CN117509512B - Filling equipment is used in production of blue copper peptide essence - Google Patents

Abstract

The invention relates to filling equipment for producing blue copper peptide essence, and belongs to the technical field of essence filling. The problem of liquid splashing caused by excessive flow rate of the main filling spray head. Including the base, the base has electric conveyor belt through the support mounting, the base has the limiting plate through the support rigid coupling, evenly distributed's electric baffle is installed to the limiting plate, the fixed casing has been placed on the electric conveyor belt, the equidistance is equipped with the filling bottle on the fixed casing, the limiting plate rigid coupling has the fixed plate, the fixed plate has the first electric putter of symmetric distribution through the support rigid coupling, the symmetric distribution the flexible end common rigid coupling of first electric putter has first movable plate, the downside rigid coupling of first movable plate has evenly distributed's splash guard. The splash guard covers the upper part of the filling bottle, so that the splashed liquid is recovered, and meanwhile, the liquid is prevented from dripping on the device, and the sanitary condition during long-term filling is ensured.

Description

Filling equipment is used in production of blue copper peptide essence

Technical Field

The invention relates to the technical field of essence filling, in particular to filling equipment for producing blue copper peptide essence.

Background

The blue copper peptide essence is an excellent skin care product, the blue copper peptide essence is required to be filled into small bottles in batches through filling equipment after production is finished, the follow-up sales is convenient, the prior art aims to ensure the efficiency of filling the blue copper peptide essence, the liquid is pressurized through a hydraulic press for conveying the blue copper peptide essence, the liquid is rapidly sprayed into the small bottles from a filling nozzle to be filled, the mode is mainly used for increasing the flow rate of the filling nozzle in unit time, and further reducing the overall filling time, but when the flow rate of the filling nozzle is increased, the falling liquid tends to be splashed more easily, the liquid splashed out of the small bottles falls on the filling equipment, if the liquid is accumulated for a long time, the filling environment is polluted, the cleaning is not timely, even the product quality is influenced, the liquid is difficult to recycle, and the resource waste is caused.

Disclosure of Invention

In order to overcome the defect of liquid splashing caused by overlarge flow rate of a pouring nozzle, the invention provides filling equipment for producing blue copper peptide essence.

The technical proposal is as follows: the utility model provides a blue copper peptide essence production is with filling equipment, includes the base, the upside of base has electric conveyor belt through the support mounting, the upside of base has limiting plate and control panel through the support rigid coupling, electric conveyor belt with the limiting plate cooperation, evenly distributed's electric baffle is installed to the limiting plate, pressure sensor is installed to electric conveyor belt, the fixed shell has been placed to the electric conveyor belt, the fixed shell is equipped with equidistant filling bottle, the upside rigid coupling of limiting plate has the fixed plate, the fixed plate has first electric putter of symmetric distribution through the support rigid coupling, the symmetric distribution the flexible end common rigid coupling of first electric putter has first movable plate, first movable plate rigid coupling has the second electric putter of symmetric distribution, the symmetric distribution the flexible end common rigid coupling of second electric putter has the second movable plate, the downside rigid coupling of first movable plate has evenly distributed's splash guard, the splash guard with adjacent filling cooperation, the second movable plate is towards one side of first movable plate has evenly distributed's filling bottle, the upper side rigid coupling has the first movable tube of symmetric distribution has the same liquid through the filling tube.

Further preferably, the liquid blocking mechanism comprises a uniformly distributed rotating disc, the rotating disc is rotationally connected with the first moving plate, the first moving plate is fixedly connected with a uniformly distributed fixed disc, the fixed disc is located on one side, away from the filling pipe, of the rotating disc, a first elastic piece is arranged between the fixed disc and the adjacent rotating disc, the rotating disc is fixedly connected with a symmetrically distributed elastic telescopic rod, the adjacent and symmetrically distributed elastic telescopic rods are fixedly connected with a moving disc, the moving disc is matched with the adjacent filling bottle, the uniformly distributed splash guard is communicated with a liquid collecting pipe through a hose, the moving disc is provided with a ventilation assembly for discharging gas in the filling bottle, and the filling pipe is provided with a leakage prevention assembly for preventing liquid leakage and splash.

Further preferably, the ventilation assembly comprises symmetrically distributed floating plates, the symmetrically distributed floating plates are respectively and slidably connected to one side, away from the fixed disc, of the adjacent movable disc, protruding columns are fixedly connected to one side, facing the adjacent movable disc, of the floating plates, through holes matched with the protruding columns on the adjacent floating plates are formed in the movable disc, the floating plates penetrate through the adjacent movable disc and are fixedly connected with limiting pieces, and the adjacent limiting pieces are fixedly connected with a transmission ring through the protruding columns.

Further preferably, the leak protection subassembly is including evenly distributed's outer spray tube, evenly distributed outer spray tube rotates respectively to be connected in adjacent the perfusion tube, outer spray tube with adjacent the rolling disc, adjacent remove the dish and adjacent equal sliding connection of driving ring, the outside of outer spray tube is equipped with the spout, first movable plate is towards one side rigid coupling of second movable plate has evenly distributed's spacing post, spacing post with adjacent spout cooperation on the outer spray tube, the inside rotation of outer spray tube is connected with interior spray tube, interior spray tube with adjacent the perfusion tube intercommunication, the bottom of outer spray tube with the bottom of interior spray tube all is equipped with the through-hole that the internal diameter is unanimous, the through-hole of outer spray tube with the through-hole cooperation of interior spray tube, outer spray tube is equipped with logical groove, interior spray tube is adjacent in the logical groove department rigid coupling of outer spray tube has the connecting block, the driving ring with the connecting block cooperation, it is through projection with adjacent sliding connection to remove the dish.

Further preferably, the chute outside the outer spray pipe is composed of at least two chute sections and one vertical chute section, and the chute on the upper side of the outer spray pipe is consistent with the radian of the opening of the through chute.

Further preferably, the bottle filling machine further comprises a feeding mechanism for conveying the fixing shell, the feeding mechanism is arranged on the base, the feeding mechanism comprises a first conveying belt, the first conveying belt is arranged on the base through a support, the fixing shell is arranged on the upper side of the first conveying belt, a second conveying belt is arranged on a limiting plate, the filling bottle is arranged on the upper side of the second conveying belt, a fixing baffle is fixedly connected between the second conveying belt and the fixing plate, the limiting plate is provided with a U-shaped groove matched with the filling bottle, the limiting plate is connected with a supporting plate in a symmetrical distribution mode in a sliding mode, the supporting plate is symmetrically distributed with a second elastic piece between the limiting plate, the fixing shell faces to one side of the adjacent filling bottle, the fixing shell is fixedly connected with a round convex column matched with the adjacent filling bottle, the fixing shell is provided with a blind hole which is uniformly distributed, the fixing shell is matched with the adjacent filling bottle through the blind hole, the fixing shell is uniformly distributed with the blind hole, the fixing shell is provided with a clamping assembly which is used for clamping the fixing bottle positioning assembly, and the fixing assembly is uniformly distributed on the inner wall of the fixing plate.

