CN114834656B - Environment-friendly seasoning production equipment for food processing and application method thereof - Google Patents

Abstract

The invention discloses environment-friendly seasoning production equipment for food processing and a using method thereof, and belongs to the technical field of seasoning production equipment. An environment-friendly seasoning production device for food processing comprises a filling pipe and a base, wherein the base is fixedly connected with a gas storage tank and a gas pump; according to the invention, when filling is carried out, gas in the gas storage tank enters the first cylinder to push the first ejector rod to slide, so that the arc plate is close to one side of the filling bottle, the label is attached to the filling bottle, meanwhile, the second cylinder drives the rotary drum to rotate, the rotary drum drives the filling bottle to rotate, the label on the filling bottle is smoothed by the rotary drum, the attaching effect is improved, the bottle cap is grabbed by the manipulator, and the bottle cap is screwed on the filling bottle when the filling bottle rotates.

Description

Environment-friendly seasoning production equipment for food processing and application method thereof

Technical Field

The invention relates to the technical field of seasoning production equipment, in particular to environment-friendly seasoning production equipment for food processing and a using method thereof.

Background

Flavoring, also known as seasoning, refers to a food ingredient that is used to improve taste by adding small amounts to other foods; some flavors are otherwise used as staple foods or as main ingredients for consumption;

at present, most seasonings are produced by using bags, and the bags are discarded after being used, so that garbage is generated, a certain influence is brought to the environment, the environmental protection consciousness is violated, the existing most seasonings are stored by using bottles, and the bottles can be recycled by recycling, so that the environmental protection is improved, and the sustainable development is benefited;

in the existing seasoning production process, when bottled seasoning filling production is carried out, labels of related products are required to be attached to a bottle body, and the existing manual labeling is mostly carried out, so that the efficiency is low, and the production progress is affected.

Disclosure of Invention

The invention aims to solve the problems that in the existing seasoning production process, when bottled seasoning is filled and produced, labels of related products are required to be attached to a bottle body, and the existing manual labeling is slow in efficiency and affects the production progress.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a seasoning production facility for food processing of environmental protection, includes filling tube and base, fixedly connected with gas holder and air pump on the base, the air pump output passes through gas tube and gas holder fixed intercommunication, fixedly connected with gas collecting channel on the air pump input, fixedly connected with negative pressure pipe on the gas collecting channel, fixedly connected with communicating pipe on the gas holder, negative pressure pipe and communicating pipe all pass the base, still include: the packaging structure comprises a base, a mounting groove, a limiting baffle, a rotating shaft, a torsion spring, a filling bottle and a filling bottle, wherein the mounting groove is formed in the base; the sliding rod is used for intermittently controlling the opening and closing of the negative pressure pipe and the communicating pipe; the device is characterized in that the device is fixed on a first cylinder on the base through a support, a first ejector rod is connected in the first cylinder in a sliding manner, an arc-shaped plate corresponding to the side wall of the filling bottle is fixedly connected to the front end of the first ejector rod, a negative pressure port is formed in the arc-shaped surface of the arc-shaped plate and is communicated with a negative pressure pipe, one end, far away from the air storage tank, of the communicating pipe is fixedly communicated with the tail end of the first cylinder, and a first electromagnetic exhaust valve is fixedly connected to the tail end of the first cylinder.

In order to facilitate controlling the opening and closing of the negative pressure pipe and the communicating pipe, preferably, the device further comprises a sliding cavity which is perpendicular to and penetrates through the negative pressure pipe and the communicating pipe and is formed in the base, the sliding rod is slidably connected in the sliding cavity, a connecting air hole is formed in the sliding cavity and corresponds to the communicating pipe, the tail end of the sliding rod corresponds to the negative pressure pipe, the top end of the sliding rod is fixedly connected with a contact plate, the bottom surface of the contact plate is fixedly connected with a spring, and one end of the spring, far away from the contact plate, is fixedly connected to the bottom wall of the mounting groove.

In order to improve the use effect of the limit baffle, further, the limit baffle comprises a bottom plate and an arc-shaped side plate.

