CN115415000B - Processing equipment and processing technology for producing electronic film printing ink - Google Patents

Abstract

The invention relates to the technical field of electronic membrane ink production equipment, in particular to processing equipment for electronic membrane ink production and a processing technology thereof, but the existing processing equipment for electronic membrane ink production cannot realize continuous and efficient heat dissipation processing work in the use process, and is unfavorable for efficient and periodic production work.

Description

Processing equipment and processing technology for producing electronic film printing ink

Technical Field

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

Background

The processing equipment for producing the electronic membrane ink can carry out ink production and processing work, achieves the aim of high-efficiency combined production, and achieves the automatic production and processing work of the electronic membrane ink.

According to chinese patent publication No. CN216322230U, this patent relates to the technical field of ink production, and discloses a processing equipment for ink production, including the casing. This processing equipment for printing ink production drives two output shafts around through starting biax servo motor and rotates, the front side output shaft can drive connecting rod through the extrusion connecting block of cam indirection, installing frame and screen cloth left side remove, first reset spring can drive the installing frame and remove right side afterwards, and then drive screen cloth left and right reciprocating motion, the screening effect has been improved, the rear side output shaft can drive the slider through the haulage rope and remove right side, and then drive limit flitch income to the installation intracavity portion, thereby carry out blanking work, the output shaft of biax servo motor is followed, release the position restriction to the haulage rope to the slider, thereby the blanking is restricted to the inside that can drive limit flitch and extend to the pan feeding pipe under the elasticity effect of second reset spring, so reciprocally, intermittent feeding and the mesh of improvement screening efficiency have finally been realized, but this patent can not realize continuous high-efficient heat dissipation treatment work.

According to Chinese patent publication No. CN111921413B, the invention discloses a processing device for producing ink, which 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 and a plurality of second stirring pieces, wherein the first stirring pieces are longitudinally arranged, the second stirring pieces 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 ink is well heated in the process of mixing and stirring, the mixing effect of each raw material is greatly enhanced, and the quality of the ink is improved; because the hot water is adopted for heating, the temperature of the barrel arm of the inner barrel cannot be too high, the condition that graphite adhered to the barrel wall of the inner barrel cannot be coked is ensured, the quality of printing ink is further improved, but the continuous extrusion conduction work is inconvenient to carry out in the patent.

However, the existing processing equipment for producing the electronic membrane ink cannot realize continuous and efficient heat dissipation treatment work in the use process, is unfavorable for efficient and periodic production work, and is inconvenient to continuously extrude and conduct work, so that a device is needed to solve the problems.

Disclosure of Invention

The invention aims to provide processing equipment and processing technology for producing electronic film ink, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a processing equipment is used in production of electron membrane printing ink, includes extrusion production structure and intercommunication heat radiation structure, extrusion production structure's lower extreme position department intercommunication has the intercommunication heat radiation structure, extrusion production structure includes first toper conducting base, second toper conducting base, motor and extrusion wheel piece, the motor is installed in extrusion production structure's inner top position department, the side position fixedly connected with drive owner axostylus axostyle of motor, the extrusion wheel piece has been cup jointed to drive owner axostylus axostyle's central point, the upper and lower end symmetry of extrusion wheel piece, drive owner axostylus axostyle is equipped with first toper conducting base and second toper conducting base.

Preferably, the extrusion production structure further comprises a supporting column seat, a positioning connecting frame, a supporting leg frame and a positioning supporting plate, the positioning supporting plate is arranged at the bottom position of the inner end of the extrusion production structure, the supporting leg frame is fixedly connected to the upper end position of the positioning supporting plate, the positioning connecting frame is fixedly connected to the upper end position of the supporting leg frame, the supporting column seat is fixedly connected to the upper end position of the positioning connecting frame, the extrusion production structure further comprises a first blocking protection plate and a second blocking protection plate, the side end position of the supporting column seat is fixedly connected with the first blocking protection plate, the second blocking protection plate is fixedly connected to the side end position of the first blocking protection plate, the motor and the second blocking protection plate are in through arrangement, the motor drives the extrusion wheel pieces and the driving main shaft rod to be in rotary connection inside the first blocking protection plate and the second blocking protection plate, the extrusion wheel pieces are symmetrically arranged, and the extrusion wheel pieces on the driving main shaft rod are symmetrically distributed in a staggered mode.

