CN116118162A - Shaping and processing integrated equipment for multi-port blow molding medicine chest - Google Patents

Abstract

The invention discloses shaping and processing integrated equipment for a multi-port blow molding medicine box, which comprises a bottom support frame, wherein a workbench is arranged at the top of the bottom support frame, and a closed net cover is arranged on the workbench; according to the invention, through the designed workbench, the clamp assembly, the flat-bottom opening assembly, the flat-top opening assembly, the upright post assembly and the flat-top end assembly, the rapid cooling shaping of the blow-molded medicine box is realized, and the boring and milling of the medicine box is carried out by boring and milling the medicine box tool, so that the tool assembly, the cooling assembly and the clamp for boring and milling the medicine box are intensively installed on the workbench, the volume is effectively reduced, the occupied space is reduced, the blow-molding gap is utilized after the blow molding is completed, the blow-molding gap is rapidly positioned on the clamp, the online shaping is realized through the forced air cooling structure, and then the simultaneous processing of a plurality of tools is realized, the porous integrated processing shaping is realized, the processing is not required to be carried out in a processing area, the working procedure is reduced, the efficiency is improved, and the manual quantity is effectively reduced.

Description

Shaping and processing integrated equipment for multi-port blow molding medicine chest

Technical Field

The invention belongs to the technical field of blow molding medicine chest processing, and particularly relates to shaping and processing integrated equipment for a multi-port blow molding medicine chest.

Background

The blow molding medical kit is provided with a riser and a plurality of liquid medicine inlets and outlets, after blow molding is completed, part of key inlets and outlets are required to be shaped, after cooling, the blow molding medical kit is transferred to a processing area for processing, and the following application documents are obtained by searching blow molding piece cutting processing equipment:

(1) The bottleneck excess material cutting device for the plastic blow molding machine has the advantages that the cutting knife is arranged in the die to cut the port, the cutting mode is simple and efficient, but the precision is low, the blow molding piece with high requirements on flatness and perpendicularity is difficult to apply, the die design cost and the manufacturing cost are high, and the large-scale popularization is difficult;

(2) The large-caliber blow molding opening device with the patent number of CN201620891615.2 can only realize the processing of a single position, has lower efficiency and is also a commonly adopted mode of current manufacturers;

(3) The device adopts a cutter mode to realize multi-position processing of the tubular blow molding piece, has lower incision precision and can only be suitable for post-processing cutting of various vent pipe orifices of automobiles.

The existing blow-molded medicine box is shaped on a special tool after blow molding is finished, and is transferred to a processing area after being cooled to normal temperature, and is respectively processed by milling, boring, turning and the like, but the following defects exist: (1) The manufacturing cycle of parts of the medicine box is long, the efficiency is low, the positioning and processing precision is not easy to guarantee for multiple times, and the transportation at multiple positions wastes manpower and occupied space, scraps are generated in the production process, and the problems of environmental pollution and resource waste are solved; (2) The utility model provides a be used for many mouthfuls of shaping processing integration equipment of blowing medical kit, including the fixed subassembly that is used for the fixed motor of power unit on medical kit shaping processing equipment, the equipment produces certain vibrations phenomenon in the course of working, wherein is used for the fixed motor to appear not hard up easily under long-time vibrations to cause the motor to take place not hard up, and this motor is in unsettled state, and then can cause the position slope, leads to the output shaft to buckle and damage, makes the unstable problem of equipment structure equipment, for this reason we propose a design processing integration equipment for many mouthfuls of blowing medical kit.

Disclosure of Invention

The invention aims to provide shaping and processing integrated equipment for a multi-port blow molding medicine box, which aims to solve the problems of large size, environmental pollution, low efficiency and multiple procedures of the shaping and processing equipment for the multi-port blow molding medicine box in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a design processing integration equipment for many mouthfuls blowing medical kit, includes the bottom support frame, the top of bottom support frame is provided with the workstation, install the closure screen panel on the workstation, be provided with the guard gate on the closure screen panel, the surface center department of workstation is provided with the anchor clamps subassembly, one side of anchor clamps subassembly is provided with flat bottom mouth subassembly respectively, the lateral part of flat bottom mouth subassembly is provided with flat top end subassembly, the opposite side of anchor clamps subassembly is provided with flat top end subassembly, the rear end of anchor clamps subassembly is provided with the stand subassembly, blanking hole has been seted up on the surface of workstation, the bottom in blanking hole is provided with the collection bag, and the bottom at the workstation is installed to the collection bag.

Preferably, the top of stand subassembly is installed and is weighed the subassembly, the subassembly of weighing comprises weighing platform and weighing sensor, and weighing sensor distributes in the four corners in the bottom of weighing platform.

