CN118578592B - A plastic production mold clamping machine with auxiliary functions - Google Patents

Abstract

The present invention discloses a mold clamping machine device for plastic production with auxiliary functions, comprising a main working platform of a machine body, an auxiliary pushing mechanism, a four-side coordinated cleaning mechanism, an air suction recovery mechanism, and an auxiliary stabilizing mechanism. The main working platform of the machine body comprises a mold clamping component, a slide rail component, and a mounting plate. The left side of the main working platform of the machine body is equipped with a mold clamping component, and the right upper surface of the main working platform of the machine body is equipped with a slide rail component. When a cleaning right-angle scraper moves downward, it slides downward along the outer surface of the mold cavity in the mold clamping component and uses its inclined surface to scrape the outer surface of the mold cavity, thereby effectively scraping off the plastic residue overflowing from the outer surface of the mold cavity during the injection molding process and causing it to fall, so that when the mold clamping component is used next time, the outer surface of the mold cavity can be in a relatively clean state, thereby avoiding the influence of the subsequent molding effect of the plastic mold due to the adhesion of external overflow to the outside of the mold cavity.

Description

Mold closing machine equipment with auxiliary function for plastic production

Technical Field

The invention relates to the technical field of plastic production, in particular to mold closing machine equipment with an auxiliary function for plastic production.

Background

The invention provides a die spotting machine, which is a professional die lapping and detecting device, and is mainly used for upper and lower die spotting during later die making, and because the die spotting machine needs to have enough die clamping force in the process of die spotting and injection molding so as to ensure that the die does not generate a seam flash phenomenon under the pressure of molten materials, in the actual production and use process, the machine body of the die spotting machine is overstocked due to the defects of the device and the later use, and further, in the die spotting and injection process of the machine body die cavity, the phenomenon that plastic overflows out of the die cavity surface still possibly exists, if the plastic overflows and directly influences the precision of a die product during the second die spotting when the plastic is not processed, the processing link still needs to be performed by means of manpower at present, so that the die spotting machine is extremely inconvenient.

Disclosure of Invention

In order to solve the technical problems, the invention provides the mold closing machine equipment with the auxiliary function for plastic production, and solves the technical problem that the precision of the next mold closing is affected if the existing equipment is not processed after the phenomenon of edge overflow is generated during mold closing in the prior art.

In order to achieve the purpose, the technical scheme includes that the die spotting machine equipment with the auxiliary function for plastic production comprises a main working platform of a machine body, an auxiliary pushing mechanism, four-side cooperative cleaning mechanisms, an air suction recovery mechanism and an auxiliary stabilizing mechanism, wherein the main working platform of the machine body comprises a die spotting member, a sliding rail machine part and a mounting plate, the die spotting member is arranged on the left side of the main working platform of the machine body, the sliding rail machine part is arranged on the upper surface of the right side of the main working platform of the machine body, the mounting plate is symmetrically and fixedly connected with the upper surface of the right side of the main working platform of the machine body, the bottom of the die spotting member and the sliding rail machine part are in a sliding mounting mode, the auxiliary pushing mechanisms are symmetrically arranged on the front side and the rear side of the die spotting member, the four-side cooperative cleaning mechanisms are arranged on the upper surface of the main working platform of the machine body, the air suction recovery mechanism is arranged on the right end of the sliding rail machine part, and the auxiliary stabilizing mechanism is arranged on the bottom of the mounting plate;

Preferably, the auxiliary pushing mechanism comprises a linkage rack, a driven gear, a conical tooth head rotating shaft, a boosting external threaded rod and driven conical teeth, wherein the linkage rack is fixedly connected to the outer parts of the front side and the rear side of the die assembly member, the driven gear is rotationally connected to the right side of the die assembly member and positioned on the inner side wall of the mounting plate, the conical tooth head rotating shaft is fixedly connected to the upper end of the driven gear, the boosting external threaded rod is arranged at the upper end of the conical tooth head rotating shaft and positioned at the upper end of the mounting plate, the driven conical teeth are sleeved at the inner end of the boosting external threaded rod and positioned at the upper end of the conical tooth head rotating shaft, and the driven conical teeth are rotationally connected to the inner wall of the mounting plate;

Preferably, the boosting external threaded rod is horizontally and rotatably connected to the upper end of the mounting plate, an internal thread is arranged on the inner side of the driven bevel gear, and the internal thread on the inner side of the driven bevel gear is matched with the boosting external threaded rod;