In order to be convenient for negative pressure pipe and negative pressure air flue be connected, further, fixedly connected with connecting pipe on the negative pressure pipe, negative pressure air flue has been seted up in the arc, negative pressure mouth and negative pressure air flue intercommunication, the one end that the negative pressure pipe was kept away from to the connecting pipe is from first cylinder end penetration into first cylinder in, and runs through first ejector pin and communicate with negative pressure air flue, fixedly connected with first extension spring in the first cylinder, first extension spring other end fixed connection is at first ejector pin end.

In order to improve the laminating effect of label, further, the both ends of arc all rotate and are connected with the rotary drum, the rotary drum is hugged closely with the filling bottle lateral wall, still includes drive assembly for the drive rotary drum is rotatory.

In order to be convenient for drive rotary drum is rotatory, further, drive assembly includes second cylinder, belt, second cylinder fixed connection is on the arc, sliding connection has the second ejector pin in the second cylinder, the terminal fixedly connected with second extension spring of second ejector pin, second extension spring other end fixed connection is on the terminal diapire of second cylinder, second ejector pin front end fixedly connected with rack, arc one side fixedly connected with fixed plate, rotate on the fixed plate and be connected with the pivot, fixedly connected with gear and first band pulley in the pivot, rack, gear mesh, fixedly connected with second band pulley on the rotary drum rotation end, rotate on the arc and be connected with the third band pulley, the belt is connected with in proper order on first band pulley, second band pulley, third band pulley.

In order to facilitate driving the second ejector rod to slide, further, fixedly connected with connects the trachea on the first cylinder, the one end that connects the trachea and keep away from first cylinder is fixed to be linked together at the second cylinder end.

In order to improve the production efficiency, the bottle cap clamping device further comprises a mechanical arm for clamping the bottle cap of the filling bottle.

An environment-friendly method for using seasoning production equipment for food processing mainly comprises the following steps:

s1, starting an air pump, placing a filling bottle on a limit baffle, and starting a filling tube to fill seasonings into the filling bottle;

s2, downwards pressing a slide bar after the filling bottle is filled, enabling the communicating pipe to communicate the first cylinder with the air storage tank by the slide bar, closing the negative pressure pipe, pushing the first ejector rod to slide after air of the air storage tank enters the first cylinder, and enabling the label to be attached to the outer wall of the filling bottle;

s3, when the first ejector rod slides, gas in the first cylinder enters the second cylinder through the connecting air pipe, and pushes the second ejector rod to slide, so that the rack is meshed with the driving gear to rotate, and the rotating cylinder is driven to rotate;

s4, after the rotary drum rotates, the rotary drum is clung to the filling bottle, and then the filling bottle is driven to rotate, so that the rotary drum smoothes the label;

s5, simultaneously grabbing the bottle cap by a manipulator, moving the bottle cap to the position above the bottle opening of the filling bottle, and driving the bottle cap to be close to the bottle opening of the filling bottle by the manipulator when the filling bottle rotates, so that the bottle cap is screwed on the filling bottle.

Compared with the prior art, the invention provides the environment-friendly production equipment of the seasoning for food processing and the use method thereof, and has the following beneficial effects: the invention can make the gas in the gas storage tank enter the first cylinder to push the first ejector rod to slide when filling, make the arc plate close to one side of the filling bottle, make the label stick on the filling bottle, and drive the rotary drum to rotate by the second cylinder, the rotary cylinder is driven to rotate, the label on the filling bottle is smoothed by the rotary cylinder, the attaching effect is improved, the bottle cap is grabbed by the mechanical arm, the bottle cap is screwed on the filling bottle when the filling bottle rotates, the device effectively improves the labeling efficiency and effect, meanwhile, the bottle cap can be installed, the automation degree of the device is greatly improved, and the production progress is accelerated.

