CN204194224U - The equipment of a kind of printed circuit board surface spraying or some glue class - Google Patents

Abstract

The utility model provides the equipment of a kind of printed circuit board surface spraying or some glue class, comprise the spraying of printed circuit board front or point glue equipment (1), printed circuit board turning device (2) and printed circuit board reverse side spray or point glue equipment (3), printed circuit board (4) is after described printed circuit board front spray equipment (1) spraying front completes, be admitted to described printed circuit board turning device (2), described printed circuit board turning device (2) overturns described printed circuit board (4) and becomes reverse side upwards and described printed circuit board (4) is sent into described printed circuit board reverse side spray equipment (3), described printed circuit board reverse side spray equipment (3) sprays the reverse side of described printed circuit board (4) to completing.The spraying of this equipment evenly, sprayed surface quality better, little to Health Impact, efficiency is high and can not produce hidden danger to printed circuit board.Be applicable to printed circuit board surface spraying.

Description

The equipment of a kind of printed circuit board surface spraying or some glue class

Technical field

The utility model relates to printed circuit board manufacture field, is specifically related to the equipment of a kind of printed circuit board surface spraying glue or some glue class.

Background technology

In printed circuit board production technology, the glue of spray one deck protection can be coated with to the electronic component on printed circuit board surface and surface; Original mode is behaved manual brushing, and the uniformity of brushing not easily ensures, and brushing thing has pungent spray taste, has considerable influence to health; And the residue on brush can produce hidden danger to printed circuit board.

Utility model content

For above-mentioned prior art, technical problem to be solved in the utility model be to provide a kind ofly to spray evenly, sprayed surface quality better, little to Health Impact, efficiency is high and can not produce the printed circuit board surface spraying of hidden danger or the equipment of some glue class to printed circuit board.

In order to solve the problems of the technologies described above, the utility model provides the equipment of a kind of printed circuit board surface spraying or some glue class, comprise printed circuit board front spray equipment, printed circuit board turning device and printed circuit board reverse side spray equipment, printed circuit board is after described printed circuit board front spray equipment spraying front completes, be admitted to described printed circuit board turning device, described printed circuit board turning device overturns described printed circuit board and becomes reverse side upwards and described printed circuit board sent into described printed circuit board reverse side spray equipment, described printed circuit board reverse side spray equipment sprays the reverse side of described printed circuit board to completing.

Further improvement of the utility model is, described printed circuit board front spray equipment comprises X-axis, Y-axis, Z axis, X-axis bracing or strutting arrangement, shower nozzle, printed circuit board transmission device, described X-axis one end is installed in described Y-axis, the described X-axis other end is installed on described X-axis bracing or strutting arrangement, described Z axis is installed in described X-axis, described shower nozzle is installed on described Z axis, described printed circuit board is positioned on described printed circuit board transmission device, described shower nozzle, with described X-axis, Y-axis, Z-axis linkage, sprays described printed circuit board according to intended trajectory.

Further improvement of the utility model is, described printed circuit board turning device comprises turnover driving mechanism, two fixture blocks, two described fixture blocks are installed on described turnover driving mechanism respectively, described fixture block is provided with draw-in groove, described printed circuit board is placed in the draw-in groove of described two fixture blocks, and described turnover driving mechanism drives described two fixture blocks to turn over turnback together with printed circuit board.

Further improvement of the utility model is, described X-axis comprises the first motor, first motor fixed plate, first shaft joint, first screw mandrel shaft block, feed screw nut's seat, screw mandrel, second screw mandrel shaft block, drive rail, drive rail fixed head, described first motor is provided with the first motor output shaft, described first motor is installed on described first motor fixed plate, described first motor fixed plate is installed on described drive rail, described drive rail is installed on described drive rail fixed head, described screw mandrel is connected with described first motor output shaft by described first shaft joint, described screw mandrel is rotationally connected with described first screw mandrel shaft block and the second screw mandrel shaft block respectively, described first screw mandrel shaft block and the second screw mandrel shaft block are installed on described drive rail respectively, described feed screw nut's cover for seat is located at described screw mandrel and is also in transmission connection with it outward, described feed screw nut's seat and described drive rail are slidably connected.

