CN211567266U - Door surface wood grain heat transfer device - Google Patents

Abstract

The utility model relates to a door face wood grain processing equipment technical field provides a door face wood grain heat transfer device, including first frame, be equipped with supporting platform on the first frame, supporting platform's top is equipped with the hot pressing piece of liftable, supporting platform is equipped with the driven conveying chain of gear engagement respectively along the both sides of direction of delivery, wherein arbitrary conveying chain cover is located driven gear and driving motor driven driving gear, driven gear locates supporting platform along the one end of direction of delivery, the driving gear locates supporting platform along the other end of direction of delivery, wear to be equipped with first connecting rod between the driven gear, wear to be equipped with the second connecting rod between the driving gear, first connecting rod and second connecting rod are all installed on first frame through the bearing; and a plurality of groups of limiting mechanisms used for pushing the door surface to move along the supporting platform are arranged on the conveying chain. The utility model provides a present rendition equipment shop front rendition process long consuming time, problem that work efficiency is low.

Description

Door surface wood grain heat transfer device

Technical Field

The utility model relates to a shop front grain processing equipment technical field especially relates to a shop front grain heat transfer device.

Background

The solid wood raw materials are natural, integrate natural essence into a whole, and have a long-standing effect in furniture and building materials, but in recent years, with the shortage of solid wood resources in the world and the enhancement of ecological consciousness of people, the furniture and building materials industry gradually obtains the effect of simulating solid wood by a transfer printing mode, and meanwhile, wood grain transfer printing has the performances of corrosion resistance, impact resistance, aging resistance, wear resistance, fire resistance, no color change after being used outdoors for 15 years and the like, so the wood grain transfer printing is widely applied to the furniture industry.

Wood grain transfer printing is a common metal surface coating technology, and is a process method and a process for transferring wood grains on a printing plate to a printing stock through a transfer printing material. At present, the wood grain transfer printing on the door surface mainly adopts a hot stamping mode, the soaked transfer paper is attached to the door surface which is processed with primer, the patterns on the transfer paper are transferred to the door surface in a heating and pressurizing mode, and then the transfer paper is taken down to complete the transfer printing.

The transfer printing equipment is needed for the transfer printing of the wood grain on the door surface, and the applicant finds that the transfer printing equipment used at present has the following defects in practice: present rendition equipment mostly only has an exit, and in the course of the work, need the staff to place the shop front work platform, will transfer printing paper and adhere to on the shop front, later with shop front propelling movement to the internal heating pressurization rendition of rendition box, after the rendition is accomplished, take out the shop front from the import department again to take off the shop front and just can carry out the rendition of another shop front, cause the problem that the shop front rendition process is consuming time longer from this, work efficiency is low.

Therefore, develop a shop front wood grain heat transfer device, not only have urgent research value, also have good economic benefits and industrial application potentiality, this is exactly the utility model discloses the power place that can accomplish is located and the basis.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art pointed out above, the utility model discloses the people has carried out the deep research to this, after having paid out a large amount of creative work, thereby accomplished the utility model discloses.

Particularly, the utility model discloses the technical problem that solve is: the utility model provides a facade grain heat transfer means to solve present rendition equipment facade rendition process consuming time longer, problem that work efficiency is low.

In order to solve the technical problem, the technical scheme of the utility model is that:

a door surface wood grain thermal transfer printing device comprises a first rack, wherein a supporting platform is arranged on the first rack, a liftable hot pressing block is arranged at the top of the supporting platform, conveying chains in gear meshing transmission are respectively arranged on two sides of the supporting platform along the conveying direction, any one of the conveying chains is sleeved on a driven gear and a driving gear driven by a driving motor, the driven gear is arranged at one end of the supporting platform along the conveying direction, the driving gear is arranged at the other end of the supporting platform along the conveying direction, a first connecting rod is arranged between the driven gears in a penetrating manner, a second connecting rod is arranged between the driving gears in a penetrating manner, and the first connecting rod and the second connecting rod are both mounted on the first rack through bearings;

and a plurality of groups of limiting mechanisms used for pushing the door surface to move along the supporting platform are arranged on the conveying chain.

As an improved scheme, the supporting platform is formed by sequentially and smoothly connecting a first platform, a second platform and a third platform, the first platform and the third platform are respectively positioned at two ends of the first rack along the conveying direction, and the second platform and the hot pressing block are correspondingly arranged.

As an improved scheme, a plurality of universal balls for door face movement are uniformly arranged on the first platform and the third platform, and an inclined sliding block for door face movement is arranged between the second platform and the third platform.

As an improved scheme, one side, far away from the supporting platform, of the hot pressing block is provided with a plurality of first connecting blocks, the first connecting blocks are all connected with piston rods of hydraulic cylinders, cylinder bodies of the hydraulic cylinders are installed on a second rack, and the second rack is installed at the top of the first rack.