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

Preferably, the first conical conductive seat and the second conical conductive seat are provided with two, a gap is arranged between the first conical conductive seat and the second conical conductive seat at the bottom position, and the gap is communicated with the communicating heat dissipation structure.

Preferably, the communication heat radiation structure includes first conduction way, second conduction way, locating piece frame and combination backplate, first conduction way is established in the interior lower part position department of communication heat radiation structure, the upper end of first conduction way is equipped with the second conduction way, the upper end position and the locating piece frame of second conduction way are sliding connection mutually, the side position department fixedly connected with combination backplate of locating piece frame, communication heat radiation structure still includes drive regulation toothed bar, first connection regulation toothed bar, second connection regulation toothed bar and lift regulation driven bar, the lower extreme fixedly connected with of second conduction way is first connection regulation toothed bar, the upper end position fixedly connected with second connection regulation toothed bar of first conduction way, the central point department meshing of first connection regulation toothed bar, second connection regulation toothed bar is connected with the drive regulation toothed bar, be equipped with the lift regulation driven bar between the lateral part of first conduction way, second conduction way, lift regulation driven bar is all connected through the block with first conduction way, second conduction way.

Preferably, the second conducting channel is in sliding connection with the positioning block frame through a block body, the first conducting channel is in sliding connection with the positioning block frame through a block body, and the center of the lifting adjusting driven rod is fixed with the positioning block frame.

Preferably, the communication heat radiation structure further comprises a mixed contact rod, a material guiding side plate, a mounting support supporting plate, a driving motor and a negative pressure guide and discharge pipe, wherein the mounting support supporting plate is fixedly connected to the upper end position of the second conduction channel, the driving motor is mounted at the upper end of the mounting support supporting plate, the lower end of the driving motor is fixedly connected with the mixed contact rod through the mounting support supporting plate, the negative pressure guide and discharge pipe is mounted at the upper end position of the center of the mounting support supporting plate, the material guiding side plate is fixedly connected to the bottom position of the second conduction channel, the mixed contact rod, the material guiding side plate, the mounting support supporting plate, the driving motor and the negative pressure guide and discharge pipe are symmetrically arranged, and the mixed contact rod, the material guiding side plate, the mounting support supporting plate, the driving motor and the negative pressure guide and discharge pipe are symmetrically arranged about the center position of the communication heat radiation structure, and the first conduction channel and the second conduction channel are designed in an inclined structure.

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

Preferably, the top fixedly connected with second protection riser of extrusion production structure, the side position fixedly connected with first protection riser of second protection riser.

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

s1, combining an extrusion production structure and a communication heat dissipation structure, transmitting heated raw materials to the upper end positions of a first blocking protection plate and a second blocking protection plate, transmitting printing ink to the positions of an extrusion wheel sheet and a driving main shaft rod through a first conical conductive seat and a second conical conductive seat, and driving the extrusion wheel sheet and the driving main shaft rod to rotate through a driving motor so as to realize refinement treatment work;

s2, after reaching the position of the second conducting channel, a user can adjust, change the gap between the first conducting channel and the second conducting channel, achieve the purpose of heat dissipation time control, drive the driving adjusting toothed bar to rotate through driving of the motor, act on the driving adjusting toothed bar and the first connecting adjusting toothed plate, drive the first conducting channel and the second conducting channel to symmetrically operate, limit through the locating block frame, and the lifting adjusting driven bar at the central position can bear and help to support and cooperate;

s3, after that, the printing ink is transmitted through the second conducting channel, the driving motor is started, and drives the mixing contact rod to rotate, so that contact type uniform mixing work is realized, heat dissipation is facilitated, negative pressure guide pipes are used for negative pressure adsorption, heat guide can be performed, after that, the printing ink is conducted to the position of the first conducting channel through the guide side plate, and continuous processing and production are facilitated.