Further improvement of the utility model is, described Z axis comprises Z axis holder, Z axis cylinder, Z axis cylinder holder, first guide rail, first slide block, Z axis locating piece, described Z axis cylinder is provided with Z axis cylinder axis, described Z axis cylinder is installed on described Z axis cylinder holder, described Z axis cylinder holder is installed on described Z axis holder, described first guide rails assembling is in described Z axis holder, described first slide block is connected with described first slide, described shower nozzle is installed on described first slide block, described first slide block is fixedly connected with described Z axis cylinder axis, it is corresponding with described Z axis cylinder axis that described Z axis locating piece is installed on described Z axis holder.

Further improvement of the utility model is, described X-axis bracing or strutting arrangement comprises the second feet, the second guide rail, the second slide block, guide rail fixed block, described guide rail fixed block is installed on described second feet, described second guide rails assembling is in described guide rail fixed block, described second slide block is connected with described second slide, and the described X-axis other end is installed on described second slide block.

Further improvement of the utility model is, described printed circuit board transmission device comprises the first bracing frame, the second bracing frame, the first chain, the second chain, 12 chain idle wheels, the second motor, the second motor fixing base, power transmission shaft, the first sprocket wheel, the second sprocket wheels, described second motor is provided with the second motor output shaft, and described first chain and the second chain are all provided with several chain shafts, 6 described chain idle wheels are installed on described first bracing frame respectively, and another 6 described chain idle wheels are installed on described second bracing frame respectively, described second motor is installed on described second motor fixing base, described power transmission shaft is arranged in described first bracing frame and the second bracing frame is also rotationally connected with it, described power transmission shaft is fixedly connected with described second motor output shaft, described first sprocket wheel and the second sprocket wheel are installed on described power transmission shaft respectively, described first chain is engaged with described first sprocket wheel by 6 the described chain idle wheels being installed on described first bracing frame, described second chain is engaged with described second sprocket wheel by 6 the described chain idle wheels being installed on described second bracing frame, described printed circuit board is positioned on described chain shaft.

Further improvement of the utility model is, described turnover driving mechanism comprises PTO, trip shaft, first back-up block, second back-up block, first belt pulley, second belt pulley, 3rd belt pulley, 4th belt pulley, first belt, second belt, described PTO is provided with power output shaft, described power output shaft is fixedly connected with described trip shaft, described trip shaft is arranged in described first back-up block and the second back-up block is also rotationally connected with it, described first belt pulley and the second belt pulley are installed on described trip shaft respectively, described 3rd belt pulley is installed on described first back-up block and is rotationally connected with it, described 3rd belt pulley is fixedly connected with a described fixture block, described 4th belt pulley is installed on described second back-up block and is rotationally connected with it, described 4th belt pulley is fixedly connected with fixture block described in another, described first belt sleeve is located at described first belt pulley and the 3rd belt pulley, described second belt sleeve is located at described second belt pulley and the 4th belt pulley.

Further improvement of the utility model is, described printed circuit board transmission device also comprises push plate device and the first spacing adjusting device, described push plate device comprises rod-free cylinder, cylinder fixed head, push rod, push rod mounting blocks, the cylinder block slide block that described rod-free cylinder is provided with cylinder block and is slidably connected with described cylinder block, described cylinder block is installed on described first bracing frame by two described cylinder fixed heads, described push rod is installed on described push rod mounting blocks, and described push rod mounting blocks is installed on described cylinder block slide block; Described first spacing adjusting device comprises adjusting rod, adjusting nut, the 3rd guide rail, the 3rd slide block, adjusting rod holder, described adjusting rod is through described first bracing frame, one end is installed on described adjusting rod holder, the other end is installed on described second bracing frame, described adjusting nut is sheathed on described adjusting rod and is threaded with it, described first bracing frame is installed on described 3rd slide block, and described 3rd slide block is connected with described 3rd slide.

Further improvement of the utility model is, described turnover driving mechanism also comprises the second spacing adjusting device, described second spacing adjusting device comprises the 4th guide rail and Four-slider, and described first back-up block is installed on described Four-slider, and described Four-slider is connected with described 4th slide.

Compared with prior art, the utility model has the advantage of, the equipment of this printed circuit board surface spraying or some glue class adopts shower nozzle with described X-axis, Y-axis, Z-axis linkage, according to intended trajectory, described printed circuit board is sprayed, achieve automatic coating, spraying evenly, sprayed surface quality better, little to Health Impact, efficiency is high and can not produce hidden danger to printed circuit board; Adopt the combination of printed circuit board front spray equipment, printed circuit board turning device and printed circuit board reverse side spray equipment, spray front to turn over turnback through printed circuit board turning device and then spray reverse side, achieve positive and negative spraying once to complete, improve production efficiency, saved cost.

