CN109590739B - Infantile infusion bottle barrel assembly line - Google Patents

Abstract

The invention discloses a child transfusion bottle barrel assembly line which can fully automatically assemble a child transfusion bottle barrel, an upper cover assembly, a lower cover assembly and a floating valve, and is characterized by comprising a frame, wherein a conveying chain and a plurality of carriers arranged on the conveying chain are arranged on the frame, a barrel feeding station, a floating valve mounting station, a first gluing station, an upper cover mounting station, a second gluing station, a lower cover mounting station, two-end propping stations, a drying station, an air tightness detection station and a blanking station are sequentially arranged on the frame along the conveying direction of the conveying chain, and a first propping mechanism corresponding to the first gluing station, the upper cover mounting station, the second gluing station and the lower cover mounting station is further arranged on the frame.

Description

Infantile infusion bottle barrel assembly line

Technical Field

The invention belongs to the technical field of automatic production lines, and particularly relates to an assembly line for a cylinder body of a child infusion bottle.

Background

The utility model provides a disposable buret formula transfusion system that child's transfusion bottle was developed to underage children, child's transfusion bottle mainly includes accessory such as child's transfusion bottle barrel, upper cover subassembly, lower cover subassembly and floating valve, and traditional child's transfusion bottle is manual equipment usually, and packaging efficiency is low, and the postassembling precision is poor, leads to the leakproofness not enough, influences the product qualification rate, and in addition manual equipment is easy to adhere to the germ, causes the product sanitation requirement inequality.

Disclosure of Invention

The invention aims to provide an assembly line for the cylinder body of the infant infusion bottle, which can fully automatically assemble the cylinder body of the infant infusion bottle, an upper cover assembly, a lower cover assembly and a float valve, and has the advantages of simple structure, high automation degree and high assembly efficiency.

The purpose of the invention is realized in the following way: the utility model provides a child's transfusion bottle barrel assembly line, includes frame, its characterized in that: the machine frame is provided with a conveying chain and a plurality of carriers arranged on the conveying chain, the machine frame is also provided with a cylinder feeding station, a float valve installation station, a first gluing station, an upper cover installation station, a second gluing station, a lower cover installation station, two-end propping stations, a drying station and a discharging station which are sequentially arranged along the conveying direction of the conveying chain, and the machine frame is also provided with a first propping mechanism which respectively corresponds to the first gluing station, the upper cover installation station, the second gluing station and the lower cover installation station.

The invention is further provided with: the cylinder feeding station comprises a cylinder feeding mechanism, a receiving mechanism and a feeding mechanism;

the cylinder feeding mechanism comprises a first conveying belt and a driving motor for driving the first conveying belt to rotate;

the material receiving mechanism comprises a first material receiving block and a material receiving cylinder for driving the first material receiving block to reciprocate, the first material receiving block is arranged below the discharge end of the conveying belt, and a plurality of material receiving grooves are formed in the first material receiving block;

the feeding mechanism comprises a plurality of first air pawls arranged above the first receiving blocks, a first lifting cylinder for driving the first air pawls to lift and a first transverse moving cylinder for driving the first air pawls to move back and forth between the first receiving blocks and the carrier.

The invention is further provided with: the floating valve installation station comprises a plastic floating valve installation device and a silica gel floating valve installation device which are respectively arranged at two sides of the conveying chain, and the plastic floating valve installation device and the silica gel floating valve installation device comprise a floating valve feeding mechanism and a floating valve taking installation mechanism;

the floating valve feeding mechanism comprises a first vibrating plate and a first conveying guide rail which are connected, and a second receiving block is arranged at the discharge end of the first conveying guide rail;

the floating valve material taking and installing mechanism comprises a first support, a first rotating shaft, a first rotating cylinder, a material taking suction nozzle and a first material taking cylinder, wherein the first rotating shaft is installed on the first support and located above the second material receiving block, the first material taking cylinder is installed on the first rotating shaft, and the material taking suction nozzle is installed on the movable end of the first material taking cylinder.

