CN216129327U - Carousel formula perfusion equipment - Google Patents

Abstract

The utility model discloses a rotating disc type perfusion equipment, which comprises: the device comprises a bearing main body, a material conveying module, a filling module, a cork press, a cover screwing module, a blanking module and a power module; a plurality of universal wheels are uniformly arranged at the bottom of the bearing main body; the power module is arranged on one side of the bearing main body; the material conveying module is arranged on the bearing main body; the pouring module is arranged on the bearing main body, is connected with an external storage device and is matched with the material conveying module in position; the cork pressing device is arranged at the top of the bearing main body and is used for pressing a cork of a bottle; the cover screwing module is arranged on the bearing main body and is electrically connected with the power module; the unloading module sets up on bearing the main part, and the unloading module links up with fortune material module mutually. The utility model overcomes the defects that the material is easy to be drawn and dropped during the filling operation of the filling equipment in the prior art, saves the production cost, and has the characteristics of low production cost, high safety and low equipment debugging cost.

Description

Carousel formula perfusion equipment

Technical Field

The utility model relates to the technical field of filling equipment, in particular to rotating disc type filling equipment.

Background

In the prior art, the filling equipment is designed in an integrated manner, electrical separation is not realized, the safety is poor, the adverse phenomena of material wire drawing and material dripping are easy to occur in the filling operation, the production cost of a product is improved, and the defect of low processing precision exists.

Disclosure of Invention

According to an embodiment of the present invention, there is provided a carousel type perfusion apparatus, including: the device comprises a bearing main body, a material conveying module, a filling module, a cork press, a cover screwing module, a blanking module and a power module;

a plurality of universal wheels are uniformly arranged at the bottom of the bearing main body;

the power module is arranged on one side of the bearing main body;

the material conveying module is arranged on the bearing main body and is electrically connected with the power module and used for conveying external bottles;

the pouring module is arranged on the bearing main body, the pouring module is connected with an external storage device, the position of the pouring module is matched with that of the material conveying module, and the pouring module is electrically connected with the power module;

the cork presser is arranged at the top of the bearing main body and is electrically connected with the power module and used for pressing a cork of a bottle;

the cap screwing module is arranged on the bearing main body and is electrically connected with the power module and used for screwing the bottle cap of the bottle;

the unloading module sets up in bearing the main part, and the unloading module links up with fortune material module mutually, unloading module and power module electric connection.

Further, the material transporting module comprises: the material conveying device comprises a material tray, a plurality of material grooves, a plurality of bearing jigs and a material conveying driving assembly;

the material tray is movably arranged at the top of the bearing main body;

the plurality of material grooves are annularly and symmetrically arranged at the top of the material plate, and the rotating shafts of the plurality of material grooves are the same as the rotating shaft of the material plate;

the plurality of bearing jigs are respectively inserted into the plurality of material grooves and used for bearing the bottles;

the material conveying drive is gradually arranged in the bearing main body, the material conveying drive assembly is connected with the material tray, and the material conveying drive assembly is electrically connected with the power module and used for driving the material tray to move.

Further, the material conveying driving assembly comprises: a material conveying motor and a divider;

the divider is arranged on the inner wall of the bearing main body, and the output end of the divider is connected with the material tray and is used for driving the material tray to rotate;

the material transporting motor is arranged on the divider, the output end of the material transporting motor is connected with the input end of the divider, and the material transporting motor is electrically connected with the power module and used for driving the divider.

Further, the perfusion module comprises: the injection assembly and the ejection assembly;

the material injection assembly is arranged at the top of the bearing main body, is connected with the material storage device and is electrically connected with the power module;

the liftout subassembly sets up in the inside that bears the weight of the main part, the position phase-match of liftout subassembly and fortune material module, liftout subassembly and power module electric connection.