Further preferably, the clamping assembly comprises symmetrically distributed clamping jaws, the symmetrically distributed clamping jaws are all in sliding connection with adjacent blind holes on the fixed shell, a third elastic piece is installed between each clamping jaw and the adjacent fixed shell, the fixed shell is in sliding connection with symmetrically distributed moving blocks and symmetrically distributed extrusion blocks, the moving blocks are matched with the adjacent extrusion blocks, the extrusion blocks are matched with the adjacent supporting plates, and the moving blocks are matched with the adjacent clamping jaws.

Further preferably, the positioning assembly comprises a limiting pin, the limiting pin is matched with the fixing shell, the limiting pin is slidably connected with the limiting plate, the limiting plate is fixedly connected with an electromagnet matched with the limiting pin through a support, a fourth elastic piece is arranged between the limiting pin and the limiting plate, uniformly distributed limiting holes are formed in the fixing shell, and the uniformly distributed limiting holes are matched with the limiting pin.

Further preferably, the bottle packaging machine further comprises a sealing mechanism for packaging the filling bottles, the sealing mechanism is arranged on the fixing plate, the sealing mechanism comprises a symmetrically distributed fixing frame, the fixing frame is fixedly connected to one side of the fixing plate, which faces the first movable plate, through a support, a hopper is fixedly connected to the upper side of the fixing frame, a bottle stopper is placed in the hopper, the bottle stopper is matched with the filling bottles, a symmetrically distributed third electric push rod is fixedly connected to the upper side of the fixing plate, an electric slide rail is fixedly connected to the telescopic end of the third electric push rod, a sliding plate is fixedly connected to the symmetrically distributed electric slide rail through an electric slide block in a sliding mode, a support plate is fixedly connected to the base through a support column, a transmission gear is rotationally connected to the support plate, a first rack meshed with the transmission gear is fixedly connected to the sliding plate, a second rack meshed with the transmission gear is fixedly connected to the support plate, and an extrusion strip is fixedly connected to the second rack.

Further preferably, the fixing frame is rotationally connected with symmetrically distributed swinging plates through an electric rotating shaft, the swinging plates adjacent to the fixing frame are mutually rotationally connected with a first limit bar and a second limit bar, the swinging plates are used for controlling bottle stoppers in the hopper to fall down in sequence, and one ends of the sliding plates, facing the extrusion bars, are fork-shaped and used for bearing the bottle stoppers.

The invention has the following advantages:

1. according to the invention, the splash guard covers the upper part of the filling bottle, so that the splashed liquid is recovered, and meanwhile, the liquid is prevented from dripping on the device, so that the sanitary environment during long-term filling is ensured, the resource waste is saved, and the cleaning cost is reduced.

2. According to the invention, the splash liquid is blocked in the filling bottle in advance by the moving disc, and the splash liquid splashed on the moving disc is centrifugally cleaned by rotating the moving disc, so that most of the splash liquid flows back into the filling bottle, and a small part of liquid which cannot be remained in the filling bottle is centrifugally recycled in the splash guard.

3. According to the invention, the floating plate moves upwards in time when the liquid level in the defect filling bottle becomes high, so that the ventilation through hole on the moving disc is plugged, splashing liquid is prevented from splashing from the through hole on the moving disc due to the fact that the liquid level is too high, the splashing liquid is left on the lower side of the moving disc, and subsequent cleaning work is facilitated.

4. According to the invention, the fixing shell is limited by the limiting pin, and meanwhile, the fixing shell and the filling bottle are automatically and firmly combined and installed by the cooperation of the supporting plate, the circular convex column, the clamping jaw and parts between the supporting plate and the circular convex column, so that the operation accuracy of a follow-up device is ensured.

5. According to the invention, the bottle stopper is clamped by controlling the matching of the sliding plate and the extrusion strip, so that the bottle stopper is covered on the adjacent filling bottle in advance, and the phenomenon that liquid in the filling bottle is spilled out due to shaking caused by inertia when the filling bottle is driven to move by the follow-up fixed shell is avoided.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the base, the electric conveyor belt and the limiting plate of the present invention;

FIG. 3 is a schematic perspective view of a limiting plate, an electric conveyor belt and a fixing plate according to the present invention;

fig. 4 is a schematic perspective view of a fixed plate, a first moving plate and a second moving plate according to the present invention;

FIG. 5 is a schematic perspective view of a rotating disc, an elastic telescopic rod and a movable disc according to the present invention;

FIG. 6 is a cross-sectional view of the rotating disc, splash guard, and moving disc of the present invention;

FIG. 7 is a schematic perspective view of the outer nozzle, inner nozzle and connecting block of the present invention;

FIG. 8 is a schematic perspective view of the first conveyor belt, the filling bottles and the stationary housing of the present invention;

FIG. 9 is a schematic perspective view of the stationary barrier, the second conveyor belt and the pallet of the present invention;

FIG. 10 is a schematic perspective view of the pawl, moving mass and squeeze mass of the present invention;

FIG. 11 is a view showing the state of the pallet, the limiting plate and the circular boss of the present invention;

fig. 12 is a schematic perspective view of the hopper, stopper and first rack of the present invention;

FIG. 13 is a schematic perspective view of the swing plate, the first limiting bar and the second limiting bar according to the present invention;

figure 14 is a view showing the state of the slide, stopper and squeeze bar of the present invention.

Part names and serial numbers in the figure: 1. base, 2, electric conveyor belt, 3, limit plate, 4, fixed shell, 5, filling bottle, 6, fixed plate, 7, first electric push rod, 9, first moving plate, 10, second electric push rod, 12, second moving plate, 13, splash guard, 14, pouring tube, 101, electric baffle, 102, rotating disc, 103, fixed disc, 104, first elastic piece, 105, elastic telescopic rod, 106, moving disc, 107, floating plate, 108, sheet, 109, transmission ring, 110, outer spray pipe, 111, limit post, 112, inner spray pipe, 113, connecting block, 201, first conveying belt, 202, fixed baffle, 203, second conveying belt, 204, pallet, 205, second elastic piece, 206, circular convex post, 207, clamping jaw, 208, third elastic piece, 209, moving block, 210, extrusion block, 211, limiting pin, 212, electromagnet, 213, fourth elastic piece, 214, limiting hole, 301, fixing frame, 302, hopper, 303, bottle stopper, 304, swinging plate, 305, first limiting bar, 306, second limiting bar, 307, third electric push rod, 308, electric slide rail, 309, slide plate, 310, support plate, 311, transmission gear, 312, first rack, 313, second rack, 314, extrusion bar, 100, liquid blocking mechanism, 200, ventilation assembly, 300, leak-proof assembly, 400, feeding mechanism, 500, clamping assembly, 600, positioning assembly, 700, sealing mechanism.

