CN111389642B - Ultrasonic spraying machine - Google Patents

Abstract

The invention relates to an ultrasonic coating machine, comprising: a frame; the feeding assembly is arranged on the rack; the guide seat is arranged on the rack; the material receiving assembly extends into the material guiding seat; the first ultrasonic spray head assembly extends into the material guide seat and is arranged in a surrounding manner along the material guide seat; the discharging guide sleeve is positioned below the material receiving assembly; the transmission assembly is arranged below the discharging guide sleeve; the second ultrasonic spray head component is positioned on one side of the discharging guide sleeve; the third ultrasonic spray head component is positioned on one side of the transmission component; the clamping assembly is slidably mounted on the frame. After the scheme is adopted, the functions of automatic feeding, discharging and workpiece rotating can be carried out, and the spraying of each surface of the strip-shaped workpiece can be efficiently finished.

Description

Ultrasonic spraying machine

Technical Field

The invention relates to an ultrasonic spraying machine.

Background

Ultrasonic spraying, also known as ultrasonic spraying, is a spraying process that utilizes ultrasonic atomization technology. The sprayed material is in a liquid state, the liquid can be solution, sol, suspension and the like, the liquid coating is firstly atomized into fine particles by an ultrasonic atomization device, and then the fine particles are uniformly coated on the opposite surface of the base material by a certain amount of carrier gas, so that a coating or a film is formed. Compared with the traditional two-fluid spraying, the ultrasonic spraying has the advantages of high coating uniformity, high raw material utilization rate, high coating thickness control precision, thinner coating thickness, less splashing, no blockage of a spray head, low maintenance cost and the like.

Therefore, the ultrasonic spraying machine is widely applied to various fields, when the ultrasonic spraying machine is used for spraying strip-shaped workpieces, several surfaces are usually sprayed firstly, then the rest surfaces are sprayed by manually rotating the objects, after one spraying is finished, the feeding and the discharging are carried out manually, the whole spraying process is dependent on manpower, and the production efficiency is low.

Disclosure of Invention

The invention aims to provide an ultrasonic spraying machine which can perform the functions of automatic feeding, discharging and workpiece rotating and can efficiently finish the spraying of each surface of a strip-shaped workpiece.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

an ultrasonic applicator comprising: a frame; the feeding assembly is arranged on the rack; the guide seat is mounted on the rack and communicated with the feeding hole of the feeding assembly; the material receiving assembly extends into the material guide seat; the first ultrasonic spray head assembly extends into the material guide seat, is arranged around the material guide seat and is positioned above the material receiving assembly; the discharging guide sleeve is positioned below the material receiving assembly; the transmission assembly is arranged below the discharging guide sleeve; the second ultrasonic spray head assembly is positioned on one side of the discharging guide sleeve and is positioned above the transmission assembly; a third ultrasonic spray head assembly located on one side of the transmission assembly; the clamping assembly is slidably mounted on the rack and can slide to the upper side of the transmission assembly and the upper side of the third ultrasonic sprayer assembly.

Preferably: still include first stoving subassembly, first stoving subassembly with first ultrasonic wave shower nozzle subassembly interval sets up.

Preferably: the drying device is characterized by further comprising a second drying assembly and a third drying assembly, wherein the second drying assembly and the second ultrasonic spray head assembly are arranged at intervals, and the third drying assembly and the third ultrasonic spray head assembly are arranged at intervals.

Preferably: the guide device is characterized by further comprising a limiting assembly, wherein the limiting assembly comprises a pressing block, a first linear motion power device, a second linear motion power device and a baffle plate, the first linear motion power device is fixed on the rack, and the pressing block extends into the guide seat; the baffle stretches into in the guide seat, the output shaft of second linear motion power device with the baffle is connected, the baffle is located the below of briquetting, just the baffle is located connect the material subassembly's top.