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

according to the invention, through installing the extrusion production structure, the structure arrangement of the extrusion production structure is convenient for carrying out refinement treatment work, realizing extrusion function, realizing refinement treatment work of large particles, better carrying out reproduction work, and through the structure combination of the extrusion production structure and the communication heat dissipation structure, continuous efficient heat dissipation treatment work can be realized, thereby being beneficial to efficient periodical production work, and meanwhile, the connection of the extrusion production structure and the communication heat dissipation structure is convenient for carrying out continuous extrusion conduction work, and better carrying out the purpose of cooperation production.

According to the invention, through the structure arrangement of the communication heat dissipation structure, combined installation work can be performed, the first conduction channel and the second conduction channel in the communication heat dissipation structure can conduct communication work, so that the transmission work of printing ink is realized, and through the structure combination in the communication heat dissipation structure, heat dissipation treatment work is conveniently performed, and the communication heat dissipation treatment phenomenon is better performed.

According to the invention, the first protection vertical plate and the second protection vertical plate are fixedly connected, and are fixed with the extrusion production structure, so that the blocking work of the top position of the extrusion production structure is realized, the purpose of protecting the side part is conveniently realized, the purpose of closed protection connection is realized, and the blocking type 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 that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure 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 view of the extrusion structure of the present invention;

FIG. 5 is a side view of the extrusion structure of the present invention;

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

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

FIG. 8 is a side view of a communicating heat dissipating structure of the present invention;

FIG. 9 is a split view of the heat dissipating structure according to the present invention;

fig. 10 is a schematic structural view 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 separation protection plate, an 8-second separation protection plate, a 9-first conical conduction seat, a 10-second conical conduction seat, an 11-motor, a 12-extrusion wheel sheet, a 13-driving main shaft lever, a 14-first conduction channel, a 15-second conduction channel, a 16-positioning block frame, a 17-combined support plate, an 18-driving adjustment toothed bar, a 19-first connection adjustment toothed plate, a 20-second connection adjustment toothed plate, a 21-lifting adjustment driven bar, a 22-mixed contact bar, a 23-guiding side plate, a 24-mounting support plate, a 25-driving motor, a 26-negative pressure guide tube, a 27-first protection vertical plate and a 28-second protection vertical plate.

Description of the embodiments

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall 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 the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. 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, 2, 3 and 6, an embodiment of the present invention is provided: the utility model provides a processing equipment is used in production of electron membrane printing ink, 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 conducting seat 9, second toper conducting seat 10, motor 11 and extrusion wheel piece 12, motor 11 installs in the inner top position department of extrusion production structure 1, the side position fixedly connected with drive owner axostylus axostyle 13 of motor 11, extrusion wheel piece 12 has been cup jointed to the central point of drive owner axostylus axostyle 13, extrusion wheel piece 12, the upper and lower end symmetry of drive owner axostylus axostyle 13 is equipped with first toper conducting seat 9 and second toper conducting seat 10, through the combination of structure, realize the installation and connect work.

Referring to fig. 4, fig. 5, fig. 6, the extrusion structure 1 further includes a support post base 3, a positioning connection frame 4, a support 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 structure 1, the support leg frame 5 is fixedly connected to the upper end position of the positioning support plate 6, the positioning connection frame 4 is fixedly connected to the upper end position of the support leg frame 5, the support post base 3 is fixedly connected to the upper end position of the positioning connection frame 4, the extrusion structure 1 further includes a first blocking protection plate 7 and a second blocking protection plate 8, the side position of the support post base 3 is fixedly connected with the first blocking protection plate 7, the second blocking protection plate 8 is fixedly connected to the side position of the first blocking protection plate 7, the motor 11 is communicated with the second blocking protection plate 8, the motor 11 drives the extrusion wheel 12 and the driving main shaft 13 to rotate and connect inside the first blocking protection plate 7 and the second blocking protection plate 8, the extrusion wheel 12 on the driving main shaft 13 is symmetrically disposed, the extrusion wheel 12 is symmetrically distributed, the support post base 3, the positioning connection frame 4, the positioning connection frame 5 and the support plate 6 are conveniently connected.

