CN113120828A - Quick milk filling device with container sealing function - Google Patents

Abstract

The invention relates to the field of milk processing, in particular to a quick milk filling device with a container sealing function. The invention provides a milk quick filling device with a container sealing function, which comprises a lower chassis, a T-shaped plate, an upper chassis, a limiting square plate, a bracket and the like; fixedly connected with T shaped plate on the chassis down, go up chassis fixed connection and keep away from one side of T shaped plate at chassis down, spacing square slab is installed at the middle part of last chassis, and one side of chassis under last chassis is kept away from to support fixed connection. According to the automatic filling device, the feeding assembly drives the filling bottles so as to trigger the filling assembly to operate, and the pressurizing assembly in the filling assembly operates so as to realize automatic pressurization, so that the filling speed is increased.

Description

Quick milk filling device with container sealing function

Technical Field

The invention relates to the field of milk processing, in particular to a quick milk filling device with a container sealing function.

Background

Nowadays, the living standard of people is improved, so most people consume more milk products in daily life, particularly milk, the demand is larger and larger, and enterprises at present seek a production line with large flow.

When the milk leaves the factory, the milk needs to be filled into the milk bottle, and the liquid filling machine can be divided into a normal pressure filling machine, a vacuum filling machine and an automatic quantitative liquid filling machine according to the filling principle. Milk is a low viscosity gas-free liquid, and a common filling machine belongs to a normal pressure filling machine. The normal pressure liquid filling machine is by liquid dead weight filling under atmospheric pressure, and timing filling is usually adopted in this type of filling, and filling speed is not fast, to fresh milk, can influence the quality of product to generally can transport next process through the assembly line after the filling is accomplished and cover again, can influence the process velocity like this.

Aiming at the defects of the prior art, a milk quick filling device which can realize quick filling through automatic pressurization and can cap a feeding bottle is developed.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention has the technical problems that: the milk quick filling device with the container sealing function is capable of realizing quick filling through automatic pressurization and capping the feeding bottle at the same time.

The technical implementation scheme of the invention is as follows: a milk quick filling device with a container sealing function comprises a lower chassis, a T-shaped plate, an upper chassis, a limiting square plate, a first support, a shaft bracket, small baffles, a second support, an upper round tube, a long support plate, a limiting plate, an I-shaped bracket, a feeding assembly, a filling assembly and an upper cover assembly, wherein the T-shaped plate is fixedly connected to the lower chassis, the upper chassis is fixedly connected to one side of the lower chassis far away from the T-shaped plate, the limiting square plate is arranged in the middle of the upper chassis, the first support is fixedly connected to one side of the upper chassis far away from the lower chassis, the two shaft brackets are symmetrically arranged on one side of the first support close to the lower chassis, two adjacent small baffles are respectively arranged on two inner sides of a square hole on the first support, the second support is fixedly connected to one side of the first support far away from the shaft brackets, an upper round tube is arranged on the second support in a penetrating manner, one, the two limiting plates are symmetrically arranged on one side, far away from the upper chassis, of the first support, the I-shaped frame and the two limiting plates are fixedly connected with one side, far away from the first support, of the first support, the feeding assembly is installed on the T-shaped plate, the feeding assembly is in contact with the lower chassis and the upper chassis, the feeding assembly is in contact with the small baffle, the filling assembly is connected with the long support, the filling assembly is matched with the second support, the upper cover assembly is connected with the filling assembly, the long support and the first support, and the upper cover assembly is in contact with the limiting plates and the.

Further, the pay-off subassembly is including the cylinder, the push pedal, round pin pole one, spring one, prop up platform and spur rack one, the cylinder is installed on T shaped plate and last chassis, the telescopic link fixed connection of push pedal and cylinder, straight rack one of both sides difference fixedly connected with of push pedal, wear to be equipped with two round pin pole one in the push pedal, round pin pole one and push pedal sliding connection, the one end fixedly connected with that the push pedal was kept away from to two round pin pole one props up the platform, prop up platform and little baffle contact, all the cover has a spring one on every round pin pole one, the both ends of spring one respectively with push pedal and prop up the platform contact.

Furthermore, the filling component comprises a storage barrel, a feeding pipe, a check valve, a hose, a discharging pipe, a supporting plate, a connecting disc, a lower round pipe, a feeding port, a connecting disc, a pin I, a spring III, a sloping block I, a sliding rod, a switch valve component and a pressurizing component, wherein the storage barrel is arranged on one side of a long supporting plate far away from an upper chassis, the feeding pipe is arranged at the top of the storage barrel, the check valve is arranged at the joint of the feeding pipe and the storage barrel, part of parts of the pressurizing component are arranged in the storage barrel, the pressurizing component is in sliding fit with the storage barrel, one end of the hose penetrates through the storage barrel, the supporting plate is fixedly connected on the pressurizing component, one end of the hose far away from the storage barrel is contacted with the supporting plate, one end of the discharging pipe penetrates through the supporting plate and is communicated with the hose, the other end of the discharging pipe is, lower pipe is located the centre of three slide bar, lower pipe wear to locate on the connection disc and with pressure components fixed connection, pipe and last pipe sliding connection down, the one end fixedly connected with ooff valve subassembly of connection disc is kept away from to the slide bar, ooff valve subassembly and lower pipe cooperation, the one end fixedly connected with connection pad of connection disc is kept away from to lower pipe, the inside feed inlet that is equipped with of one end that the pipe is close to the connection pad down, be a word through-hole in the middle of the feed inlet, the symmetry is equipped with two pins one on the connection pad, pin one and connection pad sliding connection, all the cover has a spring three on every pin one, pin one end fixedly connected with sloping block one of keeping away from the connection pad, sloping block one cooperates with ooff valve subassembly, pin one and ooff valve.

