CN116273640A - Spraying drying device for processing automobile air inlet grille - Google Patents

Abstract

The invention is suitable for the technical field of spray drying, and provides a spray drying device for processing an automobile air inlet grille, which comprises a main shell, a shell door arranged on the outer wall of the main shell, and an observation window arranged on one side of the shell door; the clamping assembly comprises a clamping motor, a rotating shaft arranged at the output end of the clamping motor, a coupler sleeved on the rotating shaft, a clamping cylinder arranged at one end of the rotating shaft far away from the clamping motor, and a clamping piece arranged at one end of the clamping cylinder far away from the rotating shaft; the drying component comprises a preheating chamber, a U-shaped panel arranged at one side of the preheating chamber, and an electric heating wire arranged on the U-shaped panel and the side wall of the main shell; the shell component distributes the spraying and drying processes in the similar space, so that the time for manually carrying and transferring the air inlet grille is reduced, and the semi-closed space is favorable for drying the air inlet grille by the drying component, so that the drying efficiency is improved, the condition that the air inlet grille is heated unevenly is avoided, and the product quality of the air inlet grille is improved.

Description

Spraying drying device for processing automobile air inlet grille

Technical Field

The invention relates to the technical field of spray drying, in particular to a spray drying device for processing an automobile air inlet grille.

Background

The air inlet grille, also called front face, ghost face, water tank cover and the like, is mainly used for air inlet ventilation of a water tank, an engine, an air conditioner and the like, prevents foreign matters from damaging internal parts of a carriage in the driving process, decorates the front face of the carriage, shows individuality, and is called family face books in many brands at present, namely the air inlet grille of the automobile.

In the prior art, the processing flow of the air inlet grille is to spray and dry firstly, then enter the next working procedure, however, in the spraying and drying process, the air inlet grille is placed on a running water frame for processing, the spraying and drying dead angle is avoided, the spraying and drying are needed again after the direction is manually changed, and in the drying process, the air inlet grille can be heated unevenly due to the change of temperature, so that the production quality of the air inlet grille is affected, and therefore, the spraying and drying device for processing the air inlet grille of an automobile is provided to improve the existing problems.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a spraying and drying device for processing an automobile air inlet grille.

In order to achieve the above purpose, the present invention provides the following technical solutions: a spray-coating and drying device for processing an automobile air inlet grille comprises a shell component, a clamping component and a drying component; the shell assembly comprises a main shell, a shell door arranged on the outer wall of the main shell, and an observation window arranged on one side of the shell door; the clamping assembly is arranged in the main shell and comprises a clamping motor, a rotating shaft arranged at the output end of the clamping motor, a coupler sleeved on the rotating shaft, a clamping cylinder arranged at one end of the rotating shaft far away from the clamping motor, and a clamping piece arranged at one end of the clamping cylinder far away from the rotating shaft; the drying assembly is arranged on one side of the spraying assembly and comprises a preheating chamber, a U-shaped panel arranged on one side of the preheating chamber and an electric heating wire arranged on the U-shaped panel and the side wall of the main shell.

The invention is further provided with: the top end of the main shell is closed, and the bottom end of the main shell is open; the side wall of the axial direction of the main shell is symmetrically provided with a through hole, the through hole comprises a feeding hole and a discharging hole, and the shapes and the sizes of the feeding hole and the discharging hole are equal.

The invention is further provided with: a dividing plate is arranged in the axial direction of the main shell and divides the main shell into a first space and a second space; the shape size of the first space is equal to that of the second space, the feeding hole and the clamping assembly are distributed in the first space, the discharging hole and the drying assembly are distributed in the second space, a preheating through groove is formed in one end of the dividing plate, and the preheating through groove can be matched and inserted into the outer wall of the preheating chamber.

The invention is further provided with: the top of main casing is provided with the lift cylinder in the first space, the flexible end of lift cylinder is provided with the lifter plate, one side that the lifter plate kept away from the lift cylinder is provided with the connecting rod, the one end that the lifter plate was kept away from to the connecting rod is provided with the spraying jar, the spraying jar can set up the multiunit.

The invention is further provided with: a main sliding rail is arranged in the main shell, secondary sliding rails are symmetrically arranged at two ends of the main sliding rail, and one end of each secondary sliding rail, which is far away from the main sliding rail, extends out of the main shell through a feed inlet and a discharge outlet; the main sliding rail is oval, the main sliding rail can be connected to the first space and the second space through the preheating through groove, a sliding table is arranged on the secondary sliding rail, the secondary sliding rail is in sliding connection with the sliding table, and the track width of the main sliding rail is equal to that of the secondary sliding rail.

