阅读说明：本技术 一种桶装水桶口预制帽套帽设备 (Bottled water bung hole prefabricated cap cover cap equipment ) 是由 陈崇友 于 2021-02-05 设计创作，主要内容包括：本发明涉及一种桶装水桶口预制帽套帽设备,包括存储装置,第一动力输送装置、第二动力输送装置、分帽装置、伺服接帽转盘装置和拍帽装置,所述第一动力输送装置分别连接存储装置出口和第二动力输送装置,所述分帽装置设置第二动力输送装置一端,用于将第二输送装置上堆叠帽分开并逐个放入伺服接帽转盘装置,所述伺服接帽转盘装置设置在分帽装置下游,用于将帽子转动至拍帽装置,所述拍帽装置用于将帽子套入瓶口。本发明能够实现瓶子瓶口自动套帽,让消费者无论是直接饮用或者间接使用均无卫生污染的担忧；存满一次料可供长时间使用,从而降低了工厂因用人产生的负担。(The invention relates to a barreled water barrel opening prefabricated cap sleeving device which comprises a storage device, a first power conveying device, a second power conveying device, a cap separating device, a servo cap connecting rotary disc device and a cap beating device, wherein the first power conveying device is respectively connected with an outlet of the storage device and the second power conveying device, the cap separating device is arranged at one end of the second power conveying device and used for separating stacked caps on the second conveying device and placing the stacked caps into the servo cap connecting rotary disc device one by one, the servo cap connecting rotary disc device is arranged at the downstream of the cap separating device and used for rotating the caps to the cap beating device, and the cap beating device is used for sleeving the caps into a barrel opening. The invention can realize automatic capping of the bottle mouth of the bottle, so that consumers have no worry about sanitary pollution whether drinking directly or using indirectly; the full primary material can be used for a long time, thereby reducing the burden of the factory caused by the personnel.)

1. The utility model provides a prefabricated cap of bottled water bung hole overlaps cap equipment which characterized in that, includes storage device, first power conveyor, second power conveyor, divides cap device, servo cap carousel device and claps the cap device, first power conveyor connects storage device export and second power conveyor respectively, divide cap device to set up second power conveyor one end for pile up the cap on the second conveyor and separate and put into servo cap carousel device one by one, servo cap carousel device that connects sets up at branch cap device low reaches for rotate the cap to clap the cap device, it is used for emboliaing the bottleneck with the cap to clap the cap device.

2. The barreled water bung prefabricating cap and cap device of claim 1, wherein a bottle passing channel is arranged below the cap beating device, and a removing device is arranged on the bottle passing channel.

3. The barreled water bung pre-cap apparatus according to claim 1, wherein the cap separating device comprises a servo horizontal moving device and a servo oscillating device, the cap separating head is fixed on the end of the oscillating arm of the servo oscillating device, and a transfer pipeline is arranged between the cap separating device and the servo cap receiving turntable device.

4. The barreled water bung prefabricating cap sleeving apparatus of claim 3, wherein a cap supporting spring and an air pipe are arranged in the cap dividing head, and the air pipe is arranged opposite to the cap supporting spring.

5. The apparatus of claim 1, wherein the turntable of the servo cap-receiving turntable device is provided with a plurality of cap-moving carriers, a circular hole is formed in a center of the turntable for air passing through the air tube, and suction cups are disposed above the cap-moving carriers for sucking and blowing caps.

6. The barreled water bung pre-capping device of claim 1, wherein a photo-detector is provided under the servo capping turntable device.

7. The barreled water bung pre-capping device of claim 1, wherein a capping cylinder is disposed below the storage device, and a first power transmission device is disposed at a discharge port of the storage device.

8. The barreled water bung pre-capping apparatus of claim 7, wherein the first power delivery device comprises a first belt and a first motor, the first motor is configured to drive the first belt, the second power delivery device comprises a capping cylinder, a second belt and a second motor, the second motor drives the second belt, and the capping cylinder is located above the second belt.