Furthermore, the pressurizing assembly comprises a long pipe, a flexible disk, a second spring and a pressurizing barrel, the pressurizing barrel is fixedly connected with the inner measuring bottom of the storage barrel, the flexible disk is in sliding contact with the inner wall of the pressurizing barrel, the flexible disk is fixedly connected with one end, far away from the connecting disc, of the long pipe, the long pipe is in sealed sliding connection with the storage barrel, and two ends of the second spring are in contact with the storage barrel and the supporting plate respectively.

Further, the switch valve component comprises a lower disc, an L support, an upper baffle ring, a pin II, a spring IV, a shifting block, a straight rod, a lower baffle ring, a spring V, a pin III, a spring VI, an oblique block II, an arc-shaped baffle and an opening valve, wherein the lower disc is in sliding fit with the sliding rod, the lower disc is in contact with the lower circular tube, the lower baffle ring and the upper baffle ring are sleeved at one end of the lower circular tube close to the lower disc at intervals, the L support is symmetrically provided with two pins II, the two ends of the L support are respectively and fixedly connected with the upper baffle ring and the lower disc, each L support is symmetrically provided with two pin II, the pin II is in sliding fit with the L support, each pin II is sleeved with one spring IV, the spring IV is in contact with the L support, the shifting blocks are symmetrically provided with two shifting blocks, each shifting block is fixedly connected with the two pin II, the shifting blocks are in contact with the L support, the shifting blocks are in sliding fit with the, the straight rod penetrates through the lower retaining ring, the straight rod is in sliding connection with the lower circular tube, the spring is sleeved on the lower circular tube, two ends of the spring are in contact with the lower retaining ring and the upper retaining ring respectively, two pin trisymmetry devices are arranged, two pin trisections are arranged on the L support, one end of each pin trisection device is in contact with the connecting disc, one end, far away from the connecting disc, of each pin trisection device is fixedly connected with an inclined block II, one spring hexa is sleeved on each pin trisection device, the spring hexa is in contact with the L support, the inclined block II is in sliding fit with the shifting block, two arc-shaped blocking pieces are symmetrically arranged, one arc-shaped blocking piece is fixedly connected onto each straight rod, the arc-shaped blocking pieces are in sealing fit with the lower sliding type circular tube, one end, far away from the shifting block, of the straight rod is fixedly connected with.

Further, the upper cover component comprises an L slide way, a long pin rod, a spring seven, connecting rods, a feeding plate, an inclined block three, an inclined block four, a charging basket and a screw cover component, one end of the L slide way is fixedly connected to one side of a support close to a limiting plate, the bottom side of the L slide way is contacted with the limiting plate, the number of the long pin rods is two, the long pin rods and the connecting rods penetrate through the middle part of the long supporting plate and are in sliding connection with the long supporting plate, the connecting rods are positioned in the middle of the long pin rods and are in sliding connection with the long pin rods, each long pin rod is sleeved with one spring seven, two ends of each spring seven are respectively contacted with the long supporting plate and the connecting rods, one end of each connecting rod far away from the long supporting plate is fixedly connected with the inclined block three, the inclined block four is fixedly connected to a supporting plate and is in sliding fit with the inclined block three, one end of each connecting rod close to the L slide way is fixedly connected, the screw cap component is fixedly connected with the connecting rod and is connected with the I-shaped frame.

Further, the screw cap subassembly is including F shape push rod, spur rack three, the extrusion piece, spring eight, outer pipe, the apparatus further comprises a rotating shaft, ratchet and friction disc, the one end fixed connection of F shape push rod is in the one end that the connecting rod is close to the pay-off board, the one end fixedly connected with spur rack three that the connecting rod was kept away from to the F shape push rod, outer pipe and worker shape frame sliding connection, the bilateral symmetry of outer pipe is equipped with two extrusion pieces, fixedly connected with spring eight on every extrusion piece, the one end and worker shape frame fixed connection of extrusion piece are kept away from to spring eight, F shape push rod and spur rack three contact with two extrusion pieces respectively, the excircle intraduct is located to the pivot, the pivot rotates with the excircle pipe to be connected, the friction disc is installed to the bottom of pivot, the one end fixedly connected with ratchet that the friction disc.