The invention is further provided with: the first gluing station and the second gluing station comprise a second support and a gluing mechanism, the gluing mechanism comprises a gluing support, a second rotating shaft and a gluing core, the gluing support is connected with the second support in a sliding mode, the second rotating shaft is arranged on the gluing support, the gluing core is arranged on the second rotating shaft, a glue tank arranged below the gluing core and a translation cylinder used for driving the gluing support to translate are further arranged on the first support, and the gluing mechanism further comprises a direct current motor used for driving the gluing core to rotate and a steering cylinder used for driving the second rotating shaft to rotate.

The invention is further provided with: the upper cover installation station and the lower cover installation station comprise a cover feeding mechanism and a cover taking installation mechanism;

the cover feeding mechanism comprises a second vibrating plate and a second conveying guide rail which are connected, and a third receiving block is arranged at the discharge end of the second conveying guide rail;

the cover material taking and installing mechanism comprises a third support, a third rotating shaft, a second rotating cylinder, a second air claw and a second material taking cylinder, wherein the third rotating shaft is installed on the third support and located above a third material receiving block, the second material taking cylinder is installed on the third rotating shaft, and the second air claw is installed on the movable end of the second material taking cylinder.

The invention is further provided with: the first jacking mechanism comprises a fourth bracket, a first jacking cylinder and a first ejector rod, wherein the first jacking cylinder is arranged on the fourth bracket, and the first ejector rod is arranged on the movable end of the first jacking cylinder.

The invention is further provided with: the two-end jacking stations comprise two groups of second jacking mechanisms which are respectively positioned at two sides of the conveying chain, each second jacking mechanism comprises a fifth bracket, a second jacking cylinder and a second ejector rod, each second jacking cylinder is arranged on the fifth bracket, each second ejector rod is arranged at the movable end of each second jacking cylinder, and two opposite second ejector rods on the two groups of second jacking mechanisms are respectively provided with an adaptive photoelectric switch.

The invention is further provided with: the drying station comprises an oven covered on a conveying chain.

The invention is further provided with: and an air tightness detection station is further arranged between the blanking station and the drying station, the blanking station comprises a defective product discharging mechanism and a qualified product discharging mechanism, the defective product discharging mechanism and the qualified product discharging mechanism both comprise a sixth bracket, a third air claw arranged on the sixth bracket, and a second lifting cylinder for driving the third air claw to lift and a second transverse moving cylinder for driving the third air claw to transversely move.

The invention is further provided with: the conveyor chain is internally provided with a second conveyor belt which is positioned between the first gluing station, the upper cover mounting station, the second gluing station, the lower cover mounting station, the two-end propping station and the drying station and is reversely conveyed relative to the conveying direction of the conveyor chain.

Through adopting above-mentioned technical scheme, can carry out full-automatic equipment to child's transfusion bottle barrel, upper cover subassembly, lower cover subassembly and floating valve, assembly line simple structure, degree of automation are high, packaging efficiency is high and the packaging effect is good.

Drawings

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

FIG. 2 is a schematic view of the structure of the barrel loading station of the present invention;

FIG. 3 is a schematic view of the configuration of the float valve installation station of the present invention;

FIG. 4 is a schematic view of the construction of a first glue station according to the invention;

FIG. 5 is a schematic view of the construction of the lid mounting station of the present invention;

FIG. 6 is a schematic view of a second tightening mechanism according to the present invention;

FIG. 7 is a schematic view of the structure of the blanking station of the present invention;

the reference numerals in the drawings are: 1. a frame; 2. a conveyor chain; 3. a carrier; 4. a second conveyor belt; 5. a first tightening mechanism; 100. a cylinder feeding station; 200. a float valve installation station; 300. a first glue station; 400. an upper cover mounting station; 500. a second glue station; 600. a lower cover mounting station; 700. two ends are tightly propped against the working stations; 800. a drying station; 900. a blanking station; 101. a first conveyor belt; 102. a first receiving block; 103. a material receiving cylinder; 104. a first air claw; 105. a first lifting cylinder; 106. a first traversing cylinder; 107. a guide cover; 201. a first vibration plate; 202. a first conveying guide rail; 203. a second receiving block; 204. a first bracket; 205. a first rotating shaft; 206. a first rotary cylinder; 207. a material taking suction nozzle; 208. a first material taking cylinder; 209. a dislocation cylinder; 210. a plastic float valve mounting device; 220. a silica gel float valve installation device; 301. a second bracket; 302. a gluing bracket; 303. a second rotating shaft; 304. a glue spreading core; 305. a glue tank; 306. a translation cylinder; 307. a steering cylinder; 401. a second vibration plate; 402. a second conveying guide rail; 403. a third receiving block; 404. a third bracket; 405. a third rotating shaft; 406 a second rotary cylinder; 407. a second air jaw; 408. a second material taking cylinder; 701. a fifth bracket; 702. a second jacking cylinder; 703. a second ejector rod; 901. a sixth bracket; 902. a third air claw; 903. a second lifting cylinder; 904. and a second traversing cylinder.