Preferably: the material guide device is characterized in that a guide portion and a spraying portion are arranged in the material guide seat, a guide hole is formed in the guide portion, a containing cavity is formed in the spraying portion, the diameter of the guide hole is smaller than that of the containing cavity, the first ultrasonic sprayer assembly and the material receiving assembly are installed in the spraying portion, and the limiting assembly is installed in the guide portion.

Preferably: the inner diameter of one end of the discharging guide sleeve, which is close to the material receiving assembly, is larger than the diameter of the guide hole.

Preferably: the discharging guide seat is positioned at the corresponding position below one end of the conveying assembly.

Preferably: the clamping assembly comprises a base, a sliding seat, a clamping plate, a first driving assembly and a third linear motion power device, the base is fixed on the rack, the sliding seat is slidably mounted on the base, and the first driving assembly and the sliding seat are connected and used for driving the sliding seat to slide; the clamping plates are arranged in two, the clamping plates are arranged on the sliding seat in a relatively sliding mode, the third linear motion power device is fixed on the sliding seat, and an output shaft of the third linear motion power device is connected with the clamping plates.

Preferably: the energy-saving device comprises a shell front cover, a shell rear cover, an energy converter, a first liquid guide pipe, a second liquid guide pipe and an air guide sleeve, wherein the shell front cover is detachably connected with the shell rear cover, a containing cavity is formed between the shell front cover and the shell rear cover, the shell rear cover is provided with an air inlet communicated with the containing cavity, and the bottom of the shell front cover is provided with an air outlet communicated with the containing cavity; the transducer is arranged in the accommodating cavity and fixedly connected with the front cover of the shell, a through hole is formed in the center of the transducer, the first liquid guide pipe is arranged in the through hole, the second liquid guide pipe is fixed on the rear cover of the shell, the second liquid guide pipe extends into the accommodating cavity and is connected with the first liquid guide pipe, and the interior of the second liquid guide pipe is communicated with the interior of the first liquid guide pipe; the atomizing end of transducer passes the gas outlet, it installs to lead the gas cover gas outlet department, it establishes to lead the gas cover the outside of the atomizing end of transducer, lead the gas cover with there is the clearance between the atomizing end of transducer, lead the gas cover with the connection can be dismantled to the shell protecgulum.

Preferably: the energy converter is characterized by further comprising a sealing ring, a support ring is arranged in the front cover of the shell, a blocking ring is arranged on the outer side of the energy converter, and the sealing ring is located between the support ring and the blocking ring.

The invention has the beneficial effects that: the feeding assembly transports the workpiece into the material guide seat, the workpiece falls onto the material receiving assembly, the first ultrasonic spray head assembly sprays the side face of the workpiece, after spraying is completed, the material receiving assembly withdraws from the bottom of the workpiece, the workpiece falls into the material discharging guide sleeve and finally falls onto the transmission assembly, the transmission assembly slides in a small range, the workpiece sequentially falls onto the transmission assembly according to the steps, after the workpiece on the transmission assembly reaches a certain number, the second ultrasonic spray head assembly sprays the top of the workpiece, the clamping assembly clamps the workpiece and transfers the workpiece to the position above the third ultrasonic spray head assembly, the third ultrasonic spray head assembly sprays the bottom of the workpiece, after spraying is completed, the clamping assembly re-places the workpiece onto the transmission assembly, the transmission assembly moves, so that the workpiece falls from one end of the transmission assembly, and in this way, the automatic feeding, discharging and workpiece rotating functions can be carried out, and the spraying of each surface of the strip-shaped workpiece is efficiently finished.

Drawings

The invention is further described with reference to the following figures and detailed description:

FIG. 1 is a front view of an embodiment of an ultrasonic applicator of the present invention;

FIG. 2 is a schematic structural view of an embodiment of an ultrasonic applicator according to the present invention;

FIG. 3 is a schematic view of a portion of an embodiment of an ultrasonic applicator according to the present invention;

FIG. 4 is a schematic view of a second partial structure of an ultrasonic applicator according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a first ultrasonic nozzle assembly, a second ultrasonic nozzle assembly and a third ultrasonic nozzle assembly in an embodiment.