Further, the injection assembly comprises: the device comprises a first motor, a second motor, a material injection support, a pair of synchronizing wheels, a transmission belt, a first screw, a nut, a material pumping rod, a material pumping cylinder, a material injection valve body, a material injection valve core, a check valve and a material discharge pipe;

the material injection bracket is arranged on the outer wall of the bearing main body;

the first motor is arranged on the material injection support and is electrically connected with the power module;

the material injection valve body is arranged on the material injection support, a material inlet is formed in the top of the material injection valve body and connected with a material storage device, a material injection port is formed in the bottom of the material injection valve body, a material pumping port is formed in the side wall of the material injection valve body, and the material inlet, the material injection port and the material pumping port penetrate through the outer wall of the material injection valve body and are communicated with the inner cavity of the material injection valve body;

the first screw is movably arranged on the material injection bracket;

the material pumping cylinder is arranged on the side wall of the material injection valve body, and the output end of the material pumping cylinder is matched with the position of the material pumping port;

the material pumping rod is movably inserted into the inner cavity of the material pumping cylinder;

the nut is sleeved on the first screw rod, and the nut is fixedly connected with one end of the material pumping rod and used for driving the material pumping rod to move;

the pair of synchronous wheels are respectively arranged at the output end of the first motor and the input end of the first screw rod;

the transmission belt is connected with a pair of synchronizing wheels;

the material injection valve core is arranged in the inner cavity of the material injection valve body, a material guide groove is arranged on the material injection valve core, and the two ends of the material guide groove are matched with the shapes of the feeding hole, the material injection hole and the material pumping hole;

the second motor is arranged on the material injection support, connected with the material injection valve core and electrically connected with the power module and used for controlling the material injection valve core to rotate;

the check valve is arranged at the bottom of the material injection valve body, and the input end of the check valve is matched with the position of the material injection port;

the discharging pipe is arranged at the output end of the check valve.

Further, the liftout subassembly contains: the third motor, the second screw, the pair of second guide rods, the ejection tray and the ejection rod;

the third motor is electrically connected with the power module;

one end of each of the pair of second guide rods is arranged on the inner wall of the bearing main body, and the other end of each of the pair of second guide rods is connected with the third motor;

the second screw rod is arranged at the output end of the third motor and is movably connected with the inner wall of the bearing main body;

the ejection tray is sleeved on the second screw rod and is in threaded connection with the second screw rod, and the ejection tray is connected with the pair of second guide rods;

the material ejecting rod is arranged on the material ejecting tray and is matched with the material conveying module in position.

Further, the cap screwing module comprises: the device comprises a cover screwing bracket, a first lifting cylinder, a second lifting cylinder, a cover screwing motor, a connector, a cover screwing claw, a holding cylinder, a pair of holding claws and an inductor;

the screw cap bracket is arranged at the top of the bearing main body;

the first lifting cylinder is arranged on the spiral cover bracket, is connected with an external air source and is electrically connected with the power module;

the second lifting cylinder is movably arranged on the spiral cover bracket, is connected with the first lifting cylinder, is connected with the air source and is electrically connected with the power module;

the connector is arranged on the second lifting cylinder, connected with the air source and electrically connected with the power module;

the cover screwing motor is arranged at the top of the connector and is electrically connected with the power module;

the cover screwing claw is arranged at the bottom of the connector and is matched with the material conveying module in position;

the inductor is arranged on the connector and electrically connected with the power module;

the tightly holding air cylinder is arranged on the spiral cover bracket, is connected with an air source and is electrically connected with the power module;

the pair of holding claws are symmetrically arranged at the output end of the holding cylinder, and the holding claws are matched with the bottle in position.

Further, the unloading module contains: a chute, a blocking cover and a material ejector;

the chute is arranged on one side of the material conveying module and is connected with the material conveying module;

the blocking cover is arranged on the sliding chute and is matched with the material conveying module in position;

the ejector is arranged on the bearing main body, and the output end of the ejector is matched with the position of the bottle.

Further, the power module includes: the distribution box is connected with the heavy-load connector;

the heavy-load connector is arranged on the bearing main body and is respectively and electrically connected with the material conveying module, the filling module, the cork pressing device, the cap screwing module and the blanking module;

the block terminal sets up in bearing the weight of the main part, block terminal and heavy load connector electric connection.

Further, the method also comprises the following steps: a pair of cabinet doors, a pair of cabinet doors sets up on the lateral wall that bears the weight of the main part.

According to the rotating disc type filling equipment disclosed by the embodiment of the utility model, the defects that the material is easily drawn and dropped in the filling operation process of the filling equipment in the prior art are overcome, the production cost is saved, and the rotating disc type filling equipment has the characteristics of low production cost, high safety and low equipment debugging cost.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and are intended to provide further explanation of the claimed technology.