As an improved scheme, a plurality of heating wires for heating are arranged in the inner cavity of the hot-pressing block.

As an improved scheme, grooves for avoiding the conveying chain are respectively arranged on two sides of the supporting platform along the conveying direction.

As an improved scheme, any group of limiting mechanisms comprises four limiting brackets, any two limiting brackets are oppositely arranged and are respectively installed on the conveying chain, and the four limiting brackets jointly form a space for limiting the movement of the door surface;

arbitrary spacing support including install in second connecting block on the conveying chain, the top level of second connecting block is equipped with first stopper and second stopper, first stopper sets up along direction of delivery, second stopper horizontal direction perpendicular to first stopper.

As an improved scheme, the height dimension of the first limiting block and the second limiting block is lower than that of the door surface.

As an improved scheme, the driving motor is installed on one side of the first rack through a base, an output shaft of the driving motor is connected with the second connecting rod, and the driving motor is a stepping motor.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

through set up the conveying chain in supporting platform along direction of delivery's both sides, the conveying chain cover is located on driven gear and driving gear, set up stop gear on the conveying chain, place the shop front on the conveying chain of supporting platform one end, through the hot pressing of hot pressing piece, carry to supporting platform's the other end, therefore, the continuity of rendition process has been realized, make the staff place in supporting platform's one end, the other end is collected, the consuming time of rendition process has been reduced, and work efficiency is improved.

To sum up, the utility model discloses an above-mentioned technical scheme has solved present rendition equipment shop front rendition process and has long consuming time, problem that work efficiency is low.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic front view of the present invention;

fig. 3 is a schematic top view of the present invention;

wherein each numerical designation refers to a particular meaning, element, and/or component, respectively, as follows in the figures.

In the figure: 1. first frame, 2, supporting platform, 201, first platform, 202, the second platform, 203, the third platform, 3, the hot pressing piece, 4, the conveying chain, 5, driven gear, 6, driving motor, 7, the driving gear, 8, first connecting rod, 9, the second connecting rod, 10, the bearing, 11, stop gear, 1101, spacing support, 1102, the second connecting block, 1103, the first stopper, 1104, the second stopper, 12, universal ball, 13, the slope slider, 14, first connecting block, 15, the pneumatic cylinder, 16, the second frame, 17, the heating wire, 18, the recess.

Detailed Description

The invention will be further described with reference to specific examples. The use and purpose of these exemplary embodiments are to illustrate the invention, not to limit the scope of the invention in any way, and not to limit the scope of the invention in any way.

In this embodiment, as shown in fig. 1, 2 and 3, a door wood grain thermal transfer device includes a first frame 1, a supporting platform 2 is installed on the first frame 1 by welding, a liftable hot pressing block 3 is installed on the top of the supporting platform 2, the door can be supported by the supporting platform 2, the door can be heated and pressed by the hot pressing block 3 for transfer printing, conveying chains 4 driven by gear engagement are respectively installed on two sides of the supporting platform 2 along a conveying direction, wherein any one of the conveying chains 4 is sleeved on a driving gear 7 driven by a driven gear 5 and a driving motor 6, the driven gear 5 is installed at one end of the supporting platform 2 along the conveying direction, the driving gear 7 is installed at the other end of the supporting platform 2 along the conveying direction, two driven gears 5 at one end of the supporting platform 2 are installed, a first connecting rod 8 is installed between the driven gears 5 by a key, two driving gears 7 are arranged at the other end of the supporting platform 2, a second connecting rod 9 is arranged between the two driving gears 7 in a penetrating mode through a key, bearings 10 are arranged at two ends of the first connecting rod 8 and the second connecting rod 9, and the bearings 10 are arranged on the first rack 1 through mounting supports;

the stop gear 11 that is equipped with a plurality of groups and is used for promoting the shop front to remove along supporting platform 2 on the conveying chain 4 arranges, it is spacing to realize the level of shop front through stop gear 11, and simultaneously, can drive the shop front and remove on supporting platform 2, through set up conveying chain 4 in supporting platform 2 along direction of delivery's both sides, conveying chain 4 cover is located on driven gear 5 and driving gear 7, set up stop gear 11 on the conveying chain 4, place the shop front on the conveying chain 4 of supporting platform 2 one end, through the hot pressing rendition of hot pressing piece 3, carry to the other end of supporting platform 2, therefore, the continuity of rendition process has been realized, make the staff place in the one end of supporting platform 2, the other end is collected, place, the rendition, collect the process and go on in step, the time of process flow has been reduced, the work efficiency is improved, continuity work has been realized.

