JP6718080B1 - Small bottle manufacturing equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a facility for manufacturing a subdivided bottle. A motor drive chamber and a discharge work chamber are installed in the device housing, and a mold spreading mechanism is installed in the motor drive chamber. A mold clip is slidably engaged and mounted between the discharge work chamber and the motor drive chamber, and a discharge molding mechanism is installed on the right side of the discharge work chamber. A feed controller for controlling the discharge amount is included, and a hollow shaft for sending air is slidably engaged and mounted in the discharge slide shaft. [Selection diagram] Figure 1

Description

The present invention relates to the field of daily necessities production and manufacturing, and more specifically to a facility for manufacturing subdivision bottles.

Subdivision bottles are of great significance for improving people's lives as everyday items used by people when they go out, and subdivision bottles have a relatively smaller volume than other bottles and are a little difficult to process. The volume of processing equipment currently used is very large, resources are wasted very much, and the technology of charging and blowing is separated when the equipment operates, lowering the temperature of the internal raw material, the blowing effect becomes poor Therefore, it is difficult to use the unified automation control, and therefore, the production efficiency of the subdivided bottles is higher, the volume is smaller, the process is centralized, and the automation control is easy to realize.

Chinese Patent Application Publication No. 109625581

It is an object of the present invention to provide a small bottle manufacturing facility and eliminate the above-mentioned drawbacks in the background art.

The subdivision bottle manufacturing facility of the present invention includes an apparatus housing, a driving space and a working space are installed in the apparatus housing, and a mold expanding mechanism is installed in the driving space. The mechanism includes a mold clip that is slidably engaged and mounted between the working space and the driving space, and a discharge molding mechanism is installed on the right side of the working space, and the discharge molding mechanism includes a discharge slide shaft. A feed controller for controlling the discharge amount is included, and a hollow shaft for sending air is slidably engaged and mounted in the discharge slide shaft, and a ventilation pipe is installed in the hollow shaft, A residual amount removing mechanism is installed on the rear side of the space, the residual amount removing mechanism includes a blade installed in the working space, and a transmission space is installed on the rear side of the working space. A first gear for moving and interlocking the blade is installed therein.

In a further technical plant, the discharge molding mechanism and the mold spreading mechanism include a motor fixedly mounted in the bottom wall of the drive space, the drive space being installed in the device housing, Is installed on the upper side of the drive space, the motor shaft is fixedly connected to the upper output shaft end surface of the motor, the first pulley is fixedly attached to the motor shaft, and the screw thread is attached to the motor shaft. The block is engaged and attached by a screw thread, and the connecting rod is symmetrically engaged and attached by a hinge to the screw thread block, and the mold sandwich is symmetrical between the drive space and the working space. Slidably engaged and attached, the mold clip is engaged and attached by the hinge with the connecting rod, and a molding mold is symmetrically and fixedly attached to one end face of the mold clip. A guide rod groove is installed in the molding mold, a guide rod is slidably engaged and mounted in the guide rod groove, and a gasket is installed in the molding mold.

In a further technical plant, the discharge molding mechanism includes a storage space fixedly attached to a top end surface of the apparatus housing, the feed controller is fixedly attached to the right side of the working space, and A feed port communicating with the feed controller is installed, a heat insulating block is installed outside the feed port, and a connection space is installed above the working space. The discharge slide shaft is slidably engaged with and attached to the work space, and a slide space is installed in the discharge slide shaft, and between the slide space and the discharge port of the feed controller. A transport pipe communicating with the slide space is installed, a spring groove is installed on the top end surface of the slide space, and a cylinder is fixedly installed in the top wall of the connection space. The hollow shaft is fixedly attached to the piston push rod, and the hollow shaft and the slide space are slidably engaged and attached, and the ventilation pipe is installed in the hollow shaft. Slide grooves communicating with the slide space are symmetrically installed in the left and right inner walls of the space, and a sealing block is slidably engaged and mounted in the slide groove. A spring is fixedly attached between the one end surface and one inner wall of the slide groove, a pipe block is fixedly attached to the hollow shaft, and the bottom end surface of the pipe block and the bottom wall of the spring groove are A push spring is fixedly attached between the two, an air source is fixedly attached to the top end surface of the device housing, and an exhaust pipe is fixedly connected to the front output port of the air source, An air feed pipe communicating with the exhaust pipe and the ventilation pipe is installed.