Drawings

Fig. 1 is a perspective view of a carousel-type perfusion apparatus according to an embodiment of the present invention;

fig. 2 is a schematic view of an assembly of a carousel-type perfusion apparatus according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a perfusion assembly according to an embodiment of the present invention;

FIG. 4 is a left side view of the irrigation assembly according to an embodiment of the utility model;

FIG. 5 is an assembly schematic of a topping assembly according to an embodiment of the present invention;

fig. 6 is an assembly view of a screw cap module according to an embodiment of the utility model (with the clasping cylinder and clasping claws hidden).

Detailed Description

The present invention will be further explained by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings.

First, a push cylinder type filling apparatus for filling a fluid material into a bottle according to an embodiment of the present invention will be described with reference to fig. 1 to 6.

As shown in fig. 1, the push cylinder type filling apparatus according to the embodiment of the present invention includes: the device comprises a bearing main body 1, a material conveying module, a filling module, a cork pressing device 7, a cover screwing module, a blanking module and a power module.

Specifically, as shown in fig. 1, the bottom of the bearing body 1 is uniformly provided with a plurality of universal wheels 11; the material conveying module is arranged on the bearing main body 1, is electrically connected with the power module and is used for conveying external bottles 8; the cork pressing device 7 is arranged at the top of the bearing main body 1, and the cork pressing device 7 is electrically connected with the power module and used for pressing a cork of a bottle body.

Further, as shown in fig. 1-2, the material transporting module comprises: the material tray 21, a plurality of material troughs, a plurality of bearing jigs 22 and a material conveying driving assembly; the material tray 21 is fixedly arranged at the top of the bearing main body 1, and a plurality of material grooves (not shown in the figure) are arranged at the top of the material tray 21 and used for installing the bearing jig 22, so that manual operation is facilitated; the plurality of bearing jigs 22 are movably clamped in the plurality of material grooves respectively, and the bearing jigs 22 are matched with the material grooves in shape and used for bearing the bottles 8; the fortune material drive sets up gradually bear the inside of main part 1, fortune material drive assembly with charging tray 21 links to each other, fortune material drive assembly with block terminal 61 electric connection is used for the drive the empty window period appears in the in-process of transporting the material in charging tray 21 motion, has improved the production efficiency of equipment.

Further, as shown in fig. 2, the material conveying driving assembly includes: a material conveying motor 24 and a divider 23; the divider 23 is arranged on the inner wall of the bearing main body 1, and the output end of the divider 23 is connected with the material tray 21 and is used for driving the material tray 21 to rotate; fortune material motor 24 sets up on decollator 23, and fortune material motor 24's output links to each other with the input of decollator 23, fortune material motor 24 and block terminal 61 electric connection for drive decollator 23, fortune material motor 24's output passes through synchronous pulley and links to each other in the input of decollator 23, has guaranteed the rotation angle at every turn of charging tray 21, has improved the accuracy of equipment.

Specifically, as shown in fig. 1~5, the module setting of pouring is on bearing main part 1, and the module of pouring links to each other with outside storage device, and the module of pouring and power module electric connection, the module of pouring and the position phase-match of fortune material module.

Further, as shown in fig. 1-2, the perfusion module comprises: the injection assembly and the ejection assembly; the material injection assembly is arranged at the top of the bearing main body 1, is connected with the material storage device and is electrically connected with the distribution box 61; the liftout subassembly sets up in the inside that bears main part 1, and the output of liftout subassembly is in the notes material position phase-match that bears tool 22, liftout subassembly and block terminal 61 electric connection.

