CN115415000A - Electronic film printing ink production processing equipment and processing technology thereof - Google Patents

Abstract

The invention relates to processing equipment for producing electronic film ink and a processing technology thereof, and relates to the technical field of electronic film ink production equipment, but the existing processing equipment for producing the electronic film ink cannot realize continuous and efficient heat dissipation treatment work in the using process and is not beneficial to efficient and periodic production work.

Description

Electronic film printing ink production processing equipment and processing technology thereof

Technical Field

The invention relates to the technical field of electronic film ink production equipment, in particular to processing equipment for electronic film ink production and a processing technology thereof.

Background

The processing equipment for producing the electronic film ink can be used for carrying out ink production and processing work, the aim of efficient combined production is fulfilled, and the automatic production and processing work of the electronic film ink is fulfilled.

According to Chinese patent publication No. CN216322230U, this patent relates to printing ink production technical field, and discloses a processing equipment for printing ink production, including the casing. The processing equipment for producing the printing ink drives the front output shaft and the rear output shaft to rotate by starting the double-shaft servo motor, the front output shaft drives the connecting rod, the mounting frame and the screen to move leftwards through the cam indirect extrusion connecting block, then the first return spring drives the mounting frame to move rightwards, further drives the screen to move leftwards and rightwards in a reciprocating manner, the screening effect is improved, the rear output shaft drives the sliding block to move rightwards through the traction rope, and then drive limit flitch and take in to the installation cavity inside to carry out blanking work, biax servo motor's output shaft reversal afterwards removes the position restriction to the slider to the haulage rope, under second reset spring's elastic force effect, thereby can drive limit flitch and extend to the inside restriction blanking of pan feeding pipe, so reciprocal, finally realized the purpose of discontinuity pan feeding and improvement screening efficiency, but this patent can not realize continuous high-efficient heat dissipation processing work.

The invention discloses a processing device for ink production according to Chinese patent publication No. CN111921413B, comprises a base, a barrel body, a driving part and a stirring part; the barrel body comprises an outer barrel and an inner barrel arranged in the outer barrel; the stirring component comprises a first stirring piece which is longitudinally arranged and a plurality of second stirring pieces which are transversely arranged, and the second stirring pieces are arranged in the inner barrel; the inner barrel is provided with a transmission mechanism which can drive the second stirring piece to rotate when the first stirring piece rotates; a heating channel is arranged between the inner barrel body and the outer barrel body, and hot water is filled in the heating channel. According to the invention, hot water is injected into the heating channel, so that each material of the printing ink is heated well in the mixing and stirring process, the mixing effect among the raw materials is enhanced to a great extent, and the printing ink quality is improved; because of adopting hot water heating, the bucket arm temperature of interior bucket can not too high, guarantees to glue the graphite that covers on the bucket wall of interior bucket and can not appear the condition of coking, further improves the quality of printing ink, but this patent is inconvenient carries out continuous extrusion conduction work.

But the processing equipment is used in current electron membrane printing ink production that uses can not realize continuous high-efficient heat dissipation treatment work in the use, is unfavorable for high-efficient periodic production work, and inconvenient continuous extrusion conduction work that carries on simultaneously, consequently needs the device to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide processing equipment for producing electronic film ink and a processing technology thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an electronic film is processing equipment for ink production, includes extrusion production structure and intercommunication heat radiation structure, the lower extreme position department intercommunication of extrusion production structure has intercommunication heat radiation structure, the extrusion production structure includes first toper guide holder, second toper guide holder, motor and extrusion wheel piece, the motor is installed in the inner top position department of extrusion production structure, the side position fixedly connected with drive spindle shaft of motor, the central point of drive spindle shaft puts and has cup jointed the extrusion wheel piece, the last lower terminal symmetry of extrusion wheel piece, drive spindle shaft is equipped with first toper guide holder and second toper guide holder.

Preferably, the extrusion production structure still includes support post seat, location link, supporting leg frame and location support plate, the location support plate is established in the inner bottom position department of extrusion production structure, the upper end position fixedly connected with supporting leg frame of location support plate, the upper end position fixedly connected with location link of supporting leg frame, the upper end position fixedly connected with support post seat of location link, the extrusion production structure still includes first separation guard plate and second separation guard plate, the side position department and the first separation guard plate fixed connection of support post seat, the side position department fixedly connected with second separation guard plate of first separation guard plate, the motor link up the setting with second separation guard plate, and the motor drives the extrusion wheel piece, drives the main shaft pole and rotate inside first separation guard plate, second separation guard plate and be connected, the extrusion wheel piece adopts the symmetry setting, and the extrusion wheel piece on the drive shaft is the crisscross distribution of symmetry.