The invention is further provided with: the top of the sliding table is also provided with a turnover module; the overturning module comprises a base, a tripod, a rotator, an overturning plate and an overturning motor, wherein the tripod is symmetrically arranged at the top of the base in the radial direction, the rotator is arranged at the top of the tripod, the overturning plate is arranged in the middle of the rotator, the overturning motor is arranged at one end, far away from the overturning plate, of the rotator, and the distance between the tripods is not smaller than the width of an air inlet grille.

The invention is further provided with: the top of the turnover plate is provided with a first support plate, one side of the first support plate, which is far away from the turnover plate, is provided with a support column, one end of the support column, which is far away from the first support plate, is provided with a second support plate, the top of the second support plate is provided with a connecting hole, and the outer wall of the coupler can be matched and inserted into the connecting hole; the clamping cylinder is characterized in that a movable groove is symmetrically formed in the top of the radial direction of the clamping cylinder, a movable sliding rail is arranged in the movable groove, a movable strip is arranged on one side, away from the movable groove, of the movable sliding rail, a jogging groove is formed in the top of the movable strip, the clamping piece can be matched and inserted into the jogging groove, and the movable strip is L-shaped.

The invention is further provided with: the clamping piece comprises clamping pipes symmetrically arranged at the top of the movable strip in the radial direction, connecting pipes sleeved on the clamping pipes and clamping blocks arranged on the side walls of the clamping pipes; the side wall of the connecting pipe can be matched and inserted into the embedded groove, a driving wheel is sleeved on the side wall of the clamping pipe away from the clamping block, a driving belt is sleeved in the middle of the driving wheel, a limit motor is arranged at one end of the clamping pipe, a limit block is arranged at one end of the clamping pipe away from the limit motor, and the clamping pipe can penetrate through a gap of the air inlet grille and is connected with the limit block.

The invention is further provided with: the top end of the preheating chamber is closed, the bottom end of the preheating chamber is open, and the side walls at the two ends of the preheating chamber are provided with conveying openings; the top of the preheating chamber in the second space is provided with an air supply groove, fans are arranged in the air supply groove, and a plurality of groups of fans can be arranged.

The invention is further provided with: the inner wall of the main shell is also provided with a trigger piece which is symmetrically arranged relative to the partition plate, and the trigger piece comprises a fixed rod, a fixed ring arranged at one end of the fixed rod far away from the main shell, and a rotating plate arranged at one side of the fixed ring; the rotating plate is provided with a rotating groove on the side wall of the fixed ring, the fixed ring is internally provided with a rotating rod, two ends of the rotating rod can be connected in the rotating groove, one side of the rotating plate is provided with a compression column, a compression spring is sleeved on the compression column, the inner wall of the main shell is provided with an induction key, one end of the compression spring is connected with the side wall of the rotating plate, the other end of the compression spring is connected with the inner wall of the main shell, one end of the compression column is connected with the side wall of the rotating plate, and the other end of the compression column is used for touching the induction key.

The invention has the advantages that:

1. the shell component distributes the spraying and drying processes in a similar space, so that the time for manually carrying and transferring the air inlet grille is reduced, and the semi-closed space is favorable for the drying component to dry the air inlet grille, so that the drying efficiency is improved, the condition that the air inlet grille is heated unevenly is avoided, and the product quality of the air inlet grille is improved; the clamping assembly clamps the air inlet grille in a transposition way, so that spraying and drying dead angles are avoided, and the production time is saved; and the drying component provides low to high temperature for the air inlet grille, so that the air inlet grille is heated uniformly, and the phenomenon of bonding caused by excessive heating is avoided.

2. The preheating chamber provides a preheating space for the air inlet grille, so that the drying temperature of the air inlet grille is changed from low to high, the air inlet grille is heated uniformly, the phenomenon of excessive heating and bonding is avoided, the drying efficiency is improved, and the product quality of the air inlet grille is improved; and through the cooperation of U type panel and electric heater strip, with the travel route laminating design of air inlet grille, further be favorable to air inlet grille's even heating, and then improved the efficiency of stoving, and then further improved air inlet grille's product quality.

3. The design of the partition plate is used for independently separating the spraying process from the drying process, so that safe and stable operation of the two processes is facilitated, and the partition plate is made of a heat-insulating material, so that the influence on the spraying effect due to the fact that the temperature of drying permeates into the spraying process is avoided; and the feed inlet distributes in first space, and the discharge gate distributes in the second space for the feed inlet and the discharge gate of air inlet grille separate alone, each do not influence the operation.