Preferably, the four-side cooperative cleaning mechanism comprises a collecting concave plate, a cleaning right-angle scraping plate, a flash collecting layer and a chute guide sliding plate, wherein the inner side end head of the boosting external threaded rod is rotationally connected with the collecting concave plate, the surface of the inner side of the collecting concave plate is slidingly connected with the cleaning right-angle scraping plate, the flash collecting layer is fixedly arranged at the bottom of the cleaning right-angle scraping plate, the upper end surface of the flash collecting layer is fixedly arranged at the bottom of the collecting concave plate through a magic tape, the chute guide sliding plate is arranged on the upper surface of the cleaning right-angle scraping plate, and the lower end of the chute guide sliding plate is in sliding connection with the upper surface of the cleaning right-angle scraping plate;

Preferably, the inner side surfaces of the right-angle cleaning scraping plates are inclined surfaces from top to bottom;

Preferably, the air suction recovery mechanism comprises a recovery cylinder, a dust suction nozzle, a piston plate, a linkage bent rod and a push plate, wherein the recovery cylinder is fixedly arranged on the right side of the sliding rail machine member and below the outer side of the collection concave plate, the recovery cylinder is of a cavity structure, the left end of the recovery cylinder is connected with a disassembling head through threads, the left side of the recovery cylinder is communicated with the dust suction nozzle, the width of the dust suction nozzle is matched with the inner diameter of the sliding rail machine member, the push plate is arranged in the left end of the sliding rail machine member, the piston plate is movably inserted on the right side of the recovery cylinder, the linkage bent rod is fixedly connected with the outer side surface of the piston plate, the linkage bent rod is horizontally arranged above the sliding rail machine member, and the position of the sliding rail machine member is consistent with the horizontal line of the linkage rack;

Preferably, the auxiliary stabilizing mechanism comprises an oil storage cylinder, a hand pressing plate and an oil dripping thin pipe, wherein the oil storage cylinder is fixedly arranged at the upper end surface of the mounting plate and is made of transparent visual materials, the hand pressing plate is movably inserted into the oil storage cylinder, the oil dripping thin pipe is communicated with the bottom of the oil storage cylinder, and the lower end of the oil dripping thin pipe penetrates through the top of the mounting plate to the upper side of the bevel gear head rotating shaft.

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

(1) According to the invention, the four-side cooperative cleaning mechanism is arranged, when the cleaning right-angle scraping plate moves downwards, the cleaning right-angle scraping plate slides downwards along the outer surface of the die cavity in the die clamping member and scrapes the outer surface of the die cavity by utilizing the inclined surface of the cleaning right-angle scraping plate, so that plastic residue overflowed from the die cavity in the injection molding process can be effectively scraped and dropped, the outer surface of the die cavity of the die clamping member can be in a cleaner state when the die clamping member is used next time, the influence on the forming effect of a subsequent plastic die caused by adhesion of external overflows outside the die cavity is avoided, and meanwhile, the working intensity of manually cleaning the die cavity in the later stage is reduced;

(2) According to the invention, the overflow collecting layer is arranged, the upper surface of the overflow collecting layer is adhered with the adsorption layer, the adsorption layer is used for adsorbing residual glue on the surface of the overflow collecting layer, so that the residual glue is collected, and meanwhile, the overflow collecting layer is made of soft rubber, so that after the overflow collecting layer contacts with the die cavity in the die assembly component, the overflow collecting layer is adhered to the outer wall of the die cavity to the greatest extent under the characteristic action of the soft rubber, and the residual glue is further reduced from falling on a main working platform of a machine body, so that the rationality of collecting the residual glue is further improved;

(3) According to the invention, the air suction recovery mechanism is arranged, and dust and impurities in the sliding rail machine part are pushed to the right side of the sliding rail machine part together through the pushing plate in the process of pushing the die clamping member to the right side, so that the dust and impurities can be recovered through the dust suction nozzle at the moment, and the recovered dust and impurities are stored in the recovery cylinder, thereby completing the recovery and treatment of the dust and impurities in the sliding rail machine part, further improving the stability of the die clamping member when moving on the sliding rail machine part, and further improving the stability of the whole machine body when in operation;

(4) According to the invention, the recovery cylinder is arranged, and the left end of the recovery cylinder is connected with the dismounting head through the threads, so that a worker can unscrew the recovery cylinder conveniently afterwards, dust and impurities in the recovery cylinder are recovered and cleaned for the second time, and the recovery cylinder can be ensured to continuously perform suction recovery treatment;

(5) According to the invention, the auxiliary stabilizing mechanism is arranged, and the transparent and visible oil storage cylinder is arranged, so that a worker can conveniently observe the oil position in the oil storage cylinder in time, and meanwhile, the worker can manually press the hand pressing plate to drop the lubricating oil stored in the oil storage cylinder between the bevel gear head rotating shaft and the driven bevel gear along the lower end of the oil drop tubule under the action of atmospheric pressure in proper time, so that the lubricating and maintenance effects can be achieved on the lubricating oil, and the stability of the auxiliary pushing mechanism in operation is further improved.