The first conical conductive seat 9 and the second conical conductive seat 10 are arranged in a conical structure, the first conical conductive seat 9 and the second conical conductive seat 10 are fixedly connected with the first blocking protection plate 7 and the second blocking protection plate 8, and the ink transmission task is better carried out through the arrangement of the structure.

The first conical conductive seat 9 and the second conical conductive seat 10 are provided with two, a gap is arranged between the first conical conductive seat 9 and the second conical conductive seat 10 at the bottom position, and the gap is communicated with the communicating heat dissipation structure 2, and the conducting communication work is realized through the gap.

Referring to fig. 7 and 8, the communication heat dissipation structure 2 includes a first conduction path 14, a second conduction path 15, a positioning block frame 16 and a combined support plate 17, the first conduction path 14 is arranged at the lower position of the inner end of the communication heat dissipation structure 2, the second conduction path 15 is arranged at the upper end of the first conduction path 14, the upper end of the second conduction path 15 is slidably connected with the positioning block frame 16, the combined support plate 17 is fixedly connected at the side position of the positioning block frame 16, the communication heat dissipation structure 2 further includes a driving adjustment toothed bar 18, a first connection adjustment toothed bar 19, a second connection adjustment toothed bar 20 and a lifting adjustment driven bar 21, the lower end of the second conduction path 15 is fixedly connected with the first connection adjustment toothed bar 19, the upper end of the first conduction path 14 is fixedly connected with the second connection adjustment toothed bar 20, the first connection adjustment toothed bar 19 and the second connection adjustment toothed bar 20 are engaged and connected with the central position of the second connection adjustment toothed bar 20, a lifting adjustment driven bar 21 is arranged between the side parts of the first conduction path 14 and the second conduction path 15, the lifting adjustment driven bar 21 and the first conduction block body 14 and the second conduction block body 16 are slidably connected with the first connection toothed bar 16 through the first conduction path 16, the lifting adjustment toothed bar 21 and the second conduction block body 16 are slidably connected with the first connection toothed bar 16, the lifting adjustment toothed bar is realized, and the lifting adjustment toothed bar 21 is fixedly connected with the lifting adjustment toothed bar 16, and the lifting adjustment toothed bar is convenient to realize the lifting adjustment toothed bar and the lifting adjustment driven bar is connected.

Referring to fig. 9, the heat dissipation structure 2 further includes a hybrid contact bar 22, a material guiding side plate 23, a mounting support plate 24, a driving motor 25 and a negative pressure pipe 26, the mounting support plate 24 is fixedly connected to the upper end of the second conductive path 15, the driving motor 25 is mounted at the upper end of the mounting support plate 24, the lower end of the driving motor 25 is fixedly connected to the hybrid contact bar 22 through the mounting support plate 24, the negative pressure pipe 26 is mounted at 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 conductive path 15, the hybrid contact bar 22, the material guiding side plate 23, the mounting support plate 24, the driving motor 25 and the negative pressure pipe 26 are symmetrically arranged with respect to the center of the heat dissipation structure 2, the first conductive path 14, the second conductive path 15 adopts an inclined structure design, the hybrid contact bar 22, the material guiding side plate 23, the mounting support plate 24, the driving motor 25 and the negative pressure pipe 26 are arranged, and the heat dissipation structure can be combined.