Drawings

FIG. 1 is a schematic diagram of an environment-friendly seasoning production device for food processing;

FIG. 2 is a schematic diagram of the structure of the seasoning production equipment A in FIG. 1 for processing food in environment protection;

FIG. 3 is a schematic view of the structure of the seasoning production equipment B in FIG. 1 for processing food in environment protection;

FIG. 4 is a schematic top view of an installation groove and a limit baffle of an environment-friendly seasoning production device for food processing;

fig. 5 is a schematic top view of an arc plate of an environment-friendly seasoning production device for food processing according to the present invention;

FIG. 6 is a schematic view of a drum of an environment-friendly seasoning production device for food processing according to the present invention;

fig. 7 is a schematic structural view of a limit baffle and a rotating shaft of an environment-friendly seasoning production device for food processing.

In the figure: 1. a base; 10. a mounting groove; 101. a limit baffle; 102. a rotating shaft; 103. a torsion spring; 100. filling a bottle; 11. a gas storage tank; 111. an air pump; 112. an inflation tube; 113. a gas collecting hood; 114. a negative pressure pipe; 1141. a connecting pipe; 12. a communicating pipe; 13. a first cylinder; 131. a first ejector rod; 132. a first tension spring; 133. a first electromagnetic exhaust valve; 14. a slide bar; 141. a spring; 142. a contact plate; 143. connecting air holes; 144. a sliding cavity; 15. an arc-shaped plate; 150. a label; 151. a negative pressure air passage; 152. a negative pressure port; 153. a rotating drum; 16. a fixing plate; 160. a rotating shaft; 161. a gear; 162. a first pulley; 163. a second pulley; 164. a third pulley; 165. a belt; 17. a second cylinder; 171. connecting an air pipe; 172. a second tension spring; 173. a second ejector rod; 174. a rack; 2. a manipulator; 3. and (5) filling the tube.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1: referring to fig. 1 to 7, an environment-friendly seasoning production device for food processing comprises a filling tube 3 and a base 1, wherein an air storage tank 11 and an air pump 111 are fixedly connected to the base 1, the output end of the air pump 111 is fixedly communicated with the air storage tank 11 through an air charging tube 112, a gas collecting hood 113 is fixedly connected to the input end of the air pump 111, a negative pressure tube 114 is fixedly connected to the gas collecting hood 113, a communicating tube 12 is fixedly connected to the air storage tank 11, and the negative pressure tube 114 and the communicating tube 12 all penetrate through the base 1, and the environment-friendly seasoning production device further comprises: the packaging box comprises a mounting groove 10 formed in a base 1, limit baffles 101 are symmetrically arranged in the mounting groove 10, a rotating shaft 102 is fixedly connected to the limit baffles 101, two ends of the rotating shaft 102 are rotatably connected to the mounting groove 10, a torsion spring 103 is sleeved on the rotating shaft 102, one end of the torsion spring 103 is fixedly connected to the rotating shaft 102, the other end of the torsion spring 103 is fixedly connected to the side wall of the mounting groove 10, and a filling bottle 100 is placed on the limit baffles 101; a slide bar 14 for intermittently controlling the opening and closing of the negative pressure pipe 114 and the communication pipe 12; the first cylinder 13 is fixed on the base 1 through a bracket, the first cylinder 13 is connected with a first ejector rod 131 in a sliding way, the front end of the first ejector rod 131 is fixedly connected with