In a further technical plant, the residual amount removing mechanism includes a feed space communicating with the drive space installed on the rear side of the drive space, and the transmission space is installed on the rear side of the working space, A thread slide groove is installed on the upper side of the feed space, the thread slide groove communicates with a front inner wall of the transmission space, and a thread sleeve is slidable in the thread slide groove. Engaged and mounted, a rack is installed on the thread sleeve, and a thread shaft penetrating the bottom wall of the thread slide groove is rotatably engaged between the upper and lower inner walls of the feed space. Mounted, the thread shaft and the thread sleeve are engaged with each other by a thread, and a second pulley is fixedly mounted to the thread shaft, and the second pulley and the first pulley are attached. A transmission belt is engaged and mounted so as to be able to be transmitted, and a gear shaft is engaged so as to be rotatable between the left and right inner walls of the transmission space, and a second gear is fixed to the gear shaft. , The second gear meshes with a rack on the threaded sleeve, the first gear is fixedly attached to the gear shaft, and the tool slide grooves are provided on the left and right inner walls of the working space. The blades are installed symmetrically, and the blades are slidably engaged and mounted in the blade slide grooves, and the slide rods are slidably mounted and mounted between the working space and the transmission space. The slide rod is fixedly engaged with and attached to the blade, and the slide rod meshes with the first gear.

The advantages of the present invention are: the device is simple in structure and convenient to operate, and the material discharge molding mechanism allows material discharge and blow blowing to be concentrated in the same process step, which enables the device to be used over a long distance. Eliminates the need for transportation, reduces resource loss, and has a better processing effect on bottles of blown subdivided bottles that have been blown and blown, and have a residual removal/cutting mechanism at the mouth of molded bottle bottles. It is possible to remove and cut out the remaining raw material, making the bottle bottle even more flattening and making it well worth spreading.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is a schematic sectional view taken along line AA of FIG. FIG. 3 is an enlarged schematic view of B in FIG. FIG. 4 is a schematic sectional view taken along the line CC of FIG.

Next, the present invention will be described in detail with reference to FIGS. 1-4, and each direction described in the present application is the same as the direction of viewing the device of the present invention in FIG.

The small bottle manufacturing facility of the present invention includes a device housing 10, a drive space 42 and a work space 23 are installed in the device housing 10, and a mold spreading mechanism 800 is provided in the drive space 42. The mold expanding mechanism 800 includes a mold clip 16 that is slidably engaged and attached between the working space 23 and the driving space 42, and a discharge molding mechanism 801 is provided on the right side of the working space 23. The discharge molding mechanism 801 includes a discharge slide shaft 22 and a feed controller 40 for controlling a discharge amount, and a hollow shaft 32 for feeding air is slidably mounted in the discharge slide shaft 22. A ventilation pipe 36 is installed in the hollow shaft 32, a residual amount removing mechanism 802 is installed at the rear side of the drive space 42, and the residual amount removing mechanism 802 is installed in the working space 23. The tool space 21 is included in the work space 23, and a transmission space 47 is installed on the rear side of the working space 23. A first gear 49 for moving and interlocking the tool 21 is installed in the transmission space 47.

As an informative example, the discharge molding mechanism 801 and the mold spreading mechanism 800 include a motor 11 fixedly mounted in the bottom wall of the drive space 42, the drive space 42 being the device housing 10. The work space 23 is installed above the drive space 42, the motor shaft 12 is fixedly connected to the upper output shaft end surface of the motor 11, and the motor shaft 12 includes a first pulley. 13 is fixedly attached, a thread block 14 is engaged with the motor shaft 12 by a thread, and a connecting rod 15 is symmetrically attached by a hinge to the thread block 14. The mold clip 16 is engaged and attached so as to be symmetrically slidable between the drive space 42 and the working space 23, and the mold clip 16 is engaged with the connecting rod 15 by a hinge to be attached. A molding mold 17 is fixedly attached to one end surface of the mold clip 16 in a symmetrically fixed manner. A guide rod groove 18 is installed in the molding mold 17, and a guide rod groove 18 is provided in the guide rod groove 18. A guide rod 19 is slidably engaged and mounted, and a gasket 20 is installed in the molding mold 17, whereby the motor 11 is started and the motor 11 moves the thread block 14 up and down. The screw thread block 14 moves up and down to cause the mold clip 16 to perform the pinching and mold expanding operation.