Accompanying drawing explanation

Fig. 1 be printed circuit board surface spraying of the present utility model or some glue class the schematic perspective view of equipment;

Fig. 2 is printed circuit board front of the present utility model spray equipment schematic perspective view;

Fig. 3 is the another schematic perspective view of printed circuit board front spray equipment of the present utility model;

Fig. 4 is the X-axis schematic perspective view of printed circuit board front of the present utility model spray equipment;

Fig. 5 is the Y-axis schematic perspective view of printed circuit board front of the present utility model spray equipment;

Fig. 6 is the Z axis schematic perspective view of printed circuit board front of the present utility model spray equipment;

Fig. 7 is the schematic perspective view of the printed circuit board transmission device of printed circuit board front of the present utility model spray equipment;

Fig. 8 is the schematic perspective view of the X-axis bracing or strutting arrangement of printed circuit board front of the present utility model spray equipment;

Fig. 9 is another schematic perspective view of the printed circuit board transmission device of printed circuit board front of the present utility model spray equipment;

Figure 10 is the another schematic perspective view of the printed circuit board transmission device of printed circuit board front of the present utility model spray equipment;

Figure 11 is chain mounting structure schematic diagram of the present utility model;

Figure 12 is the schematic perspective view of printed circuit board turning device of the present utility model;

Figure 13 is the another schematic perspective view of printed circuit board turning device of the present utility model;

Figure 14 is A-A enlarged diagram of the present utility model;

Figure 15 is B-B enlarged diagram of the present utility model;

Figure 16 is C-C enlarged diagram of the present utility model;

Figure 17 is the schematic perspective view of printed circuit board reverse side spray equipment of the present utility model;

Figure 18 is the another schematic perspective view of printed circuit board reverse side spray equipment of the present utility model.

In figure, each component names is as follows:

1-printed circuit board front spray equipment;

11-X-axis;

111-the first motor;

1111-the first motor output shaft;

112-the first motor fixed plate;

113-the first shaft joint;

114-the first screw mandrel shaft block;

115-feed screw nut seat;

116-screw mandrel;

117-the second screw mandrel shaft block;

118-drive rail;

119-drive rail fixed head;

120-driving block;

130-crashproof glue;

140-shell;

12-Y-axis;

121-the first feet;

13-Z axis;

131-Z axis holder;

132-Z axis cylinder;

1321-Z axis cylinder axis;

133-Z axis cylinder holder;

134-the first guide rail;

135-the first slide block;

136-Z axis locating piece;

137-shower nozzle fixed block;

138-outer cover;

14-X-axis bracing or strutting arrangement;

141-the second feet;

142-the second guide rail;

143-the second slide block;

144-guide rail fixed block;

15-shower nozzle;

151-spray head cleaning device;

16-printed circuit board transmission device;

161-the first bracing frame;

162-the second bracing frame;

163-the first chain;

164-the second chain;

165-chain idle wheel;

1631-chain shaft;

166-the second motor;

1661-the second motor output shaft;

1662-the second motor fixing base;

167-power transmission shaft;

1671-the second shaft joint;

168-the first sprocket wheel;

169-the second sprocket wheel;

17-push plate device;

171-rod-free cylinder;

1711-cylinder block;

1712-cylinder block slide block;

172-rod-free cylinder fixed head;

173-push rod;

174-push rod mounting blocks;

18-the first spacing adjusting device;

181-adjusting rod;

182-adjusting nut;

183-the three guide rail;

184-the three slide block;

185-adjusting rod holder;

19-printed circuit plate positioning device;

191-printed circuit board locating piece;

192-positioning cylinder axle;

193-positioning cylinder;

20-chain cleaning device;

2-printed circuit board turning device;

21-turnover driving mechanism;

211-PTO;

2111-power output shaft;

2112-PTO holder;

212-trip shaft;

213-the first back-up block;

214-the second back-up block;

215-the first belt pulley;

216-the second belt pulley;

217-the three belt pulley;

218-the four belt pulley;

219-the first belt;

220-the second belt;

230-the second spacing adjusting device;

2301-the four guide rail;

2302-the Four-slider;

240-the three shaft joint;

22-fixture block;

221-draw-in groove;

222-slope;

3-printed circuit board reverse side spray equipment;

4-printed circuit board.

Detailed description of the invention

To illustrate below in conjunction with accompanying drawing and detailed description of the invention further illustrates the utility model.