Preferably, the flat top end assembly comprises a power unit, a cutter holder and a first support plate, the first support plate is installed on the workbench, a sliding rail assembly is installed on the first support plate, the power unit is installed at the top of the sliding rail assembly, the cutter holder is installed at the output end of the power unit, two cutter bars are symmetrically installed on the cutter holder, a first screw is installed at the bottom end of the power unit, and one end of the first screw is connected with a first motor.

Preferably, the stand subassembly comprises stand, activity roof and stand cylinder, the stand is fixed on the workstation, install the slip rail subassembly between activity roof and the stand, radiator fan is installed at the top of activity roof, the flexible end of stand cylinder is installed on the activity roof, the stand cylinder is installed on the bottom surface of stand, weighing sensor's bottom is all installed on the top surface of activity roof.

Preferably, the fixture assembly comprises a square plate group and a trapezoid plate group, the square plate group comprises a square movable plate and a square supporting plate, the trapezoid plate group comprises a trapezoid movable plate and a trapezoid supporting plate, pressure sensors are all installed on the inner side surfaces of the trapezoid supporting plate and the square supporting plate, screw holes are all formed in the surfaces of the square movable plate and the square supporting plate, adjusting bolts are connected inside the screw holes through threads, the square movable plate and the trapezoid movable plate are all installed on a movable top plate, and temperature sensors are also installed on the inner side surfaces of the trapezoid supporting plate and the square supporting plate.

Preferably, the flat bottom mouth component comprises a power unit, a second support plate, a second lead screw and a milling cutter, the second support plate is installed on the workbench, a sliding rail component is connected between the second support plate and the power unit, the sliding rail component is installed at the top of the second support plate, the second lead screw is installed at the bottom end of the power unit, the end part of the second lead screw is connected with a second motor, and the milling cutter is installed at the output end of the power unit.

Preferably, the flat mouth subassembly comprises U template, flat mouth cylinder, motor frame, third motor and flat mouth sword, the U template is installed on the workstation, install the slip rail subassembly between motor frame and the U template, the third motor is installed in the motor frame, be connected with the shaft coupling between third motor and the flat mouth sword, the bottom plate is installed to the bottom of motor frame, the bottom plate is connected with the flexible end of flat mouth cylinder, the stiff end of flat mouth cylinder is connected on the U template.

Preferably, the sliding rail assembly consists of a sliding rail and a sliding block, the power unit consists of a motor and a transmission box body, and the motor is arranged on the transmission box body.

Preferably, a slideway is fixed on the surface of the transmission box body, a bottom block is connected to the slideway in a sliding manner, a supporting block is arranged at the top of the bottom block, a guide rod group is connected between the supporting block and the bottom block, the top of the supporting block is arranged on the bottom surface of the motor, a threaded hole is formed in the bottom surface of the supporting block, a screw is connected to the inside of the threaded hole in a threaded manner, the bottom of the screw is attached to the surface of the bottom block, a plurality of positioning grooves are formed in the side wall of the slideway, positioning pins penetrate through the side wall of the bottom block, and one end of each positioning pin is arranged inside the corresponding positioning groove.

Compared with the prior art, the invention has the beneficial effects that:

(1) Through the designed workbench, the fixture component, the flat bottom port component, the flat top port component, the upright post component and the flat top end component, the upright post component and the fixture component are matched, the quick clamping and positioning of the medicine box are realized, meanwhile, the cooling fan at the top of the upright post component is used for quick cooling and shaping of the blow-molded medicine box, and the flat bottom port component, the flat top port component and the flat top end component are provided with cutters for boring and milling the medicine box, so that the cutter components for boring and milling the medicine box port, the rear port and the box port, the cooling component and the fixtures are intensively arranged on the workbench, the volume is effectively reduced, the occupied space is reduced, the blow-molded clearance is utilized after the blow molding is realized, the medicine box is quickly positioned on the fixture, the blow-molded medicine box is shaped on line through the forced air cooling structure, and then the multiple cutters are simultaneously processed, the porous integrated processing and shaping are realized, the invention does not need to be transferred into a processing area for processing, reduces working procedures, improves efficiency, effectively reduces manual quantity, generates wind power in the process of cooling a medicine box through a designed collecting bag, blanking holes, a closed net cover and a cooling fan, blows plastic scraps into the collecting bag at the bottom, ensures the cleanliness and no pollution in the processing and production process of the medicine box, improves the safety protection of the invention through the effect of the closed net cover, realizes the weighing of the medicine box through a designed weighing assembly which consists of a weighing platform and a weighing sensor, adopts a QMS system to analyze and process the signals of the weighing sensor, then transmits the signals to a control instrument panel and a blow molding machine controller, visually sees the area where the weight of the medicine box is positioned through the instrument panel, adjusts blow molding parameters according to the received signals, and adopts the designed pressure sensor, the clamping force of the clamp assembly for clamping the medicine box is detected, and excessive clamping or excessive loosening of the clamp assembly is avoided.