A motor is arranged at the side end of the driving and adjusting toothed bar 18 and is fixedly connected with the lower part 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 communication heat dissipation structure 2, transmitting heated raw materials to the upper end positions of a first blocking protection plate 7 and a second blocking protection plate 8, transmitting printing ink to the positions of an extrusion wheel sheet 12 and a driving main shaft rod 13 through a first conical conductive seat 9 and a second conical conductive seat 10, and driving the extrusion wheel sheet 12 and the driving main shaft rod 13 to rotate through a driving motor 11, so as to realize refinement treatment work;

s2, after reaching the position of the second conducting channel 15, a user can adjust, change the gap between the first conducting channel 14 and the second conducting channel 15, realize the purpose of heat dissipation time control, drive the driving adjusting toothed bar 18 to rotate through the driving of the motor, act on the driving adjusting toothed bar 18 and the first connecting adjusting toothed plate 19, drive the first conducting channel 14 and the second conducting channel 15 to symmetrically operate, limit the first conducting channel 14 and the second conducting channel 15 through the positioning block frame 16, and carry the lifting adjusting driven bar 21 at the central position to help to support and cooperate;

s3, after that, the printing ink is transmitted through the second conducting channel 15, the driving motor 25 is started, the driving motor 25 drives the mixing contact rod 22 to rotate, contact type uniform mixing work is realized, heat dissipation is assisted, negative pressure guide and discharge pipes 26 are used for negative pressure adsorption, heat can be conducted and discharged, and after that, the printing ink is conducted to the position of the first conducting channel 14 through the material guiding side plate 23, and continuous processing and production are assisted.

In the implementation of the embodiment, the bottom supporting work is realized through the positioning supporting plate 6, the upper end of the positioning supporting plate 6 is fixed with the positioning connecting frame 4 and the supporting leg frame 5, the connection of the supporting column seat 3 can be realized, the bearing connection work of the supporting column seat 3 is realized, the first blocking protection plate 7 and the second blocking protection plate 8 work through the connection with the supporting column seat 3, the internal processing work is realized, the processing production environment is provided, the structure setting of the first conical conductive seat 9 and the second conical conductive seat 10 is convenient for conducting work, the efficient continuous conduction purpose is realized, the ink transmission work is convenient for carrying out, the motor 11 can drive, the extrusion wheel sheet 12 and the driving main shaft rod 13 are driven to rotate, the thinning processing work of graphite is realized, the symmetrical extrusion is realized through the structure setting of the extrusion wheel sheet 12, the first conduction channel 14 and the second conduction channel 15 are symmetrically arranged, can carry out transmission work, adopt double-pass arrangement, increase transportation time, be more beneficial to heat dissipation, the positioning block frame 16 and the combined support plate 17 are fixed, the combined support plate 17 can support the bottoms of the first blocking protection plate 7 and the second blocking protection plate 8, realize fixed bearing work, the positioning block frame 16 can realize limit supporting work of the first conduction channel 14 and the second conduction channel 15, the driving adjustment toothed bar 18 can be driven by a motor, the driving adjustment toothed bar 18 is driven to rotate, acts on the first connection adjustment toothed plate 19 and the second connection adjustment toothed plate 20, the first connection adjustment toothed plate 19 and the second connection adjustment toothed plate 20 drive the first conduction channel 14 and the second conduction channel 15 to carry out operation adjustment work, the setting of lift adjustment driven lever 21 can carry out first conduction way 14, the center of second conduction way 15 bears, and lift adjustment driven lever 21 is connected with the lower part of locating piece frame 16, realize spacing installation, first conduction way 14, the both ends position at lift adjustment driven lever 21 is connected to second conduction way 15, can carry out flexible regulation on lift adjustment driven lever 21, the upper end of second conduction way 15 realizes the support work of driving motor 25 through the installation support fagging 24, driving motor 25 drives, can drive mixed contact stick 22 and rotate, realize the contact with printing ink, help to carry out the heat dissipation work of contacting, negative pressure guide pipe 26 communicates with external negative pressure pump drainage machine, carry out ventilation heat dissipation work, printing ink can reach first conduction way 14 position department through guide curb plate 23, realize retransmission work.