As shown in Figure 1, the equipment of a kind of printed circuit board surface spraying of the present utility model or some glue class, it comprises printed circuit board front spray equipment 1, printed circuit board turning device 2 and printed circuit board reverse side spray equipment 3, printed circuit board 4 sprays after front completes through described printed circuit board front spray equipment 1, be admitted to described printed circuit board turning device 2, described printed circuit board turning device 2 overturns described printed circuit board 4 one-tenth reverse side upwards and described printed circuit board 4 is sent into described printed circuit board reverse side spray equipment 3, described printed circuit board reverse side spray equipment 3 sprays the reverse side of described printed circuit board 4 to completing.

Particularly, as shown in Figures 2 and 3, described printed circuit board front spray equipment 1 comprises X-axis 11, Y-axis 12, Z axis 13, X-axis bracing or strutting arrangement 14, shower nozzle 15, printed circuit board transmission device 16, preferably, also comprises spray head cleaning device 17.As shown in Figure 4, described X-axis 11 comprises the first motor 111, first motor fixed plate 112, first shaft joint 113, first screw mandrel shaft block 114, feed screw nut's seat 115, screw mandrel 116, second screw mandrel shaft block 117, drive rail 118, drive rail fixed head 119, driving block 120, crashproof glue 130, shell 140, described first motor 111 be provided with the first motor output shaft 1111, described first motor 111 is fixedly installed in described first motor fixed plate 112, described first motor fixed plate 112 is fixedly installed in described drive rail fixed head 119, described drive rail 118 is fixedly installed in described drive rail fixed head 119, described screw mandrel 116 is fixedly connected with described first motor output shaft 1111 by described first shaft joint 113, described screw mandrel 116 is rotationally connected with described first screw mandrel shaft block 114 and the second screw mandrel shaft block 117 respectively, described first screw mandrel shaft block 114 and the second screw mandrel shaft block 117 are fixedly installed in described drive rail 118 respectively, described feed screw nut's seat 115 is sheathed on outside described screw mandrel 116 and is also in transmission connection with it, described feed screw nut's seat 115 is fixedly installed in described driving block 120, described driving block 120 is slidably connected with described drive rail 118, the both sides of described feed screw nut's seat 115 are respectively provided with 2 crashproof glue 130, described X-axis 11 is provided with shell 140.

As shown in Figure 5, the structure of described Y-axis 12 is substantially identical with described X-axis 11 with composition, unlike, described Y-axis 12 is also provided with 2 the first feets 121,2 the first feets 121 are fixedly installed in described drive rail fixed head 119 respectively, and the drive rail fixed head 119 of described X-axis 11 is fixedly installed on feed screw nut's seat 115 of described Y-axis 12.

As shown in Figure 6, described Z axis 13 comprises Z axis holder 131, Z axis cylinder 132, Z axis cylinder axis 1321, Z axis cylinder holder 133, first guide rail 134, first slide block 135, Z axis Z axis locating piece 136, shower nozzle fixed block 137, outer cover 138, described Z axis cylinder 132 is provided with Z axis cylinder axis 1321, described Z axis cylinder 132 is fixedly installed in described Z axis cylinder holder 133, described Z axis cylinder holder 133 is fixedly installed in described Z axis holder 131, described first guide rail 134 is fixedly installed in described Z axis holder 131, described first slide block 135 is slidably connected with described first guide rail 134, described shower nozzle 15 is fixedly installed in described shower nozzle fixed block 137, described shower nozzle fixed block 137 is fixedly installed in described first slide block 135, described first slide block 135 is fixedly connected with described Z axis cylinder axis 1321, it is corresponding with Z axis cylinder axis 1321 that described Z axis Z axis locating piece 136 is fixedly installed in described Z axis holder 131, described Z axis holder 131 is fixedly installed on feed screw nut's seat 115 of described X-axis 11, described Z axis 13 is also provided with dust-proof outer cover 138.

As shown in Figure 8, described X-axis bracing or strutting arrangement 14 comprises 2 the second feet 141, second guide rail 142, second slide blocks 143, guide rail fixed blocks 144,2 the second feets 141 are fixedly installed in the bottom of described guide rail fixed block 144, described second guide rail 142 is fixedly installed in the front of described guide rail fixed block 144, described second slide block 143 is installed on described second guide rail 142 and is slidably connected with it, and the drive rail fixed head 119 of described X-axis is fixedly installed on described second slide block 143.