Preferably, the first conical conducting seat and the second conical conducting seat are arranged in a conical structure, and the first conical transmission seat and the second conical transmission seat are fixedly connected with the first blocking protection plate and the second blocking protection plate.

Preferably, the number of the first conical conduction seat and the number of the second conical conduction seat are two, and a gap is formed between the first conical conduction seat and the second conical conduction seat at the bottom position and communicated with the communication heat dissipation structure through the gap.

Preferably, the communication heat radiation structure includes a first conduction channel, a second conduction channel, a positioning block frame and a combined supporting guard plate, the first conduction channel is arranged at the lower part of the inner end of the communication heat radiation structure, the upper end of the first conduction channel is provided with the second conduction channel, the upper end of the second conduction channel is in sliding connection with the positioning block frame, the side end of the positioning block frame is fixedly connected with the combined supporting guard plate, the communication heat radiation structure further includes a driving adjusting toothed bar, a first connecting adjusting toothed bar, a second connecting adjusting toothed bar and a lifting adjusting driven bar, the lower end of the second conduction channel is fixedly connected with the first connecting adjusting toothed bar, the upper end of the first conduction channel is fixedly connected with the second connecting adjusting toothed bar, the central positions of the first connecting adjusting toothed bar and the second connecting adjusting toothed bar are meshed with the driving adjusting toothed bar, the lifting adjusting driven bar is arranged between the side parts of the first conduction channel and the second conduction channel, and the lifting adjusting toothed bar is connected with the first conduction channel and the second conduction channel through the combined supporting guard plate.

Preferably, the second conduction way passes through block and locating block frame sliding connection, first conduction way passes through the block and the sliding connection of squatting of locating block frame, the center and the locating block frame of lift adjustment driven lever are fixed.

Preferably, intercommunication heat radiation structure still includes mixed contact rod, guide curb plate, installation support fagging, actuating motor and negative pressure drainage pipe, the installation supports fagging fixed connection in the upper end position department of second conduction way, the upper end of installation support fagging is installed actuating motor, actuating motor's lower extreme supports fagging and mixed contact rod looks fixed connection through the installation, the installation supports the central upper end position of fagging and is installed negative pressure drainage pipe, the bottom position department fixed connection of second conduction way has the guide curb plate, mixed contact rod, guide curb plate, installation support fagging, actuating motor, negative pressure drainage pipe adopt the symmetry to set up, and mixed contact rod, guide curb plate, installation support fagging, actuating motor, negative pressure drainage pipe are led and are set up about intercommunication heat radiation structure central point symmetry, first conduction way, second conduction way adopt the design of slope structural formula.

Preferably, a motor is arranged at the side end of the driving and adjusting toothed bar and is fixedly connected with the lower part of the positioning block frame.

Preferably, the top of the extrusion production structure is fixedly connected with a second protective vertical plate, and the side end of the second protective vertical plate is fixedly connected with a first protective vertical plate.

A processing technology of processing equipment for producing electronic film ink comprises the following steps:

s1, combining an extrusion production structure and a communicated heat dissipation structure, conveying heated raw materials to the upper end positions of a first separation protection plate and a second separation protection plate, conducting printing ink to the positions of an extrusion wheel sheet and a driving spindle rod through a first conical conduction seat and a second conical conduction seat, and driving the extrusion wheel sheet and the driving spindle rod to rotate through a driving motor to realize refining treatment;

s2, the second conducting channel is reached, a user can adjust the second conducting channel to change the gap between the first conducting channel and the second conducting channel, the purpose of controlling the heat dissipation time is achieved, the driving adjusting toothed rod can be driven to rotate through the driving of the motor and acts on the driving adjusting toothed rod and the first connecting adjusting toothed plate to drive the first conducting channel and the second conducting channel to symmetrically run, the first conducting channel and the second conducting channel are limited through the positioning block frame, the lifting adjusting driven rod in the central position can carry out bearing and help to support and match the purpose;