(2) Through the support block, the slide way, the bottom block, the guide rod group and the screw rod of design, the support block is movably arranged on the bottom block through the guide rod group, the position of the support block support is adjusted through sliding of the bottom block on the slide way, then the screw rod is used for screwing, the support height of the support block is adjusted, the support block is further arranged at the bottom of the motor in a suspended state, the support of the motor is realized, the installation inclination of the motor caused by loosening of a fastening component for installing the motor is avoided, the bending damage of an output shaft of the motor is caused, the structural installation stability of the motor is improved, the position of the support block for supporting the motor is fixed through the designed locating pin and the locating groove, and the sliding of the support block for changing the support position is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the installation of the flat top end assembly, clamp assembly, upright assembly, flat bottom mouth assembly, and flat mouth assembly of the present invention on a work table;

FIG. 3 is a perspective view of the flat bottom mouth assembly of the present invention;

FIG. 4 is a perspective view of the clamp assembly of the present invention;

FIG. 5 is a perspective view of a flat top end assembly of the present invention;

FIG. 6 is a perspective view of a flat top assembly of the present invention;

FIG. 7 is a perspective view of the column assembly of the present invention;

FIG. 8 is a front view of the power unit, slideway and bracket of the invention;

FIG. 9 is a side cross-sectional view of the installation of the bottom block, screw, dowel pin, slide way and bracket of the present invention.

In the figure: 1. a bottom support frame; 2. a work table; 3. a flat top end assembly; 301. a first supporting plate; 302. a tool apron; 303. a cutter bar; 304. a first lead screw; 305. a first motor; 4. a clamp assembly; 401. a square movable plate; 402. a square support plate; 403. a trapezoid supporting plate; 404. a trapezoid movable plate; 5. a weighing assembly; 501. a weighing platform; 502. a weighing sensor; 6. a column assembly; 601. a heat radiation fan; 602. a stand column frame; 603. a movable top plate; 604. a column cylinder; 7. a flat bottom mouth assembly; 701. a milling cutter; 702. a second supporting plate; 703. a second lead screw; 704. a second motor; 8. closing the mesh enclosure; 9. a flat-mouth assembly; 901. a third motor; 902. a coupling; 903. a flat-mouth knife; 904. a motor frame; 905. a bottom plate; 906. a U-shaped plate; 907. a plain end cylinder; 10. a collection bag; 11. a power unit; 12. a motor; 13. a transmission case; 14. a support block; 15. a guide bar group; 16. a bottom block; 17. a positioning pin; 18. a positioning groove; 19. a slideway; 20. a screw; 21. and (3) a threaded hole.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1 to 7, the present invention provides a technical solution: the shaping and processing integrated equipment for the multi-port blow molding medicine box comprises a bottom supporting frame 1, wherein a workbench 2 is arranged at the top of the bottom supporting frame 1, a closed net cover 8 is arranged on the workbench 2, a protective door is arranged on the closed net cover 8, a clamp assembly 4 is arranged at the center of the surface of the workbench 2, a flat bottom opening assembly 7 is respectively arranged at one side of the clamp assembly 4, a flat bottom opening assembly 9 is arranged at the side part of the flat bottom opening assembly 7, a flat top end assembly 3 is arranged at the other side of the clamp assembly 4, a stand column assembly 6 is arranged at the rear end of the clamp assembly 4, the designed workbench 2, the clamp assembly 4, the flat bottom opening assembly 7, the flat top assembly 9, the stand column assembly 6 and the flat top end assembly 3 are matched, the quick clamping and positioning of the medicine box is realized, meanwhile, the medicine box after blow molding is quickly cooled and shaped through a cooling fan 601 at the top of the stand column assembly 6, the flat bottom mouth component 7, the flat mouth component 9 and the flat top end component 3 are all provided with cutters for boring and milling the medicine box, so that the cutter components for boring and milling the medicine box port, the rear port and the box mouth, the cooling component and the clamp are intensively arranged on the workbench 2, the volume is effectively reduced, the occupied space is reduced, the blow molding is realized, the blow molding clearance is utilized after the blow molding is finished, the blow molding clearance is quickly positioned on the clamp, the on-line shaping is realized through a forced air cooling structure, then the simultaneous processing is carried out through a plurality of cutters, the multi-hole integrated processing and forming is realized, the processing is not required to be carried out in a processing area, the working procedure is reduced, the efficiency is improved, the manual quantity is effectively reduced, the blanking hole is formed on the surface of the workbench 2, the bottom end of the blanking hole is provided with the collecting bag 10, the blanking hole, the closed net cover 8 and the cooling fan 601 are arranged through the designed collecting bag 10, the cooling fan 601 generates wind force in the process of cooling the medicine box, blows plastic scraps into the collecting bag 10 at the bottom, ensures cleanliness and no pollution in the processing and production process of the medicine box, improves the safety protection of the invention through the effect of the closed net cover 8, the collecting bag 10 is arranged at the bottom of the workbench 2, the top end of the upright post component 6 is provided with the weighing component 5, the weighing component 5 consists of the weighing platform 501 and the weighing sensor 502, the weighing sensor 502 is distributed at four corners at the bottom end of the weighing platform 501, the weighing component 5 consists of the weighing platform 501 and the weighing sensor 502 through the designed weighing component 5, the medicine box is weighed, the weighing sensor 502 signals are analyzed and processed through the QMS system and then are transmitted to the controller of the control and the instrument panel blowing machine, the area where the weight of the medicine box is located can be visually seen through the instrument panel, and the blowing machine also adjusts blowing parameters according to the received signals.