The two spur rack pushing devices comprise a rack, two spur racks and a pushing plate, wherein the rack comprises a rack shaft, two small shafts, two spur racks and two pushing plates, the two small shafts are symmetrically arranged, each rack shaft is rotatably connected with one small shaft, the two large gears and the two small gears are arranged on each thin shaft at intervals, the large gears and the small gears are fixedly connected with the thin shafts, the large gears are located in the middle of the rack shafts, the small gears are located on one sides of the rack shafts and are in transmission connection with the spur racks, the two spur racks are symmetrically arranged, the two spur racks are in sliding connection with one sides, close to the rack shafts, of the supports I, the two spur racks are in transmission connection with the large gears, two ends of the pushing plates are fixedly connected with one ends of the two spur racks respectively, and the.

Compared with the closest prior art, the invention has the following beneficial effects:

1) according to the automatic filling device, the feeding assembly drives the filling bottles so as to trigger the filling assembly to operate, and the pressurizing assembly in the filling assembly operates so as to realize automatic pressurization, so that the filling speed is increased.

2) According to the invention, the pressurizing assembly drives the capping assembly to operate, and the filling bottle filled with milk can be capped and screwed down by the operation of the screwing assembly in the capping assembly.

3) According to the invention, the pinion is driven by the spur rack, and the bull gear is driven by the pinion, so that the material pushing plate is driven to operate, and therefore, the filling bottle filled with milk is pushed to the capping assembly for capping instead of manual work.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding assembly of the present invention.

Fig. 3 is a partial schematic view of the filling assembly of the present invention.

Fig. 4 is a schematic view of a portion of the filling assembly of the present invention.

Fig. 5 is a schematic perspective view of the pressing assembly of the present invention.

Fig. 6 is a schematic perspective view of the switching valve assembly of the present invention.

Fig. 7 is a partial cross-sectional view of the switching valve assembly of the present invention.

Fig. 8 is a schematic perspective view of the upper cover assembly according to the present invention.

Figure 9 is a perspective view of the screw cap assembly of the present invention.

Fig. 10 is a perspective view of the check valve of the present invention.

FIG. 11 is a partial schematic view of the present invention.

The meaning of the reference symbols in the figures: 1: lower chassis, 101: t-shaped plate, 102: upper chassis, 1021: spacing square plate, 103: stent one, 1031: pedestal, 1032: small baffle, 104: bracket two, 1041: upper circular tube, 105: long plate, 106: limiting plate, 1061: h-shaped frame, 2: a cylinder, 201: push plate, 202: round pin rod one, 203: a first spring, 204: rest table, 205: first spur rack, 3: storage bucket, 301: feed tube, 3011: one-way valve, 302: hose, 303: outlet pipe, 304: support plate, 305: connecting disc, 306: lower round tube, 306 a: feed port, 3061: land, 3062: pin one, 3063: spring three, 3064: swash block one, 307: slide bar, 4: long tube, 401: floppy disk, 402: spring two, 403: pressurized barrel, 5: lower disk, 501: l-bracket, 508: upper retainer ring, 502: pin two, 503: spring four, 504: shifting block, 505: straight rod, 506: lower retaining ring, 507: spring five, 509: pin three, 510: spring six, 511: a second inclined block 6: arc-shaped baffle plate, 601: open valve, 7: thin shaft, 701: bull gear, 702: pinion gear, 703: spur rack two, 704: pusher plate, 8: l chute, 801: long pin, 802: spring seven, 803: connecting rod, 8031: feed plate, 804: sloping block three, 805: a block four, 806: bucket, 9: f-shaped push rod, 901: spur rack three, 902: extrusion block, 9021: eight spring, 903: outer circular tube, 904: a rotating shaft, 905: ratchet, 906: and (7) a friction disc.

Detailed Description

The invention is described in further detail below with reference to the following figures and specific examples:

example 1

A milk quick filling device with a container sealing function is disclosed, as shown in figure 1, and comprises a lower chassis 1, a T-shaped plate 101, an upper chassis 102, a limit square plate 1021, a first bracket 103, a shaft bracket 1031, a small baffle 1032, a second bracket 104, an upper round pipe 1041, a long supporting plate 105, a limiting plate 106, an I-shaped bracket 1061, a feeding assembly, a filling assembly and an upper cover assembly, wherein the T-shaped plate 101 is fixedly connected to the middle lower part of the lower chassis 1, the upper chassis 102 is fixedly connected to the upper side of the lower chassis 1, the limit square plate 1021 is arranged at the middle part of the upper chassis 102, the first bracket 103 is fixedly connected to the upper side of the upper chassis 102, the two shaft brackets 1031 are symmetrically arranged at the bottom of the first bracket 103, two adjacent small baffles 1032 are respectively arranged at two inner sides of a square hole on the first bracket 103, the second bracket 104 is fixedly connected to the upper side of the first bracket 103, the second bracket 104 is provided with the upper round pipe 1041 in a penetrating way, the upper round pipe 104, the two limiting plates 106 are symmetrically arranged on the upper sides of the first supports 103, the I-shaped frame 1061 is fixedly connected with the upper sides of the two limiting plates 106, the feeding assembly is arranged on the T-shaped plate 101, the feeding assembly is in contact with the lower frame 1 and the upper frame 102, the feeding assembly is in contact with the small baffle 1032, the filling assembly is connected with the long supporting plate 105, the filling assembly is matched with the second supports 104, the upper cover assembly is connected with the filling assembly, the long supporting plate 105 and the first supports 103, and the upper cover assembly is in contact with the limiting plates 106 and the I-shaped frame 1061; the staff fills the bottle earlier and puts on last chassis 102, at this moment spacing square plate 1021 can fix a position the filling bottle, guarantee that the bottom of filling bottle can be held to the pay-off subassembly, at this moment advance the pay-off subassembly and start, the pay-off subassembly just can drive the filling bottle and rise, at this moment, the filling bottleneck is opened with earlier the filling subassembly, then drive the operation of filling subassembly, at this moment can be in the filling bottle in-process that rises infuses milk to the filling bottle through the filling subassembly, after the milk in the filling bottle is filled, the filling bottleneck can drive the filling subassembly and close, at this moment the staff pushes away the filling bottle toward the upper cover subassembly again, the upper cover subassembly can be detained the lid of filling bottle under the drive of filling subassembly on the filling bottle, then screw up at the filling bottle lid of advancing, the quick filling and the upper cover of milk have just so been accomplished.

Example 2

On the basis of embodiment 1, as shown in fig. 2-7, the feeding assembly includes a cylinder 2, a push plate 201, a first round pin rod 202, a first spring 203, a support 204 and a first spur rack 205, the cylinder 2 is mounted on the T-shaped plate 101 and the upper chassis 102, the push plate 201 is fixedly connected with a telescopic rod of the cylinder 2, two sides of the push plate 201 are respectively and fixedly connected with the first spur rack 205, two first round pin rods 202 penetrate through the push plate 201, the first round pin rods 202 are slidably connected with the push plate 201, the upper ends of the first round pin rods 202 are fixedly connected with the support 204, the support 204 is in contact with the small baffle 1032, each first round pin rod 202 is sleeved with one first spring 203, and two ends of each first spring 203 are respectively in contact with the push plate 201 and the support 204; after starting the cylinder 2, the cylinder 2 can drive the push plate 201 to rise, the push plate 201 can drive the support 204 and the spur rack 205 to move upwards through the round pin rod 202 and the spring 203, when the support 204 drives the filling bottle to rise, the support 204 can extrude the round pin rod 202 to slide along the push plate 201, at this time, the support 204 can compress the spring 203, and the round pin rod 202 and the spring 203 are matched to play a role in buffering, so that the filling bottle can be driven to rise.

The filling assembly comprises a storage barrel 3, a feeding pipe 301, a one-way valve 3011, a hose 302, a discharging pipe 303, a supporting plate 304, a connecting disc 305, a lower round pipe 306, a feeding hole 306a, a connecting disc 3061, a pin 3062, a spring 3063, an inclined block 3064, a sliding rod 307, a switch valve assembly and a pressurizing assembly, wherein the storage barrel 3 is arranged on the upper side of a long supporting plate 105, the feeding pipe 301 is arranged at the top of the storage barrel 3, the one-way valve 3011 is arranged at the connecting part of the feeding pipe 301 and the storage barrel 3, part of parts of the pressurizing assembly are arranged in the storage barrel 3, the pressurizing assembly is in sliding fit with the storage barrel 3, the upper end of the hose 302 is arranged on the storage barrel 3 in a penetrating way, the supporting plate 304 is fixedly connected on the pressurizing assembly, the lower end of the hose 302 is in contact with the supporting plate 304, the upper end of the discharging, three sliding rods 307 are annularly arrayed on the lower side of the connecting disc 305, the lower circular tube 306 is located in the middle of the three sliding rods 307, the lower circular tube 306 penetrates through the connecting disc 305 and is fixedly connected with the pressurizing assembly, the lower circular tube 306 is slidably connected with the upper circular tube 1041, the lower end of the sliding rod 307 is fixedly connected with a switch valve assembly, the switch valve assembly is matched with the lower circular tube 306, the lower end of the lower circular tube 306 is fixedly connected with a connecting disc 3061, a feeding hole 306a is formed in the lower end of the lower circular tube, a straight through hole is formed in the middle of the feeding hole 306a, two pin pieces 3062 are symmetrically arranged on the connecting disc 3061, the pin pieces 3062 are slidably connected with the connecting disc 3061, a spring three 3063 is sleeved on each pin piece 3062, an inclined block 3064 is fixedly connected to one end, away from the connecting disc 3061, of the inclined block 3064 is matched with the switch; after the filling bottle contacted the ooff valve subassembly, the ooff valve subassembly can drive down pipe 306 and rise, and lower pipe 306 rises and can drive connecting disc 305 and rise, and connecting disc 305 will drive the pressurization subassembly operation, and at this moment the pressurization subassembly just can extrude the milk in storing bucket 3 through hose 302, then in transmitting down pipe 306 through discharging pipe 303, finally can input into the filling bottle, until the milk in the filling bottle is filled up, has just so accomplished the filling of milk.