Wherein:

1. a frame;

2. a feeding assembly;

3. a material guide seat; 31. a guide portion; 32. a spraying section;

4. a material receiving assembly; 41. a material receiving plate; 42. a fourth linear motion power device;

5. a first ultrasonic nozzle assembly; 51. a housing front cover; 52. a housing rear cover; 53. a transducer; 54. a first catheter; 55. a second catheter; 56. a gas guide sleeve; 57. a seal ring;

6. a discharging guide sleeve;

7. a transmission assembly;

8. a second ultrasonic nozzle assembly;

9. a third ultrasonic nozzle assembly;

10. a clamping assembly; 101. a base; 102. a sliding seat; 103. a splint; 104. a first drive assembly; 105. a third linear motion power device;

11. a second drying component;

12. third drying component

13. A limiting component; 131. briquetting; 132. a first linear motion power device; 133. a second linear motion power device; 134. a baffle plate;

14. a discharging guide seat;

15. first stoving subassembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the orientations and positional relationships indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "bottom", "inner", "outer", and the like are based on the orientations and positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in figures 1 to 5 of the drawings,

the first embodiment is as follows:

an ultrasonic applicator comprising:

a frame 1;

the feeding assembly 2 is arranged on the rack 1;

the material guide seat 3 is arranged on the rack 1, and the material guide seat 3 is communicated with the feeding hole of the feeding assembly 2;

the material receiving assembly 4 extends into the material guiding seat 3; specifically, the receiving assembly 4 is composed of a receiving plate 41 inserted into the guide seat 3 and a fourth linear motion power device 42, and the fourth linear motion power device 42 drives the receiving plate 41 to slide;

the first ultrasonic spray head assembly 5 extends into the material guide seat 3, the first ultrasonic spray head assembly 5 is arranged in a surrounding mode along the material guide seat 3, and the first ultrasonic spray head assembly 5 is located above the material receiving assembly 4;

the discharging guide sleeve 6 is arranged below the material receiving assembly 4;

the transmission assembly 7 is positioned below the discharging guide sleeve 6;

the second ultrasonic spray head component 8 is positioned on one side of the discharging guide sleeve 6, and the second ultrasonic spray head component 8 is positioned above the transmission component 7;

a third ultrasonic spray head component 9, wherein the third ultrasonic spray head component 9 is positioned at one side of the transmission component 7;

and the clamping assembly 10 is installed on the machine frame 1 in a sliding mode, and the clamping assembly 10 can slide to the upper side of the transmission assembly 7 and the third ultrasonic spray head assembly 9.

Then, the feeding component 2 transports the workpiece into the material guide seat 3, then the workpiece falls onto the material receiving component 4, then the first ultrasonic spray head component 5 sprays the side surface of the workpiece, after the spraying is finished, the material receiving component 4 withdraws from the bottom of the workpiece, the workpiece falls into the discharging guide sleeve 6 and finally falls onto the transmission component 7, the transmission component 7 slides in a small range, then the workpiece successively falls onto the transmission component 7 according to the steps, after the workpiece on the transmission component 7 reaches a certain number, the second ultrasonic spray head component 8 sprays the top of the workpiece, then the clamping component 10 clamps the workpiece and transfers the workpiece to the upper side of the third ultrasonic spray head component 9, the third ultrasonic spray head component 9 sprays the bottom of the workpiece, after the spraying is finished, the clamping component 10 puts the workpiece back onto the transmission component 7 again, the transmission component 7 moves, the workpiece is made to fall from one end of the transmission assembly 7, so that the functions of automatic feeding, discharging and workpiece rotation can be performed, and the spraying of each surface of the strip-shaped workpiece can be efficiently completed.

In addition, the ultrasonic drying device also comprises a first drying component 15, and the first drying component 15 and the first ultrasonic spray head component 5 are arranged at intervals. Specifically, the first drying assembly 15 is an air outlet device capable of discharging hot air.