Further, as shown in fig. 1 to 4, the material injection assembly comprises: a first motor 311, a second motor 312, a material injection bracket 313, a pair of synchronous wheels 314, a transmission belt (not shown in the figure), a first screw rod 316, a screw cap 317, a material pumping rod 318, a material pumping cylinder 319, a material injection valve body 320, a material injection valve core 321, a check valve 322 and a material discharge pipe 323; the material injection bracket 313 is arranged on the top of the bearing main body 1; the first motor 311 is arranged on the material injection support 313, the first motor 311 is a servo motor, and the first motor 311 is electrically connected with the distribution box 61 and used for providing power for the material injection assembly; the material injection valve body 320 is arranged on the material injection support 313, a feeding port 3201 is arranged at the top of the material injection valve body 320, a material injection port 3203 is arranged at the bottom of the material injection valve body 320, a material pumping port 3202 is arranged on the side wall of the material injection valve body 320, the feeding port 3201, the feeding port 3203 and the material pumping port 3202 all penetrate through the outer wall of the material injection valve body 320 and are communicated with the inner cavity of the material injection valve body 320, and the feeding port 3201 is connected with a material storage device; the first screw rod 316 is movably arranged on the material injection bracket 313; the material pumping cylinder 319 is arranged on the side wall of the material injection valve body 320, and the output end of the material pumping cylinder 319 is matched with the position of the material pumping port 3202; the material pumping rod 318 is movably inserted into the inner cavity of the material pumping cylinder 319, and the material pumping rod 318 can perform telescopic motion in the inner cavity of the material pumping cylinder 319 to pump the fluid material into the material pumping cylinder 319 or discharge the fluid material from the material pumping cylinder 319; the nut 317 is sleeved on the first screw 316, and the nut 317 is fixedly connected with one end of the material pumping rod 318 and is used for driving the material pumping rod 318 to perform telescopic motion; a pair of synchronizing wheels 314 are respectively arranged at the output end of the first motor 311 and the input end of the first screw 316, and are used for transmitting the power of the first motor 311; the transmission belt is connected with a pair of synchronizing wheels 314 and is used for transmitting the rotating angular speed of the synchronizing wheels 314; the material injection valve core 321 is arranged in the inner cavity of the material injection valve body 320, a material guide groove 3211 is arranged on the material injection valve core 321, and the two ends of the material guide groove 3211 are matched with the shapes of the material inlet 3201, the material injection port 3203 and the material pumping port 3202; the second motor 312 is arranged on the material injection support 313, the second motor 312 is a servo motor, the second motor 312 is connected with the material injection valve core 321, and the second motor 312 is electrically connected with the distribution box 61 and used for controlling the movement of the material injection valve core 321; the check valve 322 is arranged at the bottom of the injection valve body 320, and the input end of the check valve 322 is matched with the position of the injection port 3203; the discharge pipe 323 is arranged at the output end of the check valve 322 and used for outputting the fluid material into the bottle body; block terminal 61 realizes annotating the material subassembly through the coordinated control to first motor 311 and second motor 312 and accomplishes the partial fluid material of resorption discharging pipe 323 after annotating the material operation, with the fluid material in discharging pipe 323 and the internal fluid material disconnection of bottle, avoid taking place the material wire drawing, bad phenomena such as material drippage, save manufacturing material, and reduction in production cost, and, this embodiment relies on the resorption action of annotating the material subassembly only to use the debugging that 3~5 empty bottles can accomplish equipment, greatly reduced the debugging cost of equipment.

Further, as shown in fig. 1 and 5, the liftout assembly comprises: a third motor 331, a second screw 332, a pair of second guide rods 333, an ejection tray 334, and an ejection rod 335; the third motor 331 is electrically connected with the distribution box 61; one end of the pair of second guide rods 333 is fixedly arranged on the inner wall of the bearing main body 1, and the other end of the pair of second guide rods 333 is fixedly connected with the third motor 331 and used for fixing the third motor 331 inside the bearing main body 1; the second screw rod 332 is arranged at the output end of the third motor 331, and the second screw rod 332 is movably connected with the inner wall of the bearing main body 1; the ejecting tray 334 is sleeved on the second screw rod 332, and the ejecting tray 334 is connected with the pair of second guide rods 333; the material ejecting rod 335 is arranged on the material ejecting tray 334, and the position of the material ejecting rod 335 is matched with that of the material conveying module; the block terminal 61 is through to first motor 311, the coordinated control of second motor 312 and third motor 331 can realize beginning the resorption fluid material operation after annotating the material subassembly and descend third motor 331 drive second screw rod 332 when annotating the material operation, make and bear the weight of tool 22 and descend to initial position, make the fluid material in discharging pipe 323 and the fluid material disconnection in the bottle, avoid taking place the material wire drawing, bad phenomena such as material drippage, practice thrift the production material, and the production cost is reduced, and this embodiment relies on the resorption action of annotating the material subassembly only to use the debugging that equipment can be accomplished to a ~ individual empty bottle, greatly reduced the debugging cost of equipment.

Specifically, as shown in fig. 1 and 6, the cap screwing module is disposed on the bearing main body 1, the cap screwing module is connected with the material conveying module, and the cap screwing module is electrically connected with the power module and used for screwing the bottle cap of the bottle 8.