In this embodiment, as shown in fig. 1, a support platform 2 is formed by connecting a first platform 201, a second platform 202, and a third platform 203 successively and smoothly, in this embodiment, the support platform 2 is formed by welding the first platform 201, the second platform 202, and the third platform 203, and the first platform 201 and the third platform 203 are respectively located at two ends of the first frame 1 along the conveying direction.

In this embodiment, as shown in fig. 1 and fig. 3, a plurality of universal balls 12 for facilitating movement of the door surface are uniformly arranged on the first platform 201 and the third platform 203, the universal balls 12 are common in daily life and belong to common general knowledge of technical staff in the technical field, and are not described herein again, the door surface is facilitated to move on the first platform 201 and the third platform 203 by arranging the universal balls 12, an inclined slider 13 for movement of the door surface is arranged between the second platform 202 and the third platform 203, and the door surface is facilitated to move smoothly from the second platform 202 to the universal balls 12 of the third platform 203 by arranging the inclined slider 13, in this embodiment, the height of the door surface supported by the universal balls 12 is 3-5mm, the inclined angle of the inclined slider 13 is 3-5 degrees, and the door surface is facilitated to move between the platforms.

In this embodiment, as shown in fig. 1 and fig. 2, a plurality of first connecting blocks 14 are installed through the bolt in one side that supporting platform 2 was kept away from to hot pressing block 3, in this embodiment, first connecting block 14 is provided with four, four first connecting blocks 14 distribute in four edges at hot pressing block 3 top, equal bolted connection has the piston rod of pneumatic cylinder 15 on first connecting block 14, the cylinder body of pneumatic cylinder 15 passes through the bolt and installs on second frame 16, second frame 16 installs in the top of first frame 1 through the welded mode, the top of second frame 16 all is provided with the baffle through the welded mode all around with, all be provided with the breach on the baffle of second frame 16 along direction of delivery's both sides, the door face of placing on supporting platform 2 passes through the inner chamber of breach business turn over second frame 16.

In this embodiment, as shown in fig. 1, a plurality of heating wires 17 for heating are arranged in the inner cavity of the hot-pressing block 3, the heating wires 17 are disposed on one side of the hot-pressing block 3 close to the supporting platform 2, and the heating wires 17 are arranged in the hot-pressing block 3 in an S-shape, so that the heat distribution of the hot-pressing block 3 is more uniform.

In this embodiment, as shown in fig. 1, two sides of the supporting platform 2 along the conveying direction are respectively provided with a groove 18 for avoiding the conveying chain 4, the conveying chain 4 is located in an inner cavity of the groove 18 by arranging the groove 18, and the limiting mechanism 11 mounted on the conveying chain 4 is located at the top of the supporting platform 2, so that the door surface can be conveniently moved.

In this embodiment, as shown in fig. 1 and fig. 3, any one of the limiting mechanisms 11 includes four limiting brackets 1101, any two of the limiting brackets 1101 are oppositely disposed and are respectively installed on the conveying chain 4 in a welding manner, and the four limiting brackets 1101 together form a space for limiting the movement of the door surface, so that the door surface cannot freely move in the horizontal direction;

any limiting bracket 1101 comprises a second connecting block 1102 welded and installed on the conveying chain 4, a first limiting block 1103 and a second limiting block 1104 are horizontally arranged at the top of the second connecting block 1102, the first limiting block 1103 and the second limiting block 1104 are installed on the second connecting block 1102 in a welding mode, the first limiting block 1103 is arranged along the conveying direction, the second limiting block 1104 is perpendicular to the first limiting block 1103 in the horizontal direction, the movement of the door face in the horizontal direction can be limited through the four limiting brackets 1101, and meanwhile, the door face can be pushed to move on the supporting platform 2 through the limiting brackets 1101.

In this embodiment, as shown in fig. 1, the height of the first stopper 1103 and the height of the second stopper 1104 are smaller than the height of the door surface, so that the hot pressing block 3 can be directly applied to the door surface when the door surface is heated, pressed and transferred, and the first stopper 1103 and the second stopper 1104 are prevented from affecting the transfer.

In this embodiment, as shown in fig. 1, the driving motor 6 is installed on the base through a bolt, the base is installed on one side of the first frame 1 through a welding mode, an output shaft of the driving motor 6 is connected with the second connecting rod 9 through a coupler, and then drives the second connecting rod 9 to rotate, and then drives the driving gear 7 to rotate, the driving gear 7 drives the driven gear 5 to rotate through the conveying chain 4, the driving motor 6 adopts a stepping motor, the stepping motor is common in daily life, and belongs to common general knowledge of technical personnel in the technical field, which is not described herein again, the conveying chain 4 can be conveyed for a certain distance at a time through the stepping motor, so that a door surface on the first platform 201 is just on the second platform 202, and corresponds to the hot-pressing block 3, and the door surface on the second platform 202 moves to the second platform 202, which is convenient for the worker to take off.