In this embodiment, preferably, the flat top end assembly 3 is composed of a power unit 11, a tool holder 302 and a first supporting plate 301, the first supporting plate 301 is installed on the workbench 2, a sliding rail assembly is installed on the first supporting plate 301, the power unit 11 is installed at the top of the sliding rail assembly, the tool holder 302 is installed at the output end of the power unit 11, two tool holders 303 are symmetrically installed on the tool holder 302, a first lead screw 304 is installed at the bottom end of the power unit 11, one end of the first lead screw 304 is connected with a first motor 305, the tool holders 303 and the power unit 11 are driven by the power unit 11 to rotate, the first lead screw 304 is driven by the first motor 305 to cut and process a medicine box, then the first lead screw 304 is driven to rotate by the first motor 305, so as to realize cutting feed amount adjustment of the tool holders 303, the column assembly 6 is composed of a column bracket 602, a movable top plate 603 and a column cylinder 604, the sliding rail assembly is installed between the movable top plate 603 and the column bracket 602, a fan 601 is installed at the top of the movable top of the column bracket 603, the movable top of the column bracket 602 is forced cooling fan 601 is connected with the first motor 305, the designed, the cooling effect is guaranteed, the cooling effect of cooling of the cooling device can be greatly reduced by the cooling device is guaranteed, and the cooling effect of the cooling device is suitable for cooling the top end of the column bracket 602 by the cooling device, and the cooling device is installed at the top end of the column bracket, and the top end of the column 602 when the cooling device is cooled by the cooling down by the cooling device.

In this embodiment, preferably, the anchor clamps subassembly 4 comprises square integrated circuit board and trapezoidal integrated circuit board, square integrated circuit board comprises square integrated circuit board 401 and square backup pad 402, trapezoidal integrated circuit board comprises trapezoidal integrated circuit board 404 and trapezoidal backup pad 403, square integrated circuit board through the design comprises square integrated circuit board 401 and square backup pad 402, trapezoidal integrated circuit board comprises trapezoidal integrated circuit board 404 and trapezoidal backup pad 403, divide into upper and lower two parts with the anchor clamps subassembly, in order to realize pressing from both sides the medical kit through the lift of movable roof 603, pressure sensor is all installed on the inboard surface of trapezoidal backup pad 403 and square backup pad 402, the screw has all been seted up on the inboard surface of square integrated circuit board 401 and square backup pad 402, through the straightness of the screw of the machined surface and medical kit mouth screw axis of design of bolt support assurance medical kit mouth is guaranteed to the screw bolt, adopt adjustable bolt's mode to fix a position simultaneously, avoid leading to unstable because blowing piece size influences, the inside of screw has adjusting bolt through threaded connection, realize detecting the clamping force of square integrated circuit board 4 centre gripping, avoid it to press from both sides excessively or loose, movable board 401 and trapezoidal integrated circuit board 403 are installed on the inboard surface of square backup pad 402 and temperature sensor, temperature sensor is installed on the square integrated circuit board 403 and temperature sensor is installed on the side of the square backup pad 402, and temperature sensor is still installed on the temperature sensor is installed on the face of the square integrated circuit board 2, and is monitored and is cooled down by the temperature sensor is installed on the face of the inside of the square integrated circuit board.