Therefore, the first drying component 15 dries the workpiece after the workpiece is sprayed, and the phenomenon that the dye on the workpiece is stained randomly to influence the spraying effect is avoided.

In addition, the drying device also comprises a second drying component 11 and a third drying component 12, wherein the second drying component 11 and the second ultrasonic spray head component 8 are arranged at intervals, and the third drying component 12 and the third ultrasonic spray head component 9 are arranged at intervals. Specifically, the second drying assembly 11 is an air outlet device capable of discharging hot air.

Therefore, the second drying component 11 and the third drying component 12 dry the workpiece after the workpiece is sprayed, and the dye on the workpiece is prevented from being stained randomly to influence the spraying effect.

In addition, the device also comprises a limiting assembly 13, wherein the limiting assembly 13 comprises a pressing block 131, a first linear motion power device 132, a second linear motion power device 133 and a baffle 134, the first linear motion power device 132 is fixed on the rack 1, and the pressing block 131 extends into the guide seat 3; the baffle 134 extends into the material guiding seat 3, the output shaft of the second linear motion power device 133 is connected with the baffle 134, the baffle 134 is positioned below the pressing block 131, and the baffle 134 is positioned above the material receiving assembly 4. Specifically, a guide portion 31 and a spraying portion 32 are arranged in the material guide seat 3, a guide hole is arranged in the guide portion 31, an accommodating cavity is arranged in the spraying portion 32, the diameter of the guide hole is smaller than that of the accommodating cavity, the first ultrasonic nozzle assembly 5 and the material receiving assembly 4 are arranged in the spraying portion 32, and the limiting assembly 13 is arranged in the guide portion. Specifically, the pressing block 131 is in sliding fit with the material guide seat 3, the baffle 134 is in sliding fit with the material guide seat 3, and the distance between the pressing block 131 and the baffle 134 is larger than the height of one workpiece and smaller than the height of two workpieces.

Thus, after the workpieces enter the material guide seat 3, the first workpiece from bottom to top is positioned on the baffle 134, the second workpiece is positioned on the first workpiece, the second workpiece is pressed and fixed by the pressing block 131, when the material receiving assembly 4 needs to be fed, the baffle 134 retracts, the first workpiece falls onto the material receiving assembly 4, then the baffle 134 returns to the original position, the second workpiece is released by the pressing block and falls onto the baffle 134, the third workpiece above the second workpiece falls onto the second workpiece, and is held by the pressing block 131 so that the first workpiece and the second workpiece are spaced apart to prevent the first ultrasonic nozzle assembly 5 from spraying the workpiece on the feeding assembly 4, the second workpiece is pressed on the first workpiece, so that the local part of the second workpiece is also sprayed, and then the second workpiece falls onto the material receiving assembly 4 and is repeatedly sprayed, thereby influencing the spraying effect; when the first workpiece finishes spraying and descends, the steps are repeated, and the subsequent second workpiece, the subsequent third workpiece and the like can be sprayed in sequence, so that the feeding one by one and the spraying one by one can be realized, and the repeated spraying condition can not occur.

In addition, the inner diameter of one end of the discharging guide sleeve 6 close to the material receiving assembly 4 is larger than the diameter of the guide hole.

Thus, the workpiece can more accurately fall into the discharging guide sleeve 6, and the face-avoiding workpiece falls into the outer side of the discharging guide sleeve 6.

In addition, a discharging guide seat 14 is further included, and the discharging guide seat 14 is positioned at a corresponding position below one end of the transmission assembly 7.

In this way, when the workpiece is unloaded, the workpiece can slide to a specific position along the unloading guide 14, thereby facilitating collection.