Detailed Description

The invention is further described in the following embodiments with reference to the figures, see fig. 1-7:

the utility model provides a child's transfusion bottle barrel assembly line, includes frame 1, its characterized in that: the machine frame 1 is provided with a conveying chain 2 and a plurality of carriers 3 arranged on the conveying chain 2, the machine frame 1 is also provided with a cylinder feeding station 100, a float valve installation station 200, a first gluing station 300, an upper cover installation station 400, a second gluing station 500, a lower cover installation station 600, a two-end propping station 700, a drying station 800 and a blanking station 900 which are sequentially arranged along the conveying direction of the conveying chain 2, and the machine frame 1 is also provided with a first propping mechanism 5 which respectively corresponds to the first gluing station 300, the upper cover installation station 400, the second gluing station 500 and the lower cover installation station 600.

The power sources of all stations or mechanisms are uniformly controlled by a control system, the control system can be a PLC control system, the conveying chain 2 comprises two parallel roller chains, a chain wheel for driving the roller chains to move and a servo motor, the carrier 3 is positioned by the outer circle of the cylinder body, stainless steel materials are adopted and are arranged on the roller chains, the carrier 3 can be in a group of four, and then four products can be simultaneously processed, so that the efficiency is greatly improved.

The cylinder feeding station 100 comprises a cylinder feeding mechanism, a receiving mechanism and a feeding mechanism;

the cylinder feeding mechanism comprises a first conveying belt 101 and a driving motor for driving the first conveying belt 101 to rotate;

the material receiving mechanism comprises a first material receiving block 102 and a material receiving cylinder 103 for driving the first material receiving block 102 to reciprocate, the first material receiving block 102 is arranged below the discharge end of the first conveying belt 101, and a plurality of material receiving grooves are formed in the first material receiving block 102;

the feeding mechanism comprises a plurality of first air pawls 104 arranged above the first receiving block 102, a first lifting cylinder 105 for driving the first air pawls 104 to lift and a first traversing cylinder 106 for driving the first air pawls 104 to move back and forth between the first receiving block 102 and the carrier 3.

The principle is as follows: during feeding, a cylinder body is placed on the first conveying belt 101, a guide cover 107 is arranged at the discharge end of the first conveying belt 101, and when the material receiving cylinder 103 drives the first material receiving block 102 to move back and forth below the guide cover 107, the cylinder body can fall into a material receiving groove through the guide cover 107, and an optical fiber sensor is arranged in the material receiving groove and used for sensing whether a product is in place or is in a shortage of the material and feeding back to a control system; a plurality of material defects are caused, and the control system controls the material receiving cylinder 103 to drive the first material receiving block 102 to move back and forth again to receive materials; if the products are not in place, generating an alarm; if all the cylinders are in place, the first lifting cylinder 105 and the first traversing cylinder 106 drive the first air claw 104 to grab the cylinder from the receiving groove and place the cylinder on the carrier 3.