As an informative example, the discharge molding mechanism 801 includes a storage space 37 fixedly attached to the top end surface of the apparatus housing 10, and the feed controller 40 is fixed to the right side of the work space 23. Is installed in the work space 23, and a feed port 38 is installed between the storage space 37 and the feed controller 40, and a heat insulating block 39 is installed outside the feed port 38. A connection space 57 is installed on the upper side, and the discharge slide shaft 22 is slidably engaged and mounted between the connection space 57 and the work space 23. A space 24 is installed, a transport pipe 41 is installed between the slide space 24 and an outlet of the feed controller 40, and a spring groove 28 is installed on the top end surface of the slide space 24. A cylinder 35 is fixedly mounted in the top wall of the connection space 57, and the hollow shaft 32 is fixedly mounted to the piston push rod below the cylinder 35. The slide space 24 is slidably engaged and attached, the ventilation pipe 36 is installed in the hollow shaft 32, and the left and right inner walls of the slide space 24 communicate with the slide space 24. The slide grooves 25 are installed symmetrically, and the sealing block 27 is slidably engaged and mounted in the slide groove 25. One end surface of the sealing block 27 and one inner wall of the slide groove 25 A spring 26 is fixedly mounted between them, a pipe block 30 is fixedly mounted to the hollow shaft 32, and a pipe block 30 is pressed between the bottom end surface of the pipe block 30 and the bottom wall of the spring groove 28. A spring 29 is fixedly attached, an air source 33 is fixedly attached to the top end surface of the apparatus housing 10, and an exhaust pipe 34 is fixedly connected to an output port on the front side of the air source 33. An air feed pipe 31 communicating with the exhaust pipe 34 and the ventilation pipe 36 is installed to activate a cylinder 35, and the cylinder 35 moves down the hollow shaft 32 and the discharge slide shaft 22. This causes the hollow shaft 32 and the mold clamp 16 to be aligned with each other, the feed controller 40 is activated to feed the material into the molding mold 17, and the feed controller 40 is stopped after the material is completely fed. , The cylinder 35 is again controlled to move the hollow shaft 32 downward so that the hollow shaft 32 is inserted into the molding mold 17 and The source 33 is activated and the air source 33 begins to blow air into the material of the mold 17, thereby causing the material to be molded.

As a useful and example, the remaining amount removing mechanism 802 includes a feed space 55 communicating with the drive space 42 installed at the rear side of the drive space 42, and at the rear side of the working space 23. The transmission space 47 is installed, the thread slide groove 45 is installed on the upper side of the feed space 55, and the thread slide groove 45 communicates with the front inner wall of the transmission space 47. A thread sleeve 46 is slidably engaged and mounted in the groove 45, a rack is installed in the thread sleeve 46, and the thread slide groove 45 is provided between the upper and lower inner walls of the feed space 55. A threaded shaft 52 penetrating the bottom wall of the same is rotatably engaged and mounted, and the threaded shaft 52 and the threaded sleeve 46 are threadedly engaged and mounted. A second pulley 53 is fixedly attached to the second pulley 53, and a transmission belt 54 is engaged between the second pulley 53 and the first pulley 13 so as to be able to be transmitted. A gear shaft 50 is rotatably engaged and mounted between the gear shaft 50, a second gear 48 is fixedly mounted on the gear shaft 50, and the second gear 48 is a rack on the thread sleeve 46. The first gear 49 is fixedly attached to the gear shaft 50, and the tool slide grooves 44 are symmetrically installed on the left and right inner walls of the working space 23. Is slidably engaged and attached to the blade 21, and a slide rod 51 is slidably engaged and attached between the working space 23 and the transmission space 47, and the slide rod 51 is attached to the blade. 21 is fixedly engaged and attached, and the slide rod 51 is meshed with the first gear 49, whereby the first pulley 13 rotates, the second pulley 53 rotates and interlocks, and the second pulley 53 rotates. Then, the screw shaft 52 is rotated and interlocked, the screw shaft 52 is rotated, and the screw sleeve 46 is vertically moved and interlocked, and the screw sleeve 46 is vertically moved to move the second gear 48 and the first gear 49. The first gear 49 rotates and the slide rod 51 slides forward and backward, and the slide rod 51 slides forward and backward to interlock the blade 21 to remove the remaining amount.

