same push rod (401), the top side fixed mounting of spacing cardboard (402) has two perpendicular draw runner (403), two perpendicular draw runner (403) are slidable mounting respectively in the both sides of locating plate (201), the top side fixed mounting of spacing cardboard (402) has three fixed tooth piece (404), spacing tooth's socket (405) have all been seted up on three adjusting roller (301), three fixed tooth piece (404) movable mounting respectively is in three spacing tooth's socket (405), all slide on two connecting rods (400) and cup jointed auxiliary spring (407), the both ends of two auxiliary spring (407) are fixed mounting respectively in one side that push rod (401) and locating plate (201) are close to each other.

8. The laser inkjet printer for the surface of the aluminum profile according to claim 7 is characterized in that: vertical sliding grooves (408) are formed in the vertical sliding strips (403), vertical sliding blocks (409) are arranged in the vertical sliding grooves (408) in a sliding mode, the vertical sliding blocks (409) are fixedly arranged on one sides of the positioning plates (201), movable holes (406) are formed in the positioning plates (201), and the connecting rods (400) are arranged in the movable holes (406) in a sliding mode.

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