The float valve installation station 200 comprises a plastic float valve installation device 210 and a silica gel float valve installation device 220 which are respectively arranged at two sides of the conveying chain 2, wherein the plastic float valve installation device 210 and the silica gel float valve installation device 220 comprise a float valve feeding mechanism and a float valve taking installation mechanism;

the floating valve feeding mechanism comprises a first vibrating plate 201 and a first conveying guide rail 202 which are connected, and a second receiving block 203 is arranged at the discharge end of the first conveying guide rail 202;

the float valve material taking and mounting mechanism comprises a first bracket 204, a first rotating shaft 205, a first rotating cylinder 206, a material taking suction nozzle 207 and a first material taking cylinder 208, wherein the first rotating shaft 205 is mounted on the first bracket 204 and is positioned above the second material receiving block 203, the first material taking cylinder 208 is mounted on the first rotating shaft 205, and the material taking suction nozzle 207 is mounted on the movable end of the first material taking cylinder 208.

The plastic float valve or the silica gel float valve can be installed according to the product requirement, the plastic float valve installation device 210 or the silica gel float valve installation device 220 runs alternatively, the float valve feeding mechanism adopts a vibration disc for feeding, four first conveying guide rails 202 are adopted to enter a second receiving block 203 through Ping Zhenqi, four material tanks are also arranged on the second receiving block 203, four optical fiber sensors are also arranged on the second receiving block 203 and used for detecting whether the float valve is in place, the float valve feeding mechanism also comprises a dislocation cylinder 209, the dislocation cylinder 209 is used for driving the second receiving block 203 to translate, so that when the float valve is not arranged in the material tanks, the material tanks are opposite to the discharge ends of the first conveying guide rails 202, and when the float valve in the material tanks is in place, the material tanks are misplaced with the discharge ends of the first conveying guide rails 202, and the influence on feeding or taking materials is avoided; the number of the material taking nozzles 207 is four, and after the vertical material taking, the material taking nozzles are rotated by 90 degrees through the first rotating shaft 205, and the floating valve is placed in the cylinder body on the carrier 3 in the transverse direction.

The first gluing station and the second gluing station 500 each comprise a second bracket 301 and a gluing mechanism, the gluing mechanism comprises a gluing bracket 302 slidably connected with the second bracket 301, a second rotating shaft 303 arranged on the gluing bracket 302, and a gluing core 304 arranged on the second rotating shaft 303, the first bracket 204 is also provided with a glue groove 305 positioned below the gluing core 304 and a translation cylinder 306 for driving the gluing bracket 302 to translate, and the gluing mechanism further comprises a direct current motor for driving the gluing core 304 to rotate and a steering cylinder 307 for driving the second rotating shaft 303 to rotate.

The number of the gluing cores 304 is four, the gears of the tail rotating shaft of the gluing cores 304 are driven by a miniature direct current motor, the gears can rotate 360 degrees to evenly glue when gluing, a steering cylinder 307 is used for driving the gluing cores 304 to steer to achieve gluing, a translation cylinder 306 is used for driving the gluing cores 304 to enter the end of the cylinder to glue, and the gluing is performed so that the cylinder can be fixedly connected with the upper cover and the lower cover.

The upper cover mounting station 400 and the lower cover mounting station 600 both comprise a cover feeding mechanism and a cover taking and mounting mechanism;

the cover feeding mechanism comprises a second vibrating plate 401 and a second conveying guide rail 402 which are connected, and a third receiving block 403 is arranged at the discharge end of the second conveying guide rail 402;

the cover material taking and mounting mechanism comprises a third bracket 404, a third rotating shaft 405, a second rotating cylinder 406, a second air claw 407 and a second material taking cylinder 408, wherein the third rotating shaft 405 is mounted on the third bracket 404 and is positioned above the third material receiving block 403, the second material taking cylinder 408 is mounted on the third rotating shaft 405, and the second air claw 407 is mounted on the movable end of the second material taking cylinder 408.

The upper cover mounting station 400 and the lower cover mounting station 600 are identical in structure and distance and identical in structure and principle to the float valve mounting station 200, except that the upper cover assembly and the lower cover assembly are respectively mounted on both ends of the cylinder.

The first jacking mechanism 5 comprises a fourth bracket, a first jacking cylinder and a first ejector rod, wherein the first jacking cylinder is arranged on the fourth bracket, and the first ejector rod is arranged on the movable end of the first jacking cylinder.