Drawings

FIG. 1 is a schematic view of the overall structure of a housing assembly according to the present invention;

FIG. 2 is a schematic top view of the partition plate, the main rail, the sub rail, the first space and the second space according to the present invention;

FIG. 3 is a schematic view of the overall structure of the drying assembly according to the present invention;

FIG. 4 is a schematic side view of a clamping assembly according to the present invention;

FIG. 5 is a schematic view showing the overall structure of the dividing plate according to the present invention;

FIG. 6 is a schematic diagram of the overall structure of the flipping module according to the present invention;

FIG. 7 is an exploded view of the clamping assembly of the present invention;

FIG. 8 is a schematic view of the overall structure of the moving slot, the moving rail, the moving bar and the engaging slot of the clamping assembly according to the present invention;

FIG. 9 is a schematic view of the overall structure of the lifting cylinder, lifting plate, connecting rod and spray can of the present invention;

FIG. 10 is a schematic view of the overall structure of the trigger of the present invention;

FIG. 11 is a cross-sectional view of the main housing of the present invention;

in the figure: 100. a housing assembly; 101. a main housing; 101a, a port; 101a-1, a feed inlet; 101a-2, a discharge port; 102. a shell door; 103. an observation window; 104. a dividing plate; 104a, a first space; 104a-1, lifting cylinder; 104a-2, lifting plate; 104a-3, connecting rods; 104a-4, spray cans; 104b, a second space; 104c, preheating the through groove; 105. a main slide rail; 106. a secondary slide rail; 107. a sliding table; 200. a clamping assembly; 201. clamping the motor; 202. a rotating shaft; 203. a coupling; 204. a clamping cylinder; 204a, a moving trough; 204b, moving the slide rail; 204c, moving the bar; 204d, a fitting groove; 205. a clamping member; 205a, clamping the tube; 205b, connecting pipes; 205c, clamping blocks; 205d, a driving wheel; 205e, a transmission belt; 205f, a limit motor; 205g, limiting blocks; 206. a first support plate; 206a, support columns; 206b, a second support plate; 206b-1, connection holes; 300. a drying assembly; 301. a preheating chamber; 301a, a transfer port; 301b, an air supply groove; 301c, a fan; 302. a U-shaped panel; 303. an electric heating wire; 400. a turnover module; 401. a base; 402. a tripod; 403. a rotator; 404. a turnover plate; 405. a turnover motor; 500. a trigger; 501. a fixed rod; 502. a fixing ring; 503. a rotating plate; 503a, a rotating groove; 504. a rotating lever; 505. a compression column; 506. a compression spring; 507. and (5) sensing a key.

Detailed Description

It should be noted that, without conflict, the embodiments and features of the embodiments in the present application may be combined with each other. The invention will be described in detail below with reference to the drawings in connection with embodiments.

It is noted that all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs unless otherwise indicated.

In the present invention, unless otherwise indicated, the terms "upper" and "lower" are used generally with respect to the directions shown in the drawings, or with respect to the vertical, vertical or gravitational directions; also, for ease of understanding and description, "left, right" is generally directed to the left, right as shown in the drawings; "inner and outer" refer to inner and outer relative to the outline of the components themselves, but the above-described orientation terms are not intended to limit the present invention.

Example 1

Referring to fig. 1-11, the present invention provides the following technical solutions:

a spray drying device for processing an automobile air inlet grille comprises a shell assembly 100, a clamping assembly 200 and a drying assembly 300; the spraying and drying processes are distributed in the similar space by the shell assembly 100, so that the time for manually conveying and transferring the air inlet grille is reduced, and the semi-closed space is favorable for the drying assembly 300 to dry the air inlet grille, so that the drying efficiency is improved, the condition that the air inlet grille is heated unevenly is avoided, and the product quality of the air inlet grille is improved; the clamping assembly 200 clamps the air inlet grille in a transposition way, so that the dead angle of spraying and drying is avoided, and the production time is saved; the drying assembly 300 provides a low-to-high temperature for the air inlet grille, so that the air inlet grille is heated uniformly, and the phenomenon of bonding caused by excessive heating is avoided.

Specifically, the housing assembly 100 includes a main housing 101, a housing door 102 disposed on an outer wall of the main housing 101, and a viewing window 103 disposed on one side of the housing door 102.

The whole spraying and drying process is positioned in a semi-closed space by the main shell 101, so that the processing efficiency of spraying and drying of the air inlet grille is improved; the shell door 102 facilitates the access of staff to the main shell 101 for maintenance and debugging; the observation window 103 facilitates the observation of the spraying and drying process by the worker, and prevents the worker from inhaling the sprayed chemical substances.

Specifically, the clamping assembly 200 is disposed in the main housing 101, and includes a clamping motor 201, a rotating shaft 202 disposed at an output end of the clamping motor 201, a coupling 203 sleeved on the rotating shaft 202, a clamping cylinder 204 disposed at an end of the rotating shaft 202 far away from the clamping motor 201, and a clamping piece 205 disposed at an end of the clamping cylinder 204 far away from the rotating shaft 202.

Wherein, centre gripping motor 201 drives axis of rotation 202 rotation to drive through shaft coupling 203 and press from both sides tight cylinder 204 rotatory 180 degrees, make clamping piece 205 centre gripping air inlet grille rotatory 180 degrees, thereby let the another side of air inlet grille carry out the spraying, avoided the manual work to turn over, and then improved air inlet grille's production efficiency.