an arc plate 15 corresponding to the side wall of the filling bottle 100, the arc surface of the arc plate 15 is provided with a negative pressure port 152, the negative pressure port 152 is communicated with a negative pressure pipe 114, one end, far away from the air storage tank 11, of the communicating pipe 12 is fixedly communicated with the tail end of the first cylinder 13, and the tail end of the first cylinder 13 is fixedly connected with a first electromagnetic exhaust valve 133; the device further comprises a sliding cavity 144 which is perpendicular to and penetrates through the negative pressure pipe 114 and the communicating pipe 12 and is arranged on the base 1, the sliding rod 14 is connected in the sliding cavity 144 in a sliding mode, a connecting air hole 143 is arranged on the sliding cavity 144, the connecting air hole 143 corresponds to the communicating pipe 12, the tail end of the sliding rod 14 corresponds to the negative pressure pipe 114, the top end of the sliding rod 14 is fixedly connected with a contact plate 142, the bottom surface of the contact plate 142 is fixedly connected with a spring 141, and one end, away from the contact plate 142, of the spring 141 is fixedly connected to the bottom wall of the mounting groove 10; the limit baffle 101 comprises a bottom plate and an arc-shaped side plate; the negative pressure pipe 114 is fixedly connected with a connecting pipe 1141, a negative pressure air channel 151 is formed in the arc-shaped plate 15, a negative pressure port 152 is communicated with the negative pressure air channel 151, one end of the connecting pipe 1141 far away from the negative pressure pipe 114 penetrates into the first cylinder 13 from the tail end of the first cylinder 13, penetrates through the first ejector rod 131 and is communicated with the negative pressure air channel 151, a first tension spring 132 is fixedly connected in the first cylinder 13, and the other end of the first tension spring 132 is fixedly connected with the tail end of the first ejector rod 131; the two ends of the arc-shaped plate 15 are rotatably connected with a rotary drum 153, the rotary drum 153 is clung to the side wall of the filling bottle 100, and the rotary drum comprises a driving assembly for driving the rotary drum 153 to rotate; the driving assembly comprises a second air cylinder 17 and a belt 165, the second air cylinder 17 is fixedly connected to the arc-shaped plate 15, a second ejector rod 173 is connected to the second air cylinder 17 in a sliding manner, a second tension spring 172 is fixedly connected to the tail end of the second ejector rod 173, the other end of the second tension spring 172 is fixedly connected to the bottom wall of the tail end of the second air cylinder 17, a rack 174 is fixedly connected to the front end of the second ejector rod 173, one side of the arc-shaped plate 15 is fixedly connected to the fixed plate 16, a rotating shaft 160 is rotatably connected to the fixed plate 16, a gear 161 and a first belt pulley 162 are fixedly connected to the rotating shaft 160, the rack 174 and the gear 161 are meshed, a second belt pulley 163 is fixedly connected to the rotating end of the rotating drum 153, a third belt pulley 164 is rotatably connected to the arc-shaped plate 15, and the belt 165 is sequentially connected to the first belt pulley 162, the second belt pulley 163 and the third belt pulley 164; the first cylinder 13 is fixedly connected with a connecting air pipe 171, and one end of the connecting air pipe 171, which is far away from the first cylinder 13, is fixedly communicated with the tail end of the second cylinder 17; the device also comprises a manipulator 2 for clamping the 100 caps of the filling bottles;