Further, as shown in fig. 1 and 6, the cap screwing module includes: a cap screwing bracket 41, a first lifting cylinder 42, a second lifting cylinder 43, a cap screwing motor 44, a connector 45, a cap screwing claw 46, a sensor (not shown in the figure), a holding cylinder 47 and a pair of holding claws (not shown in the figure); the screw cap bracket 41 is arranged at the top of the bearing main body 1; the first lifting cylinder 42 is arranged on the screw cap support 41, the first lifting cylinder 42 is electrically connected with the distribution box 61, and the first lifting cylinder 42 is connected with an air source (not shown in the figure); the second lifting cylinder 43 is movably arranged on the screw cap support 41, the second lifting cylinder 43 is connected with the first lifting cylinder 42, the second lifting cylinder 43 is electrically connected with the distribution box 61, and the second lifting cylinder 43 is connected with an air source; the connector 45 is arranged on the second lifting cylinder 43, the connector 45 is connected with an external air source, and the connector 45 is electrically connected with the distribution box 61; the cover screwing motor 44 is arranged at the top of the connector 45, and the cover screwing motor 44 is electrically connected with the distribution box 61; the cover screwing claws 46 are fixedly arranged on the bulges at the bottom of the connector through screws, and the positions of the cover screwing claws 46 and the material conveying module are matched, so that the cover screwing claws 46 are convenient to replace; the tightly holding air cylinder 47 is arranged on the spiral cover bracket 41, the tightly holding air cylinder 47 is connected with an air source, and the tightly holding air cylinder 47 is electrically connected with the power module; the pair of holding claws are symmetrically arranged at the output end of the holding cylinder 47, the holding claws are matched with the position of the bottle 8, when the bottle 8 is in a cap screwing operation stage, the holding cylinder 47 drives the pair of holding claws to hold the bottle body tightly, so that the bottle body is prevented from rotating, and the accuracy of the equipment is further improved; the sensor is arranged on the connector 45 and electrically connected with the distribution box 61 and used for sensing the position information of the cover screwing claw 46, the first cylinder and the second cylinder, when the cover screwing claw 46 finishes the cover screwing operation, the sensor sends feedback information to the distribution box 61, and the distribution box 61 controls the second cylinder of the first cylinder and the cover screwing claw 46 to return to the initial position, so that the processing precision of the cover screwing claw 46 is improved; the distribution box 61 performs linkage control on the first cylinder and the second cylinder, so that the cap screwing claw 46 performs descending motion while screwing the bottle cap, the abrasion between the bottle cap and the bottle mouth of the bottle body is reduced, and the yield of the equipment is improved.

Specifically, as shown in fig. 1, the blanking module is disposed on the bearing body 1, the blanking module is connected to the material transporting module, and the blanking module is electrically connected to the power module.

Further, as shown in fig. 1-2, the blanking module comprises: a chute 51, a blocking cover 52 and a material ejector 53; the chute 51 is arranged at one side of the material conveying module, and the chute 51 is connected with the material conveying module; the blocking cover 52 is arranged on the sliding groove 51, and the blocking cover 52 is matched with the material conveying module; ejector 53 sets up on bearing the weight of the main part, and ejector 53 is the ejector cylinder, ejector 53 and fortune material module's position phase-match, ejector 53 and block terminal 61 electric connection, and ejector 53 links to each other with the air supply for the bottle jack-up that the filling was accomplished.

Specifically, as shown in fig. 1, the power module is disposed at one side of the bearing body 1.

Further, as shown in fig. 1, the power module includes: the distribution box 61 and the heavy-duty connector 45 (not shown in the drawings); the heavy-load connector 45 is arranged on the bearing main body 1, and the heavy-load connector 45 is electrically connected with the material conveying module, the filling module, the cork pressing device 7, the cap screwing module and the blanking module; the distribution box 61 is arranged on the bearing main body 1, the distribution box 61 is inserted on the heavy-load connector 45, and the distribution box 61 is electrically connected with the material conveying module, the filling module, the cork pressing device 7, the cap screwing module and the blanking module through the heavy-load connector 45; electric separation has been realized to this embodiment, has improved the security performance of equipment, block terminal 61 and heavy load connector 45 swing joint simultaneously, and the user can select reproduction block terminal 61 after equipment is sold, the effectual manufacturing cost who reduces the early, when debugging equipment, a block terminal 61 can be used to debug many equipment, the effectual debugging cost who reduces equipment.