For ease of understanding, the working process of the present embodiment is given below:

as shown in fig. 1 and 3, first, a first door surface with primer on the surface is placed on a first platform 201, the door surface is limited by four limiting brackets 1101, wetted transfer paper is attached to the door surface, a conveyor chain 4 is driven to rotate by the operation of a stepping motor, the door surface on the first platform 201 is moved to a second platform 202, an electric heating wire 17 of a hot-pressing block 3 is electrified and heated, a piston rod of a hydraulic cylinder 15 is controlled to extend, the hot-pressing block 3 is abutted to the door surface and heats and pressurizes the door surface, transfer printing of the transfer paper is realized, and meanwhile, a second door surface can be synchronously placed on the first platform 201 and the transfer paper is attached;

after the first shop front is transferred, the first shop front which is transferred on the second platform 202 is moved to the third platform 203 under the driving of the stepping motor, and the second shop front prepared on the first platform 201 is moved to the second platform 202 and is transferred;

the worker tears off the transfer paper on the surface of the first shop front transferred on the third platform 203, and takes the first shop front off the third platform 203 to complete the transfer of the first shop front;

in the process of finishing the transfer printing of the first door surface, the second door surface and the third door surface are synchronously processed, and continuous production can be sequentially carried out through the control of the stepping motor, so that the time of the working procedure is saved, and the working efficiency is improved.

To sum up can, the utility model discloses an above-mentioned embodiment, it is consuming time longer to have solved present rendition equipment shop front rendition process, problem that work efficiency is low.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes, modifications and/or alterations to the present invention may be made by those skilled in the art after reading the technical disclosure of the present invention, and all such equivalents may fall within the scope of the present invention as defined by the appended claims.

Claims (9)

1. The utility model provides a shop front wood grain heat transfer device which characterized in that: the hot pressing device comprises a first rack, wherein a supporting platform is arranged on the first rack, a liftable hot pressing block is arranged at the top of the supporting platform, conveying chains in gear meshing transmission are respectively arranged on two sides of the supporting platform along the conveying direction, any one of the conveying chains is sleeved on a driven gear and a driving gear driven by a driving motor, the driven gear is arranged at one end of the supporting platform along the conveying direction, the driving gear is arranged at the other end of the supporting platform along the conveying direction, a first connecting rod penetrates through the driven gear, a second connecting rod penetrates through the driving gear, and the first connecting rod and the second connecting rod are both mounted on the first rack through bearings;

and a plurality of groups of limiting mechanisms used for pushing the door surface to move along the supporting platform are arranged on the conveying chain.

2. The thermal transfer printing device for woodgrain on door surface as claimed in claim 1, wherein: the supporting platform is formed by connecting a first platform, a second platform and a third platform sequentially and smoothly, the first platform and the third platform are respectively positioned at two ends of the first rack along the conveying direction, and the second platform and the hot pressing block are arranged correspondingly.

3. The thermal transfer printing device for woodgrain on door surface as claimed in claim 2, wherein: a plurality of universal balls for door face movement are uniformly arranged on the first platform and the third platform, and an inclined sliding block for door face movement is arranged between the second platform and the third platform.

4. The thermal transfer printing device for woodgrain on door surface as claimed in claim 1, wherein: one side that hot pressing piece kept away from supporting platform is equipped with the first connecting block of a plurality of, a plurality of all be connected with the piston rod of pneumatic cylinder on the first connecting block, the cylinder body of pneumatic cylinder is installed in the second frame, the second frame mounting in the top of first frame.

5. The device for heat transfer printing of wood grain on doorfaces as claimed in claim 4, wherein: and a plurality of heating wires for heating are arranged in the inner cavity of the hot-pressing block.

6. The thermal transfer printing device for woodgrain on door surface as claimed in claim 1, wherein: and grooves for avoiding the conveying chain are respectively arranged on two sides of the supporting platform along the conveying direction.

7. The thermal transfer printing device for woodgrain on door surface as claimed in claim 1, wherein: any group of limiting mechanisms comprises four limiting brackets, any two limiting brackets are oppositely arranged and are respectively arranged on the conveying chain, and the four limiting brackets jointly form a space for limiting the movement of the door surface;

arbitrary spacing support including install in second connecting block on the conveying chain, the top level of second connecting block is equipped with first stopper and second stopper, first stopper sets up along direction of delivery, second stopper horizontal direction perpendicular to first stopper.

8. The thermal transfer printing device for woodgrain on door surface as claimed in claim 7, wherein: the height of the first limiting block and the height of the second limiting block are lower than that of the door surface.

9. The thermal transfer printing device for woodgrain on door surface as claimed in claim 1, wherein: the driving motor is installed on one side of the first rack through the base, an output shaft of the driving motor is connected with the second connecting rod, and the driving motor is a stepping motor.

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