As shown in Fig. 7, Fig. 9 and Figure 10; described printed circuit board transmission device 16 comprises the first bracing frame 161, second bracing frame 162, first chain 163, second chain 164, chain idle wheel 165, second motor 166, second motor fixing base 1662, power transmission shaft 167, second shaft joint 1671, first sprocket wheel 168, second sprocket wheel 169; described first chain 163 and the second chain 164 are all provided with several chain shafts 1631(as shown in figure 15); described second motor 166 is provided with the second motor output shaft 1661, and described chain idle wheel 165 has 12; described second motor 166 is fixedly installed in described second motor fixing base 1662, described second motor output shaft 1661 is fixedly connected with described power transmission shaft 167 by described second shaft joint 1671, described power transmission shaft 167 is arranged in described first bracing frame 161 and the second bracing frame 162 is also rotationally connected with it, described first sprocket wheel 168 and the second sprocket wheel 169 are fixedly installed in described power transmission shaft 167 respectively, 6 chain idle wheels 165 are wherein had to be installed on described first bracing frame 161 respectively and to be rotationally connected with it, 6 chain idle wheels 165 are separately had to be installed on described second bracing frame 162 respectively and to be rotationally connected with it, described first chain 163 is engaged (as shown in figure 11) with described first sprocket wheel 168 by 6 chain idle wheels 165 being installed on described first bracing frame 161, described second chain 164 is engaged (as shown in figure 11) with described second sprocket wheel 169 by 6 chain idle wheels 165 being installed on described second bracing frame 162, described printed circuit board 4 is positioned on described chain shaft 1631 (as shown in figure 14).

Preferably; as shown in Figure 10; described printed circuit board transmission device 16 also comprises push plate device 17; described push plate device 17 comprises rod-free cylinder 171, rod-free cylinder fixed head 172, push rod 173, push rod mounting blocks 174, the cylinder block slide block 1712 that described rod-free cylinder 171 is provided with cylinder block 1711 and is slidably connected with described cylinder block 1711; Described cylinder block 1711 is fixedly installed in described first bracing frame 161 by two described cylinder fixed heads 172, and described push rod 173 is fixedly installed in described push rod mounting blocks 174, and described push rod mounting blocks 174 is fixedly installed in described cylinder block slide block 1712.

Preferably, as shown in Figure 7, described printed circuit board transmission device 16 also comprises the first spacing adjusting device 18, and described first spacing adjusting device 18 comprises adjusting rod 181, adjusting nut 182, the 3rd guide rail 183, the 3rd slide block 184, adjusting rod holder 185; Described adjusting rod 181 is fixedly installed in described adjusting rod holder 185 through described first bracing frame 161 one end, the other end is fixedly installed in described second bracing frame 162, described adjusting nut 182 is sheathed on described adjusting rod 181 and is threaded with it, described first bracing frame 161 is fixedly installed in described 3rd slide block 184, described 3rd slide block 184 is slidably connected with described 3rd guide rail 183, and described adjusting nut 182 drives described first bracing frame 161 to move along described 3rd guide rail 183 along described adjusting rod 181 screw thread rotation.

Preferably, as shown in Figure 9, described printed circuit board transmission device 16 also comprises printed circuit plate positioning device 19, described printed circuit plate positioning device 19 comprises printed circuit board locating piece 191, positioning cylinder 193, described positioning cylinder 193 is provided with positioning cylinder axle 192, described printed circuit board locating piece 191 is fixedly installed in described positioning cylinder axle 192, and described positioning cylinder 193 is fixedly installed in described second bracing frame 162.

Preferably, as shown in Fig. 7 and Fig. 9, described printed circuit board transmission device 16 also comprises chain cleaning device 20, described chain cleaning device 20 has two, described first bracing frame 161 and the second bracing frame 162 are respectively provided with a cleaning device 20, described chain cleaning device 20 comprises washing bucket, water pump (not shown), described washing bucket is built with cleaning fluid (not shown), the chain of that chain idle wheel 165 lowermost and this chain idle wheel 165 of process is soaked in described cleaning device 20 li, cleaning fluid is through described water pump automatic cycle, keep the height of liquid level and the cleannes of liquid, the chain transmitting product have passed through cleaning device 20, chain is in use cleaned automatically.

Preferably, as shown in Figure 2, described printed circuit board front spray equipment 1 also comprises spray head cleaning device 151, described spray head cleaning device 151 comprises cleaning case, water pump (not shown), described cleaning case is built with cleaning fluid (not shown), and cleaning liquid, through water pump automatic cycle, keeps the height of liquid level and the cleannes of liquid, equipment is when waiting for product, and shower nozzle meeting automatic soaking is in spray head cleaning device.