Specifically, the drying assembly 300 is disposed at one side of the clamping assembly 200, and includes a preheating chamber 301, a U-shaped panel 302 disposed at one side of the preheating chamber 301, and an electric heating wire 303 disposed on the U-shaped panel 302 and a side wall of the main housing 101.

The preheating chamber 301 provides a preheating space for the air inlet grille, so that the drying temperature of the air inlet grille is changed from low to high, the air inlet grille is heated uniformly, the phenomenon of excessive heating and bonding is avoided, the drying efficiency is improved, and the product quality of the air inlet grille is improved; and through the cooperation of U-shaped panel 302 and electric heater strip 303, with the migration route laminating design of air inlet grille, further be favorable to the even heating of air inlet grille, and then improved the efficiency of stoving, and then further improved the product quality of air inlet grille.

Further, the top end of the main casing 101 is closed, and the bottom end is open; the side wall of the main housing 101 in the axial direction M is symmetrically provided with a through hole 101a, the through hole 101a comprises a feed inlet 101a-1 and a discharge outlet 101a-2, and the shape and the size of the feed inlet 101a-1 and the discharge outlet 101a-2 are equal.

The height and width of the feeding port 101a-1 and the discharging port 101a-2 can facilitate the air inlet grille to enter the main casing 101, and the arrangement of the feeding port 101a-1 and the discharging port 101a-2 avoids the air in the main casing 101 from not flowing, which is beneficial to safety.

Further, a dividing plate 104 is provided in the axial direction M of the main casing 101, the dividing plate 104 dividing the main casing 101 into a first space 104a and a second space 104b; the shapes and sizes of the first space 104a and the second space 104b are equal, the feeding port 101a-1 and the clamping assembly 200 are distributed in the first space 104a, the discharging port 101a-2 and the drying assembly 300 are distributed in the second space 104b, a preheating through groove 104c is formed at one end of the dividing plate 104, and the preheating through groove 104c can be matched and inserted into the outer wall of the preheating chamber 301.

The design of the partition plate 104 separately separates the spraying and drying processes, which is beneficial to the safe and stable operation of the two processes, and the partition plate 104 is made of heat-insulating materials, so that the influence of the drying temperature penetrating into the spraying process on the spraying effect is avoided; while the inlet 101a-1 is disposed in the first space 104a and the outlet 101a-2 is disposed in the second space 104b, so that the inlet 101a-1 and the outlet 101a-2 of the grille are separately separated, each of which does not affect operation.

Next, a lifting cylinder 104a-1 is provided at the top of the main housing 101 in the first space 104a, a lifting plate 104a-2 is provided at the telescopic end of the lifting cylinder 104a-1, a connecting rod 104a-3 is provided at one side of the lifting plate 104a-2 away from the lifting cylinder 104a-1, a spray tank 104a-4 is provided at one end of the connecting rod 104a-3 away from the lifting plate 104a-2, and a plurality of groups of spray tanks 104a-4 can be provided.

The telescopic end of the lifting cylinder 104a-1 drives the lifting plate 104a-2 to lift, so that the spraying tank 104a-4 on the connecting rod 104a-3 lifts and sprays the air inlet grille, the spraying area of spraying is increased, the arrangement of the connecting rod 104a-3 and the spraying tank 104a-4 is attached to the moving route of the air inlet grille, the spraying effect is further improved, and the spraying efficiency of the air inlet grille is further improved.

Further, a main sliding rail 105 is arranged in the main casing 101, secondary sliding rails 106 are symmetrically arranged at two ends of the main sliding rail 105, and one end, far away from the main sliding rail 105, of the secondary sliding rail 106 extends out of the main casing 101 through a feeding hole 101a-1 and a discharging hole 101 a-2; the main sliding rail 105 is oval, the main sliding rail 105 can be connected to the first space 104a and the second space 104b through the preheating through groove 104c, the secondary sliding rail 106 is provided with a sliding table 107, the secondary sliding rail 106 is in sliding connection with the sliding table 107, and the track widths of the main sliding rail 105 and the secondary sliding rail 106 are equal.

The main sliding rail 105, the secondary sliding rail 106 and the sliding table 107 penetrate through the whole spraying and drying process, and the elliptical design of the main sliding rail 105 is more attached to the placement of the spraying tank 104a-4 and the electric heating wire 303, so that the spraying and drying efficiency of the air inlet grille is improved, and the quality of the air inlet grille is further improved.

Example two

Referring to fig. 1 to 11, the second embodiment is modified based on the first embodiment, specifically, a turnover module 400 is further disposed on the top of the sliding table 107; the turnover module 400 comprises a base 401, a tripod 402 symmetrically arranged at the top of the base 401 in the radial N direction, a rotator 403 arranged at the top of the tripod 402, a turnover plate 404 arranged in the middle of the rotator 403, and a turnover motor 405 arranged at one end, far away from the turnover plate 404, of the rotator 403, wherein the distance between the tripod 402 is not smaller than the width of the air inlet grille.