s3, the printing ink is transmitted through the second conduction channel, the driving motor drives the mixing contact rod to rotate, contact type mixing operation is achieved, heat dissipation is facilitated, the negative pressure drainage pipe carries out negative pressure absorption, can carry out thermal drainage, and then printing ink passes through guide curb plate conduction to first conduction way position department, and the help continues processing production.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, by installing the extrusion production structure and the structural arrangement of the extrusion production structure, the refining treatment work is conveniently carried out, the extrusion function is realized, the refining treatment work of large particles is realized, the reproduction work is better carried out, the continuous and efficient heat dissipation treatment work can be realized through the structural combination of the extrusion production structure and the communication heat dissipation structure, the efficient and periodic production work is facilitated, meanwhile, the connection of the extrusion production structure and the communication heat dissipation structure is convenient, the continuous extrusion conduction work is conveniently carried out, and the purpose of matching production is better carried out.

2. The invention can carry out combined installation work by installing the communicated heat dissipation structure and the structural arrangement of the communicated heat dissipation structure, the first conduction channel and the second conduction channel inside the communicated heat dissipation structure can carry out conduction and communication work, thereby realizing the transmission work of printing ink, facilitating the heat dissipation treatment work and better carrying out the communicated heat dissipation treatment phenomenon by the structural combination inside the communicated heat dissipation structure.

3. According to the invention, the first protective vertical plate and the second protective vertical plate are arranged and fixedly connected, and the first protective vertical plate and the second protective vertical plate are fixed with the extrusion production structure, so that the separation work of the top position of the extrusion production structure is realized, the protection purpose of the side part is conveniently carried out, the closed protection connection purpose is realized, and the separation production work is better carried out.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is apparent that, the drawings in the following description are only some embodiments of the invention and other drawings may be derived from those drawings by a person skilled in the art without inventive effort.

FIG. 1 is a schematic structural view of the main body of the present invention;

FIG. 2 is a side view of the body of the present invention;

FIG. 3 is a perspective view of the body of the present invention;

FIG. 4 is a schematic diagram of an extrusion production configuration of the present invention;

FIG. 5 is a side view of an extrusion production configuration of the present invention;

FIG. 6 is a disassembled view of the extrusion production structure of the present invention;

FIG. 7 is a schematic structural diagram of a communication heat dissipation structure according to the present invention;

FIG. 8 is a side view of the connected heat dissipation structure of the present invention;

FIG. 9 is a disassembled view of the communication heat dissipation structure of the present invention;

fig. 10 is a schematic structural diagram of a second embodiment of the main body of the present invention.

In the figure: the device comprises a 1-extrusion production structure, a 2-communication heat dissipation structure, a 3-support column seat, a 4-positioning connecting frame, a 5-support leg frame, a 6-positioning support plate, a 7-first blocking protection plate, a 8-second blocking protection plate, a 9-first conical transmission seat, a 10-second conical transmission seat, a 11-motor, a 12-extrusion wheel sheet, a 13-driving spindle rod, a 14-first transmission channel, a 15-second transmission channel, a 16-positioning block frame, a 17-combined supporting plate, an 18-driving adjusting gear rod, a 19-first connecting gear plate adjusting plate, a 20-second connecting adjusting gear plate, a 21-lifting adjusting driven rod, a 22-mixed contact rod, a 23-material guide side plate, a 24-installation support plate, a 25-driving motor, a 26-negative pressure guide pipe, a 27-first protective vertical plate and a 28-second protective vertical plate.

Detailed Description

For a better understanding of the present application, reference will now be made to the drawings, which are incorporated in an embodiment thereof, the technical solutions in the embodiments of the present application are clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given in the present application without making any inventive step, are intended to fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Example 1

Referring to fig. 1, fig. 2, fig. 3, and fig. 6, an embodiment of the present invention: the utility model provides an electronic film is processing equipment for ink production, including extrusion production structure 1 and intercommunication heat radiation structure 2, the lower extreme position department intercommunication of extrusion production structure 1 has intercommunication heat radiation structure 2, extrusion production structure 1 includes first toper guide holder 9, second toper guide holder 10, motor 11 and extrusion wheel piece 12, motor 11 installs the inner top position department at extrusion production structure 1, motor 11's side position fixedly connected with drive spindle shaft 13, the central point of drive spindle shaft 13 puts and has cup jointed extrusion wheel piece 12, the last lower extreme symmetry of drive spindle shaft 13 is equipped with first toper guide holder 9 and second toper guide holder 10, through the combination of structure, realize erection joint work.