9. The barreled water bung pre-hat capping device of claim 1, wherein the tapping cap device comprises a third motor, a transmission device and a tapping bar, and the third motor drives the tapping bar to swing up and down through the transmission device.

10. The apparatus of claim 9, wherein the transmission device comprises a cam seat, a rotating shaft and a cam, the cam seat is connected with the rotating shaft, the beater bar is disposed on the cam seat, and the cam is connected with a third motor and can drive the cam seat.

Technical Field

The invention relates to food and beverage production equipment, in particular to barreled water bung hole prefabricated cap sleeving equipment.

Background

The conventional barrelhead containers of barreled water need to be packaged by a cap, and the bottle mouth of the bottle is sleeved with the cap, so that the bottle cap and the edge of the bottle mouth are not in substantial contact with the outside; the cap is torn off before drinking, so that the bottle cap and the bottle mouth are effectively prevented from being polluted by the outside, and people can drink clean and sanitary drinks with confidence.

At the present stage, many factories still use artificial cap sleeving to meet the requirements to a certain extent, but in the high-speed production process, the cap in the hand needs to be quickly sleeved in by aligning with the bottle mouth on the wire body, and the cap and an object in operation are contacted to form a certain potential safety risk for workers; and the long term expenditure of worker costs is also a burden to the factory.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a barreled water barrel opening prefabricated cap sleeving device which can improve food safety and production safety and save labor cost.

The specific technical scheme is as follows: the first power conveying device is respectively connected with an outlet of the storage device and the second power conveying device, the cap separating device is arranged at one end of the second power conveying device and used for separating stacked caps on the second conveying device and putting the stacked caps into the servo cap receiving turntable device one by one, the servo cap receiving turntable device is arranged at the downstream of the cap separating device and used for rotating the caps to the cap beating device, and the cap beating device is used for sleeving the caps into a bottle opening.

As a preferred scheme, a bottle passing channel is arranged below the cap beating device, and a removing device is arranged on the bottle passing channel.

Preferably, the cap separating device comprises a servo horizontal moving device and a servo swinging device, the cap separating head is fixed at the tail end of a swinging arm of the servo swinging device, and a transfer pipeline is arranged between the cap separating device and the servo cap receiving turntable device.

As a preferred scheme, a cap supporting spring and an air pipe are arranged in the cap separating head, and the air pipe and the cap supporting spring are arranged oppositely.

As the preferred scheme, a plurality of cap moving carriers are arranged on a turntable of the servo cap receiving turntable device, a round hole for penetrating an air pipe is formed in the center of the turntable, and a sucker for sucking and blowing caps is arranged above each cap moving carrier.

Preferably, a photoelectric detection device is arranged below the servo cap receiving turntable device.

Preferably, a cap supplying cylinder is arranged below the storage device, and a first power conveying device is arranged at a discharge hole of the storage device.

As the preferred scheme, first power transmission device includes first belt and first motor, and first motor is used for driving first belt, second power transmission device is including pressing cap cylinder, second belt and second motor, the second motor drive second belt, presses cap cylinder to be located the second belt top.

Preferably, the cap beating device comprises a third motor, a transmission device and beating strips, and the third motor drives the beating strips to swing up and down through the transmission device.

Preferably, the transmission device comprises a cam seat, a rotating shaft and a cam, the cam seat is connected with the rotating shaft, the flapping strip is arranged on the cam seat, and the cam is connected with the third motor and can drive the cam seat.

The invention has the technical effects that: the barreled water bung hole prefabricated cap sleeving equipment can realize automatic capping of the bottleneck of a bottle, so that consumers have no worry about sanitary pollution whether drinking directly or using indirectly; the materials stored in the primary storage can be used for a long time, so that the burden of workers in a factory is reduced; meanwhile, the safety risk caused by contact with an object in operation when the cap is manually sleeved is also avoided.