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that, without conflict, the following embodiments and features of the embodiments may be combined with each other, and unless explicitly stated and limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly connected, or indirectly connected through intermediaries.

Example 1: the filling equipment for producing the blue copper peptide essence, as shown in figures 1-4, comprises a base 1, wherein the upper side of the base 1 is fixedly connected with a limiting plate 3 and a control panel through a bracket, the upper side of the base 1 is provided with an electric conveying belt 2 electrically connected with the control panel through the bracket, a plurality of non-contact fixing shells 4 are arranged on the electric conveying belt 2, five filling bottles 5 are uniformly spaced on each fixing shell 4, the electric conveying belt 2 is matched with the limiting plate 3 to limit the fixing shells 4 forwards and backwards, the fixing shells 4 can only move linearly left and right on the electric conveying belt 2, the limiting plate 3 is provided with two electric baffles 101 which are uniformly distributed left and right and are electrically connected with the control panel, the two electric baffles are used for limiting the left and right sides of the fixing shells 4, the subsequent filling is convenient, the two electric baffles 101 are provided with pressure sensors for detecting whether the electric conveying belts are contacted with the fixing shells 4 or not, the pressure sensor is electrically connected with the control panel, the upper side of the limiting plate 3 is fixedly connected with the fixed plate 6, the upper side of the fixed plate 6 is fixedly connected with two first electric push rods 7 which are symmetrically distributed through a bracket, the two first electric push rods 7 are electrically connected with the control panel, the telescopic ends of the two first electric push rods 7 are fixedly connected with a first movable plate 9 together, the first movable plate 9 is positioned at the upper side of the fixed plate 6, the upper side of the first movable plate 9 is fixedly connected with two second electric push rods 10 which are symmetrically distributed, the two second electric push rods 10 are electrically connected with the control panel, the telescopic ends of the two second electric push rods 10 are fixedly connected with a second movable plate 12 together, the lower side of the first movable plate 9 is fixedly connected with five splash guards 13 which are uniformly distributed, the bottoms of the splash guards 13 are arranged as conical surfaces, the splash guards 13 are matched with the upper sides and the outer sides of the adjacent filling bottles 5, splashed liquid is collected through the bottom conical surfaces and the inner walls of the splash guards 13, the splash-proof device comprises a first movable plate (9), a second movable plate (12), a liquid blocking mechanism (100) and a control panel, wherein the first movable plate (9) is provided with a liquid blocking mechanism (100) which is used for blocking the splashed liquid in the filling bottles (5), the second movable plate (12) is fixedly connected with the pouring pipes (14) which are in one-to-one correspondence with the splash-proof plates (13), the five pouring pipes (14) are communicated with a hydraulic machine which is used for conveying the liquid and is electrically connected with the control panel through the hoses, the first movable plate (9) is provided with through holes which are respectively matched with the five pouring pipes (14), the liquid is conveniently filled in the adjacent filling bottles (5), and the first movable plate (9) is provided with the liquid blocking mechanism (100) which is used for blocking the splashed liquid in the filling bottles (5).

As shown in fig. 4-6, the liquid blocking mechanism 100 includes five rotating discs 102 that are uniformly distributed, the positions of the five rotating discs 102 are respectively in one-to-one correspondence with the five splash guards 13, the rotating discs 102 are rotatably connected to the first moving plate 9, the first moving plate 9 is fixedly connected with fixed discs 103 corresponding to the lower sides of the five rotating discs 102 one by one, first elastic members 104 are installed between the fixed discs 103 and the adjacent rotating discs 102, the first elastic members 104 are torsion springs, the rotating discs 102 are fixedly connected with two elastic telescopic rods 105, the two elastic telescopic rods 105 are symmetrically distributed, the lower sides of the adjacent two elastic telescopic rods 105 are fixedly connected with moving discs 106 together, that is, when the rotating discs 102 rotate, the moving discs 106 are driven to rotate together, the moving discs 106 are matched with the inner sides of the bottle mouths of the adjacent filling bottles 5, so as to block liquid in the filling bottles 5, a ventilation assembly 200 for discharging gas in the filling bottles 5 is arranged on each moving disc 106, and a leakage prevention assembly 300 for preventing liquid from continuously splashing after stopping filling is arranged on each filling tube 14.

As shown in fig. 4-6, the ventilation assembly 200 includes two floating plates 107, the two floating plates 107 are symmetrically distributed, the two floating plates 107 are respectively and slidably connected to the lower sides of the adjacent movable plates 106, the movable plates 106 are provided with through holes for smoothly discharging the gas in the filling bottle 5 during filling, the upper sides of the floating plates 107 are fixedly connected with convex columns matched with the through holes on the adjacent movable plates 106, the convex columns are used for blocking the through holes on the movable plates 106 to reduce the splashing amount of the liquid from the positions, the floating plates 107 penetrate the adjacent movable plates 106, the upper sides of the movable plates 106 are fixedly connected with limit pieces 108, the adjacent two limit pieces 108 are fixedly connected with a transmission ring 109 together through the convex columns, and when the transmission ring 109 moves upwards, the two limit pieces 108 drive the two floating plates 107 to move upwards together.

As shown in fig. 4 to 7, the leakage preventing assembly 300 comprises five outer nozzles 110 which are uniformly distributed, the five outer nozzles 110 are respectively and rotatably connected to the lower sides of the corresponding pouring pipes 14, the outer nozzles 110 are slidably connected with the adjacent rotating discs 102, the adjacent moving discs 106 and the adjacent driving rings 109, the outer sides of the outer nozzles 110 are provided with sliding grooves, the sliding grooves on the outer sides of the outer nozzles 110 are composed of upper and lower side sliding grooves and a middle section of vertical groove, wherein the horizontal rotation angle of the upper side sliding groove is 45 degrees, the upper side of the first moving plate 9 is fixedly connected with a limit column 111 matched with the sliding groove on the adjacent outer nozzles 110, the limit column 111 is matched with the sliding groove of the outer nozzles 110 when the outer nozzles 110 move downwards, the outer nozzles 110 are rotated, the inner nozzles 112 are rotatably connected to the inner nozzles 110, the inner spray pipe 112 is communicated with the adjacent pouring pipes 14 and is used for conveying liquid, through holes with the same inner diameter are formed in the lower side of the outer spray pipe 110, through holes with the same inner diameter as the through holes in the lower side of the outer spray pipe 110 are formed in the lower side of the inner spray pipe 112, the through holes are matched with each other, the inner spray pipe 112 is completely communicated with the through holes in the outer spray pipe 110 and is completely staggered and sealed at an angle of 45 degrees, the outer spray pipe 110 is provided with through grooves with the radian of 45 degrees, the inner spray pipe 112 is fixedly connected with a connecting block 113, the connecting block 113 slides at the through grooves of the adjacent outer spray pipes 110, the driving ring 109 is matched with the connecting block 113, when the connecting block 113 moves upwards along with the outer spray pipe 110, the connecting block 113 extrudes the driving ring 109 to move upwards together, the moving disc 106 is connected with the adjacent connecting block 113 in a sliding mode through a convex column, and the moving disc 106 rotates along with the connecting block 113 through an upper convex column.