In this embodiment, preferably, the flat bottom mouth assembly 7 is composed of a power unit 11, a support plate two 702, a second lead screw 703 and a milling cutter 701, the support plate two 702 is mounted on the workbench 2, a sliding rail assembly is connected between the support plate two 702 and the power unit 11, the sliding rail assembly is mounted on the top of the support plate two 702, the second lead screw 703 is mounted at the bottom end of the power unit 11, the end of the second lead screw 703 is connected with a second motor 704, the milling cutter 701 is mounted on the output end of the power unit 11, the designed power unit 11, the support plate two 702, the second lead screw 703, the milling cutter 701 and the second motor 704 drive the second lead screw 703 to rotate through the second motor 704, thereby realizing the adjustment of the cutting depth of the milling cutter 701, meanwhile, the power unit 11 drives the milling cutter 701 to rotate for cutting and milling a medicine box, the flat mouth assembly 9 is composed of a U-shaped plate 906, a flat mouth air cylinder, a motor frame 904, a third motor 901 and a flat mouth cutter 903, the U-shaped plate 906 is arranged on the workbench 2, a sliding rail component is arranged between the motor frame 904 and the U-shaped plate 906, a third motor 901 is arranged on the motor frame 904, a coupling 902 is connected between the third motor 901 and a flat mouth knife 903, a bottom plate 905 is arranged at the bottom end of the motor frame 904, the bottom plate 905 is connected with the telescopic end of the flat mouth air cylinder 907, the motor frame 904 provided with the third motor 901 is arranged on the U-shaped plate 906 through the sliding rail component through the designed flat mouth air cylinder 907, the bottom plate 905, the flat mouth knife 903 and the sliding rail component, the flat mouth air cylinder 907 realizes the cutting milling processing of a medicine box by driving the flat mouth knife 903 to rotate through the third motor 901, the flat mouth air cylinder 907 realizes the cutting depth adjustment of the flat mouth knife 903, the fixed end of the flat mouth air cylinder 907 is connected on the U-shaped plate 906, the sliding rail component consists of a sliding rail and a sliding block, the power unit 11 is composed of a motor 12 and a transmission box body 13, a sliding rail assembly is designed, the sliding rail assembly is composed of a sliding rail and a responsive sliding block through sliding connection, stable connection and accurate movement of the assembly are achieved, and the motor 12 is arranged on the transmission box body 13.

Example 2

Referring to fig. 1 to 9, the present invention provides a technical solution: the shaping and processing integrated equipment for the multi-port blow molding medicine box comprises a bottom supporting frame 1, wherein a workbench 2 is arranged at the top of the bottom supporting frame 1, a closed net cover 8 is arranged on the workbench 2, a protective door is arranged on the closed net cover 8, a clamp assembly 4 is arranged at the center of the surface of the workbench 2, a flat bottom opening assembly 7 is respectively arranged at one side of the clamp assembly 4, a flat bottom opening assembly 9 is arranged at the side part of the flat bottom opening assembly 7, a flat top end assembly 3 is arranged at the other side of the clamp assembly 4, a stand column assembly 6 is arranged at the rear end of the clamp assembly 4, the designed workbench 2, the clamp assembly 4, the flat bottom opening assembly 7, the flat top assembly 9, the stand column assembly 6 and the flat top end assembly 3 are matched, the quick clamping and positioning of the medicine box is realized, meanwhile, the medicine box after blow molding is quickly cooled and shaped through a cooling fan 601 at the top of the stand column assembly 6, the flat bottom mouth component 7, the flat mouth component 9 and the flat top end component 3 are all provided with cutters for boring and milling the medicine box, so that the cutter components for boring and milling the medicine box port, the rear port and the box mouth, the cooling component and the clamp are intensively arranged on the workbench 2, the volume is effectively reduced, the occupied space is reduced, the blow molding is realized, the blow molding clearance is utilized after the blow molding is finished, the blow molding clearance is quickly positioned on the clamp, the on-line shaping is realized through a forced air cooling structure, then the simultaneous processing is carried out through a plurality of cutters, the multi-hole integrated processing and forming is realized, the processing is not required to be carried out in a processing area, the working procedure is reduced, the efficiency is improved, the manual quantity is effectively reduced, the blanking hole is formed on the surface of the workbench 2, the bottom end of the blanking hole is provided with the collecting bag 10, the blanking hole, the closed net cover 8 and the cooling fan 601 are arranged through the designed collecting bag 10, the cooling fan 601 generates wind force in the process of cooling the medicine box, blows plastic scraps into the collecting bag 10 at the bottom, ensures cleanliness and no pollution in the processing and production process of the medicine box, improves the safety protection of the invention through the effect of the closed net cover 8, the collecting bag 10 is arranged at the bottom of the workbench 2, the top end of the upright post component 6 is provided with the weighing component 5, the weighing component 5 consists of the weighing platform 501 and the weighing sensor 502, the weighing sensor 502 is distributed at four corners at the bottom end of the weighing platform 501, the weighing component 5 consists of the weighing platform 501 and the weighing sensor 502 through the designed weighing component 5, the medicine box is weighed, the weighing sensor 502 signals are analyzed and processed through the QMS system and then are transmitted to the controller of the control and the instrument panel blowing machine, the area where the weight of the medicine box is located can be visually seen through the instrument panel, and the blowing machine also adjusts blowing parameters according to the received signals.