when the device is used, the air pump 111 is opened, the air pump 111 charges high-pressure air into the air storage tank 11 through the air charging pipe 112, then the empty bottles of the filling bottles 100 for storing seasonings are placed on the symmetrically arranged limiting baffles 101, the arc-shaped side plates of the limiting baffles 101 can provide limiting effects for the filling bottles 100, the bottle mouths of the filling bottles 100 are positioned below the filling tubes 3, meanwhile, the contact plates 142 are in contact with the bottle bottoms of the filling bottles 100 under the action of the springs 141, and the contact plates 142 provide effective support for the filling bottles 100, so that the filling bottles 100 are placed more stably;

it should be understood that the limit baffle 101 is inclined under the action of the torsion spring 103 (refer to fig. 1), meanwhile, the empty bottle of the filling bottle 100 is placed on the limit baffle 101, and the limit baffle 101 cannot rotate under the influence of the torsion spring 103 and the spring 141;

when the filling tube 3 fills the seasoning into the filling tube 100, the weight of the filling tube 100 increases, and after the filling tube 100 is filled, the filling tube 100 moves downwards to push the slide bar 14 to slide downwards in the slide cavity 144, the slide bar 14 is in an initial state, the negative pressure tube 114 is in a communicating state, the communicating tube 12 is in a closed state, when the slide bar 14 slides downwards, the connecting air hole 143 on the slide bar 14 enables the communicating tube 12 to be communicated (refer to fig. 2), the gas in the gas storage tank 11 is filled into the first cylinder 13 from the communicating tube 12, the gas pushing end is limited and slidingly connected with the first ejector rod 131 in the first cylinder 13 (it is understood that the penetrating part of the connecting tube 1141 at the end of the first cylinder 13 is fixedly connected with the first cylinder 13, the penetrating part of the connecting tube 1141 and the end of the first ejector rod 131 is fixedly connected, the connecting tube 1141 between the first cylinder 13 and the end of the first ejector rod 131 can be telescopic, and the connecting tube 1141 of the part can be freely telescopic when the first ejector rod 131 is pushed by the gas, so that the connecting tube 1141 is not influenced by the connection of the negative pressure air channel 151;

before filling, after the air pump 111 is started, the input end of the air pump 111 is sucked, the input end of the air pump 111 is covered by the air collecting cover 113, so that negative pressure is formed in the negative pressure pipe 114, the negative pressure pipe 114 enables the negative pressure port 152 to form negative pressure through the connecting pipe 1141, then the label 150 is placed on the side surface of the arc-shaped plate 15, which is close to the filling bottle 100, the label 150 is adsorbed on the arc-shaped plate 15 through the negative pressure port 152 (refer to fig. 3), after the first ejector rod 131 is pushed by air, the arc-shaped plate 15 with the label 150 adsorbed on one side is close to the filling bottle 100, the label 150 on the arc-shaped plate 15 is attached to one side of the filling bottle 100, and the label 150 coated with adhesive on the side wall, which is close to the filling bottle 100, is attached to the filling bottle 100;

meanwhile, when the slide bar 14 slides downwards, the connecting air hole 143 enables the air storage tank 11 to be communicated with the first air cylinder 13, at the moment, the tail end of the slide bar 14 can block the negative pressure pipe 114, so that the input end of the air pump 111 cannot inhale from the negative pressure pipe 114, and further, the negative pressure port 152 cannot continuously form larger negative pressure to suck the label 150, meanwhile, after the negative pressure pipe 114 is blocked, the air in the section from the negative pressure pipe 114 to the negative pressure port 152 cannot leak, and further, the label 150 can be adsorbed on the arc plate 15 and cannot fall off, but the adsorption force to the label 150 can be relatively reduced, when the label 150 is attached to the side wall of the filling bottle 100, the suction force of the negative pressure port 152 is prevented from being too large, and when the arc plate 15 is far away from the filling bottle 100, the label 150 cannot be easily separated from the filling bottle 100, and can be more easily separated from the arc plate 15, and the label 150 can be more conveniently attached to the side wall of the filling bottle 100;

it is to be understood that: meanwhile, the gas collecting cover 113 is provided with a gas inlet, when the negative pressure pipe 114 is blocked, external air can continuously enter the gas pump 111 through the gas inlet, so that the gas pump 111 can normally charge the gas storage tank 11;

when the first ejector rod 131 is in an initial state, the connecting air pipe 171 is connected with the first cylinder 13 through the outer wall of the first ejector rod 131 to block the air inlet end, after the first ejector rod 131 is pushed by air, and the tail end of the first ejector rod 131 passes through the connecting position of the connecting air pipe 171 and the first cylinder 13, air in the air storage tank 11 enters the second cylinder 17 through the connecting air pipe 171 and pushes the second ejector rod 173 with the tail end clamped and limited in the second cylinder 17 to slide, when the second ejector rod 173 slides far away from the tail end of the second cylinder 17, the rack 174 with one end fixedly connected with the second ejector rod 173 is pushed to move, when the rack 174 moves, the gear 161 is meshed to drive the gear 161 to rotate, and when the gear 161 rotates, the first pulley 162 drives the second pulley 163 fixedly connected with one end of the rotary drum 153 through the belt 165 to rotate, and as the rotary drum 153 is rotationally connected with two ends of the rotary drum 153, when the rotary drum 153 rotates and the rotary drum 153 is close to the rotary drum 153, and when the rotary drum 153 is close to the rotary drum 100 to the label 150, the rotary drum 153 is in contact with the side wall of the belt 100, the rotary drum 153 and the rotary drum 153 is pushed by the rotary drum 153 and the rotary drum 153 is tightly attached to the rotary drum 100, and the label 150 is attached to the label 100, and the label is attached to the label 100 is rotatably 100, when the label is kept close to the rotary drum 100, and the label is attached to the label is 100;