Please refer to fig. 4, fig. 5, fig. 6, the extrusion production structure 1 further includes a supporting column base 3, a positioning connection frame 4, a supporting leg frame 5 and a positioning support plate 6, the positioning support plate 6 is disposed at the bottom position of the inner end of the extrusion production structure 1, the upper end position of the positioning support plate 6 is fixedly connected with the supporting leg frame 5, the upper end position of the supporting leg frame 5 is fixedly connected with the positioning connection frame 4, the upper end position of the positioning connection frame 4 is fixedly connected with the supporting column base 3, the extrusion production structure 1 further includes a first separation protection plate 7 and a second separation protection plate 8, the side end position of the supporting column base 3 is fixedly connected with the first separation protection plate 7, the side end position of the first separation protection plate 7 is fixedly connected with the second separation protection plate 8, the motor 11 is communicated with the second separation protection plate 8, and the motor 11 drives the extrusion wheel sheet 12, the driving main shaft rod 13 is disposed on the first separation protection plate 7, the second separation protection plate 8 is rotatably connected, the extrusion wheel sheet 12 is symmetrically disposed on the driving main shaft rod 13, the supporting column base 3, the positioning connection frame 4 and the supporting leg frame 6 are conveniently disposed on the supporting column base.

First toper conduction seat 9, second toper conduction seat 10 adopt the toper structure to set up, and first toper conduction seat 9, second toper conduction seat 10 and first separation guard plate 7, second separation guard plate 8 looks fixed connection, through the setting of structure, the better transmission task that carries on printing ink.

The first conical conduction seat 9 and the second conical conduction seat 10 are provided with two gaps, and the first conical conduction seat 9 and the second conical conduction seat 10 at the bottom are provided with gaps therebetween and communicated with the communication heat dissipation structure 2 through the gaps, so that the conduction and communication work is realized through the gaps.

Referring to fig. 7 and 8, the communicating heat dissipation structure 2 includes a first conducting channel 14, a second conducting channel 15, a positioning block frame 16 and a combined supporting and protecting plate 17, the first conducting channel 14 is disposed at a lower position of an inner end of the communicating heat dissipation structure 2, the upper end of the first conducting channel 14 is provided with the second conducting channel 15, an upper end of the second conducting channel 15 is slidably connected to the positioning block frame 16, the combined supporting and protecting plate 17 is fixedly connected to a side end of the positioning block frame 16, the communicating heat dissipation structure 2 further includes a driving adjusting toothed bar 18, a first connecting adjusting toothed plate 19, a second connecting adjusting toothed bar 20 and a lifting adjusting driven bar 21, a lower end of the second conducting channel 15 is fixedly connected to the first connecting adjusting toothed plate 19, an upper end of the first conducting channel 14 is fixedly connected to the second connecting adjusting toothed plate 20, central positions of the first connecting adjusting toothed plate 19 and the second connecting adjusting toothed plate 20 are engaged with the driving adjusting toothed bar 18, a side portion of the first conducting channel 14 and the second conducting channel 15 is provided with the lifting adjusting toothed bar 21, the first connecting adjusting toothed plate 19 and the lifting adjusting toothed bar 16, and the positioning block 16 are connected to the lifting adjusting toothed bar 16, and the lifting adjusting block 16 are connected to the first conducting block.

Referring to fig. 9, the connected heat dissipation structure 2 further includes a mixed contact rod 22, a material guiding side plate 23, a mounting support plate 24, a driving motor 25 and a negative pressure tube guiding and discharging tube 26, the mounting support plate 24 is fixedly connected to the upper end of the second conduction channel 15, the driving motor 25 is mounted on the upper end of the mounting support plate 24, the lower end of the driving motor 25 is fixedly connected to the mixed contact rod 22 through the mounting support plate 24, the negative pressure tube guiding and discharging tube 26 is mounted on the upper end of the center of the mounting support plate 24, the material guiding side plate 23 is fixedly connected to the bottom of the second conduction channel 15, the mixed contact rod 22, the material guiding side plate 23, the mounting support plate 24, the driving motor 25 and the negative pressure tube guiding and discharging tube 26 are symmetrically arranged with respect to the center of the connected heat dissipation structure 2, the first conduction channel 14 and the second conduction channel 15 are designed with an inclined structure, and the mixed contact rod 22, the material guiding side plate 23, the mounting support plate 24, the driving motor 25 and the negative pressure tube guiding and discharging tube 26 are combined for heat dissipation.