Before starting the work, the staff needs to fix the filling bottle 5 on the fixed shell 4 in sequence, and place the fixed shell 4 on the electric conveyor belt 2 at a certain distance in sequence during filling to realize continuous filling, and before starting the work, the two electric baffles 101 do not extend, namely, at the moment, the two electric baffles do not block the fixed shell 4 on the electric conveyor belt 2.

When the filling work is started, a worker enables the device to continuously operate by starting the control panel, and the specific operation process is as follows: the control panel firstly opens the electric conveyor belt 2, the electric conveyor belt 2 drags the fixed shell 4 on the electric conveyor belt 2 to move leftwards through friction, at the moment, because the limiting plate 3 limits the lateral displacement of the fixed shell 4, the fixed shell 4 can only move leftwards on a straight line, meanwhile, the control panel firstly controls the left electric baffle plate 101 to extend forwards to block the fixed shell 4 on the electric conveyor belt 2, after the left electric baffle plate 101 blocks the fixed shell 4, the pressure sensor on the left electric baffle plate 101 is extruded by the fixed shell 4 to transmit signals to the control panel, the control panel starts the right electric baffle plate 101 to block the next fixed shell 4, and meanwhile, the electric baffle plates 101 on the left side and the right side are matched to limit the fixed shell 4 in between, so that the filling bottle 5 on the fixed shell 4 and the filling pipe 14 on the upper side of the fixed shell are just positioned on the same axis, and the subsequent filling procedure is convenient.

After the electric baffles 101 on the left side and the right side are stretched out, the control panel starts the telescopic ends of the two first electric push rods 7 to move downwards, at the moment, the telescopic ends of the two first electric push rods 7 drive the first moving plate 9 and the upper parts thereof to move downwards together, after the splash guard 13 is contacted with the filling bottle 5 on the lower side, the control panel controls the two first electric push rods 7 to stop moving, and meanwhile, the control panel starts the two second electric push rods 10, so that the telescopic ends of the two second electric push rods 10 drive the second moving plate 12, namely the upper parts thereof to move downwards.

In the initial state, the transmission ring 109 is limited on the upper side of the protruding column of the adjacent moving disc 106 connected with the transmission ring by the adjacent connection block 113, the floating plate 107 and the moving disc 106 are limited by the adjacent transmission ring 109, the floating plate 107 and the moving disc 106 are in a matched state, namely, the protruding column on the floating plate 107 is inserted into the through hole of the adjacent moving disc 106, meanwhile, the floating plate 107 limits the moving disc 106, so that the elastic telescopic rod 105 maintains the shortest state, at the moment, the first elastic piece 104 is in a force storage state, because the connection block 113 is limited on the front side of the through groove of the corresponding outer spray tube 110, the first elastic piece 104 cannot drive the rotating disc 102, namely the upper part thereof, to rotate and reset, the through hole of the outer spray tube 110 and the through hole of the inner spray tube 112 are dislocated, liquid in the inner spray tube 112 cannot leak, and the limiting column 111 is positioned at the lowest chute of the lower side of the outer spray tube 110.

Therefore, when the telescopic ends of the two second electric push rods 10 drive the second moving plate 12 and the upper parts thereof to move downwards, the limiting columns 111 rotate while the outer spray pipe 110 descends through the chute at the lower side of the outer spray pipe 110, the through grooves on the outer spray pipe 110 rotate, the outer spray pipe 110 releases the limit on the connecting block 113, at this time, the first elastic piece 104 loses limit and begins to reset, the first elastic piece 104 drives the moving plate 106 to rotate through the rotating plate 102 and the elastic telescopic rod 105, at this time, the moving plate 106 drives the connecting block 113 to rotate together with the outer spray pipe 110 through the upper convex columns thereof, and the outer spray pipe 110 drives the inner spray pipe 112 and the connecting block 113 to move together downwards, so that the connecting block 113 gradually releases the limit on the driving ring 109, namely the elastic telescopic rod 105 pushes the moving plate 106 and the floating plate 107 to move downwards synchronously by means of elastic extension of the elastic telescopic rod 105.

When the outer nozzle 110 continues to move down to the position where the upper end of the inclined groove on the lower side of the outer nozzle 110 is matched with the limit post 111, the first elastic member 104 just releases completely, at this time, the outer nozzle 110 continues to move down, the limit post 111 starts to separate from the inclined groove on the lower side of the outer nozzle 110 and is matched with the vertical groove on the outer nozzle 110, at this time, the outer nozzle 110 continues to move down but does not rotate, the first elastic member 104 does not drive the rotating disc 102 to continue rotating, i.e. the relative position of the connecting block 113 and the corresponding through groove is not changed, the through hole of the outer nozzle 110 and the through hole of the inner nozzle 112 are still misplaced, at this time, the elastic telescopic rod 105 is just extended to the longest state, the moving disc 106 stops moving down, at this time, the moving disc 106 is inserted into the bottleneck of the filling bottle 5, the outer nozzle 110 and the inner nozzle 112 continue to move down and extend out of the lower surface of the moving disc 106, the connecting block 113 continues to release the limit of the floating plate 107 and the driving ring 109 connected thereto, so the floating plate 107 gradually moves down by gravity itself, until the upper protruding post thereof is separated from the matching with the through hole on the adjacent moving disc 106.