Example 2

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

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

Working principle: the user combines the extrusion production structure 1 and the communication heat dissipation structure 2, the extrusion production structure 1 is combined and arranged through the supporting column seat 3, the positioning connecting frame 4, the supporting leg frame 5 and the positioning supporting plate 6, the positioning supporting plate 6 realizes the supporting work at the bottom, the upper end of the positioning supporting plate 6 is fixed with the positioning connecting frame 4 and the supporting leg frame 5, the connection of the supporting column seat 3 can be carried out, the bearing connection work of the supporting column seat 3 is realized, the extrusion production structure 1 is also combined and arranged through the first blocking protection plate 7 and the second blocking protection plate 8, the first blocking protection plate 7 and the second blocking protection plate 8 are connected and arranged through the connection with the supporting column seat 3, the internal processing work is realized, the processing production environment is provided, the extrusion production structure 1 is also combined and arranged through the first conical conductive seat 9, the second conical conductive seat 10, the motor 11, the extrusion wheel piece 12 and the driving main shaft rod 13, the structure of the first conical conductive seat 9 and the second conical conductive seat 10 is convenient for conducting, realizing the purpose of high-efficiency continuous conduction, being convenient for conducting ink, the motor 11 can drive, the motor 11 drives the extrusion wheel sheet 12 and the driving main shaft rod 13 to rotate, realizing the refined processing work of graphite, realizing the refined extrusion production work, realizing symmetrical extrusion through the structure of the extrusion wheel sheet 12, better conducting production work, communicating the heat dissipation structure 2, combining the heat dissipation structure through the first conductive channel 14, the second conductive channel 15, the positioning block frame 16 and the combined support plate 17, symmetrically arranging the first conductive channel 14 and the second conductive channel 15, being capable of conducting the transmission work, adopting the double-pass arrangement, prolonging the transportation time, being more beneficial to heat dissipation, fixing the positioning block frame 16 and the combined support plate 17, the combined support plate 17 can support the bottoms of the first baffle protection plate 7 and the second baffle protection plate 8 to realize fixed bearing work, the positioning block frame 16 can realize limit supporting work of the first conduction channel 14 and the second conduction channel 15, the communicating radiating structure 2 is also arranged in a combined way through the driving 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, the driving adjusting toothed bar 18 can be driven by a motor to drive the driving adjusting toothed bar 18 to rotate, the driving adjusting toothed bar 18 acts on the first connecting adjusting toothed bar 19 and the second connecting adjusting toothed bar 20 to drive the first conduction channel 14 and the second conduction channel 15 to operate and adjust work, the lifting adjusting driven bar 21 can carry out central bearing of the first conduction channel 14 and the second conduction channel 15, the lifting adjusting driven rod 21 is connected with the lower part of the positioning block frame 16 to realize limit installation, the first conducting channel 14 and the second conducting channel 15 are connected at the two ends of the lifting adjusting driven rod 21, can be telescopically adjusted on the lifting adjusting driven rod 21, the communicating heat dissipation structure 2 is further arranged in a combined way through the mixed contact rod 22, the material guiding side plate 23, the mounting supporting plate 24, the driving motor 25 and the negative pressure guiding and discharging tube 26, the upper end of the second conducting channel 15 realizes the supporting work of the driving motor 25 through the mounting supporting plate 24, the driving motor 25 drives the mixed contact rod 22 to rotate to realize the contact with ink to help to carry out the contact heat dissipation work, the negative pressure guiding and discharging tube 26 is communicated with an external negative pressure pumping and discharging machine to carry out ventilation heat dissipation work, and the ink can reach the position of the first conducting channel 14 through the material guiding side plate 23, realizing retransmission work, when a user needs to use, combining the extrusion production structure 1 and the communication heat dissipation structure 2, transmitting heated raw materials to the upper end positions of the first separation protection plate 7 and the second separation protection plate 8, conducting ink to the extrusion wheel sheet 12 and the driving main shaft rod 13 through the first conical guide seat 9 and the second conical guide seat 10, driving the extrusion wheel sheet 12 and the driving main shaft rod 13 to rotate through the driving motor 11 by the motor 11, realizing refinement treatment work, reaching the position of the second conduction channel 15, adjusting by the user, changing the gap between the first conduction channel 14 and the second conduction channel 15, realizing the purpose of heat dissipation time control, driving the driving adjusting toothed bar 18 to rotate through the driving of the motor, the ink is acted on the driving adjusting toothed bar 18 and the first connecting adjusting toothed plate 19, the first conducting channel 14 and the second conducting channel 15 can be driven to symmetrically run, the first conducting channel 14 and the second conducting channel 15 are limited by the positioning block frame 16, the lifting adjusting driven bar 21 at the central position can bear the weight of the ink to help support the matching purpose, then the ink is transmitted by the second conducting channel 15, the driving motor 25 is started, the driving motor 25 drives the mixing contact bar 22 to rotate, contact type uniform mixing work is realized, heat dissipation is helped, the negative pressure conducting channel 26 is used for negative pressure adsorption, heat conduction can be carried out, and then the ink is conducted to the position of the first conducting channel 14 by the conducting side plate 23 to help continuous processing production, and work is completed.