The side end of the driving adjusting rack bar 18 is provided with a motor, and the motor is fixedly connected with the lower position of the positioning block frame 16.

A processing technology of processing equipment for producing electronic film ink comprises the following steps:

s1, combining an extrusion production structure 1 and a communicated heat dissipation structure 2, conveying heated raw materials to the upper end positions of a first separation protection plate 7 and a second separation protection plate 8, transmitting ink to the positions of an extrusion wheel sheet 12 and a driving spindle rod 13 through a first conical transmission seat 9 and a second conical transmission seat 10, and driving the extrusion wheel sheet 12 and the driving spindle rod 13 to rotate through a driving motor 11, so as to realize refining treatment work;

s2, then the second conduction channel 15 is reached, a user can adjust the second conduction channel, the gap between the first conduction channel 14 and the second conduction channel 15 is changed, and the purpose of controlling the heat dissipation time is achieved, the motor can drive the driving adjusting toothed bar 18 to rotate and act on the driving adjusting toothed bar 18 and the first connecting adjusting toothed plate 19, the first conduction channel 14 and the second conduction channel 15 can be driven to symmetrically run, the first conduction channel 14 and the second conduction channel 15 are limited through the positioning block frame 16, the lifting adjusting driven rod 21 in the center position can bear the load and help to support and match the purpose;

and S3, the ink is transmitted through the second transmission channel 15, the driving motor 25 and the driving motor 25 drive the mixing contact rod 22 to rotate, contact type uniform mixing work is achieved, heat dissipation is facilitated, the negative pressure guide exhaust pipe 26 performs negative pressure adsorption, heat guide exhaust can be performed, and then the ink is transmitted to the position of the first transmission channel 14 through the material guide side plate 23, so that processing and production are facilitated.

In the embodiment, the bottom supporting work is realized through the positioning support plate 6, the upper end of the positioning support plate 6 is fixed to the positioning connection frame 4 and the support leg frame 5, the support column base 3 can be connected, the bearing connection work of the support column base 3 is realized, the first separation protection plate 7 and the second separation protection plate 8 work through the connection with the support column base 3, the internal processing work is realized, the processing and production environment is provided, the first conical conduction seat 9 and the structural setting of the second conical conduction seat 10 facilitate the conduction work, the purpose of efficient conduction is realized, the ink transmission work is facilitated, the motor 11 can be driven, the motor 11 drives the extrusion wheel sheet 12 and the driving spindle rod 13 to rotate, the thinning processing work of graphite is realized, the extrusion thinning production work is realized, through the structural setting of the extrusion wheel sheet 12, the symmetrical extrusion is realized, the conduction production work is better, the first conduction channel 14 and the second conduction channel 15 are symmetrically arranged, the transmission work can be performed, the transmission work is realized, the transportation time is prolonged, the heat dissipation is facilitated, the positioning support plate 16 and the adjusting support plate 17 is fixed to the first support connection frame 17, the adjusting support connection frame 14 and the adjusting plate 17, the first guide plate 15 can be connected to the first connection rack, the first connection plate 14, the second connection plate 15 and the adjusting rack connection plate 18, the second connection plate 14 can be connected to the first guide plate 14, the first guide plate 18, the second guide plate 14 and the second guide plate 14, the second guide plate 15, the second guide plate 18, the supporting rack connection plate 14 and the adjusting plate 16 can be connected to the first guide plate 16, the first conducting channel 14 and the second conducting channel 15 can be arranged to bear the center, the lifting adjusting driven rod 21 is connected with the lower portion of the positioning block frame 16 to achieve limiting installation, the first conducting channel 14 and the second conducting channel 15 are connected to the positions of the two ends of the lifting adjusting driven rod 21 to achieve telescopic adjustment on the lifting adjusting driven rod 21, supporting work of the driving motor 25 is achieved by installing a supporting plate 24 at the upper end of the second conducting channel 15, the driving motor 25 drives the mixed contact rod 22 to rotate to achieve contact with ink, contact and heat dissipation work is facilitated, the negative pressure conducting pipe 26 is communicated with an external negative pressure pumping machine to achieve ventilation and heat dissipation work, and the ink can reach the position of the first conducting channel 14 through the material guiding side plate 23 to achieve re-transmission work.