Drawings

Fig. 1 is a schematic diagram of a capping device for capping a preformed cap of a barreled water barrel mouth according to an embodiment of the present invention;

FIG. 2 is a diagram of a memory device according to an embodiment of the present invention;

FIG. 3 is a schematic view of a first power delivery apparatus of an embodiment of the present invention;

FIG. 4 is a schematic illustration of a second power delivery apparatus of an embodiment of the present invention;

FIG. 5 is a schematic diagram of a cap separating device and a servo cap receiving turntable device according to an embodiment of the present invention;

FIG. 6 is a schematic view of a clap cap device according to an embodiment of the present invention;

FIG. 7 is an exploded view of an equipment rack according to an embodiment of the present invention;

FIG. 8 is a schematic view of a rejection device according to an embodiment of the present invention;

FIG. 9 is a schematic view of a cap separating apparatus according to an embodiment of the present invention;

FIG. 10 is an exploded view of a clap cap device according to an embodiment of the present invention;

FIG. 11 is an exploded view of a cap separating apparatus according to an embodiment of the present invention;

FIG. 12 is a schematic view of a servo cap turret apparatus according to an embodiment of the invention;

FIG. 13 is a schematic view of a primary cap according to an embodiment of the present invention;

FIG. 14 is a schematic view of the completed cap of the present embodiment;

FIG. 15 is a schematic view of a cap dispensing apparatus according to an embodiment of the present invention;

FIG. 16 is a schematic view of a stacked cap and a single cap in accordance with an embodiment of the present invention.

FIG. 17 is a schematic view of a cap attaching apparatus according to an embodiment of the present invention

FIG. 18 is an exploded view of a cap attachment apparatus according to an embodiment of the present invention

In the figure: 1. a storage device; 1011. a cap storage bin; 1012. a supply cap cylinder; 1013. a stacking cap; a first power transmission device; 2. a first power transmission device; 1021. a first belt; 1022. a first conveying motor; 3. a second power transmission device; 1031. a second belt; 1032. a cap pressing cylinder; 1033. a second motor; 1034. a translation cylinder; 1035. a stretching cylinder; 1036. a guide bar; 1037. a steel wire; 1038. a ring-shaped rotating shaft; 1039. a stretching plate; 4. a cap separating device; 1041. a servo horizontal movement device; 1042. dividing a cap head; 1043. a servo oscillating device; 1044. a transfer pipe; 1045. an air tube; 1046. a cap supporting spring; 5. a servo cap receiving turntable device; 1051. a cap moving carrier; 1052. a turntable; 1053. a suction cup; 1054. a photoelectric detection device; 6. a cap-beating device; 1061. a cam seat; 1062. a rotating shaft; 1063. a cam; 1064. beating strips; 1065. a third motor; 7. an equipment rack; 1071. a bottle mouth guide device; 8. a rejecting device; 1081. a cylinder; 1082. a push plate seat; 1083. pushing the plate; 9. a cap connecting device.

Detailed Description

The essential features and advantages of the invention will be further explained below with reference to examples, but the invention is not limited to the examples listed.