The first propping mechanism 5 is used for propping up the other end when installing upper cover, lower cover and rubber coating, plays a propping up tight correction effect, and the first propping up is structural to still can set up the hold-down mechanism that is located each station top, and it compresses tightly or presss from both sides tightly to realize downwards the product, prevents that the bottle from rotating, and the tip of hold-down mechanism end can set up the cushion, plays the guard action.

The two-end jacking stations 700 comprise two groups of second jacking mechanisms respectively positioned at two sides of the conveying chain 2, each second jacking mechanism comprises a fifth bracket 701, a second jacking cylinder 702 and a second ejector rod 703, the second jacking cylinders 702 are arranged on the fifth bracket 701, the second ejector rods 703 are arranged on movable ends of the second jacking cylinders 702, and two opposite second ejector rods 703 on the two groups of second jacking mechanisms are respectively provided with an adaptive photoelectric switch.

The second propping mechanism is the same as the first propping mechanism 5 in principle for secondary propping, and is different in that the second ejector rod 703 is provided with a photoelectric switch to detect whether the upper cover or the lower cover is in place.

The drying station 800 comprises an oven covered on the conveying chain 2, and the oven is used for rapidly drying the glue, so that the cover and the cylinder can be connected rapidly and stably.

The blanking station 900 comprises a defective product discharging mechanism and a defective product discharging mechanism, wherein the defective product discharging mechanism and the defective product discharging mechanism comprise a sixth bracket 901, a third air claw 902 arranged on the sixth bracket 901, a second lifting cylinder 903 for driving the third air claw 902 to lift, and a second traversing cylinder 904 for driving the third air claw 902 to traverse.

An air tightness detection station can be further arranged between the drying station 800 and the blanking station 900 and used for detecting the air tightness after installation is completed, if the air tightness is unqualified, unqualified products are taken and removed by the unqualified product discharging mechanism, and the qualified products are discharged by the qualified product discharging mechanism.

The conveying chain 2 is internally provided with a second conveying belt 4 which is positioned between the first gluing station 300, the upper cover mounting station 400, the second gluing station 500, the lower cover mounting station 600, the two-end propping station 700 and the drying station 800 and is reversely conveyed relative to the conveying direction of the conveying chain 2.

The notch can be set up to carrier 3 bottom for the barrel along with carrier 3 when removing, the barrel bottom surface can contradict with second conveyer belt 4, makes the barrel remove in-process and can rotate, avoids glue to flow down because of self gravity and causes the glue of barrel tip inhomogeneous.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (9)

1. The utility model provides a child's transfusion bottle barrel assembly line, includes frame (1), its characterized in that: the automatic gluing machine is characterized in that a conveying chain (2) and a plurality of carriers (3) arranged on the conveying chain (2) are arranged on the frame (1), a barrel feeding station (100), a float valve mounting station (200), a first gluing station (300), an upper cover mounting station (400), a second gluing station (500), a lower cover mounting station (600), two-end propping stations (700), a drying station (800) and a blanking station (900) which are sequentially arranged along the conveying direction of the conveying chain (2) are further arranged on the frame (1), and a first propping mechanism (5) which corresponds to the first gluing station (300), the upper cover mounting station (400), the second gluing station (500) and the lower cover mounting station (600) respectively is further arranged on the frame (1);

the conveying chain (2) is internally provided with second conveying belts (4) which are positioned between the first gluing station (300), the upper cover mounting station (400), the second gluing station (500), the lower cover mounting station (600), the two-end propping station (700) and the drying station (800) and are reversely conveyed relative to the conveying direction of the conveying chain (2);

the notch can be formed in the bottom of the carrier (3), so that the bottom surface of the cylinder can be abutted against the second conveying belt (4) when the cylinder moves along with the carrier (3), and the cylinder can rotate in the moving process.

2. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the cylinder feeding station (100) comprises a cylinder feeding mechanism, a receiving mechanism and a feeding mechanism;

the cylinder feeding mechanism comprises a first conveying belt (101) and a driving motor for driving the first conveying belt (101) to rotate;

the material receiving mechanism comprises a first material receiving block (102) and a material receiving cylinder (103) for driving the first material receiving block (102) to reciprocate, the first material receiving block (102) is arranged below the discharge end of the first conveying belt (101), and a plurality of material receiving grooves are formed in the first material receiving block (102);

the feeding mechanism comprises a plurality of first air pawls (104) arranged above the first receiving block (102), first lifting cylinders (105) used for driving the first air pawls (104) to lift and first transverse moving cylinders (106) used for driving the first air pawls (104) to move back and forth between the first receiving block (102) and the carrier (3).

3. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the floating valve installation station (200) comprises a plastic floating valve installation device (210) and a silica gel floating valve installation device (220) which are respectively arranged at two sides of the conveying chain (2), and the plastic floating valve installation device (210) and the silica gel floating valve installation device (220) comprise a floating valve feeding mechanism and a floating valve taking installation mechanism;

the floating valve feeding mechanism comprises a first vibrating plate (201) and a first conveying guide rail (202) which are connected, and a second receiving block (203) is arranged at the discharge end of the first conveying guide rail (202);

the floating valve material taking and mounting mechanism comprises a first support (204), a first rotating shaft (205), a first rotating cylinder (206), a material taking suction nozzle (207) and a first material taking cylinder (208), wherein the first rotating shaft (205) is mounted on the first support (204) and located above the second material receiving block (203), the first material taking cylinder (208) is mounted on the first rotating shaft (205), and the material taking suction nozzle (207) is mounted on the movable end of the first material taking cylinder (208).

4. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the first gluing station and the second gluing station (500) comprise a second support (301) and a gluing mechanism, the gluing mechanism comprises a gluing support (302) which is in sliding connection with the second support (301), a second rotating shaft (303) which is arranged on the gluing support (302) and a gluing core (304) which is arranged on the second rotating shaft (303), a glue tank (305) which is arranged below the gluing core (304) and a translation cylinder (306) which is used for driving the gluing support (302) to translate are further arranged on the first support (204), and the gluing mechanism further comprises a direct current motor which is used for driving the gluing core (304) to rotate and a steering cylinder (307) which is used for driving the second rotating shaft (303) to rotate.

5. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the upper cover mounting station (400) and the lower cover mounting station (600) comprise a cover feeding mechanism and a cover taking and mounting mechanism;

the cover feeding mechanism comprises a second vibrating plate (401) and a second conveying guide rail (402) which are connected, and a third receiving block (403) is arranged at the discharge end of the second conveying guide rail (402);

the cover material taking and mounting mechanism comprises a third support (404), a third rotating shaft (405), a second rotating cylinder (406), a second air claw (407) and a second material taking cylinder (408), wherein the third rotating shaft (405) is mounted on the third support (404) and located above a third material receiving block (403), the second material taking cylinder (408) is mounted on the third rotating shaft (405), and the second air claw (407) is mounted on the movable end of the second material taking cylinder (408).

6. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the first jacking mechanism comprises a fourth bracket, a first jacking cylinder and a first ejector rod, wherein the first jacking cylinder is arranged on the fourth bracket, and the first ejector rod is arranged on the movable end of the first jacking cylinder.

7. The pediatric infusion bottle cartridge assembly line of claim 6, wherein: the two-end jacking station (700) comprises two groups of second jacking mechanisms which are respectively positioned at two sides of the conveying chain (2), each second jacking mechanism comprises a fifth bracket (701), a second jacking cylinder (702) and a second ejector rod (703), each second jacking cylinder (702) is arranged on the fifth bracket (701), each second ejector rod (703) is arranged at the movable end of each second jacking cylinder (702), and two opposite second ejector rods (703) on each two groups of second jacking mechanisms are respectively provided with an adaptive photoelectric switch.

8. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: the drying station (800) comprises an oven covered on the conveying chain (2).

9. The pediatric infusion bottle cartridge assembly line of claim 1, wherein: still be equipped with the gas tightness detection station between unloading station (900) and stoving station (800), unloading station (900) are including unqualified goods discharge mechanism and qualified goods discharge mechanism, and unqualified goods discharge mechanism and qualified goods discharge mechanism all include sixth support (901), install third gas claw (902) on sixth support (901), are used for driving second lift cylinder (903) that third gas claw (902) goes up and down for driving second sideslip cylinder (904) of third gas claw (902) sideslip.