Further, as shown in fig. 1, the push cylinder type filling apparatus further includes: a pair of cabinet doors 12, a pair of cabinet doors 12 sets up on the lateral wall of bearing main part 1, is convenient for maintain the equipment.

When the equipment is in operation, the user puts the empty bottle into the bearing jig 22, and block terminal 61 coordinated control fortune material motor 24 passes through synchronous pulley control divider 23 motion, and divider 23 control charging tray 21 drives a plurality of bearing jig 22 and rotates.

When the loading jig 22 for loading empty bottles moves to the processing position of the filling module, the distribution box 61 controls the third motor 331 to drive the second screw 332 to rotate forward, the second screw 332 drives the ejecting tray 334 to move upward along the guide of the pair of second guide rods 333, the ejecting rod 335 ejects the loading jig 22, the distribution box 61 controls the first motor 311 to drive the pair of synchronizing wheels 314 and the transmission belt to transmit forward, the synchronizing wheels 314 drive the first screw 316 to rotate forward, the first screw 316 drives the screw cap 317 and the material extracting rod 318 to move backward along the guide of the first screw 316, the fluid material enters the inner cavity of the material injecting valve body 320 through the feed opening 3201, the fluid material enters the inner cavity of the material extracting cylinder 319 through the guide chute 3211 and the material extracting opening 3202, and after the fluid material enters the inner cavity of the material extracting cylinder 319, the distribution box 61 controls the second motor 312 to drive the material injecting valve core 321 to rotate forward, so that two ends of the guide chute 3211 and the material extracting opening 3202, The material filling port 3203 is in butt joint, the first motor 311 drives the pair of synchronizing wheels 314 to reversely transmit with the transmission belt, the synchronizing wheels 314 drive the first screw rod 316 to reversely rotate, the first screw rod 316 drives the screw cap 317 and the material pumping rod 318 to move forward along the guide direction of the first screw rod 316, the fluid material in the material pumping cylinder 319 enters the inner cavity of the material filling valve body 320 through the material pumping port 3202, the fluid material sequentially enters the check valve 322 through the material guide groove 3211 and the material filling port 3203, the fluid material in the check valve 322 flows into the material discharging pipe 323 through the output end of the check valve 322, and finally, the fluid material is injected into the bottle body through the output end of the material discharging pipe 323; when the injection amount of the fluid material reaches a preset value, the distribution box 61 controls the first motor 311 to drive the pair of synchronizing wheels 314 and the transmission belt to transmit forward, the synchronizing wheels 314 drive the first screw rod 316 to rotate forward, the first screw rod 316 drives the screw cap 317 and the material pumping rod 318 to move backward along the guide direction of the first screw rod 316, part of the material in the material discharging pipe 323 is sucked back into the check valve 322, the fluid material in the check valve 322 enters the inside of the material injecting valve body 320 through the material injecting port 3203, the fluid material in the material injecting valve body 320 enters the material pumping cylinder 319 through the material guiding groove 3211 and the material pumping port 3202, and at the moment, the distribution box 61 controls the second motor 312 to control the material injecting valve core 321 to rotate backward to an initial position; when the material injection assembly sucks back fluid materials, the distribution box 61 controls the third motor 331 to drive the second screw rod 332 to rotate reversely, the second screw rod 332 drives the material ejection disc 21 and the material ejection rod 335 to return to the initial position along the guide of the pair of second guide rods 333, and the bearing jig 22 falls down to disconnect the fluid materials in the material discharge pipe 323 from the fluid materials in the bottle body.

After the bottle body is filled, a user covers the bottle stopper at the bottle opening, the material disc 21 drives the bottle body to move to the processing position of the cork pressing device 7, the distribution box 61 controls the cork pressing device 7 to press the bottle stopper tightly, the user puts the bottle stopper at the bottle opening and screws tightly, and the material disc 21 drives the bearing jig 22 to continue moving.