The pressurizing assembly comprises a long pipe 4, a flexible disk 401, a second spring 402 and a pressurizing barrel 403, the pressurizing barrel 403 is fixedly connected with the inner bottom of the storage barrel 3, the flexible disk 401 is in sliding contact with the inner wall of the pressurizing barrel 403, the flexible disk 401 is fixedly connected with the upper end of the long pipe 4, the long pipe 4 is in sealed sliding connection with the storage barrel 3, and two ends of the second spring 402 are respectively in contact with the storage barrel 3 and the supporting plate 304; when the connecting disc 305 drives the long tube 4 to move, the long tube 4 drives the flexible disc 401 to slide upwards along the inner wall of the pressurizing barrel 403, at this time, milk in the storage barrel 3 can be squeezed out to the flexible tube 302 through pressure, the one-way valve 3011 can only be opened towards the inside of the storage barrel 3 and cannot be opened towards the outside, therefore, the feeding tube 301 can only add liquid into the storage barrel 3, the milk in the storage barrel 3 cannot be discharged to the feeding tube 301 through the one-way valve 3011, after milk filling is finished, the compressed spring two 402 can drive the components to return to the original position, and therefore the purpose of squeezing out the milk in the storage barrel 3 is achieved.

The switch valve component comprises a lower disc 5, an L-shaped support 501, an upper baffle ring 508, a second pin 502, a fourth spring 503, a shifting block 504, a straight rod 505, a lower baffle ring 506, a fifth spring 507, a third pin 509, a sixth spring 510, a second inclined block 511, an arc-shaped baffle 6 and an open valve 601, wherein the lower disc 5 is in sliding fit with a sliding rod 307, the lower disc 5 is in contact with a lower circular pipe 306, the lower baffle ring 506 and the upper baffle ring 508 are sleeved at the lower end of the lower circular pipe 306 at intervals, the L-shaped support 501 is symmetrically provided with two inclined blocks 511, two ends of the L-shaped support 501 are respectively fixedly connected with the upper baffle ring 508 and the lower disc 5, each L-shaped support 501 is symmetrically provided with two second pins 502, the two pins 502 are in sliding fit with the L-shaped support 501, each second pin 502 is sleeved with one fourth spring 503 which is in contact with the L-shaped support 501, the two shifting blocks 504 are symmetrically provided with two second pins 502, and the shifting blocks 504, the shifting block 504 is in sliding fit with the first inclined block 3064, a straight rod 505 is fixedly connected to the inner side of each shifting block 504, the straight rod 505 penetrates through the lower blocking ring 506, the straight rod 505 is in sliding connection with the lower circular tube 306, the fifth spring 507 is sleeved on the lower circular tube 306, two ends of the fifth spring 507 are respectively in contact with the lower blocking ring 506 and the upper blocking ring 508, two third pins 509 are symmetrically arranged, the third pins 509 penetrate through the L-shaped support 501, the upper ends of the third pins 509 are in contact with the connecting disc 3061, the lower end of each third pin 509 is fixedly connected with a second inclined block 511, each third pin 509 is sleeved with a sixth spring 510, the sixth spring 510 is in contact with the L-shaped support 501, the second inclined blocks 511 are in sliding fit with the shifting blocks 504, two arc-shaped blocking pieces 6 are symmetrically arranged, an arc-shaped blocking piece 6 is fixedly connected to each inclined block 505, the arc-shaped blocking pieces 6 are in sliding sealing fit, a straight through hole is formed in the middle of the opening valve 601, the two opening valves 601 are in sliding contact, and the opening valve 601 on the lower side is in sliding fit with the feed port 306 a; when the filling bottle mouth drives the lower disc 5 to move upwards, the lower disc 5 drives the L bracket 501 to move upwards, the L bracket 501 drives the shifting block 504 to move upwards, the shifting block 504 drives the straight rod 505 to move upwards, the straight rod 505 drives the arc-shaped baffle 6 and the opening valve 601 to move upwards, at this time, the shifting block 504 contacts with the second inclined block 511, the second inclined block 511 drives the spring six 510 to compress, the second inclined block 511 presses the shifting block 504 towards the middle, the shifting block 504 drives the opening valve 601 to move towards the middle piece through the straight rod 505, at this time, the holes of the two opening valves 601 are overlapped with the holes of the feeding port 306a, milk flows out from the lower circular tube 306, at this time, the filling bottle which continuously ascends drives the whole switch valve component and the lower circular tube 306 to move upwards, when the support 204 contacts with the small baffle 1032, the whole device cannot ascend again, at this time, the pin 3062 just touches the upper circular tube 1041 and presses the pin 3062 downwards, the pin I3062 can drive the inclined block I3064 to move downwards, so that the shifting block 504 is pushed towards the middle again, the overlapped opening valve 601 is staggered again, the lower circular tube 306 is closed, and the components are completely reset under the driving of the spring after filling is completed, so that milk is filled into the filling bottle, and the filling bottle is automatically closed after being filled.