When using: The motor 11 is started, the motor 11 moves the screw block 14 up and down, and the screw block 14 moves up and down to interlock the mold sandwich 16 to perform the sandwiching operation. Starts the cylinder 35 after interlocking with each other, and the cylinder 35 moves and interlocks the hollow shaft 32 and the discharge slide shaft 22 downward, aligns the hollow shaft 32 and the mold pinch 16, and activates the feed controller 40. Then, the material is fed into the molding mold 17, and after the feeding of the material is completed, the feed controller 40 is stopped, and the cylinder 35 is controlled again to move the hollow shaft 32 downward so that the hollow shaft 32 moves to the molding mold 17. The air source 33 starts to blow air on the material of the molding mold 17, which causes the material to be molded, and the motor 11 reverses to perform the mold spreading operation of the mold clamp 16. The first pulley 13 rotates to interlock the second pulley 53 with rotation, the second pulley 53 rotates to interlock with the thread shaft 52, and the thread shaft 52 rotates to move the thread sleeve 46 up and down. Then, the screw thread sleeve 46 moves up and down to rotationally interlock the second gear 48 and the first gear 49, the first gear 49 rotates and the slide rod 51 slides forward and backward, and the slide rod 51 slides forward and backward. Then, the blade 21 is interlocked to remove the remaining amount.

The beneficial effects of the present invention are: the device is simple in construction, convenient to operate, the discharge forming mechanism concentrates the material discharge and the blowing into the same process, the device does not need to be transported over a long distance, and the There is less loss, there is a better processing effect on blown subdivision bottles, and the residual amount removal mechanism can remove the remaining material at the mouth of the molded bottle, making the mouth of the bottle flatter, which is worth spreading ..

The above is only a specific implementation mode of the present invention, but the protection scope of the present invention is not limited thereto. Changes and substitutions that come up without the whole creative labor are covered by the protection scope of the present invention. Therefore, the scope of protection of the present invention is based on the scope of protection to which the right claim is limited.

Claims (1)