Particularly, as shown in FIG. 12 and 13, described printed circuit board turning device 2 comprises turnover driving mechanism 21, fixture block 22, described turnover driving mechanism 21 comprises PTO 211, PTO holder 2112, trip shaft 212, first back-up block 213, second back-up block 214, first belt pulley 215, second belt pulley 216, the 3rd belt pulley 217, the 4th belt pulley 218, first belt 219, second belt 220, the 3rd shaft joint 240, described PTO 211 adopt motor or rotary cylinder can, described PTO 211 is provided with power output shaft 2111, PTO holder 2112, described 22 fixture blocks are provided with draw-in groove 221 and slope 222(as shown in figure 16), described draw-in groove 221 is for placing the described printed circuit board 4 of insertion, and described slope 222 is inserted for facilitating described printed circuit board 4, described power output shaft 2111 is fixedly connected with described trip shaft 212 by described 3rd shaft joint 240, described trip shaft 212 is arranged in described first back-up block 213 and the second back-up block 214 is also rotationally connected with it, described first belt pulley 215 and the second belt pulley 216 are fixed and are installed on described trip shaft 212 respectively, described 3rd belt pulley 217 is installed on described first back-up block 213 and is rotationally connected with it, described 3rd belt pulley 217 is fixedly connected with by Pulley shaft (not shown) with a described fixture block 22, described 4th belt pulley 218 is installed on described second back-up block 214 and is rotationally connected with it, described 4th belt pulley 218 is fixedly connected with fixture block described in another 22 Pulley shaft (not shown), described first belt 219 is sheathed on described first belt pulley 215 and the 3rd belt pulley 217, described second belt 220 is sheathed on described second belt pulley 216 and the 4th belt pulley 218, described printed circuit board 4 inserts in the draw-in groove 221 of described fixture block 22, described power output shaft 2111 rotates, drive described first belt 219 and the second belt 220 to rotate by described first belt pulley 215, second belt pulley 216, the 3rd belt pulley 217 and the 4th belt pulley 218 simultaneously, thus drive described fixture block 22 and printed circuit board 4 to turn over turnback simultaneously.

Preferably, as shown in figure 12, described printed circuit board turning device 2 also comprises the second spacing adjusting device 230, described second spacing adjusting device 230 comprises the 4th guide rail 2301, Four-slider 2302, described 4th guide rail 2301 and Four-slider 2302 respectively have 2, described first back-up block 213 is fixedly installed on 2 Four-sliders 2302, and described 4th guide rail 2301 is slidably connected 2 described Four-sliders 2302 with 2 respectively.

As shown in FIG. 17 and 18, the structure of described printed circuit board reverse side spray equipment 3 is substantially identical with described printed circuit board front spray equipment 1 with composition, difference is, push plate device is lacked, other identical with described printed circuit board front spray equipment 1 in printed circuit board transmission device in described printed circuit board reverse side spray equipment 3.

As shown in Figures 1 and 2, the course of work of the equipment of printed circuit board surface spraying of the present utility model or some glue class is as follows:

Described printed circuit board 4 is positioned on the chain shaft of described chain, second motor output shaft 1661 of described second motor 166 rotates, drive institute's power transmission shaft 167, first sprocket wheel 168, second sprocket wheel 169 to rotate simultaneously, thus drive described first chain 163 and the second chain 164 to move simultaneously, and then driving described printed circuit board 4 to move forward to described printed circuit board locating piece 191 place, described second motor output shaft 1661 stops operating; Described shower nozzle 15 is under the interlock of described X-axis 11, Y-axis 12, Z axis 13, the front of described printed circuit board 4 is sprayed, after having sprayed, described push plate device 17 promotes described printed circuit board 4 and enters described printed circuit board turning device 2, described printed circuit board turning device 2 turns over turnback described printed circuit board 4, upwards, described push plate device 17 promotes described printed circuit board 4 and enters described printed circuit board reverse side spray equipment 3 and spray reverse side again.

The utility model has the advantage of, the equipment of this printed circuit board surface spraying or some glue class adopts shower nozzle with described X-axis, Y-axis, Z-axis linkage, according to intended trajectory, described printed circuit board is sprayed, achieve automatic coating, spraying evenly, sprayed surface quality better, little to Health Impact, efficiency is high and can not produce hidden danger to printed circuit board; Adopt the combination of printed circuit board front spray equipment, printed circuit board turning device and printed circuit board reverse side spray equipment, spray front to turn over turnback through printed circuit board turning device and then spray reverse side, achieve positive and negative spraying once to complete, improve production efficiency, saved cost; This equipment is closed, prevents the actual bodily harm to operating personnel, improves the quality of the air in workshop.