When the outer nozzle 110 continues to move down to the upper end of the vertical groove thereof to be matched with the limit post 111, the limit piece 108 is in contact with the moving disc 106 at this time, namely, the floating plate 107 stops moving down, the through hole on the lower side of the outer nozzle 110 and the through hole on the lower side of the inner nozzle 112 start to be completely opened, then when the outer nozzle 110 continues to move down, the limit post 111 starts to be separated from the vertical groove of the outer nozzle 110 and is matched with the chute on the upper side of the outer nozzle 110, at this time, the outer nozzle 110 continues to rotate while moving down, but at this time, the inner nozzle 112 is connected with the moving disc 106 through the connecting block 113, the self angle is kept from rotating (due to the elastic action of the first elastic piece 104), namely, at this time, the connecting block 113 slides on the through groove on the outer nozzle 110, the through hole on the lower side of the outer nozzle 110 and the through hole on the lower side of the inner nozzle 112 start to rotate relatively, and when the upper end of the outer nozzle 110 moves down to the upper inclined groove on the upper side of the outer nozzle 110 is matched with the limit post 111, at this time, the control panel controls the two second electric push rods 10 to stop moving, and at this time, the pouring tube 14 starts to move down, the inner nozzle 112 starts to move towards the pouring copper 5 through the inner nozzle 5, and the pouring bottle 5 moves upwards through the filling bar 5, and the essence and the filling bottle 5 moves upwards through the through hole 106.

In the pouring process, a certain pressure is applied by a hydraulic pressure machine for normal pouring to achieve the purpose of shortening the pouring time, liquid sputtering is easy to occur at this time, and when the filling bottle 5 is filled up faster, the liquid is sputtered higher, and the sputtered liquid is blocked by the moving disc 106 at this time, namely, the sputtered liquid is gathered on the lower surface of the moving disc 106 and the floating plate 107, and cannot splash out of the filling bottle 5.

When special defects exist in the production process of the inner wall of the filling bottle 5, the volume of the defective filling bottle 5 is smaller than that of the normal filling bottle 5, but the volume of the filling bottle 5 cannot be detected, and the current filling method is a quantitative filling method, namely, the liquid with the same volume is filled into each filling bottle 5, at the moment, the liquid level in the defective filling bottle 5 is higher than that in the normal filling bottle 5 when the filling amount is the same, when the liquid level in the defective filling bottle 5 is gradually increased, the liquid level is firstly contacted with the floating plate 107, the floating plate 107 is pushed to be lifted together, the through hole on the moving disc 106 is firstly plugged through the upper convex column of the floating plate 107 when the floating plate moves upwards, so that sputtering liquid is prevented from splashing from the through hole on the moving disc 106 due to the lifted liquid level, and the sputtering liquid is concentrated on the lower side of the moving disc 106 to be conveniently cleaned.

When the inner spray pipe 112 fills the filling bottle 5 with the blue copper peptide essence for a certain time, namely after the filling bottle 5 is filled with liquid with a specified capacity, the device stops filling and reversely operates to reset, and simultaneously, the two second electric push rods 10 drive the second movable plates 12 to move and reset, the through holes at the lower side of the outer spray pipe 110 and the through holes at the lower side of the inner spray pipe 112 are firstly misplaced, so that the liquid in the inner spray pipe 112 is prevented from falling down and splashing, then when the outer spray pipe 110 resets to the lower surface of the outer spray pipe 110 to be flush with the lower surface of the movable plate 106, namely, the limit column 111 is matched with the upper end of the chute at the lower side of the outer spray pipe 110, the movable plate 106 and the outer spray pipe 110 are rotated together to reset according to the reverse operation of the principle, at this moment, the movable plate 106, the outer spray pipe 110 and the liquid at the lower side of the floating plate 107 are rotated and flow all around under the centrifugal action, when the movable plate 106 is positioned in the adjacent filling bottle 5, most of the centrifugal liquid is returned to the filling bottle 5, when the movable plate 106 is separated from the matched with the adjacent filling bottle 5, at this moment, only a small part of the liquid on the movable plate 106 falls down, the splashing is prevented from splashing by the centrifugal splash cover, the splashing is prevented from being splashed into the adjacent splash cover 13, and the splashing liquid is uniformly accumulated in the five splash covers 13, and the inner splash cover is uniformly accumulated in the five splash cover 13.

After the two second electric push rods 10 are completely reset, the control panel controls the two first electric push rods 7 to drive the first moving plate 9 to move upwards for reset, then the control panel controls the left electric baffle 101 to retract and open firstly, so that the filled fixing shell 4 and the filling bottle 5 move leftwards, then the right electric baffle 101 is opened, so that the fixing shell 4 and the filling bottle 5 limited by the electric baffle 101 move leftwards, and after the filled fixing shell 4 and the filling bottle 5 pass, the operation of blocking the next group of fixing shells 4 and the filling bottle 5 is carried out again, and the continuous filling procedure is completed according to the repeated operation of the process.

Example 2: on the basis of the embodiment 1, as shown in fig. 1, 2 and 8-10, the feeding mechanism 400 is further provided on the base 1, the feeding mechanism 400 is used for automatically assembling the fixing shell 4 and the filling bottle 5, the feeding mechanism 400 comprises a first conveying belt 201 electrically connected with the control panel, the first conveying belt 201 is mounted on the upper side of the base 1 through a bracket, the rear side of the first conveying belt 201 is connected with the electric conveying belt 2, the fixing shell 4 is placed side by side on the upper side of the first conveying belt 201, the first conveying belt 201 intermittently works, each time one fixing shell 4 is conveyed to the electric conveying belt 2, a second conveying belt 203 electrically connected with the control panel is mounted on the upper side of the limiting plate 3, the second conveying belt 203 is located on the upper side of the electric conveying belt 2, the filling bottle 5 is placed on the upper side of the second conveying belt 203, the second conveying belt 203 cooperates with limiting plates 3 on two sides of the second conveying belt 203 to limit the front side and the rear side of the filling bottle 5, the filling bottle 5 can only move leftwards along a straight line, the limiting plate 3 is fixedly connected with the fixed baffle 202 between the second conveying belt 203 and the fixed plate 6, when the filling bottle 5 does not fall into the fixed shell 4, the filling bottle 5 is limited by the fixed baffle 202 so that the filling bottle 5 cannot move leftwards continuously, the limiting plate 3 is provided with a U-shaped groove matched with the filling bottle 5, the filling bottle 5 falling into the fixed shell 4 conveniently moves leftwards along with the fixed shell 4, the limiting plate 3 is respectively and slidingly connected with two supporting plates 204 on the front side and the rear side of the inner wall of the U-shaped groove, the two supporting plates 204 are symmetrically distributed and are used for supporting the filling bottle 5 on the upper side of the U-shaped groove, a second elastic piece 205 is arranged between the two supporting plates 204 and the limiting plate 3, the second elastic piece 205 is arranged as a spring, the upper side of the fixed shell 4 is fixedly connected with a circular convex column 206, the supporting plates 204 are provided with inclined surfaces, the circular convex columns 206 are matched with the inclined surfaces of the adjacent supporting plates 204, make two layer boards 204 receive adjacent circular projection 206 extrusion back to keep away from, make things convenient for the filling bottle 5 whereabouts on it, fixed shell 4 be equipped with adjacent filling bottle 5 complex five blind holes, the inner wall of every blind hole on the fixed shell 4 all is equipped with the clamping component 500 that is used for pressing from both sides tight filling bottle 5, limiting plate 3 is equipped with the locating component 600 that is used for fixing a position to fixed shell 4, make things convenient for filling bottle 5 to fall into fixed shell 4, locating component 06 is connected with the control panel electricity.