An apparatus housing is included, and a drive space and a working space are installed in the apparatus housing, a mold spreading mechanism is installed in the driving space, and the mold spreading mechanism includes the working space and the driving space. A mold clamp which is slidably engaged and mounted between the discharge space, a discharge molding mechanism is installed on the right side of the work space, and the discharge molding mechanism includes a discharge slide shaft and a feed controller for controlling the discharge amount. A hollow shaft for sending air is slidably mounted in the discharge slide shaft, a ventilation pipe is installed in the hollow shaft, and a residual amount removing mechanism is provided on the rear side of the drive space. Is installed, the remaining amount removing mechanism includes a blade installed in the work space, a transmission space is installed on the rear side of the work space, and the blade is moved and interlocked in the transmission space. Gears are installed,
The discharge molding mechanism and the mold spreading mechanism include a motor fixedly mounted in a bottom wall of the drive space, the drive space is installed in the apparatus housing, and the work space is above the drive space. , A motor shaft is fixedly connected to the end surface of the upper output shaft of the motor, a first pulley is fixedly attached to the motor shaft, and a screw thread block is engaged with the motor shaft by a screw thread. A connecting rod is symmetrically engaged with and attached to the thread block by a hinge so that the mold clip can be symmetrically slid between the drive space and the working space. The mold clip is engaged with and attached to the connecting rod by a hinge, and a molding mold is fixedly attached symmetrically to one end surface of the mold clip in a symmetrical manner. A guide rod groove is installed, a guide rod is slidably engaged and mounted in the guide rod groove, a gasket is installed in the molding mold, thereby starting the motor and screwing the motor. The mountain block moves up and down, and the screw block moves up and down to pinch the mold and perform the mold spreading operation.
The discharge molding mechanism includes a storage space fixedly attached to a top end surface of the apparatus housing, the feed controller is fixedly attached to the right side of the working space, and the feed space controller includes a storage space and a feed controller. A communicating opening is installed between them, a heat insulating block is installed outside the sending opening, a connecting space is installed above the working space, and a connecting space is provided between the connecting space and the working space. Is slidably engaged with and attached to the discharge slide shaft, a slide space is installed in the discharge slide shaft, and the slide space and the discharge port of the feed controller communicate with each other. A transport pipe is installed, a spring groove is installed on the top end surface of the slide space, a cylinder is fixedly installed in the top wall of the connection space, and a piston push rod on the lower side of the cylinder has the above-mentioned structure. A hollow shaft is fixedly mounted, the hollow shaft and the slide space are slidably engaged and mounted, the ventilation pipe is installed in the hollow shaft, and inside the left and right inner walls of the slide space. Slide grooves, which communicate with the slide space, are installed symmetrically in the slide groove, and a sealing block is slidably engaged in the slide groove so as to be slidable. A spring is fixedly attached to the inner wall of one side of the pipe block, a pipe block is fixedly attached to the hollow shaft, and a push spring is provided between the bottom end face of the pipe block and the bottom wall of the spring groove. Is fixedly attached, an air source is fixedly attached to the top end surface of the apparatus housing, and an exhaust pipe is fixedly connected to an output port on the front side of the air source. An air feed pipe is installed in communication with the trachea, which activates the cylinder, which causes the hollow shaft and the discharge slide shaft to move downward, thereby aligning the hollow shaft and the mold clamp. Then, the feed controller is activated to feed the material into the molding mold, and after the feeding of the material is completed, the feed controller is stopped and the cylinder is controlled again to move the hollow shaft downward, When inserted into the mold, it activates an air source, which starts blowing air into the material of the mold, thereby causing the material to be molded,
The remaining amount removing mechanism includes a feed space communicating with the drive space installed on the rear side of the drive space, the transmission space is installed on the rear side of the work space, and the transfer space is provided on the upper side of the feed space. Is provided with a thread slide groove, the thread slide groove communicates with a front inner wall of the transmission space, and a thread sleeve is slidably engaged and mounted in the thread slide groove. A rack is installed on the thread sleeve, and a thread shaft penetrating the bottom wall of the thread slide groove is rotatably engaged and attached between the upper and lower inner walls of the feed space. A thread shaft and the thread sleeve are engaged with each other by a thread, and a second pulley is fixedly attached to the thread shaft, and a transmission belt is provided between the second pulley and the first pulley. Is engaged and attached so as to be able to transmit, a gear shaft is engaged and attached so as to be rotatable between the left and right inner walls of the transmission space, and a second gear is fixedly attached to the gear shaft, A second gear meshes with a rack on the thread sleeve, the first gear is fixedly attached to the gear shaft, and blade slide grooves are symmetrically installed on the left and right inner walls of the working space. , The blade is slidably engaged in the blade slide groove, and the slide rod is slidably engaged and mounted between the working space and the transmission space. Fixedly engaged with and attached to the blade, the slide rod meshes with the first gear, which causes the first pulley to rotate and the second pulley to rotate and interlock, the second pulley to rotate, and the screw thread The shaft is rotationally interlocked, the threaded shaft is rotated and the threaded sleeve is vertically moved and interlocked, the threaded sleeve is vertically moved and the second gear and the first gear are rotationally interlocked, and the first gear is rotated. This is a manufacturing facility for subdivided bottles, characterized in that the slide rod slides forward and backward, and the slide rod slides forward and backward to interlock the blade to remove the remaining amount.

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