before the filling bottle 100 rotates, the manipulator 2 can grab an internal rotation thread bottle cap matched with the filling bottle 100 and move above the bottle mouth of the filling bottle 100, when the filling bottle 100 rotates, the manipulator 2 can drive the bottle cap to move downwards, so that the bottle cap is screwed on the filling bottle 100 when the filling bottle 100 rotates, and further the production efficiency is improved;

it is to be understood that: the belt 165 is located at the upper end of the filling bottle 100, and meanwhile, the belt 165 is limited and guided through the first belt pulley 162, the second belt pulley 163 and the third belt pulley 164, namely, when the arc plate 15 is close to the filling bottle 100, the belt 165 is not in contact with the filling bottle 100, and further the rotation of the belt 165 is not affected, further, the fourth belt pulley can be symmetrically and rotationally connected to the arc plate 15, and the belt 165 is limited, so that the belt 165 corresponds to the arc shape of the arc plate 15, does not protrude out of the arc plate 15, and further when the arc plate 15 is close to the filling bottle 100, the belt 165 does not cover the opening position of the filling bottle 100, and further the external thread bottle cap is grabbed by the manipulator 2, and is in threaded connection with the opening of the filling bottle 100, and further, external thread or internal thread bottle cap can be screwed on the filling bottle 100 according to different requirements;

when the filling bottle 100 is required to be removed after the filling bottle 100 is screwed on, the first electromagnetic exhaust valve 133 at the tail end of the first cylinder 13 and the second electromagnetic exhaust valve connected to the tail end of the second cylinder 17 are opened, gas in the first cylinder 13 is exhausted, when the gas in the first cylinder 13 is exhausted, the first ejector rod 131 retracts under the action of the first tension spring 132, the arc plate 15 is far away from the filling bottle 100, the filling bottle 100 is taken down from the base 1 at the moment, then the slide rod 14 is rebound under the action of the spring 141, the communicating pipe 12 is plugged again, the negative pressure pipe 114 is communicated, meanwhile, the gas in the second cylinder 17 is exhausted through the second electromagnetic exhaust valve, and the second ejector rod 173 drives the rack 174 to retract under the tension of the second tension spring 172, so that the empty filling bottle 100 is conveniently placed on the limit baffle 101 again.

Example 2: referring to fig. 1 to 7, an environment-friendly method for using a seasoning production device for food processing mainly comprises the following steps:

s1: starting the air pump 111, placing the filling bottle 100 on the limit baffle 101, and starting the filling tube 3 to fill the filling bottle 100 with the flavoring;

s2: after the filling bottle 100 is filled, the sliding rod 14 is pressed downwards, the sliding rod 14 enables the communicating pipe 12 to communicate the first air cylinder 13 with the air storage tank 11, meanwhile, the negative pressure pipe 114 is closed, and after the air in the air storage tank 11 enters the first air cylinder 13, the first ejector rod 131 is pushed to slide, so that the label 150 is attached to the outer wall of the filling bottle 100;

s3: when the first ejector rod 131 slides, the gas in the first cylinder 13 enters the second cylinder 17 through the connecting gas pipe 171, and pushes the second ejector rod 173 to slide, so that the rack 174 is meshed with the driving gear 161 to rotate so as to drive the rotary drum 153 to rotate;

s4: after the rotary drum 153 rotates, the rotary drum is tightly attached to the filling bottle 100, and then the filling bottle 100 is driven to rotate, so that the rotary drum 153 smoothes the label 150;

s5: simultaneously, the bottle cap is grabbed by the manipulator 2 and moved to the position above the bottle opening of the filling bottle 100, and when the filling bottle 100 rotates, the manipulator 2 drives the bottle cap to be close to the bottle opening of the filling bottle 100, so that the bottle cap is screwed on the filling bottle 100.