As shown in fig. 8-11, the clamping assembly 500 includes two claws 207, the two claws 207 are symmetrically distributed and are used for clamping the filling bottles 5 in the blind holes on the fixed shell 4, the two claws 207 are slidably connected to the corresponding blind holes on the fixed shell 4, a third elastic member 208 is mounted between each claw 207 and the adjacent fixed shell 4, the third elastic member 208 is configured as a spring, two moving blocks 209 and two pressing blocks 210 are slidably connected to the fixed shell 4 at each blind hole thereon, the moving blocks 209 are simultaneously matched with the adjacent pressing blocks 210 and the adjacent claws 207 through inclined planes on the upper side and the lower side, the pressing blocks 210 are matched with the adjacent supporting plates 204, when the supporting plates 204 are moved and opened, the adjacent pressing blocks 210 press the moving blocks 209, so that the adjacent claws 207 are moved and retracted into the adjacent blind holes to avoid the blocking of the filling bottles 5, and after the pressing blocks 210 are disengaged from the adjacent supporting plates 204, the claws 207 clamp the filling bottles 5 in the adjacent blind holes under the reset action of the adjacent third elastic members 208.

As shown in fig. 8 and 9, the positioning assembly 600 includes a limiting pin 211, the limiting pin 211 is slidably connected to the rear side of the limiting plate 3, the limiting pin 211 is matched with the fixing shell 4 to limit the fixing shell 4, when the fixing shell 4 moves to the limited position, two adjacent extrusion blocks 210 and two clamping claws 207 are opened oppositely, the limiting plate 3 is fixedly connected with an electromagnet 212 electrically connected with the control panel through a bracket, the electromagnet 212 is matched with the limiting pin 211, a fourth elastic member 213 is installed between the limiting pin 211 and the limiting plate 3, the fourth elastic member 213 is provided with a tension spring, after the electromagnet 212 is electrified, the limiting pin 211 is adsorbed to move backwards, so that the fixing shell 4 loses limitation and continues to move leftwards, meanwhile, the fourth elastic member 213 is stretched, four limiting holes 214 are uniformly distributed on the rear side of the fixing shell 4, and are matched with the limiting pin 211, and four blind holes on the right side of the fixing shell 4 are aligned with the U-shaped grooves on the limiting plate 3 in sequence.

The control panel intermittently starts the first conveyor belt 201 while the electric conveyor belt 2 starts, the start interval of which is proportional to the stretch interval of the electric shutter 101 at the left side, makes the first conveyor belt 201 convey one fixed case 4 to the electric conveyor belt 2 at each start, and starts the second conveyor belt 203 after the first conveyor belt 201 conveys the fixed case 4 to the electric conveyor belt 2 each time, makes the filling bottles 5 pile up leftwards, at this time, because the limiting plates 3 clamp both sides of the filling bottles 5, the filling bottles 5 can only move leftwards in a straight line, at this time, the fixed case 4 conveyed to the electric conveyor belt 2 moves leftwards, and when the fixed case 4 moves leftwards, presses the inclined surfaces of the adjacent supporting plates 204 by the two circular bosses 206, the two supporting plates 204 are far away from each other, the lower side of the leftmost filling bottle 5 is gradually out of support, meanwhile, the second elastic piece 205 is compressed, the two supporting plates 204 are pressed to move downwards in the moving process by pressing the adjacent pressing blocks 210, the pressing blocks 210 are pressed to move horizontally by pressing the adjacent moving blocks 209, the moving blocks 209 are pressed to move horizontally by pressing the adjacent clamping claws 207, meanwhile, the third elastic piece 208 is compressed, namely, the two clamping claws 207 in the blind holes close to the supporting plates 204 are opened back, when the fixing shell 4 is limited by the limiting pins 211, the two supporting plates 204 and the two clamping claws 207 are all completely opened, and when the lower side of the leftmost filling bottle 5 is completely out of support, the filling bottle 5 falls into the blind holes of the fixing shell 4.

After the filling bottle 5 falls and is inserted into the fixed shell 4, i.e. after the fixed shell 4 is limited by the limiting pin 211 for a certain time, the electromagnet 212 is opened by the control panel, the electromagnet 212 attracts the limiting pin 211 to move backwards, the fourth elastic piece 213 is compressed, the limiting on the fixed shell 4 is released, after the fixed shell 4 is released from limiting, the electromagnet 212 is closed by the control panel, the limiting pin 211 is pulled and reset by the fourth elastic piece 213, but because the fixed shell 4 passes through the limiting pin 211 and moves leftwards, i.e. the limiting pin 211 is limited by the fixed shell 4 at the moment, until the limiting hole 214 on the fixed shell 4 coincides with the limiting pin 211, the limiting pin 211 moves forwards and is inserted into the limiting hole 214, limiting on the fixed shell 4 is continued, in the process, the filling bottle 5 inserted into the fixed shell 4 is lower than the fixed baffle 202, the filling bottle 5 moves leftwards normally, meanwhile, the second elastic piece 205 pushes the supporting plate 204 to reset, the third elastic piece 208 pushes the supporting plate 207 to reset, and the adjacent filling bottle 5 is pushed and extruded by the third elastic piece 208 to fix.

The device repeatedly repeats the process, automatically installs the filling bottle 5 on the fixed shell 4, saves the labor intensity of workers, ensures that the fixed shell 4 always clamps the filling bottle 5, and maintains the accuracy of the subsequent filling work.