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

Claims (6)

1. Processing equipment is used in production of electron membrane printing ink, including extrusion production structure (1) and intercommunication heat radiation structure (2), its characterized in that: the extrusion production structure is characterized in that a communication heat dissipation structure (2) is communicated at the lower end position of the extrusion production structure (1), the extrusion production structure (1) comprises a first conical conductive seat (9), a second conical conductive seat (10), a motor (11) and an extrusion wheel piece (12), the motor (11) is arranged at the top position of the inner end of the extrusion production structure (1), a driving main shaft lever (13) is fixedly connected at the side end position of the motor (11), the extrusion wheel piece (12) is sleeved at the central position of the driving main shaft lever (13), and the first conical conductive seat (9) and the second conical conductive seat (10) are symmetrically arranged at the upper end and the lower end of the extrusion wheel piece (12) and the upper end and the lower end of the driving main shaft lever (13);

the extrusion production structure (1) further comprises a supporting column seat (3), a positioning connecting frame (4), supporting leg frames (5) and a positioning supporting plate (6), the positioning supporting plate (6) is arranged at the bottom position of the inner end of the extrusion production structure (1), the supporting leg frames (5) are fixedly connected to the upper end positions of the positioning supporting plate (6), the positioning connecting frame (4) is fixedly connected to the upper end positions of the supporting leg frames (5), the supporting column seat (3) is fixedly connected to the upper end positions of the positioning connecting frame (4), the extrusion production structure (1) further comprises a first blocking protection plate (7) and a second blocking protection plate (8), the side end positions of the supporting column seat (3) are fixedly connected with the first blocking protection plate (7), the second blocking protection plate (8) is fixedly connected to the side end positions of the first blocking protection plate (7), the motor (11) and the second blocking protection plate (8) are communicated, and the motor (11) drives extrusion wheel pieces (12), a driving wheel (13) and a driving wheel (13) are symmetrically distributed on the first blocking protection plate (7) and the second blocking protection plate (8), and the driving wheel pieces (13) are symmetrically distributed on the driving wheel pieces (12) in the extrusion protection plate;

the first conical conductive seat (9) and the second conical conductive seat (10) are arranged in a conical structure, and the first conical conductive seat (9) and the second conical conductive seat (10) are fixedly connected with the first blocking protection plate (7) and the second blocking protection plate (8);

the two first conical conductive seats (9) and the two second conical conductive seats (10) are arranged, gaps are arranged between the first conical conductive seats (9) and the second conical conductive seats (10) at the bottom positions, and the gaps are communicated with the communicating heat dissipation structure (2);

the utility model provides a heat dissipation structure (2) of intercommunication includes first conduction way (14), second conduction way (15), locating piece frame (16) and combination backplate (17), first conduction way (14) are established in the interior lower part position department of intercommunication heat dissipation structure (2), the upper end of first conduction way (14) is equipped with second conduction way (15), the upper end position and locating piece frame (16) of second conduction way (15) are sliding connection mutually, the side position department fixedly connected with combination backplate (17) of locating piece frame (16), intercommunication heat dissipation structure (2) still include drive regulation toothed bar (18), first connection regulation toothed bar (19), second connection regulation toothed bar (20) and lift adjustment driven bar (21), the lower extreme fixedly connected with first connection regulation toothed bar (19) of second conduction way (15), the upper end position fixedly connected with second connection regulation toothed bar (20) of first conduction way (14), first connection regulation toothed bar (19), second connection regulation toothed bar (20) are connected with the side position department of first connection toothed bar (21), first connection toothed bar (14) and lift adjustment toothed bar (21), the driven bar (14) are equipped with between the drive regulation toothed bar (21) The second conductive paths (15) are connected by blocks.