In this embodiment, preferably, the flat top end assembly 3 is composed of a power unit 11, a tool holder 302 and a first supporting plate 301, the first supporting plate 301 is installed on the workbench 2, a sliding rail assembly is installed on the first supporting plate 301, the power unit 11 is installed at the top of the sliding rail assembly, the tool holder 302 is installed at the output end of the power unit 11, two tool holders 303 are symmetrically installed on the tool holder 302, a first lead screw 304 is installed at the bottom end of the power unit 11, one end of the first lead screw 304 is connected with a first motor 305, the tool holders 303 and the power unit 11 are driven by the power unit 11 to rotate, the first lead screw 304 is driven by the first motor 305 to cut and process a medicine box, then the first lead screw 304 is driven to rotate by the first motor 305, so as to realize cutting feed amount adjustment of the tool holders 303, the column assembly 6 is composed of a column bracket 602, a movable top plate 603 and a column cylinder 604, the sliding rail assembly is installed between the movable top plate 603 and the column bracket 602, a fan 601 is installed at the top of the movable top of the column bracket 603, the movable top of the column bracket 602 is forced cooling fan 601 is connected with the first motor 305, the designed, the cooling effect is guaranteed, the cooling effect of cooling of the cooling device can be greatly reduced by the cooling device is guaranteed, and the cooling effect of the cooling device is suitable for cooling the top end of the column bracket 602 by the cooling device, and the cooling device is installed at the top end of the column bracket, and the top end of the column 602 when the cooling device is cooled by the cooling down by the cooling device.

In this embodiment, preferably, the anchor clamps subassembly 4 comprises square integrated circuit board and trapezoidal integrated circuit board, square integrated circuit board comprises square integrated circuit board 401 and square backup pad 402, trapezoidal integrated circuit board comprises trapezoidal integrated circuit board 404 and trapezoidal backup pad 403, square integrated circuit board through the design comprises square integrated circuit board 401 and square backup pad 402, trapezoidal integrated circuit board comprises trapezoidal integrated circuit board 404 and trapezoidal backup pad 403, divide into upper and lower two parts with the anchor clamps subassembly, in order to realize pressing from both sides the medical kit through the lift of movable roof 603, pressure sensor is all installed on the inboard surface of trapezoidal backup pad 403 and square backup pad 402, the screw has all been seted up on the inboard surface of square integrated circuit board 401 and square backup pad 402, through the straightness of the screw of the machined surface and medical kit mouth screw axis of design of bolt support assurance medical kit mouth is guaranteed to the screw bolt, adopt adjustable bolt's mode to fix a position simultaneously, avoid leading to unstable because blowing piece size influences, the inside of screw has adjusting bolt through threaded connection, realize detecting the clamping force of square integrated circuit board 4 centre gripping, avoid it to press from both sides excessively or loose, movable board 401 and trapezoidal integrated circuit board 403 are installed on the inboard surface of square backup pad 402 and temperature sensor, temperature sensor is installed on the square integrated circuit board 403 and temperature sensor is installed on the side of the square backup pad 402, and temperature sensor is still installed on the temperature sensor is installed on the face of the square integrated circuit board 2, and is monitored and is cooled down by the temperature sensor is installed on the face of the inside of the square integrated circuit board.

In this embodiment, preferably, the flat bottom mouth assembly 7 is composed of a power unit 11, a support plate two 702, a second lead screw 703 and a milling cutter 701, the support plate two 702 is mounted on the workbench 2, a sliding rail assembly is connected between the support plate two 702 and the power unit 11, the sliding rail assembly is mounted on the top of the support plate two 702, the second lead screw 703 is mounted at the bottom end of the power unit 11, the end of the second lead screw 703 is connected with a second motor 704, the milling cutter 701 is mounted on the output end of the power unit 11, the designed power unit 11, the support plate two 702, the second lead screw 703, the milling cutter 701 and the second motor 704 drive the second lead screw 703 to rotate through the second motor 704, thereby realizing the adjustment of the cutting depth of the milling cutter 701, meanwhile, the power unit 11 drives the milling cutter 701 to rotate for cutting and milling a medicine box, the flat mouth assembly 9 is composed of a U-shaped plate 906, a flat mouth air cylinder, a motor frame 904, a third motor 901 and a flat mouth cutter 903, the U-shaped plate 906 is arranged on the workbench 2, a sliding rail component is arranged between the motor frame 904 and the U-shaped plate 906, a third motor 901 is arranged on the motor frame 904, a coupling 902 is connected between the third motor 901 and a flat mouth knife 903, a bottom plate 905 is arranged at the bottom end of the motor frame 904, the bottom plate 905 is connected with the telescopic end of the flat mouth air cylinder, the motor frame 904 provided with the third motor 901 is arranged on the U-shaped plate 906 through the sliding rail component through the designed flat mouth air cylinder 907, the bottom plate 905, the flat mouth knife 903 and the sliding rail component, the third motor 901 drives the flat mouth knife 903 to rotate to cut and mill a medicine box through the third motor 901, the flat mouth air cylinder 907 realizes the adjustment of the cutting depth of the driving flat mouth knife 903, the fixed end of the flat mouth air cylinder 907 is connected on the U-shaped plate 906, the sliding rail component consists of a sliding rail and a sliding block, the power unit 11 is composed of a motor 12 and a transmission box body 13, a sliding rail assembly is designed, the sliding rail assembly is composed of a sliding rail and a responsive sliding block through sliding connection, stable connection and accurate movement of the assembly are achieved, and the motor 12 is arranged on the transmission box body 13.