Example 2

On the basis of embodiment 1, please refer to fig. 10, a second vertical protection plate 28 is fixedly connected to the top of the extrusion production structure 1, and a first vertical protection plate 27 is fixedly connected to a side end of the second vertical protection plate 28.

When implementing this embodiment, make up first protection riser 27, second protection riser 28, realize mutual connection, and first protection riser 27, second protection riser 28 are in the top of extrusion production structure 1, can carry out the protection work of top position, reduce the entering of top dust, better carry out production work.

The working principle is as follows: the user combines the extrusion production structure 1 and the communication heat dissipation structure 2, the extrusion production structure 1 is combined by the support column base 3, the positioning connection frame 4, the support leg frame 5 and the positioning support plate 6, the positioning support plate 6 realizes the support work of the bottom, the upper end of the positioning support plate 6 is fixed with the positioning connection frame 4 and the support leg frame 5, the support column base 3 can be connected, the bearing connection work of the support column base 3 is realized, the extrusion production structure 1 is also combined by the first separation protection plate 7 and the second separation protection plate 8, the first separation protection plate 7 and the second separation protection plate 8 are connected with the support column base 3 to work, the internal processing work is realized, the processing production environment is provided, the extrusion production structure 1 is also combined by the first conical conduction seat 9, the second conical conduction seat 10, the motor 11, the extrusion wheel sheet 12 and the driving spindle rod 13, the first conical conduction seat 9 and the second conical conduction seat 10 are structurally arranged to facilitate conduction work, so as to achieve the purpose of efficient connection and conduction, and facilitate the transmission work of printing ink, the motor 11 can drive the motor 11 to drive the extrusion wheel sheet 12 and the driving spindle rod 13 to rotate, so as to achieve the refining treatment work of graphite, so as to achieve the extrusion refining production work, the symmetrical extrusion is achieved through the structural arrangement of the extrusion wheel sheet 12, so as to better perform the conduction production work, the connection heat dissipation structure 2 is combined through the first conduction channel 14, the second conduction channel 15, the positioning block frame 16 and the combined supporting and protecting plate 17, the first conduction channel 14 and the second conduction channel 15 are symmetrically arranged, so as to perform the transmission work, and the double-pass arrangement is adopted, so as to increase the transportation time and be more beneficial to heat dissipation, the positioning block frame 16 and the combined supporting and protecting plate 17 are fixed, the combined support guard plate 17 can be supported with the bottoms of the first separation guard plate 7 and the second separation guard plate 8 to realize fixed bearing work, the positioning block frame 16 is arranged to realize the limit support work of the first transmission channel 14 and the second transmission channel 15, the communicated heat dissipation structure 2 further drives the adjusting toothed bar 18, the first connecting adjusting toothed bar 19, the second connecting adjusting toothed bar 20 and the lifting adjusting driven bar 21 to be combined, the driving adjusting toothed bar 18 can be driven by a motor to drive the driving adjusting toothed bar 18 to rotate, the communicated heat dissipation structure acts on the first connecting adjusting toothed bar 19 and the second connecting adjusting toothed bar 20, so that the first connecting adjusting toothed bar 19 and the second connecting adjusting toothed bar 20 drive the first transmission channel 14 and the second transmission channel 15 to perform operation adjustment work, the lifting adjusting toothed bar 21 is arranged to drive the first transmission channel 14 and the second transmission channel 15 to be centrally supported, the lifting adjusting driven adjusting toothed bar 21 is connected with the lower portion of the positioning block frame 16 to realize limit installation, the first transmission channel 14 and the second transmission channel 15 are connected, the lifting adjusting toothed bar 21 is connected with the lifting adjusting toothed bar 21 to drive the lifting adjusting driven adjusting toothed bar 21 to be communicated with the heat dissipation guide bar 22 through the heat dissipation guide bar 24 and the motor, the lifting adjusting driven adjusting side plate 23, the lifting adjusting side plate 23 and the lifting adjusting side plate 23, the lifting adjusting side plate 23 can be connected with the motor to realize negative pressure of the lifting adjusting side plate 22, the re-transmission work is realized, when a user needs to use the device, the extrusion production structure 1 and the communication heat dissipation structure 2 are combined, the heated raw materials are transmitted to the upper end positions of the first separation protection plate 7 and the second separation protection plate 8, the printing ink is transmitted to the positions of the extrusion wheel sheet 12 and the driving spindle shaft 13 through the first conical transmission seat 9 and the second conical transmission seat 10, the extrusion wheel sheet 12 and the driving spindle shaft 13 are driven by the motor 11 through the driving motor 11 to rotate, the thinning treatment work is realized, and then the printing ink reaches the position of the second transmission channel 15, the user can adjust the printing ink, the gap between the first transmission channel 14 and the second transmission channel 15 is changed, the purpose of controlling the heat dissipation time is realized, and the driving adjusting gear 18 can be driven to rotate through the motor, the effect is on drive regulation rack bar 18, first connection regulation pinion rack 19, can drive first conduction way 14, second conduction way 15 symmetry operation, and first conduction way 14, second conduction way 15 is spacing through locating block frame 16, the lift regulation follower lever 21 of central point position can bear the weight of, the help supports the cooperation purpose, later printing ink transmits through second conduction way 15, but actuating motor 25, actuating motor 25 drives mixed contact stick 22 and rotates, realize contact mixing work, the help dispels the heat, negative pressure drainage pipe 26 carries out the negative pressure and adsorbs, can carry out thermal drainage, later printing ink transmits to first conduction way 14 position department through guide curb plate 23, the help continues processing production, accomplish work.