The overturning motor 405 is started, and the turner 403 drives the overturning plate 404 to overturn, so that the overturning plate 404 overturns 180 degrees, and an overturning effect is provided for the air inlet grille.

Further, the top of the turnover plate 404 is provided with a first support plate 206, one side of the first support plate 206 away from the turnover plate 404 is provided with a support column 206a, one end of the support column 206a away from the first support plate 206 is provided with a second support plate 206b, the top of the second support plate 206b is provided with a connection hole 206b-1, and the outer wall of the coupling 203 can be inserted into the connection hole 206b-1 in a matching manner.

When the overturning plate 404 overturns, the first supporting plate 206, the supporting column 206a and the second supporting plate 206b also overturns 180 degrees, so that the air inlet grille overturns.

Next, a moving groove 204a is symmetrically formed in the top of the radial direction N of the clamping cylinder 204, a moving slide rail 204b is arranged in the moving groove 204a, a moving bar 204c is arranged on one side, away from the moving groove 204a, of the moving slide rail 204b, a jogging groove 204d is formed in the top of the moving bar 204c, a clamping piece 205 can be inserted into the jogging groove 204d in a matching manner, and the moving bar 204c is in an L shape.

The clamping cylinder 204 is started to slide the moving slide rail 204b in the moving groove 204a, so as to drive the moving bar 204c to approach the air inlet grille, and further enable the clamping piece 205 to clamp the air inlet grille.

Further, the clamping piece 205 comprises a clamping pipe 205a symmetrically arranged at the top of the moving bar 204c along the radial direction N, a connecting pipe 205b sleeved on the clamping pipe 205a, and a clamping block 205c arranged on the side wall of the clamping pipe 205 a; the side wall of the connecting pipe 205b can be inserted in the embedded groove 204d in a matched manner, a driving wheel 205d is sleeved on the side wall, far away from the clamping block 205c, of the clamping pipe 205a, a driving belt 205e is sleeved in the middle of the driving wheel 205d, a limiting motor 205f is arranged at one end of the clamping pipe 205a, a limiting block 205g is arranged at one end, far away from the limiting motor 205f, of the clamping pipe 205a, and the clamping pipe 205a can penetrate through a gap of an air inlet grid to be connected with the limiting block 205g.

Wherein the moving bar 204c approaches the air intake grille, and the connecting pipes 205b matched with the fitting grooves 204d also start to approach each other, so that the clamping pipes 205a and the clamping blocks 205c clamp the air intake grille; when the clamping tube 205a and the clamping block 205c need to pass through the gap of the air inlet grille to clamp the air inlet grille, the limiting motor 205f is started to drive one clamping tube 205a and one driving wheel 205d to start rotating, then the driving belt 205e simultaneously drives the other driving wheel 205d and the other clamping tube 205a to start rotating, the clamping tube 205a and the clamping block 205c rotate by 90 degrees, so that the limiting block 205g also rotates, the clamping tube 205a, the clamping block 205c and the limiting block 205g are aligned with the gap interval of the air inlet grille, the gap interval of the air inlet grille is convenient to enter and exit, the clamping tube 205a and the clamping block 205c are applicable to the long air inlet grille and the wide air inlet grille, the practicability is improved, the design of the limiting block 205g is realized, the air inlet grille is prevented from being greatly inclined when the gravity of the air inlet grille falls, and when the air inlet grille needs to be limited, the limiting motor 205f is started to turn over by 90 degrees in the opposite direction.

Further, the top end of the preheating chamber 301 is closed, the bottom end is opened, and the side walls at two ends of the preheating chamber 301 are provided with a conveying port 301a; the top of the preheating chamber 301 in the second space 104b is provided with an air supply slot 301b, the air supply slot 301b is provided with a fan 301c, and the fans 301c can be provided with a plurality of groups.

When the temperature of the electric heating wire 303 is too high, the temperature of the second space 104b is also increased, and after the heat of the second space 104b reaches a certain value, the heat enters the preheating chamber 301 through the conveying port 301a, so that the air inlet grille is subjected to a low-temperature to high-temperature process, the heating of the air inlet grille is more uniform and reasonable, and the air supply groove 301b is matched with the fan 301c, so that the heat enters the preheating chamber 301 more quickly, the preheating treatment is facilitated on the air inlet grille, the phenomenon of bonding caused by excessive heating is avoided, the drying effect is improved, and the product quality of the air inlet grille is further improved.