After the bearing jig 22 for bearing empty bottles runs to the processing position of the cap screwing module, the distribution box 61 controls the clasping cylinder 47 to drive the pair of clasping claws to clasp the bottles, the distribution box 61 controls the second lifting cylinder 43 to drive the connector 45, the cap screwing motor 44 and the cap screwing claw 46 descend to the preset position, the connector 45 controls the cap screwing claw 46 to clamp the bottle caps and then drives the cap screwing motor 44 to drive the cap screwing claw 46 to screw the bottle caps, meanwhile, the distribution box 61 controls the first lifting cylinder 42 to drive the second lifting cylinder 43, the connector 45, the cap screwing motor 44 and the cap screwing claw 46 to descend synchronously, after the bottle cap screwing operation is completed, the sensor sends a sensing signal to the distribution box 61, the distribution box 61 controls the clasping cylinder 47, the connector 45, the first lifting cylinder 42, the second lifting cylinder 43 to drive the cap screwing claw 46 and the clasping claw to return to the initial position, and the tray 21 drives the bearing jig 22 to move continuously.

After the loading jig 22 for loading the empty bottles runs to the processing position of the blanking module, the distribution box 61 controls the ejector 53 to ascend to eject the bottles, the bottles enter the chute 51 along the guide of the blocking cover 52, and finally the bottles are discharged from the chute 51; after the vials enter the chute 51, the ejector 53 returns to the initial position.

The rotating disc type filling equipment disclosed by the embodiment of the utility model is described above with reference to fig. 1 to 6, so that the defects that the material is easily drawn and dropped during the filling operation of the filling equipment in the prior art are overcome, the production cost is saved, and the rotating disc type filling equipment has the characteristics of low production cost, high safety and low equipment debugging cost.

It should be noted that, in the present specification, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

While the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above description should not be taken as limiting the utility model. Various modifications and alterations to this invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the utility model should be determined from the following claims.

Claims (10)

1. A carousel-type perfusion apparatus, comprising: the device comprises a bearing main body, a material conveying module, a filling module, a cork press, a cover screwing module, a blanking module and a power module;

a plurality of universal wheels are uniformly arranged at the bottom of the bearing main body;

the power module is arranged on one side of the bearing main body;

the material conveying module is arranged on the bearing main body and is electrically connected with the power module and used for conveying external bottles;

the pouring module is arranged on the bearing main body, the pouring module is connected with an external storage device, the position of the pouring module is matched with that of the material conveying module, and the pouring module is electrically connected with the power module;

the cork pressing device is arranged at the top of the bearing main body and is electrically connected with the power module and used for pressing a cork of the bottle;

the cap screwing module is arranged on the bearing main body and is electrically connected with the power module and used for screwing the bottle cap of the bottle;

the blanking module is arranged on the bearing main body, the blanking module is connected with the material conveying module, and the blanking module is electrically connected with the power module.

2. The carousel perfusion apparatus of claim 1, wherein the material handling module comprises: the material conveying device comprises a material tray, a plurality of material grooves, a plurality of bearing jigs and a material conveying driving assembly;

the material tray is movably arranged at the top of the bearing main body;

the plurality of material grooves are annularly and symmetrically arranged at the top of the material tray, and the rotating shafts of the plurality of material grooves are the same as the rotating shaft of the material tray;

the plurality of bearing jigs are respectively inserted into the plurality of material grooves and used for bearing the bottles;

the material conveying drive is gradually arranged in the bearing main body, the material conveying drive assembly is connected with the material tray, and the material conveying drive assembly is electrically connected with the power module and used for driving the material tray to move.

3. The carousel perfusion apparatus of claim 2, wherein the material handling drive assembly comprises: a material conveying motor and a divider;

the divider is arranged on the inner wall of the bearing main body, and the output end of the divider is connected with the material tray and is used for driving the material tray to rotate;

the material conveying motor is arranged on the divider, the output end of the material conveying motor is connected with the input end of the divider, and the material conveying motor is electrically connected with the power module and used for driving the divider.

4. The carousel perfusion apparatus of claim 1, wherein the perfusion module comprises: the injection assembly and the ejection assembly;

the material injection assembly is arranged at the top of the bearing main body, the material injection assembly is connected with the material storage device, and the material injection assembly is electrically connected with the power module;

the material ejecting assembly is arranged inside the bearing main body, the material ejecting assembly is matched with the material conveying module in position, and the material ejecting assembly is electrically connected with the power module.