Above content is in conjunction with concrete preferred embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. the equipment of a printed circuit board surface spraying or some glue class, it is characterized in that: comprise printed circuit board front spray equipment (1), printed circuit board turning device (2) and printed circuit board reverse side spray equipment (3), printed circuit board (4) is after described printed circuit board front spray equipment (1) spraying front completes, be admitted to described printed circuit board turning device (2), described printed circuit board turning device (2) overturns described printed circuit board (4) and becomes reverse side upwards and described printed circuit board (4) is sent into described printed circuit board reverse side spray equipment (3), described printed circuit board reverse side spray equipment (3) sprays the reverse side of described printed circuit board (4) to completing.

2. the equipment of printed circuit board surface spraying as claimed in claim 1 or some glue class, it is characterized in that: described printed circuit board front spray equipment (1) comprises X-axis (11), Y-axis (12), Z axis (13), X-axis bracing or strutting arrangement (14), shower nozzle (15), printed circuit board transmission device (16), described X-axis (11) one end is installed in described Y-axis (12), described X-axis (11) other end is installed on described X-axis bracing or strutting arrangement (14), described Z axis (13) is installed in described X-axis (11), described shower nozzle (15) is installed on described Z axis (13), described printed circuit board (4) is positioned on described printed circuit board transmission device (16), described shower nozzle (15) is with described X-axis (11), Y-axis (12), Z axis (13) links, according to intended trajectory, described printed circuit board (4) is sprayed.

3. the equipment of printed circuit board surface spraying as claimed in claim 1 or some glue class, it is characterized in that: described printed circuit board turning device (2) comprises turnover driving mechanism (21), two fixture blocks (22), two described fixture blocks (22) are installed on described turnover driving mechanism (21) respectively, described fixture block (22) is provided with draw-in groove (221), described printed circuit board (4) is placed in the draw-in groove (221) of described two fixture blocks (22), described turnover driving mechanism (21) drives described two fixture blocks (22) and printed circuit board (4) to turn over turnback together.

4. the equipment of printed circuit board surface spraying as claimed in claim 2 or some glue class, it is characterized in that: described X-axis (11) comprises the first motor (111), first motor fixed plate (112), first shaft joint (113), first screw mandrel shaft block (114), feed screw nut's seat (115), screw mandrel (116), second screw mandrel shaft block (117), drive rail (118), drive rail fixed head (119), described first motor (111) is provided with the first motor output shaft (1111), described first motor (111) is installed on described first motor fixed plate (112), described first motor fixed plate (112) is installed on described drive rail (118), described drive rail (118) is installed on described drive rail fixed head (119), described screw mandrel (116) is connected with described first motor output shaft (1111) by described first shaft joint (113), described screw mandrel (116) is rotationally connected with described first screw mandrel shaft block (114) and the second screw mandrel shaft block (117) respectively, described first screw mandrel shaft block (114) and the second screw mandrel shaft block (117) are installed on described drive rail (118) respectively, described feed screw nut's seat (115) is sheathed on described screw mandrel (116) and be in transmission connection with it outward, described feed screw nut's seat (115) and described drive rail (118) are slidably connected.

5. the equipment of printed circuit board surface spraying as claimed in claim 2 or some glue class, it is characterized in that: described Z axis (13) comprises Z axis holder (131), Z axis cylinder (132), Z axis cylinder holder (133), first guide rail (134), first slide block (135), Z axis locating piece (136), described Z axis cylinder (132) is provided with Z axis cylinder axis (1321), described Z axis cylinder (132) is installed on described Z axis cylinder holder (133), described Z axis cylinder holder (133) is installed on described Z axis holder (131), described first guide rail (134) is installed on described Z axis holder (131), described first slide block (135) and described first guide rail (134) are slidably connected, described shower nozzle (15) is installed on described first slide block (135), described first slide block (135) is fixedly connected with described Z axis cylinder axis (1321), it is corresponding with described Z axis cylinder axis (1321) that described Z axis locating piece (136) is installed on described Z axis holder (131).

6. the equipment of printed circuit board surface spraying as claimed in claim 2 or some glue class, it is characterized in that: described X-axis bracing or strutting arrangement (14) comprises the second feet (141), second guide rail (142), second slide block (143), guide rail fixed block (144), described guide rail fixed block (144) is installed on described second feet (141), described second guide rail (142) is installed on described guide rail fixed block (144), described second slide block (143) and described second guide rail (142) are slidably connected, described X-axis (11) other end is installed on described second slide block (143).