Further, the inner wall of the main housing 101 is further provided with a trigger member 500, which is symmetrically arranged with respect to the dividing plate 104, and the trigger member 500 includes a fixing rod 501, a fixing ring 502 disposed at one end of the fixing rod 501 far from the main housing 101, and a rotating plate 503 disposed at one side of the fixing ring 502; wherein, the pivoted slot 503a has been seted up on pivoted plate 503 is close to solid fixed ring 502 lateral wall, be provided with dwang 504 in the solid fixed ring 502, the both ends of dwang 504 can be connected in pivoted slot 503a, one side of pivoted plate 503 is provided with compression post 505, the cover is equipped with compression spring 506 on the compression post 505, the inner wall of main casing 101 is provided with the inductive key 507, compression spring 506's one end is connected in pivoted plate 503's lateral wall, the other end is connected in main casing 101's inner wall, compression post 505's one end is connected in pivoted plate 503's lateral wall, the other end is used for touching inductive key 507.

After the sliding table 107 drives the clamping assembly 200 and the clamping piece 205 on the turnover module 400 to slide onto the main sliding rail 105, in the sliding process, the tripod 402 touches and extrudes the rotating plate 503, then the rotating plate 503 deflects, the compression spring 506 is extruded, on one hand, the rotating plate 503 extrudes the compression column 505 towards the main shell 101, after touching the induction key 507, the clamping motor 201 is started, the clamping motor 201 drives the rotating shaft 202 to rotate, and drives the clamping cylinder 204 to rotate 180 degrees through the coupling 203, so that the clamping piece 205 clamps the air inlet grille to rotate 180 degrees, the other surface of the air inlet grille is sprayed, manual turnover is avoided, further the production efficiency of the air inlet grille is improved, on the other hand, after the tripod 402 passes through the rotating plate 503, the elastic acting force of the compression spring 506 rebounds the rotating plate 503, the rotating plate 503 returns to the original position, and the compression column 505 is separated from the induction key 507, so that the circulation is repeated, and the next deflection and touch are facilitated.

The rest of the structure is the same as that of the first embodiment.

Referring to fig. 1 to 11, before spray drying, a worker vertically places the gap interval of the air inlet grille, on one hand, the limiting motor 205f is started to drive one clamping tube 205a and one driving wheel 205d to start rotating, then the driving belt 205e simultaneously drives the other driving wheel 205d and the other clamping tube 205a to start rotating, the clamping tube 205a and the clamping block 205c rotate by 90 degrees, so that the limiting block 205g also rotates, the clamping tube 205a, the clamping block 205c and the limiting block 205g are vertically aligned with the gap interval of the air inlet grille, the worker clamps the gap at the lowest position of the air inlet grille on the two clamping tubes 205a, the limiting motor 205f is started again, the limiting block 205g is reversely turned by 90 degrees, the air inlet grille is transversely placed to block and limit, and the limiting block 205g contacts with the grid bars of the air inlet grille.

On the other hand, the clamping cylinder 204 is started, and the moving slide rail 204b slides in the moving groove 204a, so that the moving strips 204c on two sides are driven to approach the grid strips of the air inlet grille, and the clamping pipe 205a and the clamping block 205c clamp the grid strips of the air inlet grille.

Next, the sliding table 107 drives the turnover module 400, the clamping assembly 200 and the clamping piece 205 to slide on the secondary sliding rail 106, after the sliding table slides on the primary sliding rail 105, the tripod 402 touches and presses the rotating plate 503, then the rotating plate 503 deflects, the compression spring 506 is pressed, the rotating plate 503 presses the compression column 505 towards the main casing 101, after touching the induction key 507, on one hand, the clamping motor 201 is started, the clamping motor 201 drives the rotating shaft 202 to rotate, and drives the clamping cylinder 204 to rotate 180 degrees through the coupling 203, so that the clamping piece 205 clamps the air inlet grille to rotate 180 degrees, and the other face of the air inlet grille is sprayed.

On the other hand, the clamping cylinder 204 is started, the movable sliding rail 204b slides in the movable groove 204a to drive the movable strips 204c on two sides to keep away from the strips of the air inlet grille, so that the clamping pipe 205a and the clamping block 205c loosen the strips of the air inlet grille, the air inlet grille falls downwards under the gravity of the air inlet grille, the air inlet grille is not easy to incline due to the limit of the limiting block 205g, and when falling into a gap at the highest position, the clamping cylinder 204 is started again, so that the clamping pipe 205a and the clamping block 205c clamp the strips of the air inlet grille.

When the tripod 402 passes through the rotating plate 503, the elastic force of the compression spring 506 rebounds the rotating plate 503, the rotating plate 503 returns to the original position, and the compression column 505 leaves the sensing key 507, so that the repeated circulation is performed, so that the next offset and touch are facilitated.