According to the invention, when filling is carried out, the gas in the gas storage tank 11 enters the first cylinder 13 to push the first ejector rod 131 to slide, so that the arc plate 15 is close to one side of the filling bottle 100, the label 150 is attached to the filling bottle 100, meanwhile, the second cylinder 17 drives the rotary drum 153 to rotate to drive the filling bottle 100 to rotate, the rotary drum 153 smoothes the label 150 on the filling bottle 100, the attaching effect is improved, meanwhile, the bottle cap is grabbed by the manipulator 2, and the bottle cap is screwed on the filling bottle 100 when the filling bottle 100 rotates.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (3)

1. The utility model provides a seasoning production facility for food processing of environmental protection, includes filling tube (3) and base (1), its characterized in that, fixedly connected with gas holder (11) and air pump (111) on base (1), air pump (111) output passes through gas tube (112) and gas holder (11) fixed intercommunication, fixedly connected with gas-collecting vessel (113) on air pump (111) input, fixedly connected with negative pressure pipe (114) on gas-collecting vessel (113), fixedly connected with communicating pipe (12) on gas holder (11), negative pressure pipe (114) and communicating pipe (12) all pass base (1), still include:

the packaging structure comprises a mounting groove (10) formed in a base (1), limit baffles (101) are symmetrically arranged in the mounting groove (10), a rotating shaft (102) is fixedly connected to the limit baffles (101), two ends of the rotating shaft (102) are rotationally connected in the mounting groove (10), a torsion spring (103) is sleeved on the rotating shaft (102), one end of the torsion spring (103) is fixedly connected to the rotating shaft (102), the other end of the torsion spring is fixedly connected to the side wall of the mounting groove (10), and a filling bottle (100) is placed on the limit baffles (101);

a slide bar (14) for intermittently controlling the opening and closing of the negative pressure pipe (114) and the communicating pipe (12);

the device comprises a base (1), a first cylinder (13) fixed on the base (1) through a bracket, a first ejector rod (131) is connected in the first cylinder (13) in a sliding manner, an arc-shaped plate (15) corresponding to the side wall of the filling bottle (100) is fixedly connected to the front end of the first ejector rod (131), a negative pressure port (152) is formed in the arc-shaped surface of the arc-shaped plate (15), the negative pressure port (152) is communicated with a negative pressure pipe (114), one end, far away from a gas storage tank (11), of a communicating pipe (12) is fixedly communicated with the tail end of the first cylinder (13), and a first electromagnetic exhaust valve (133) is fixedly connected to the tail end of the first cylinder (13);

the vacuum cleaner further comprises a sliding cavity (144) which is perpendicular to and penetrates through the negative pressure pipe (114) and the communicating pipe (12) and is formed in the base (1), the sliding rod (14) is connected in the sliding cavity (144) in a sliding mode, a connecting air hole (143) is formed in the sliding cavity (144), the connecting air hole (143) corresponds to the communicating pipe (12), the tail end of the sliding rod (14) corresponds to the negative pressure pipe (114), a contact plate (142) is fixedly connected to the top end of the sliding rod (14), a spring (141) is fixedly connected to the bottom surface of the contact plate (142), and one end, away from the contact plate (142), of the spring (141) is fixedly connected to the bottom wall of the mounting groove (10);

the limit baffle (101) comprises a bottom plate and an arc-shaped side plate;

the negative pressure pipe (114) is fixedly connected with a connecting pipe (1141), a negative pressure air passage (151) is formed in the arc-shaped plate (15), the negative pressure port (152) is communicated with the negative pressure air passage (151), one end, far away from the negative pressure pipe (114), of the connecting pipe (1141) penetrates into the first cylinder (13) from the tail end of the first cylinder (13) and penetrates through the first ejector rod (131) and is communicated with the negative pressure air passage (151), a first tension spring (132) is fixedly connected in the first cylinder (13), and the other end of the first tension spring (132) is fixedly connected with the tail end of the first ejector rod (131);