7. the equipment of printed circuit board surface spraying as claimed in claim 2 or some glue class, it is characterized in that: described printed circuit board transmission device (16) comprises the first bracing frame (161), second bracing frame (162), first chain (163), second chain (164), 12 chain idle wheels (165), second motor (166), second motor fixing base (1662), power transmission shaft (167), first sprocket wheel (168), second sprocket wheel (169), described second motor (166) is provided with the second motor output shaft (1661), described first chain (163) and the second chain (164) are all provided with several chain shafts (1631), 6 described chain idle wheels (165) are installed on described first bracing frame (161) respectively, and another 6 described chain idle wheels (165) are installed on described second bracing frame (162) respectively, described second motor (166) is installed on described second motor fixing base (1662), described power transmission shaft (167) is arranged in described first bracing frame (161) and the second bracing frame (162) and is rotationally connected with it, described power transmission shaft (167) is fixedly connected with described second motor output shaft (1661), described first sprocket wheel (168) and the second sprocket wheel (169) are installed on described power transmission shaft (167) respectively, described first chain (163) is engaged with described first sprocket wheel (168) by 6 the described chain idle wheels (165) being installed on described first bracing frame (161), described second chain (164) is engaged with described second sprocket wheel (169) by 6 the described chain idle wheels (165) being installed on described second bracing frame (162), described printed circuit board (4) is positioned on described chain shaft (1631).

8. the equipment of printed circuit board surface spraying as claimed in claim 3 or some glue class, it is characterized in that: described turnover driving mechanism (21) comprises PTO (211), trip shaft (212), first back-up block (213), second back-up block (214), first belt pulley (215), second belt pulley (216), 3rd belt pulley (217), 4th belt pulley (218), first belt (219), second belt (220), described PTO (211) is provided with power output shaft (2111), described power output shaft (2111) is fixedly connected with described trip shaft (212), described trip shaft (212) is arranged in described first back-up block (213) and the second back-up block (214) and is rotationally connected with it, described first belt pulley (215) and the second belt pulley (216) are installed on described trip shaft (212) respectively, described 3rd belt pulley (217) is installed on described first back-up block (213) and is rotationally connected with it, described 3rd belt pulley (217) is fixedly connected with a described fixture block (22), described 4th belt pulley (218) is installed on described second back-up block (214) and is rotationally connected with it, described 4th belt pulley (218) is fixedly connected with fixture block described in another (22), described first belt (219) is sheathed on described first belt pulley (215) and the 3rd belt pulley (217), described second belt (220) is sheathed on described second belt pulley (216) and the 4th belt pulley (218).

9. the equipment of printed circuit board surface spraying as claimed in claim 7 or some glue class, it is characterized in that: described printed circuit board transmission device (16) also comprises push plate device (17) and the first spacing adjusting device (18), described push plate device (17) comprises rod-free cylinder (171), cylinder fixed head (172), push rod (173), push rod mounting blocks (174), the cylinder block slide block (1712) that described rod-free cylinder (171) is provided with cylinder block (1711) and is slidably connected with described cylinder block (1711), described cylinder block (1711) is installed on described first bracing frame (161) by two described cylinder fixed heads (172), described push rod (173) is installed on described push rod mounting blocks (174), described push rod mounting blocks (174) is installed on described cylinder block slide block (1712), described first spacing adjusting device (18) comprises adjusting rod (181), adjusting nut (182), 3rd guide rail (183), 3rd slide block (184), adjusting rod holder (185), described adjusting rod (181) is through described first bracing frame (161), one end is installed on described adjusting rod holder (185), the other end is installed on described second bracing frame (162), described adjusting nut (182) is sheathed on described adjusting rod (181) and is threaded with it, described first bracing frame (161) is installed on described 3rd slide block (184), described 3rd slide block (184) and described 3rd guide rail (183) are slidably connected.

10. the equipment of printed circuit board surface spraying as claimed in claim 8 or some glue class, it is characterized in that: described turnover driving mechanism (21) also comprises the second spacing adjusting device (230), described second spacing adjusting device (230) comprises the 4th guide rail (2301) and Four-slider (2302), described first back-up block (213) is installed on described Four-slider (2302), and described Four-slider (2302) and described 4th guide rail (2301) are slidably connected.