In this embodiment, preferably, a slide 19 is fixed on the surface of the transmission case 13, a bottom block 16 is slidably connected on the slide 19, a supporting block 14 is disposed at the top of the bottom block 16, a guide rod group 15 is connected between the supporting block 14 and the bottom block 16, the top of the supporting block 14 is disposed on the bottom surface of the motor 12, a threaded hole 21 is formed in the bottom surface of the supporting block 14, a screw 20 is screwed in the threaded hole 21, the supporting block 14 is movably mounted on the bottom block 16 through the guide rod group 15, the slide 19, the bottom block 16, the guide rod group 15 and the screw 20, the supporting position of the supporting block 14 is adjusted by sliding the bottom block 16, then screwing is performed through the screw 20, the supporting height of the supporting block 14 is adjusted, the supporting block 14 is further disposed at the bottom of the motor 12 in a suspended state, the supporting and supporting of the motor 12 is realized, the motor 12 is prevented from being loose due to the fact that the motor 12 is mounted and inclined, the output shaft of the motor is damaged, the structural mounting stability of the supporting block is improved, the screw 20 is attached to the bottom of the bottom block 16, the bottom block 16 is matched with the side wall of the supporting block 19, and the side wall of the supporting block 16 is prevented from being correspondingly provided with a positioning pin 17, and the positioning pin 17 is disposed at one end of the side wall of the positioning pin 17 is prevented from being correspondingly positioned by the positioning pin 17.

The working principle and the using flow of the invention are as follows: after blow molding and rim charge removal of a blow molding part of a medicine box, the blow molding part of the medicine box is placed on a clamp assembly 4 in an opened state, a medicine box screw port is matched with the screw port of the clamp assembly 4, the perpendicularity between a processing surface of the medicine box port and the screw axis of the medicine box port is regulated and supported through bolts, the medicine box is positioned in an adjustable bolt mode, the instability caused by the size influence of the blow molding part is avoided, a safety protection door of a closed net cover 8 is closed, a starting switch is pressed, a cooling fan 601 on a movable top plate 603 is started at the moment, the medicine box is cooled, a temperature is monitored through a temperature sensor in the medicine box cooling device, signals are fed back to a CPC system at regular time, the CPC system adjusts the air quantity of the cooling fan 601 according to set temperature, meanwhile, a stand column assembly 6 drives a movable plate part of the clamp assembly 4 to press the medicine box, and in the medicine box clamping process, the pressure sensor at the supporting plate part of the clamp assembly 4 realizes the detection of the clamping force of the clamp assembly 4 for clamping the medicine box, the excessive clamping or the excessive loosening of the clamp assembly is avoided, the pressure sensor is subjected to data analysis through the CPC system, the CPC system drives the movable top plate 603 to lift by the upright cylinder 604 on the automatic adjustment upright assembly 6, so that the pressure is regulated to be within an allowable range, the setting and positioning of the medicine box are completed, then the flat bottom assembly 7, the flat top assembly 9 and the flat top assembly 3 are started under the control of the CPC system, the cutter bars 303, the milling cutters 701 and the flat top cutters 903 which are arranged on the assemblies are used for boring and milling the medicine box rotate, the feeding amount is regulated through the corresponding assemblies, the cutting processing of the medicine box is realized under the control of CPC, the chips generated in the cutting process are collected into the collecting bag 10 under the workbench 2 under the action of the cooling air generated by the upper cooling fan 601, after the cutting process is finished, each component is reset under the control of the CPC, the medicine box is taken out and placed on the weighing platform 501 on the movable top plate 603, at the moment, the signals of the QMS weighing sensor 502 are analyzed and transmitted to the control instrument panel and the blow molding machine controller, the area where the weight of the medicine box is located can be visually seen through the instrument panel, and the blow molding machine also adjusts blow molding parameters according to the received signals.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Shaping and processing integrated equipment for multi-port blow molding medicine boxes comprises a bottom supporting frame (1), and is characterized in that: the top of end support frame (1) is provided with workstation (2), install on workstation (2) and seal screen panel (8), be provided with the guard gate on sealing screen panel (8), the surface center department of workstation (2) is provided with anchor clamps subassembly (4), one side of anchor clamps subassembly (4) is provided with flat bottom mouth subassembly (7) respectively, the lateral part of flat bottom mouth subassembly (7) is provided with flat top end subassembly (9), the opposite side of anchor clamps subassembly (4) is provided with flat top end subassembly (3), the rear end of anchor clamps subassembly (4) is provided with stand subassembly (6), blanking hole has been seted up on the surface of workstation (2), the bottom in blanking hole is provided with collecting bag (10), and collecting bag (10) are installed in the bottom of workstation (2).

2. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 1, wherein: the top of stand subassembly (6) is installed weighing subassembly (5), weighing subassembly (5) are become by weighing platform (501) and weighing sensor (502), and weighing sensor (502) distribute in four corners in the bottom of weighing platform (501).

3. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 1, wherein: the flat top end assembly (3) is composed of a power unit (11), a cutter holder (302) and a first supporting plate (301), the first supporting plate (301) is installed on a workbench (2), a sliding rail assembly is installed on the first supporting plate (301), the power unit (11) is installed at the top of the sliding rail assembly, the cutter holder (302) is installed at the output end of the power unit (11), two cutter bars (303) are symmetrically installed on the cutter holder (302), a first lead screw (304) is installed at the bottom end of the power unit (11), and a first motor (305) is connected to one end of the first lead screw (304).

4. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 1, wherein: the stand subassembly (6) comprises stand (602), activity roof (603) and stand cylinder (604), stand (602) are fixed on workstation (2), install slip rail subassembly between activity roof (603) and stand (602), radiator fan (601) are installed at the top of activity roof (603), the flexible end of stand cylinder (604) is installed on activity roof (603), stand cylinder (604) are installed on the bottom surface of stand (602), the top of weighing sensor (502) is all installed on the top surface of activity roof (603).

5. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 5, wherein: the fixture assembly (4) is composed of a square plate group and a trapezoid plate group, the square plate group is composed of a square movable plate (401) and a square supporting plate (402), the trapezoid plate group is composed of a trapezoid movable plate (404) and a trapezoid supporting plate (403), pressure sensors are mounted on the inner side surfaces of the trapezoid supporting plate (403) and the square supporting plate (402), screw holes are formed in the surfaces of the square movable plate (401) and the square supporting plate (402), adjusting bolts are connected to the inner side of the screw holes through threads, the square movable plate (401) and the trapezoid movable plate (404) are mounted on a movable top plate (603), and the square supporting plate (402) and the trapezoid supporting plate (403) are mounted on a workbench (2), and temperature sensors are mounted on the inner side surfaces of the trapezoid supporting plate (403) and the square supporting plate (402).

6. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 1, wherein: the flat bottom mouth assembly (7) is composed of a power unit (11), a second supporting plate (702), a second lead screw (703) and a milling cutter (701), the second supporting plate (702) is installed on a workbench (2), a sliding rail assembly is connected between the second supporting plate (702) and the power unit (11), the sliding rail assembly is installed at the top of the second supporting plate (702), the second lead screw (703) is installed at the bottom end of the power unit (11), the end portion of the second lead screw (703) is connected with a second motor (704), and the milling cutter (701) is installed at the output end of the power unit (11).

7. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 1, wherein: the utility model provides a flat-mouth subassembly (9) comprises U template (906), flat-mouth cylinder (907), motor frame (904), third motor (901) and flat-mouth sword (903), U template (906) are installed on workstation (2), install the slip rail subassembly between motor frame (904) and U template (906), third motor (901) are installed on motor frame (904), be connected with shaft coupling (902) between third motor (901) and flat-mouth sword (903), bottom plate (905) are installed to the bottom of motor frame (904), bottom plate (905) are connected with the flexible end of flat-mouth cylinder (907), the stiff end of flat-mouth cylinder (907) is connected on U template (906).

8. A shaping and processing integrated device for a multi-port blow molded medicine box according to claim 3, wherein: the sliding rail assembly consists of a sliding rail and a sliding block, the power unit (11) consists of a motor (12) and a transmission box body (13), and the motor (12) is arranged on the transmission box body (13).

9. The integrated shaping and processing device for multi-port blow molding medicine-chest according to claim 8, wherein: the novel gearbox is characterized in that a slideway (19) is fixed on the surface of the gearbox body (13), a bottom block (16) is connected to the slideway (19) in a sliding manner, a supporting block (14) is arranged at the top of the bottom block (16), a guide rod group (15) is connected between the supporting block (14) and the bottom block (16), the top of the supporting block (14) is arranged on the bottom surface of the motor (12), a threaded hole (21) is formed in the bottom surface of the supporting block (14), a screw rod (20) is connected to the inside of the threaded hole (21) through threads, the bottom of the screw rod (20) is attached to the surface of the bottom block (16), a plurality of positioning grooves (18) are formed in the side wall of the slideway (19), positioning pins (17) penetrate through the side wall of the bottom block (16), and one end of each positioning pin (17) is arranged inside the corresponding positioning groove (18).

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