Example 3: based on embodiment 2, as shown in fig. 2, 3 and 12-14, the device further comprises a sealing mechanism 700 for sealing the filling bottle 5 in advance, preventing the liquid in the filled filling bottle 5 from being forced to spill out when moving, the sealing mechanism 700 is arranged on the fixing plate 6, the sealing mechanism 700 comprises two fixing frames 301, the two fixing frames 301 are symmetrically distributed, the two fixing frames 301 are fixedly connected to the upper side of the fixing plate 6 through brackets, the upper side of the fixing frame 301 is fixedly connected with a hopper 302 in which a bottle stopper 303 is placed, the upper side of the bottle stopper 303 is a circle with larger diameter, the lower part is a cylinder with smaller diameter, the bottle stopper 303 is matched with the filling bottle 5 in order to facilitate clamping, the fixing frame 301 is provided with four electric rotating shafts electrically connected with a control panel, the four electric rotating shafts are rotationally connected with swinging plates 304, the adjacent two swinging plates 304 are symmetrically distributed, the upper ends of the two swing plates 304 at the front side are connected with a second limit bar 306 in a common rotation way, the lower ends of the two swing plates 304 at the front side are connected with a first limit bar 305 in a common rotation way, the two swing plates 304 at the rear side are connected with the first limit bar 305 and a second limit bar 306 in a common rotation way, the symmetrical first limit bar 305 and the second limit bar 306 are used for alternately clamping bottle stoppers 303 between the two swing plates by following the swing of the adjacent swing plates 304, so that the bottle stoppers 303 in a hopper 302 sequentially fall onto a slide plate 309 below, the slide plate 309 consists of a limit plate and a limit frame, one end of the upper limit frame of the slide plate 309 facing the extrusion bar 314 is provided in a fork shape, the interval is just larger than the diameter of a cylinder at the lower side of the bottle stoppers 303 for bearing the bottle stoppers 303, the limit plate on the slide plate 309 is higher than the bottle stoppers 303 bearing the upper limit frame for pressing the bottle stoppers 303 and the filling bottles 5, the upper side of the fixed plate 6 is fixedly connected with two third electric push rods 307 which are electrically connected with a control panel, the two third electric push rods 307 are symmetrically distributed, the upper side of the telescopic end of each third electric push rod 307 is fixedly connected with electric slide rails 308 which are electrically connected with the control panel, the two electric slide rails 308 are symmetrically distributed, a slide plate 309 is fixedly connected between the two electric slide rails, a support plate 310 is fixedly connected with a base 1 through a support column, the support plate 310 is positioned at the lower side of the fixed plate 6, a first rack frame 312 is fixedly connected at the lower side of the slide plate 309, the first rack frame 312 is provided with a rack part, the thickness of the rack part on the first rack frame 312 is greater than the length of the telescopic end of each third electric push rod 307, the support plate 310 is rotationally connected with a transmission gear 311 which is meshed with the rack part on the first rack frame 312, the support plate 310 is slidingly connected with a second rack frame 313, the upper side of the second rack frame 313 is fixedly connected with a squeeze bar 314, the second rack frame 313 is provided with a rack part, and the rack part of the second rack frame 313 is meshed with the transmission gear 311.

When the filling operation is completed, the preliminary packaging of the filling bottles 5 is performed in advance, and when the electric baffle 101 is prevented from being suddenly opened, the electric conveyor belt 2 enables the fixing shell 4 and the filling bottles 5 to suddenly move, so that the filling bottles 5 are splashed out due to the sudden movement, and the concrete steps are as follows:

when the two first electric pushing rods 7 drive the first moving plate 9 to reset completely, the control panel starts the electric sliding rail 308 to push the sliding plate 309 to move forward, the sliding plate 309 drives the bottle stopper 303 placed on the sliding plate 309 and the first rack 312 fixedly connected on the sliding plate to move forward together, at this time, the first rack 312 drives the transmission gear 311 to rotate, the second rack 313 and the extrusion strip 314 on the second rack 313 move backward until the extrusion strip 314 contacts with the bottle stopper 303 placed on the sliding plate 309, at this time, the bottle stopper 303 placed on the sliding plate 309 is pushed backward, when the extrusion strip 314 and the sliding plate 309 clamp the bottle stopper 303 simultaneously, the control panel controls the electric sliding rail 308 to stop working, at this time, the bottle stopper 303 just moves to right above an adjacent filling bottle 5, the control panel starts the third electric pushing rod 307 to drive the electric sliding rail 308 and the sliding plate 309 to move downwards simultaneously, so that the bottle stopper 303 on the sliding plate 309 is matched with the bottle stopper 5, at this time, because the thickness of the part of the first rack 312 is larger than the length of the telescopic part of the third electric pushing rod 307, the part of the first rack 312 is not separated from the transmission gear 311, and then the electric pushing rod 303 is closed, and the electric pushing rod is driven to drive the third electric pushing rod 307 to move to zero.

When the electric slide rail 308 drives the upper parts to reset, the control panel controls the left electric baffle 101 to open, and simultaneously controls the four swinging plates 304 to swing twice through the electric rotating shaft, the swinging plates 304 swing for the first time to enable the two first limiting strips 305 to move and open, the two second limiting strips 306 move and close, at the moment, the two second limiting strips 306 clamp the bottle stopper 303 between the two first limiting strips 305, the two first limiting strips 305 enable the clamped bottle stopper 303 to fall onto the slide plate 309, the two first limiting strips 305 move and close during the second swing, the two second limiting strips 306 move and open, at the moment, the two second limiting strips 306 release the bottle stopper 303 thereon, and the two first limiting strips 305 close, so that the larger diameter position of the upper end of the bottle stopper 303 is clamped by the first limiting strips 305, then the operation is repeated after the filling is completed, and the bottle stopper is preliminarily sealed before the movement of the filling bottle 5.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (7)

1. Filling equipment is used in production of blue copper peptide essence, its characterized in that: including base (1), the upside of base (1) has electronic conveyer belt (2) through the support mounting, there are limiting plate (3) and control panel in the upside of base (1) through the support rigid coupling, electronic conveyer belt (2) with limiting plate (3) cooperation, evenly distributed's electronic baffle (101) are installed to limiting plate (3), pressure sensor is installed to electronic baffle (101), fixed shell (4) have been placed to electronic conveyer belt (2), fixed shell (4) are equipped with equidistant filling bottle (5), the upside rigid coupling of limiting plate (3) has fixed plate (6), fixed plate (6) have first electric putter (7) of symmetric distribution through the support rigid coupling, and the flexible end common rigid coupling of first electric putter (7) has first movable plate (9), first movable plate (9) rigid coupling has second electric putter (10) of symmetric distribution, and flexible end common rigid coupling of second electric putter (10) has second movable plate (12), first movable plate (3) have the rigid coupling of symmetric distribution, first electric putter (7) has the flexible end (7) of first movable plate (7) has, the second movable plate (12) is fixedly connected with evenly distributed pouring pipes (14) on one side facing the first movable plate (9), the evenly distributed pouring pipes (14) are communicated with a hydraulic machine for conveying liquid through hoses, the first movable plate (9) is provided with evenly distributed through holes matched with the adjacent pouring pipes (14), and the first movable plate (9) is provided with a liquid blocking mechanism (100) for blocking splashing liquid;