the two ends of the arc-shaped plate (15) are rotatably connected with a rotary drum (153), the rotary drum (153) is tightly attached to the side wall of the filling bottle (100), and the rotary drum further comprises a driving assembly for driving the rotary drum (153) to rotate;

the driving assembly comprises a second air cylinder (17) and a belt (165), the second air cylinder (17) is fixedly connected to an arc-shaped plate (15), a second ejector rod (173) is connected to the second air cylinder (17) in a sliding mode, a second tension spring (172) is fixedly connected to the tail end of the second ejector rod (173), the other end of the second tension spring (172) is fixedly connected to the bottom wall of the tail end of the second air cylinder (17), a rack (174) is fixedly connected to the front end of the second ejector rod (173), a fixed plate (16) is fixedly connected to one side of the arc-shaped plate (15), a rotating shaft (160) is connected to the fixed plate (16) in a rotating mode, a gear (161) and a first belt wheel (162) are fixedly connected to the rotating shaft (16), the rack (174) and the gear (161) are meshed, a second belt wheel (163) is fixedly connected to the rotating end of the rotating drum (153), a third belt wheel (164) is connected to the arc-shaped plate (15) in a rotating mode, and the belt (165) is sequentially connected to the first belt wheel (162), the second belt wheel (163) and the third belt wheel (164) are meshed to the third belt wheel.

A connecting air pipe (171) is fixedly connected to the first air cylinder (13), and one end, far away from the first air cylinder (13), of the connecting air pipe (171) is fixedly communicated with the tail end of the second air cylinder (17);

the first ejector rod (131) is in an initial state, the connecting air pipe (171) is connected with the first air cylinder (13) through the outer wall of the first ejector rod (131) to be blocked at the air inlet end, after the first ejector rod (131) is pushed by air, and after the tail end of the first ejector rod (131) passes through the connecting position of the connecting air pipe (171) and the first air cylinder (13), air in the air storage tank (11) can enter the second air cylinder (17) through the connecting air pipe (171) and pushes the tail end to be clamped and limited in the second ejector rod (173) in the second air cylinder (17) to slide, and when the second ejector rod (173) slides towards the tail end far away from the second air cylinder (17), the rack (174) with one end fixedly connected with the second ejector rod (173) is pushed to move.

2. An environmental friendly food processing seasoning production facility as claimed in claim 1 further comprising a manipulator (2) for gripping the lid of the filling bottle (100).

3. An environment-friendly food processing seasoning production device using method, which comprises the environment-friendly food processing seasoning production device as claimed in claim 2, and is characterized by mainly comprising the following steps:

s1, starting an air pump (111), placing a filling bottle (100) on a limit baffle (101), and starting a filling tube (3) to fill seasonings into the filling bottle (100);

s2, after the filling bottle (100) is filled, the sliding rod (14) is pressed downwards, the sliding rod (14) enables the communicating pipe (12) to communicate the first air cylinder (13) with the air storage tank (11), meanwhile, the negative pressure pipe (114) is closed, and after air in the air storage tank (11) enters the first air cylinder (13), the first ejector rod (131) is pushed to slide, so that the label (150) is attached to the outer wall of the filling bottle (100);

s3, when the first ejector rod (131) slides, gas in the first cylinder (13) enters the second cylinder (17) through the connecting gas pipe (171) and pushes the second ejector rod (173) to slide, so that the rack (174) is meshed to drive the gear (161) to rotate so as to drive the rotary drum (153) to rotate;

s4, after the rotary drum (153) rotates, the rotary drum is tightly attached to the filling bottle (100), and then the filling bottle (100) is driven to rotate, so that the rotary drum (153) smoothes the label (150);

s5, simultaneously grabbing the bottle cap through the mechanical arm (2) and moving the bottle cap to the upper portion of the bottle opening of the filling bottle (100), and when the filling bottle (100) rotates, the mechanical arm (2) drives the bottle cap to be close to the bottle opening of the filling bottle (100) so that the bottle cap is screwed on the filling bottle (100).