In addition, the clamping assembly 10 comprises a base 101, a sliding seat 102, a clamping plate 103, a first driving assembly 104 and a third linear motion power device 105, wherein the base 101 is fixed on the machine frame 1, the sliding seat 102 is slidably mounted on the base 101, and the first driving assembly 104 and the sliding seat 102 are connected to drive the sliding seat 102 to slide; two clamping plates 103 are arranged, the two clamping plates 103 are arranged on the sliding seat 102 in a relatively sliding mode, the third linear motion power device 105 is fixed on the sliding seat 102, and an output shaft of the third linear motion power device 105 is connected with the clamping plates 103. Specifically, the third linear motion power unit 105 is a cylinder.

Thus, the third linear motion power device 105 causes the two clamping plates 103 to slide relatively to clamp the workpiece, the first driving component 104 drives the sliding seat 102 to slide, and the sliding of the sliding seat 102 drives the workpiece to be transferred.

In addition, the first ultrasonic nozzle assembly 5, the second ultrasonic nozzle assembly 8, and the third ultrasonic nozzle assembly 9 each include: the ultrasonic transducer comprises a shell front cover 51, a shell rear cover 52, a transducer 53, a first liquid guide pipe 54, a second liquid guide pipe 55 and a gas guide sleeve 56, wherein the shell front cover 51 is detachably connected with the shell rear cover 52, a containing cavity is formed between the shell front cover 51 and the shell rear cover 52, the shell rear cover 52 is provided with a gas inlet communicated with the containing cavity, and the bottom of the shell front cover 51 is provided with a gas outlet communicated with the containing cavity; the transducer 53 is arranged in the accommodating cavity, the transducer 53 is fixedly connected with the front cover 51 of the shell, a through hole is formed in the center of the transducer 53, the first liquid guide pipe 54 is arranged in the through hole, the second liquid guide pipe 55 is fixed on the rear cover 52 of the shell, the second liquid guide pipe 55 extends into the accommodating cavity and is connected with the first liquid guide pipe 54, and the inside of the second liquid guide pipe 55 is communicated with the inside of the first liquid guide pipe 54; the atomizing end of the transducer 53 penetrates through the air outlet, the air guide sleeve 56 is installed at the air outlet, the air guide sleeve 56 is sleeved on the outer side of the atomizing end of the transducer 53, a gap exists between the air guide sleeve 56 and the atomizing end of the transducer 53, and the air guide sleeve 56 is detachably connected with the front cover 51 of the shell.

Thus, the coating enters the second liquid guide pipe 55 through the first liquid guide pipe 54, is atomized when the coating flows to the atomizing end of the transducer 53, the atomized coating is sprayed in a fixed direction by air pressure from the air outlet, the first liquid guide pipe 54 is detachable, when the interior of the first liquid guide pipe 54 is blocked by impurities in the coating, only the first liquid guide pipe 54 needs to be replaced, the whole transducer 53 does not need to be replaced, and therefore the maintenance cost is saved. Meanwhile, the air guide sleeve 56 is detachably connected with the front cover 51 of the shell, and the spraying radius of the coating can be changed by replacing the air guide sleeve 56 with different types.

In addition, the energy converter also comprises a sealing ring 57, a supporting ring is arranged in the front cover of the shell, a baffle ring is arranged outside the energy converter 53, and the sealing ring 57 is positioned between the supporting ring and the baffle ring.

Therefore, the tightness between the transducer 53 and the housing rear cover 52 can be increased, and the gas entering the accommodating cavity is prevented from flowing back through the gap between the transducer 53 and the housing rear cover 52 to influence the spraying effect.

In addition, an elastic layer is provided on the opposite surface of the nip plate 103. Specifically, the elastic layer is a rubber layer.

Therefore, the elastic layer can protect the workpiece, the workpiece is prevented from being damaged due to overlarge pressure, and meanwhile, the contact area can be increased, so that friction is increased, and the workpiece is not easy to drop.