As shown in fig. 1 to 18, the barreled water bung prefabricating cap sleeving device of the embodiment includes a storage device 1, a first power transmission device 2, a second power transmission device 3, a cap separating device 4, a servo cap receiving turntable device 5 and a cap beating device 6, wherein the first power transmission device 2 is respectively connected with an outlet of the storage device 1 and the second power transmission device 3. The cap separating device 4 is arranged at one end of the second power transmission device 3 and is used for separating the stacked caps 1013 on the second power transmission device 3 and putting the stacked caps 1013 into the servo cap receiving turntable device 5 one by one. The servo cap receiving turntable device 5 is arranged at the downstream of the cap separating device 4 and used for rotating a cap to the cap beating device 6, and the cap beating device 6 is used for sleeving the cap into the bottle mouth. In the technical scheme, the storage device 1 is used for storing caps, the side surface and the tail end of the first power transmission device 1 are respectively connected with the outlet of the storage device and the second power transmission device 3, and the caps are transmitted to the second power transmission device 3 through the first power transmission device 2; the cap separating device 4 separates the stacked caps on the second power transmission device 3, takes one of the stacked caps off and puts the cap into the servo cap receiving turntable device 5; the servo cap receiving turntable device 5 rotates to a cap sleeving station after receiving a cap and is sleeved into a bottle mouth; the cap beating device 6 is arranged behind the cap sleeve and is used for beating the cap to be arranged on the bottle mouth. Through above-mentioned technical scheme, can realize the automatic cover cap of bottle bottleneck, let the consumer no matter directly drink or indirectly use the worry that all has sanitary pollution. The storage device is designed according to the incoming material stacking state of the hat, and the hat can be used for a long time after being fully stored once, so that the burden of a factory caused by personnel is reduced; the automatic separation of the incoming material stacking state of the cap can be adapted, and a single cap is automatically sleeved on a bottle opening in operation; meanwhile, the safety risk caused by contact with an object in operation when the cap is manually sleeved is also avoided.

In this embodiment, the cap beating device 6 is provided with a bottle passing channel below, and the bottle passing channel is provided with a removing device 8. Through the technical scheme, the cap which is not sleeved in place slides to the preset position after being patted by the cap patting device 6; and the cylinder of the rejecting device 8 rejects the cap-missing bottles after receiving the cap-free carrier signal of the servo cap-receiving turntable device.

In this embodiment, the cap separating device 4 includes a servo horizontal moving device 1041 and a servo swinging device 1043, the cap separating head 1042 is fixed on the end of the swinging arm of the servo swinging device 1043, and a transfer pipe 1044 is arranged between the cap separating device and the servo cap receiving turntable device. Through the above technical scheme, the servo swinging device 1043 can be driven to move horizontally by the servo horizontal moving device 1041, and the servo swinging device 1043 can drive the cap separating head 1042 to move, so that a cap on the cap separating head can enter the transfer pipeline 1044 after being adjusted in place. A cap supporting spring 1046 and an air pipe 1045 are arranged in the cap separating head 1042, the air pipe 1045 is arranged opposite to the cap supporting spring 1046, a cap can be obtained through the cap supporting spring 1046, and the cap can be blown down through the air pipe 1045. In this embodiment, a plurality of cap moving carriers 1051 are disposed on the turntable 1052 of the servo cap receiving turntable device 5, a circular hole for passing through the air tube is disposed at the center of the turntable 1052, and a suction cup 1053 for sucking and blowing the cap is disposed above the cap moving carriers 1051. In this embodiment, a photoelectric detection device 1054 is disposed below the servo cap receiving turntable device 5, and is used for detecting a bottle feeding state.

In this embodiment, a cap supplying cylinder 1012 is disposed below the storage device 1, and a first power transmission device 2 is disposed at a discharge port of the storage device 1, so that caps are conveyed through the discharge port by the first power transmission device 2. In the embodiment, the first power transmission device 2 comprises a first belt 1021 and a first motor 1022, the first motor 1022 is used for driving the first belt 1021, the second power transmission device 3 comprises a capping cylinder 1032, a second belt 1031 and a second motor 1033, the second motor 1033 drives the second belt 1031, and the capping cylinder 1032 is positioned above the second belt 1031; in this embodiment, the cap receiving device 9 includes a translation cylinder 1034, a stretching cylinder 1035, a steel wire 1036, an annular rotating shaft 1037, and a stretching plate 1038, the stretching cylinder 1035 is connected to the stretching plate 1038, one end of the steel wire 1036 is connected to the annular rotating shaft 1037, and the translation cylinder 1034 can be fixed to the front end of the translation cylinder.

In this embodiment, the cap beating device 6 includes a third motor 1065, a transmission device and a beating bar 1064, and the third motor 1065 drives the beating bar 1064 to swing up and down through the transmission device, so as to implement the cap beating. In this embodiment, the transmission device 6 includes a cam seat 1061, a rotating shaft 1062 and a cam 1063, the cam seat 1061 is connected to the rotating shaft 1062, the flapping bar 1064 is disposed on the cam seat 1061, and the cam 1063 is connected to a third motor 1065 and can drive the cam seat 1061.