5. The carousel-type perfusion apparatus of claim 4, wherein the fill assembly comprises: the device comprises a first motor, a second motor, a material injection support, a pair of synchronizing wheels, a transmission belt, a first screw, a nut, a material pumping rod, a material pumping cylinder, a material injection valve body, a material injection valve core, a check valve and a material discharge pipe;

the material injection bracket is arranged on the outer wall of the bearing main body;

the first motor is arranged on the material injection support and is electrically connected with the power module;

the material injection valve body is arranged on the material injection support, a feed inlet is formed in the top of the material injection valve body and connected with the material storage device, a material injection port is formed in the bottom of the material injection valve body, a material pumping port is formed in the side wall of the material injection valve body, and the feed inlet, the material injection port and the material pumping port penetrate through the outer wall of the material injection valve body and are communicated with the inner cavity of the material injection valve body;

the first screw is movably arranged on the material injection bracket;

the material pumping cylinder is arranged on the side wall of the material injection valve body, and the output end of the material pumping cylinder is matched with the position of the material pumping port;

the material pumping rod is movably inserted into an inner cavity of the material pumping cylinder;

the nut is sleeved on the first screw rod and fixedly connected with one end of the material pumping rod and used for driving the material pumping rod to move;

the pair of synchronous wheels are respectively arranged at the output end of the first motor and the input end of the first screw rod;

the transmission belt is connected with the pair of synchronous wheels;

the material injection valve core is arranged in the inner cavity of the material injection valve body, a material guide groove is formed in the material injection valve core, and the two ends of the material guide groove are matched with the shapes of the feeding hole, the material injection hole and the material pumping hole;

the second motor is arranged on the material injection support, connected with the material injection valve core and electrically connected with the power module and used for controlling the material injection valve core to rotate;

the check valve is arranged at the bottom of the material injection valve body, and the input end of the check valve is matched with the position of the material injection port;

the discharging pipe is arranged at the output end of the check valve.

6. The carousel-type perfusion apparatus of claim 4, wherein the ejector assembly comprises: the third motor, the second screw, the pair of second guide rods, the ejection tray and the ejection rod;

the third motor is electrically connected with the power module;

one ends of the pair of second guide rods are arranged on the inner wall of the bearing main body, and the other ends of the pair of second guide rods are connected with the third motor;

the second screw rod is arranged at the output end of the third motor and is movably connected with the inner wall of the bearing main body;

the material ejecting tray is sleeved on the second screw rod and is in threaded connection with the second screw rod, and the material ejecting tray is connected with the pair of second guide rods;

the material ejecting rod is arranged on the material ejecting tray and matched with the material conveying module in position.

7. The carousel perfusion apparatus of claim 1, wherein the capping module comprises: the device comprises a cover screwing bracket, a first lifting cylinder, a second lifting cylinder, a cover screwing motor, a connector, a cover screwing claw, a holding cylinder, a pair of holding claws and an inductor;

the spiral cover bracket is arranged at the top of the bearing main body;

the first lifting cylinder is arranged on the spiral cover support and is connected with an external air source, and the first lifting cylinder is electrically connected with the power module;

the second lifting cylinder is movably arranged on the spiral cover bracket, is connected with the first lifting cylinder, is connected with the air source and is electrically connected with the power module;

the connector is arranged on the second lifting cylinder, is connected with the air source and is electrically connected with the power module;

the cover screwing motor is arranged at the top of the connector and is electrically connected with the power module;

the cover screwing claw is arranged at the bottom of the connector and is matched with the material conveying module in position;

the inductor is arranged on the connector and electrically connected with the power module;

the tightly holding air cylinder is arranged on the spiral cover bracket, is connected with the air source and is electrically connected with the power module;

the pair of holding claws are symmetrically arranged at the output end of the holding cylinder, and the holding claws are matched with the bottle in position.

8. The carousel-type perfusion apparatus of claim 1, wherein the blanking module comprises: a chute, a blocking cover and a material ejector;

the chute is arranged on one side of the material conveying module and is connected with the material conveying module;

the blocking cover is arranged on the sliding groove and is matched with the material conveying module in position;

the ejector is arranged on the bearing main body, and the output end of the ejector is matched with the position of the bottle.

9. The carousel perfusion apparatus of claim 1, wherein the power module comprises: the distribution box is connected with the heavy-load connector;

the heavy-load connector is arranged on the bearing main body and is respectively and electrically connected with the material conveying module, the filling module, the cork pressing device, the cap screwing module and the blanking module;

the block terminal sets up bear in the main part, the block terminal with heavily loaded connector electric connection.

10. The carousel perfusion apparatus of claim 1, further comprising: a pair of cabinet doors disposed on the side walls of the load bearing body.

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