While embodiments of the present invention have been shown and described, it will be obvious to those skilled in the art that, it should be understood that various changes, modifications, substitutions and alterations can be made herein without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides an electronic film is processing equipment for ink production, includes extrusion production structure (1) and intercommunication heat radiation structure (2), its characterized in that: the utility model discloses a heat dissipation structure, including extrusion production structure (1), motor (11), wheel piece (12), extrusion production structure (1), first toper conduction seat (9), second toper conduction seat (10), motor (11) and extrusion wheel piece (12), the inner top position department at extrusion production structure (1) is installed in motor (11), the side position fixedly connected with drive main shaft pole (13) of motor (11), the central point of drive main shaft pole (13) puts and has cup jointed extrusion wheel piece (12), the last lower extreme symmetry of extrusion wheel piece (12), drive main shaft pole (13) is equipped with first toper conduction seat (9) and second toper conduction seat (10).

2. The processing equipment for producing electronic film ink according to claim 1, characterized in that: extrusion production structure (1) still includes support column seat (3), location link (4), support leg (5) and location backup pad (6), the inner bottom position department at extrusion production structure (1) is established in location backup pad (6), the upper end position fixedly connected with support leg (5) of location backup pad (6), the upper end position fixedly connected with location link (4) of support leg (5), the upper end position fixedly connected with support column seat (3) of location link (4), extrusion production structure (1) still includes first separation guard plate (7) and second separation guard plate (8), the side position department and first separation guard plate (7) looks fixed connection of support column seat (3), the side position fixedly connected with second separation guard plate (8) of first separation guard plate (7), motor separation (11) link up the setting with second guard plate (8), and motor (11) drive extrusion wheel piece (12), drive spindle pole (13) are in first separation guard plate (7), second separation wheel piece (8) symmetry and the extrusion wheel piece (12) is the crisscross connection of separation wheel piece, and the extrusion wheel piece (12) is the inside and the extrusion wheel piece (12) and the rotation.

3. The processing equipment for producing electronic film ink according to claim 2, characterized in that: first toper conduction seat (9), second toper conduction seat (10) adopt the toper structure to set up, and first toper conduction seat (9), second toper conduction seat (10) and first separation guard plate (7), second separation guard plate (8) looks fixed connection.

4. The processing equipment for producing electronic film ink according to claim 3, characterized in that: the first conical conduction seat (9) and the second conical conduction seat (10) are arranged in two numbers, and a gap is arranged between the first conical conduction seat (9) and the second conical conduction seat (10) at the bottom position and communicated with the communicated heat dissipation structure (2) through the gap.