2. The processing apparatus for producing electronic membrane ink according to claim 1, wherein: the second conduction channel (15) is in sliding connection with the positioning block frame (16) through a block body, the first conduction channel (14) is in sliding connection with the positioning block frame (16) through a block body, and the center of the lifting adjusting driven rod (21) is fixed with the positioning block frame (16).

3. The processing apparatus for producing an electronic membrane ink according to claim 2, wherein: the utility model discloses a heat dissipation structure, including heat dissipation structure (2), heat dissipation structure is connected to the second conduction way (15), heat dissipation structure (2) is connected through the second conduction way (14) and is connected with heat dissipation structure (14) through heat dissipation structure (14), heat dissipation structure (2) is connected with heat dissipation structure (2) and is connected with heat dissipation structure (22) through heat dissipation structure (24), material guiding side board (23), installation support fagging (24), driving motor (25) and negative pressure guide row pipe (26), the bottom position department fixedly connected with material guiding side board (23) of second conduction way (15), material guiding side board (23), installation support fagging (24), driving motor (25), negative pressure guide row pipe (26) adopt the symmetry to set up, and material guiding side board (23), installation support fagging (24), driving motor (25), negative pressure guide row pipe (26) are connected with heat dissipation structure (2) with heat dissipation structure (14) about the center upper end position of installation support fagging (24).

4. A processing apparatus for producing an electronic membrane ink according to claim 3, characterized in that: the side end of the driving and adjusting toothed bar (18) is provided with a motor which is fixedly connected with the lower part of the positioning block frame (16).

5. The processing apparatus for producing an electronic membrane ink according to claim 4, wherein: the top of extrusion production structure (1) fixedly connected with second protection riser (28), the side position of second protection riser (28) fixedly connected with first protection riser (27).

6. The process of the processing equipment for producing the electronic membrane ink according to claim 5, comprising the following steps:

s1, combining an extrusion production structure (1) and a communication heat dissipation structure (2), transmitting heated raw materials to the upper end positions of a first blocking protection plate (7) and a second blocking protection plate (8), transmitting printing ink to the positions of an extrusion wheel sheet (12) and a driving main shaft rod (13) through a first conical conductive seat (9) and a second conical conductive seat (10), and driving the extrusion wheel sheet (12) and the driving main shaft rod (13) to rotate through a driving motor (11), so as to realize refinement treatment work;

s2, after reaching the position of the second conducting channel (15), a user can adjust, the gap between the first conducting channel (14) and the second conducting channel (15) is changed, the purpose of heat dissipation time control is achieved, the motor is used for driving the driving adjusting toothed bar (18) to rotate, the motor is used for driving the driving adjusting toothed bar (18) and the first connecting adjusting toothed plate (19), the first conducting channel (14) and the second conducting channel (15) can be driven to symmetrically operate, the first conducting channel (14) and the second conducting channel (15) are limited through the positioning block frame (16), the lifting adjusting driven bar (21) at the central position can bear the load, and the purpose of supporting and matching is facilitated;

s3, after that, the printing ink is transmitted through the second conducting channel (15), the driving motor (25) is started, the driving motor (25) drives the mixed contact rod (22) to rotate, contact type uniform mixing work is realized, heat dissipation is facilitated, negative pressure guide and discharge pipes (26) are used for negative pressure adsorption, heat can be conducted, after that, the printing ink is conducted to the position of the first conducting channel (14) through the material guide side plate (23), and continuous processing production is facilitated.

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