Example 3

On the basis of embodiment 2, as shown in fig. 8-11, the upper cover assembly includes an L-shaped slide way 8, a long pin rod 801, two long pin rods 802, two connecting rods 803, a feeding plate 8031, two inclined blocks 804, four inclined blocks 805, a charging basket 806 and a screw cover assembly, the lower end of the L-shaped slide way 8 is fixedly connected to the upper side of the first bracket 103, the bottom side of the L-shaped slide way 8 is in contact with the limiting plate 106, the long pin rods 801 are symmetrically provided, the long pin rods 801 and the connecting rods 803 are inserted into the middle of the long support plate 105 and slidably connected thereto, the connecting rods 803 are located in the middle of the long pin rods 801, the connecting rods 803 and the long pin rods 801 are slidably connected, each long pin rod 801 is sleeved with one spring seven 802, two ends of the spring seven 802 are respectively in contact with the long support plate 105 and the connecting rods 803, the front ends of the connecting rods 803 are fixedly connected with the inclined blocks three inclined blocks 804, the four inclined blocks 805 are fixedly connected to the support plate, the feeding plate 8031 is connected with the L slide way 8 in a sliding mode, the charging bucket 806 is installed on the L slide way 8, the charging bucket 806 is in contact with the feeding plate 8031, the screw cap assembly is fixedly connected with the connecting rod 803, and the screw cap assembly is connected with the I-shaped frame 1061; when the supporting plate 304 rises, the supporting plate 304 drives the four sloping blocks 805 to move upwards, when the four sloping blocks 805 move upwards, the four sloping blocks 805 drive the three sloping blocks 804 to slide backwards, the three sloping blocks 804 drive the connecting rod 803 to move, the connecting rod 803 drives the feeding plate 8031 to move, and the four sloping blocks 805 move up and down, so that the feeding plate 8031 can be indirectly driven to reciprocate back and forth, the filling bottle caps can be pushed to the filling bottle openings, and the purpose of capping the filling bottles is achieved.

The screw capping component comprises an F-shaped push rod 9, a spur rack III 901, extrusion blocks 902, a spring eight 9021, an outer circular pipe 903, a rotating shaft 904, a ratchet 905 and a friction disc 906, the left end of the F-shaped push rod 9 is fixedly connected to the lower end of a connecting rod 803, the right end of the F-shaped push rod 9 is fixedly connected with the spur rack III 901, the outer circular pipe 903 is in sliding connection with an I-shaped frame 1061, two extrusion blocks 902 are symmetrically arranged on two sides of the outer circular pipe 903, one spring eight 9021 is fixedly connected to each extrusion block 902, the lower end of each spring eight 9021 is fixedly connected with the I-shaped frame 1061, the F-shaped push rod 9 and the spur rack III 901 are respectively in contact with the two extrusion blocks 902, the rotating shaft 904 is arranged inside the outer circular pipe 903, the rotating shaft 904 is rotatably connected with the outer circular pipe 903, the friction disc 906 is installed at; when the connecting rod 803 reciprocates back and forth, the F-shaped push rod 9 is driven to reciprocate back and forth, the spur rack III 901 on the F-shaped push rod 9 drives the ratchet 905 to rotate, when the spur rack III 901 moves forward, the spur rack III 901 is meshed with the ratchet 905, when the spur rack III 901 moves backward, the ratchet 905 idles, when the ratchet 905 rotates forwards, the ratchet 905 drives the rotating shaft 904 to rotate, the rotating shaft 904 drives the friction disc 906 to rotate, and when the F-shaped push rod 9 and the spur rack III 901 move forward, the extrusion block 902 is pressed downwards, so that the extrusion block 902 drives the outer circular tube 903 and the friction disc 906 to press downwards, the friction disc 906 presses the filled bottle cap tightly, and then the filled bottle cap is screwed tightly in the rotating process, so that the purpose of screwing the filled bottle cap is achieved.