In conclusion, the above description is only for the preferred embodiment of the present invention and should not be construed as limiting the present invention, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. An ultrasonic applicator, comprising:

a frame;

the feeding assembly is arranged on the rack;

the guide seat is mounted on the rack and communicated with the feeding hole of the feeding assembly;

the material receiving assembly extends into the material guide seat;

the first ultrasonic spray head assembly extends into the material guide seat, is arranged around the material guide seat and is positioned above the material receiving assembly;

the discharging guide sleeve is positioned below the material receiving assembly;

the transmission assembly is arranged below the discharging guide sleeve;

the second ultrasonic spray head assembly is positioned on one side of the discharging guide sleeve and is positioned above the transmission assembly;

a third ultrasonic spray head assembly located on one side of the transmission assembly;

the clamping assembly is slidably mounted on the rack and can slide to the upper parts of the transmission assembly and the third ultrasonic spray head assembly;

the first drying component and the first ultrasonic spray head component are arranged at intervals;

the drying device also comprises a second drying component and a third drying component, wherein the second drying component and the second ultrasonic spray head component are arranged at intervals, and the third drying component and the third ultrasonic spray head component are arranged at intervals;

the guide device is characterized by further comprising a limiting assembly, wherein the limiting assembly comprises a pressing block, a first linear motion power device, a second linear motion power device and a baffle plate, the first linear motion power device is fixed on the rack, and the pressing block extends into the guide seat; the baffle extends into the material guide seat, an output shaft of the second linear motion power device is connected with the baffle, the baffle is positioned below the pressing block, and the baffle is positioned above the material receiving assembly;

the guide seat is internally provided with a guide part and a spraying part, the guide part is internally provided with a guide hole, the spraying part is internally provided with an accommodating cavity, the diameter of the guide hole is smaller than that of the accommodating cavity, the first ultrasonic spray head assembly and the material receiving assembly are arranged on the spraying part, and the limiting assembly is arranged on the guide part;

the inner diameter of one end of the discharging guide sleeve, which is close to the material receiving assembly, is larger than the diameter of the guide hole;

the discharging guide seat is positioned at the corresponding position below one end of the conveying assembly;

the clamping assembly comprises a base, a sliding seat, a clamping plate, a first driving assembly and a third linear motion power device, the base is fixed on the rack, the sliding seat is slidably mounted on the base, and the first driving assembly and the sliding seat are connected and used for driving the sliding seat to slide; the clamping plates are arranged in two, the clamping plates are arranged on the sliding seat in a relatively sliding mode, the third linear motion power device is fixed on the sliding seat, and an output shaft of the third linear motion power device is connected with the clamping plates.

2. The ultrasonic applicator of claim 1, wherein: the first ultrasonic nozzle assembly, the second ultrasonic nozzle assembly and the third ultrasonic nozzle assembly all include: the energy-saving device comprises a shell front cover, a shell rear cover, an energy converter, a first liquid guide pipe, a second liquid guide pipe and an air guide sleeve, wherein the shell front cover is detachably connected with the shell rear cover, a containing cavity is formed between the shell front cover and the shell rear cover, the shell rear cover is provided with an air inlet communicated with the containing cavity, and the bottom of the shell front cover is provided with an air outlet communicated with the containing cavity; the transducer is arranged in the accommodating cavity and fixedly connected with the front cover of the shell, a through hole is formed in the center of the transducer, the first liquid guide pipe is arranged in the through hole, the second liquid guide pipe is fixed on the rear cover of the shell, the second liquid guide pipe extends into the accommodating cavity and is connected with the first liquid guide pipe, and the interior of the second liquid guide pipe is communicated with the interior of the first liquid guide pipe; the atomizing end of transducer passes the gas outlet, it installs to lead the gas cover gas outlet department, it establishes to lead the gas cover the outside of the atomizing end of transducer, lead the gas cover with there is the clearance between the atomizing end of transducer, lead the gas cover with the connection can be dismantled to the shell protecgulum.

3. The ultrasonic applicator of claim 2, wherein: the energy converter is characterized by further comprising a sealing ring, a support ring is arranged in the front cover of the shell, a blocking ring is arranged on the outer side of the energy converter, and the sealing ring is located between the support ring and the blocking ring.

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