Subsequently, the air inlet grille enters the preheating chamber 301, on the one hand, the fan 301c transmits the heat of the second space 104b into the preheating chamber 301 to preheat the air inlet grille, on the other hand, when the heat of the second space 104b reaches a certain value, the heat is transmitted into the preheating chamber 301 through the transmission port 301a to preheat the air inlet grille, meanwhile, a temperature sensor (shown in the figure) in the turnover motor 405 senses temperature change, the turnover motor 405 is started, and the turnover plate 404 is driven to turn through the rotator 403, so that the turnover plate 404 turns 180 degrees, and the whole clamping assembly 200, the clamping piece 205 and the air inlet grille are driven to turn 180 degrees.

Finally, the air inlet grille enters the second space 104b, at the moment, the highest position of the clamping air inlet grille is turned to the lowest position, the U-shaped panel 302 and the electric heating wire 303 on the main shell 101 are used for drying and heating the air inlet grille, after the air inlet grille slides onto the main sliding rail 105, the tripod 402 is touched and pressed to the rotating plate 503, then the rotating plate 503 is offset, the compression spring 506 is pressed, the rotating plate 503 presses the compression column 505 to the main shell 101, after the induction key 507 is touched, the clamping motor 201 is started on one hand, the clamping motor 201 drives the rotating shaft 202 to rotate, and the clamping cylinder 204 is driven to rotate 180 degrees through the coupler 203, so that the clamping piece 205 clamps the air inlet grille to rotate 180 degrees, and the other surface of the air inlet grille is dried.

On the other hand, the clamping cylinder 204 is started, the movable sliding rail 204b slides in the movable groove 204a to drive the movable strips 204c on two sides to keep away from the strips of the air inlet grille, so that the clamping pipe 205a and the clamping block 205c loosen the strips of the air inlet grille, the air inlet grille falls downwards under the gravity of the air inlet grille, the air inlet grille is not easy to incline due to the limit of the limiting block 205g, and when falling into a gap at the highest position, the clamping cylinder 204 is started again, so that the clamping pipe 205a and the clamping block 205c clamp the strips of the air inlet grille.

When the tripod 402 passes through the rotating plate 503, the elastic force of the compression spring 506 rebounds the rotating plate 503, the rotating plate 503 returns to the original position, and the compression column 505 leaves the sensing key 507, so that the repeated circulation is performed, so that the next offset and touch are facilitated.

It will be apparent that the embodiments described above are merely some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

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 such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a spraying drying device is used in processing of car air inlet grille which characterized in that: comprising the steps of (a) a step of,

a housing assembly (100) comprising a main housing (101), a housing door (102) provided on an outer wall of the main housing (101), and an observation window (103) provided on one side of the housing door (102);

the clamping assembly (200) is arranged in the main shell (101) and comprises a clamping motor (201), a rotating shaft (202) arranged at the output end of the clamping motor (201), a coupler (203) sleeved on the rotating shaft (202), a clamping cylinder (204) arranged at one end, far away from the clamping motor (201), of the rotating shaft (202), and a clamping piece (205) arranged at one end, far away from the rotating shaft (202), of the clamping cylinder (204); the method comprises the steps of,

the drying assembly (300) is arranged on one side of the clamping assembly (200) and comprises a preheating chamber (301), a U-shaped panel (302) arranged on one side of the preheating chamber (301) and electric heating wires (303) arranged on the side walls of the U-shaped panel (302) and the main shell (101).

2. The spray drying device for processing an automobile air intake grille according to claim 1, wherein: the top end of the main shell (101) is closed, and the bottom end is open;

the side wall of the axial direction (M) of the main shell (101) is symmetrically provided with a through hole (101 a), the through hole (101 a) comprises a feeding hole (101 a-1) and a discharging hole (101 a-2), and the shapes and the sizes of the feeding hole (101 a-1) and the discharging hole (101 a-2) are equal.

3. The spray drying device for processing an automobile air intake grille according to claim 2, wherein: a dividing plate (104) is arranged in the axial direction (M) of the main casing (101), and the dividing plate (104) divides the main casing (101) into a first space (104 a) and a second space (104 b);

the shape size of the first space (104 a) is equal to that of the second space (104 b), the feeding hole (101 a-1) and the clamping assembly (200) are distributed in the first space (104 a), the discharging hole (101 a-2) and the drying assembly (300) are distributed in the second space (104 b), a preheating through groove (104 c) is formed in one end of the partition plate (104), and the preheating through groove (104 c) can be matched and inserted into the outer wall of the preheating chamber (301).

4. A spray drying device for processing an automotive air intake grille according to claim 3, characterized in that: the top of main casing (101) is provided with lift cylinder (104 a-1) in first space (104 a), the flexible end of lift cylinder (104 a-1) is provided with lifter plate (104 a-2), one side that lifter plate (104 a-2) kept away from lift cylinder (104 a-1) is provided with connecting rod (104 a-3), one end that lifter plate (104 a-2) was kept away from to connecting rod (104 a-3) is provided with spraying jar (104 a-4), spraying jar (104 a-4) can set up the multiunit.