The rack is characterized by further comprising a thin shaft 7, a large gear 701, a small gear 702, two spur rack gears 703 and a material pushing plate 704, wherein the thin shaft 7 is symmetrically provided with two thin shafts 7, each shaft frame 1031 is respectively and rotatably connected with one thin shaft 7, each thin shaft 7 is provided with one large gear 701 and one small gear 702 at intervals, the large gear 701 and the small gear 702 are both fixedly connected with the thin shaft 7, the large gear 701 is positioned in the middle of the shaft frames 1031, the small gear 702 is positioned on the inner side of the shaft frames 1031, the small gear 702 is in transmission connection with the first spur rack gears 205, the two spur rack gears 703 are symmetrically provided, the second spur rack gears 703 are in sliding connection with the lower side of the first support 103, the second spur rack gears 703 are in transmission connection with the large gear 701, two ends of the material pushing plate 704 are respectively fixedly connected with the; when the first spur rack 205 rises, the first spur rack 205 can drive the pinion 702 to rotate, the pinion 702 can drive the thin shaft 7 to rotate, the thin shaft 7 can drive the large gear 701 to rotate, the large gear 701 can drive the material pushing plate 704 to move rightwards, filled filling bottles can be pushed to the bottom of the L-shaped slide way 8, and therefore the filling bottles can be moved to the upper cover assembly instead of manual work.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. A milk quick filling device with a container sealing function comprises a lower bottom frame, a T-shaped plate, an upper bottom frame, a limiting square plate, a first support frame, a shaft frame, small baffles, a second support frame, an upper round pipe, a long support plate, a limiting plate and an I-shaped frame, wherein the T-shaped plate is fixedly connected to the lower bottom frame, the upper bottom frame is fixedly connected to one side of the lower bottom frame, which is far away from the T-shaped plate, the limiting square plate is arranged in the middle of the upper bottom frame, the first support frame is fixedly connected to one side of the upper bottom frame, the two shaft frames are symmetrically arranged on one side of the first support frame, which is close to the lower bottom frame, two adjacent small baffles are respectively arranged on two inner sides of a square hole on the first support frame, the second support frame is fixedly connected to one side of the first support frame, an upper round pipe is arranged on the second support frame in a penetrating manner, the upper round pipe is fixedly connected with, equal fixed connection in one side that support one was kept away from to worker shape frame and two limiting plates, characterized by: the feeding assembly is arranged on the T-shaped plate, the feeding assembly is in contact with the lower chassis and the upper chassis, the feeding assembly is in contact with the small baffle, the filling assembly is connected with the long supporting plate, the filling assembly is matched with the second support, the upper cover assembly is connected with the filling assembly, the long supporting plate and the first support, and the upper cover assembly is in contact with the limiting plate and the I-shaped frame.

2. A milk quick-filling apparatus with a container-sealing function as claimed in claim 1, wherein: the feeding assembly comprises a cylinder, a push plate, a first round pin rod, a first spring, a first support platform and a first straight rack, the cylinder is installed on a T-shaped plate and an upper chassis, the push plate is fixedly connected with a telescopic rod of the cylinder, the two sides of the push plate are respectively fixedly connected with a first straight rack, the push plate is provided with two first round pin rods in a penetrating mode, the first round pin rods are connected with the push plate in a sliding mode, the one ends of the two first round pin rods, far away from the push plate, of the support platform are fixedly connected with a support platform, the support platform is in contact with a small baffle, the first spring is sleeved on each first round pin rod, and the two ends.

3. A milk quick-filling apparatus with a container-sealing function as claimed in claim 2, wherein: the filling assembly comprises a storage barrel, a feeding pipe, a check valve, a hose, a discharging pipe, a supporting plate, a connecting disc, a lower round pipe, a feeding port a, a connecting disc, a pin I, a spring III, a sloping block I, a sliding rod, a switch valve assembly and a pressurizing assembly, wherein the storage barrel is arranged on one side of a long supporting plate far away from an upper chassis, the feeding pipe is arranged at the top of the storage barrel, the check valve is arranged at the joint of the feeding pipe and the storage barrel, part of parts of the pressurizing assembly are arranged in the storage barrel, the pressurizing assembly is in sliding fit with the storage barrel, one end of the hose penetrates through the storage barrel, the supporting plate is fixedly connected to the pressurizing assembly, one end of the hose far away from the storage barrel is contacted with the supporting plate, one end of the discharging pipe penetrates through the supporting plate and is communicated with the hose, the other end of the, lower pipe is located the centre of three slide bar, lower pipe wear to locate on the connection disc and with pressure components fixed connection, pipe and last pipe sliding connection down, the one end fixedly connected with ooff valve subassembly of connection disc is kept away from to the slide bar, ooff valve subassembly and lower pipe cooperation, the one end fixedly connected with connection pad of connection disc is kept away from to lower pipe, the inside feed inlet an that is equipped with of one end that lower pipe is close to the connection pad, be a word through-hole in the middle of the feed inlet a, the symmetry is equipped with two pin one on the connection pad, pin one and connection pad sliding connection, all the cover has a spring three on every pin one, pin one end fixedly connected with sloping block one of keeping away from the connection pad, sloping block one and ooff valve subassembly cooperation, pin one and ooff valve subassembly.

4. A milk quick-filling apparatus with a container-sealing function as claimed in claim 3, wherein: the pressurizing assembly comprises a long pipe, a flexible disk, a spring II and a pressurizing barrel, the pressurizing barrel is fixedly connected with the inner measuring bottom of the storage barrel, the flexible disk is in sliding contact with the inner wall of the pressurizing barrel, the flexible disk is fixedly connected with one end, far away from the long pipe, of the connecting disc, the long pipe is in sealed sliding connection with the storage barrel, and two ends of the spring II are respectively in contact with the storage barrel and the supporting plate.