5. The processing apparatus for producing electronic film ink according to claim 4, wherein: the communicated heat dissipation structure (2) comprises a first conduction channel (14), a second conduction channel (15), a positioning block frame (16) and a combined supporting and protecting plate (17), the first conducting channel (14) is arranged at the lower part of the inner end of the communicated heat dissipation structure (2), the upper end of the first conducting channel (14) is provided with a second conducting channel (15), the upper end position of the second conduction channel (15) is connected with the positioning block frame (16) in a sliding way, a combined supporting and protecting plate (17) is fixedly connected at the side end position of the positioning block frame (16), the communicated heat dissipation structure (2) also comprises a driving adjusting toothed bar (18), a first connecting adjusting toothed plate (19), a second connecting adjusting toothed plate (20) and a lifting adjusting driven bar (21), the lower end of the second conduction channel (15) is fixedly connected with a first connecting and adjusting toothed plate (19), the upper end position of the first conduction channel (14) a second connecting and adjusting toothed plate (20) is fixedly connected, said first connection adjustment toothed plate (19) the center of the second connecting and adjusting toothed plate (20) is engaged with a driving and adjusting toothed bar (18), a lifting adjusting driven rod (21) is arranged between the side parts of the first transmission channel (14) and the second transmission channel (15), the lifting adjusting driven rod (21) is connected with the first transmission channel (14) and the second transmission channel (15) through blocks.

6. The processing equipment for producing electronic film ink according to claim 5, characterized in that: second conduction way (15) are through block and locating piece frame (16) sliding connection, first conduction way (14) are through the sliding connection of squatting of block and locating piece frame (16), the center and the locating piece frame (16) of lift regulation driven lever (21) are fixed.

7. The processing apparatus for producing electronic film ink according to claim 6, wherein: intercommunication heat radiation structure (2) still support fagging (24), actuating motor (25) and negative pressure drainage guide pipe (26) including mixing contact stick (22), guide curb plate (23), installation support fagging (24) fixed connection is in the upper end position department of second conduction way (15), actuating motor (25) are installed to the upper end of installation support fagging (24), the lower extreme of actuating motor (25) supports fagging (24) and mixing contact stick (22) looks fixed connection through the installation, negative pressure drainage guide pipe (26) are installed to the center upper end position that the installation supported fagging (24), the bottom position department fixed connection of second conduction way (15) has guide curb plate (23), mix contact stick (22), guide curb plate (23), installation support fagging (24), actuating motor (25), negative pressure drainage guide pipe (26) and adopt the symmetry to set up, and mix contact stick (22), guide fagging (23), installation support fagging (24), actuating motor (25), negative pressure drainage guide pipe (26) and set up about intercommunication heat radiation structure (2) central position symmetry, second conduction way (14), second conduction guide pipe (15) slope design.

8. The processing equipment for producing electronic film ink according to claim 7, characterized in that: a motor is arranged at the side end of the driving and adjusting toothed bar (18), and the motor is fixedly connected with the lower part of the positioning block frame (16).

9. The processing equipment for producing electronic film ink according to claim 8, characterized in that: the top of the extrusion production structure (1) is fixedly connected with a second protective vertical plate (28), and the side end position of the second protective vertical plate (28) is fixedly connected with a first protective vertical plate (27).

10. The processing technology of the processing equipment for producing the electronic film ink as claimed in claim 9, characterized by comprising the following steps:

s1, combining an extrusion production structure (1) and a communicated heat dissipation structure (2), conveying heated raw materials to the upper end positions of a first separation protection plate (7) and a second separation protection plate (8), transmitting ink to the positions of an extrusion wheel sheet (12) and a driving spindle rod (13) through a first conical transmission seat (9) and a second conical transmission seat (10), and driving the extrusion wheel sheet (12) and the driving spindle rod (13) to rotate through a driving motor (11) by the motor (11) to realize thinning processing work;

s2, then the second transmission channel (15) is reached, a user can adjust the second transmission channel, the gap between the first transmission channel (14) and the second transmission channel (15) is changed, the purpose of controlling the heat dissipation time is achieved, the driving of a motor can drive the driving adjusting toothed bar (18) to rotate, the driving adjusting toothed bar acts on the driving adjusting toothed bar (18) and the first connecting adjusting toothed plate (19), the first transmission channel (14) and the second transmission channel (15) can be driven to symmetrically run, the first transmission channel (14) and the second transmission channel (15) are limited through the positioning block frame (16), the lifting adjusting driven bar (21) in the center position can carry out bearing, and the supporting and matching purpose is facilitated;

s3, then the printing ink is transmitted through the second conduction channel (15), the driving motor (25) and the driving motor (25) drive the mixing contact rod (22) to rotate, contact type uniform mixing work is achieved, heat dissipation is facilitated, negative pressure adsorption is carried out on the negative pressure drainage pipe (26), thermal drainage can be carried out, then the printing ink is conducted to the position of the first conduction channel (14) through the material guiding side plate (23), and processing and production are facilitated to continue.

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