The liquid blocking mechanism (100) comprises uniformly distributed rotating discs (102), the rotating discs (102) are rotationally connected to the first movable plates (9), the first movable plates (9) are fixedly connected with uniformly distributed fixed discs (103), the fixed discs (103) are located on one sides, far away from the filling pipes (14), of the rotating discs (102), first elastic pieces (104) are arranged between the uniformly distributed fixed discs (103) and the adjacent rotating discs (102), the rotating discs (102) are fixedly connected with symmetrically distributed elastic telescopic rods (105), the adjacent and symmetrically distributed elastic telescopic rods (105) are fixedly connected with movable discs (106) jointly, the movable discs (106) are matched with the adjacent filling bottles (5), the uniformly distributed splash shields (13) are communicated with liquid collecting pipes jointly through hoses, the movable discs (106) are provided with assemblies (200) for discharging gas in the filling bottles (5), and the filling pipes (14) are provided with assemblies (300) for preventing liquid leakage and drop leakage;

the ventilation assembly (200) comprises symmetrically distributed floating plates (107), the symmetrically distributed floating plates (107) are respectively and slidably connected to one side, far away from the fixed disc (103), of each movable disc (106), a convex column is fixedly connected to one side, facing the adjacent movable disc (106), of each floating plate (107), each movable disc (106) is provided with a through hole matched with the convex column on the adjacent floating plate (107), each floating plate (107) penetrates through the adjacent movable disc (106) and is fixedly connected with a limiting piece (108), and each limiting piece (108) is fixedly connected with a transmission ring (109) through the convex column;

Leak protection subassembly (300) are including evenly distributed's outer spray tube (110), evenly distributed outer spray tube (110) rotate respectively and connect in the neighborhood perfusion tube (14), outer spray tube (110) with the neighborhood the equal sliding connection of driving ring (109) of rolling disc (102), adjacent moving disc (106), the outside of outer spray tube (110) is equipped with the spout, first movable plate (9) face one side rigid coupling of second movable plate (12) has evenly distributed's spacing post (111), spacing post (111) with the neighborhood spout cooperation on outer spray tube (110), the inside rotation of outer spray tube (110) is connected with interior spray tube (112), interior spray tube (112) with the neighborhood pour tube (14) intercommunication, the bottom of outer spray tube (110) with the bottom of interior spray tube (112) all is equipped with the through-hole that the internal diameter is unanimous, the through-hole of outer spray tube (110) with the through-hole cooperation of interior spray tube (112), outer spray tube (110) are equipped with through-slot (113) and the connecting block (113) are located through-hole (113) the connecting piece.

2. The filling equipment for producing blue copper peptide essence according to claim 1, wherein: the chute at the outer side of the outer spray pipe (110) consists of at least two chute sections and one vertical chute section, and the chute at the upper side of the outer spray pipe (110) is consistent with the radian of the opening of the chute.

3. The filling equipment for producing blue copper peptide essence according to claim 1, wherein: the automatic feeding device is characterized by further comprising a feeding mechanism (400) for conveying the fixed shell (4), wherein the feeding mechanism (400) is arranged on the base (1), the feeding mechanism (400) comprises a first conveying belt (201), the first conveying belt (201) is installed on the base (1) through a bracket, the fixed shell (4) is arranged on the upper side of the first conveying belt (201), a second conveying belt (203) is installed on a limiting plate (3), a filling bottle (5) is arranged on the upper side of the second conveying belt (203), a fixed baffle plate (202) is fixedly connected between the second conveying belt (203) and the fixed plate (6), the limiting plate (3) is provided with a U-shaped groove matched with the filling bottle (5), the inner wall of the U-shaped groove is connected with a symmetrically distributed supporting plate (204) in a sliding mode, second elastic pieces (205) are installed between the symmetrically distributed supporting plate (204) and the limiting plate (3), the adjacent to the fixed plate (4) is provided with a circular filling bottle (4) and the adjacent to the fixed shell (4) through a circular filling bottle (4), the inner walls of blind holes uniformly distributed on the fixing shell (4) are respectively provided with a clamping assembly (500) for clamping the filling bottle (5), and the limiting plate (3) is provided with a positioning assembly (600) for positioning the fixing shell (4).

4. The filling equipment for producing blue copper peptide essence according to claim 3, wherein: clamping assembly (500) including symmetrical distribution's jack catch (207), symmetrical distribution jack catch (207) all sliding connection in adjacent blind hole on fixed casing (4), jack catch (207) with be adjacent install third elastic component (208) between fixed casing (4), fixed casing (4) sliding connection has symmetrical distribution's movable block (209) and symmetrical distribution's extrusion piece (210), movable block (209) with adjacent extrusion piece (210) cooperation, extrusion piece (210) with adjacent layer board (204) cooperation, movable block (209) with adjacent jack catch (207) cooperation.

5. The filling equipment for producing blue copper peptide essence according to claim 3, wherein: locating component (600) is including spacer pin (211), spacer pin (211) with fixed shell (4) cooperation, spacer pin (211) sliding connection in limiting plate (3), limiting plate (3) have through the support rigid coupling with spacer pin (211) complex electro-magnet (212), spacer pin (211) with install fourth elastic component (213) between limiting plate (3), fixed shell (4) are equipped with evenly distributed spacing hole (214), evenly distributed spacing hole (214) all with spacer pin (211) cooperation.

6. The filling equipment for producing blue copper peptide essence according to claim 3, wherein: the sealing mechanism (700) is used for sealing the filling bottle (5), the sealing mechanism (700) is arranged on the fixed plate (6), the sealing mechanism (700) comprises a symmetrically distributed fixed frame (301), the fixed frame (301) is fixedly connected with one side of the fixed plate (6) facing the first movable plate (9) through a bracket, a hopper (302) is fixedly connected with the upper side of the fixed frame (301), a bottle stopper (303) is placed in the hopper (302), the bottle stopper (303) is matched with the filling bottle (5), a third symmetrically distributed electric push rod (307) is fixedly connected with the upper side of the fixed plate (6), an electric slide rail (308) is fixedly connected with the telescopic end of the third electric push rod (307), a slide plate (309) is connected with the electric slide rail (308) through an electric slide block in a sliding mode, a support plate (310) is fixedly connected with the base (1) through a support column, a transmission gear (311) is rotationally connected with the support plate (310), the bottle stopper (303) is fixedly connected with the filling bottle (5), the upper side of the fixed plate (307) is fixedly connected with the first support (311) through the transmission gear (311), the second support (313) is meshed with the transmission plate (310), the second rack (313) is fixedly connected with a squeeze bar (314).

7. The filling equipment for producing blue copper peptide essence according to claim 6, wherein: the bottle stopper is characterized in that the fixing frame (301) is rotationally connected with symmetrically distributed swinging plates (304) through an electric rotating shaft, the swinging plates (304) adjacent to the fixing frame (301) are mutually rotationally connected with a first limiting strip (305) and a second limiting strip (306) which are used for controlling bottle stoppers (303) in the hopper (302) to sequentially fall down, and one end of the sliding plate (309) facing the extrusion strip (314) is fork-shaped and used for bearing the bottle stoppers (303).