5. A milk quick-filling apparatus with a container-sealing function as claimed in claim 3, wherein: the switch valve component comprises a lower disc, an L support, an upper baffle ring, a pin II, a spring IV, shifting blocks, straight bars, a lower baffle ring, a spring V, a pin III, a spring VI, an inclined block II, an arc-shaped baffle and an opening valve, wherein the lower disc is in sliding fit with a sliding rod, the lower disc is in contact with a lower circular tube, the lower baffle ring and the upper baffle ring are sleeved at one end of the lower circular tube close to the lower disc at intervals, the number of the L supports is two, the two ends of the L support are respectively and fixedly connected with the upper baffle ring and the lower disc, two pins II are symmetrically arranged on each L support and are in sliding fit with the L support, one spring IV is sleeved on each pin II, the spring IV is in contact with the L support, the number of the shifting blocks is two, each shifting block is fixedly connected with two symmetrical pin II, the shifting blocks are in contact with the L support, the shifting blocks are in sliding fit with the inclined blocks I, and each, the straight rod penetrates through the lower retaining ring, the straight rod is in sliding contact with the lower circular tube, the spring five is sleeved on the lower circular tube, two ends of the spring five are in contact with the lower retaining ring and the upper retaining ring respectively, two pin trisymmetry devices are arranged, two pin trisections are arranged on the L support, one end of each pin trisection device is in contact with the connecting disc, one end, far away from the connecting disc, of each pin trisection device is fixedly connected with an inclined block II, one spring six is sleeved on each pin trisection device, the spring six is in contact with the L support, the inclined block II is in sliding contact with the shifting block, two arc-shaped blocking pieces are symmetrically arranged, one arc-shaped blocking piece is fixedly connected onto each straight rod, the arc-shaped blocking pieces are in sealing fit with the lower sliding type circular tube, one end, far away from the shifting block, of the straight rod is fixedly connected with an.

6. A milk quick-filling apparatus with a container-sealing function as claimed in claim 3, wherein: the upper cover component comprises an L slide way, a long pin rod, a spring seven, a connecting rod, a feeding plate, an inclined block three, an inclined block four, a charging basket and a screw cover component, one end of the L slide way is fixedly connected to one side of a support I close to a limiting plate, the bottom side of the L slide way is contacted with the limiting plate, the long pin rods are symmetrically provided with two long pin rods, the long pin rods and the connecting rod penetrate through the middle part of the long supporting plate and are in sliding connection with the long supporting plate, the connecting rod is positioned in the middle of the long pin rods, the connecting rod is in sliding connection with the long pin rods, each long pin rod is sleeved with the spring seven, two ends of the spring seven are respectively contacted with the long supporting plate and the connecting rod, one end of the connecting rod far away from the long supporting plate is fixedly connected with the inclined block three, the inclined block four is fixedly connected to a supporting plate and is in sliding fit with the inclined block three, one end of the, the screw cap component is fixedly connected with the connecting rod and is connected with the I-shaped frame.

7. A milk quick-filling device with a container-sealing function as claimed in claim 6, wherein: the screw cap subassembly is including F shape push rod, spur rack three, the extrusion piece, spring eight, outer pipe, the apparatus further comprises a rotating shaft, ratchet and friction disk, the one end fixed connection of F shape push rod is in the one end that the feed plate is close to the connecting rod, the one end fixedly connected with spur rack three of connecting rod is kept away from to F shape push rod, outer pipe and worker shape frame sliding connection, the bilateral symmetry of outer pipe is equipped with two extrusion pieces, spring eight of fixedly connected with on every extrusion piece, the one end and the worker shape frame fixed connection of extrusion piece are kept away from to spring eight, F shape push rod and spur rack three contact with two extrusion pieces respectively, the excircle intraduct is located to the pivot, the pivot rotates with the excircle pipe to be connected, the friction disk is installed to the bottom of pivot, the one end fixedly connected with ratchet of friction.

8. A milk quick-filling apparatus with a container-sealing function as claimed in claim 7, wherein: the two spur rack pushing devices are characterized by further comprising thin shafts, gear wheels, pinions, two straight rack gears and pushing plates, the thin shafts are symmetrically arranged two, each shaft bracket is rotatably connected with one thin shaft, the gear wheels and the pinions are arranged on each thin shaft at intervals, the gear wheels and the pinions are fixedly connected with the thin shafts, the gear wheels are located in the middle of the shaft brackets, the pinions are located on one sides of the shaft brackets and are in transmission connection with the straight rack gears, the two straight rack gears are symmetrically arranged two, the two straight rack gears are in sliding connection with one sides, close to the shaft brackets, of the supports I, the two straight rack gears are in transmission connection with the gears, the two ends of the pushing plates are fixedly connected with one ends of the two straight rack gears respectively, and the pushing plates are in sliding connection with one.

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