5. A spray drying device for processing an automotive air intake grille according to claim 3, characterized in that: a main sliding rail (105) is arranged in the main shell (101), secondary sliding rails (106) are symmetrically arranged at two ends of the main sliding rail (105), and one end, far away from the main sliding rail (105), of each secondary sliding rail (106) extends out of the main shell (101) through a feeding hole (101 a-1) and a discharging hole (101 a-2);

the main sliding rail (105) is oval, the main sliding rail (105) can be connected to the first space (104 a) and the second space (104 b) through the preheating through groove (104 c), a sliding table (107) is arranged on the secondary sliding rail (106), the secondary sliding rail (106) is in sliding connection with the sliding table (107), and the rail widths of the main sliding rail (105) and the secondary sliding rail (106) are equal.

6. The spray drying device for processing an automobile air intake grille according to claim 5, wherein: the top of the sliding table (107) is also provided with a turnover module (400);

the turnover module (400) comprises a base (401), a tripod (402) symmetrically arranged at the top of the base (401) in the radial direction (N), a rotator (403) arranged at the top of the tripod (402), a turnover plate (404) arranged in the middle of the rotator (403), and a turnover motor (405) arranged at one end, far away from the turnover plate (404), of the rotator (403), wherein the distance between the tripod (402) is not smaller than the width of an air inlet grille.

7. The spray drying device for processing an automobile air intake grille according to claim 1 or 6, characterized in that: the top of the turnover plate (404) is provided with a first support plate (206), one side, far away from the turnover plate (404), of the first support plate (206) is provided with a support column (206 a), one end, far away from the first support plate (206), of the support column (206 a) is provided with a second support plate (206 b), the top of the second support plate (206 b) is provided with a connecting hole (206 b-1), and the outer wall of the coupler (203) can be matched and inserted into the connecting hole (206 b-1);

the clamping cylinder is characterized in that a moving groove (204 a) is symmetrically formed in the top of the radial direction (N) of the clamping cylinder (204), a moving sliding rail (204 b) is arranged in the moving groove (204 a), a moving strip (204 c) is arranged on one side, far away from the moving groove (204 a), of the moving sliding rail (204 b), a jogging groove (204 d) is formed in the top of the moving strip (204 c), and a clamping piece (205) can be matched and inserted into the jogging groove (204 d), and the moving strip (204 c) is of an L shape.

8. The spray drying device for processing an automobile air intake grille according to claim 7, wherein: the clamping piece (205) comprises a clamping pipe (205 a) symmetrically arranged at the top of the moving bar (204 c) in the radial direction (N), a connecting pipe (205 b) sleeved on the clamping pipe (205 a), and a clamping block (205 c) arranged on the side wall of the clamping pipe (205 a);

the side wall of the connecting pipe (205 b) can be matched and inserted into the embedded groove (204 d), a driving wheel (205 d) is sleeved on the side wall of the clamping pipe (205 a) away from the clamping block (205 c), a driving belt (205 e) is sleeved in the middle of the driving wheel (205 d), a limit motor (205 f) is arranged at one end of the clamping pipe (205 a), a limit block (205 g) is arranged at one end of the clamping pipe (205 a) away from the limit motor (205 f), and the clamping pipe (205 a) can penetrate through a gap of an air inlet grid and is connected with the limit block (205 g).

9. A spray drying device for processing an automobile air intake grille according to claim 1 or 3, characterized in that: the top end of the preheating chamber (301) is closed, the bottom end of the preheating chamber is open, and the side walls at the two ends of the preheating chamber (301) are provided with conveying ports (301 a);

an air supply groove (301 b) is formed in the top of the preheating chamber (301) in the second space (104 b), fans (301 c) are arranged in the air supply groove (301 b), and a plurality of groups of fans (301 c) can be arranged.

10. The spray drying device for processing an automobile air intake grille according to claim 5, wherein: the inner wall of the main shell (101) is also provided with a trigger piece (500) which is symmetrically arranged relative to the partition plate (104), the trigger piece (500) comprises a fixed rod (501), a fixed ring (502) arranged at one end of the fixed rod (501) far away from the main shell (101), and a rotating plate (503) arranged at one side of the fixed ring (502);

wherein, rotor plate (503) is close to and has seted up rotation groove (503 a) on fixed ring (502) lateral wall, be provided with dwang (504) in fixed ring (502), the both ends of dwang (504) can connect in rotation groove (503 a), one side of rotor plate (503) is provided with compression post (505), the cover is equipped with compression spring (506) on compression post (505), the inner wall of main casing (101) is provided with induction key (507), the one end of compression spring (506) connect in the lateral wall of rotor plate (503), the other end connect in the inner wall of main casing (101), one end of compression post (505) connect in the lateral wall of rotor plate (503), the other end is used for touching induction key (507).

Images