When the barreled water bung hole is prefabricated cap sleeve cap equipment of this embodiment is used, storage device 1, first power transmission device 2, second power transmission device 3, servo cap carousel device 5, removing devices 8 all are equipped with photoelectric sensing ware, are connected with each device through the controller and control. A bottle mouth guiding device 1071 for positioning the center of the bottle mouth is arranged above the bottle passing channel of the frame 7, and a cap beating device 6 and a removing device 8 are arranged at the outlet direction position. The removing device 8 comprises an air cylinder 1081, the air cylinder 1082 is connected with a push plate seat 1082, a push plate 1083 is arranged on the push plate seat 1082, and the push plate 1083 is driven to stretch through the air cylinder 1082, so that removing is achieved.

The cap supply cylinder 1012 on the storage device 1 supplies caps to the first power transmission device 2, and the cap storage 1011 on the storage device 1 is used for storing caps. During the capping process, the stacked caps 1013 slide freely along the slope onto the first belt 1021; after the stacked caps slide on the belt 1021, the stacked caps are conveyed to the belt 1031 of the second power conveying device 3 under the action of the first motor 1022; thereafter, the second motor 1033 sends the stack caps 1013 to the cap pressing cylinder 1032 by the second belt 1031, positioning the stack caps. The cap separating head of the cap separating device 4 extends into the cap cavity at the end of the stacked cap 1013, and is translated backwards to separate a single cap, and meanwhile, the cap supporting spring 1046 extends into the cap cavity, and is matched with the translation of the servo horizontal moving device 1041 along with the rotation of the servo swinging device 1043, so that the single cap is smoothly moved to the transfer pipeline 1044, and is blown to the cap moving carrier 1051 by means of positive pressure of the air pipe 1045 inside the cap separating head. After the photoelectric detection device 1054 detects the bottle, the positive pressure above the cap carrier is moved to blow the cap onto the bottle mouth, namely primary cap sleeving is realized, and the top of the cap is frequently beaten to the neck position through the beating strip 1064 of the cap beating device 6, namely cap sleeving is completed; uncapped bottles will be rejected by the rejection device 8 onto a powerless line.

In this embodiment, because the cap is all plastic material, very soft, the one end of opening is out of round all generally, and butt joint has the risk, may not insert the afterbody of the cap that is about to use up, can play the guide effect through setting up and connect cap device 9, can strut the one end of opening, makes it round. When a stacked cap 1013 is about to be used up and the tail of the stacked cap passes through the inlet of the steel wire 1036, the stretching cylinder 1035 pulls back the stretching plate 1038 to make the diameter of the bell mouth of the steel wire 1036 shrink and become smaller, at this time, the cap supplying cylinder 1012 on the storage device 1 will continue to supply the stacked cap 1013 to the first power transmission device 2, the cap cavity at one end is butted with the bell mouth of the steel wire 1036, the translation cylinder 1034 translates to the bottle inlet direction to withdraw the steel wire, the stretching cylinder 1035 pushes out the stretching plate 1038 to make the diameter of the bell mouth of the steel wire 1036 shrink and become larger, and the translation cylinder 1034 translates to the bottle outlet direction to return to the normal mode; the entire stacking cap 1013 interfaces with the stack cap 1013 that is about to be used up.

The barreled water bung hole prefabricated cap sleeving equipment can realize automatic capping of a bottle mouth, so that a consumer has no worry of sanitary pollution whether drinking directly or using indirectly; the materials stored in the primary storage can be used for a long time, so that the burden of workers in a factory is reduced; meanwhile, the safety risk caused by contact with an object in operation when the cap is manually sleeved is also avoided.

It should be noted that the above-mentioned preferred embodiments are merely illustrative of the technical concepts and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.