Drawings

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

FIG. 2 is a schematic view of a partially enlarged perspective structure of the present invention at A in FIG. 1;

FIG. 3 is a partially enlarged perspective view of the structure of the present invention at B in FIG. 1;

FIG. 4 is a schematic view of a partial perspective view of the inside of the mounting plate of the present invention;

FIG. 5 is a schematic view of a partial perspective structure of a four-sided cooperative cleaning mechanism according to the present invention;

FIG. 6 is a schematic view of a partial perspective view of an intake air recovery mechanism according to the present invention;

fig. 7 is a schematic side view of the present invention.

The reference numerals in the figures are:

1. The device comprises a main working platform, a clamping component, 12, a sliding rail machine part, 13, a mounting plate, 2, an auxiliary pushing mechanism, 21, a linkage rack, 22, a driven gear, 23, a bevel gear head rotating shaft, 24, a boosting external threaded rod, 25, a driven bevel gear, 3, a four-side cooperative cleaning mechanism, 31, a collecting concave plate, 32, a right-angle cleaning scraper, 33, a flash collecting layer, 34, a chute guiding sliding plate, 4, an air suction recovery mechanism, 41, a recovery cylinder, 42, a dust suction nozzle, 43, a piston plate, 44, a linkage bent rod, 45, a push plate, 5, an auxiliary stabilizing mechanism, 51, an oil storage cylinder, 52, a hand pressing plate, 53 and an oil dripping thin pipe.

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 4, the auxiliary pushing mechanism 2 includes a linkage rack 21, a driven gear 22, a bevel gear head rotating shaft 23, a boosting external threaded rod 24, and driven bevel gears 25, wherein the linkage rack 21 is fixedly connected to the outside of the front side and the rear side of the mold clamping member 11, the driven gear 22 is rotatably connected to the right side of the mold clamping member 11 and the inner side wall of the mounting plate 13, the bevel gear head rotating shaft 23 is fixedly connected to the upper end of the driven gear 22, the boosting external threaded rod 24 is arranged at the upper end of the bevel gear head rotating shaft 23 and the upper end of the mounting plate 13, the boosting external threaded rod 24 is horizontally rotatably connected to the upper end of the mounting plate 13, internal threads are arranged on the inner sides of the driven bevel gears 25, the internal threads on the inner sides of the driven bevel gears 25 are matched with the boosting external threaded rod 24, the driven bevel gears 25 are sleeved on the inner ends of the boosting external threaded rod 24 and the upper ends of the bevel gear head rotating shaft 23, and the driven bevel gears 25 are rotatably connected to the inner wall of the mounting plate 13.

When the plastic mold clamping device is used, the driving device drives the mold clamping member 11 to carry out demolding and feeding of the plastic mold to the right side of the main working platform 1 of the machine body along the track of the sliding rail machine part 12, then the plastic mold clamping member is horizontally pushed to the right side along with the continuous pushing of the mold clamping member 11, after the linkage racks 21 positioned on the front side and the rear side of the mold clamping member 11 are in contact engagement with the driven gears 22, the driven gears 22 are driven to rotate by the horizontal movement force of the mold clamping member 11, so that the bevel head rotating shaft 23 is driven to synchronously rotate, the bevel head rotating shaft 23 is composed of a rotating shaft and bevel teeth, and the bevel teeth are fixedly connected to the upper end of the rotating shaft, as shown in fig. 4, the driven bevel teeth 25 are driven to synchronously rotate along with the rotating shaft, and the inner threads on the inner sides of the driven bevel teeth 25 are matched with the inner threads of the boosting outer threaded rod 24, and the driven bevel teeth 25 are driven to rotate and connected to the inner wall of the mounting plate 13, and the boosting outer threaded rod 24 are driven to gradually rotate and horizontally move inwards under the action of the thread transmission, so that the driving force of the boosting outer threaded rod 24 is driven to rotate and horizontally, and the bevel head rotating shaft 23 is driven to synchronously rotate along with the upper end of the rotating shaft, and the bevel teeth is driven bevel teeth 25, and the driven bevel teeth 25 to synchronously rotate with the driven bevel teeth 25, and the driven bevel teeth engaged with the driven gear, which are driven on the inner side of the driven gear, and the side of the driven bevel gear, and 25, which is driven on the side of the side and the side of the driven gear, and which is arranged on the side, and the side of the side and the driven gear, and.

Example two

Referring to fig. 1, 3 and 5, the right side of the mold clamping member 11 and the upper surface of the main working platform 1 of the machine body are provided with four-side cooperative cleaning mechanisms 3, each four-side cooperative cleaning mechanism 3 comprises a collecting concave plate 31, a cleaning right-angle scraping plate 32, a flash collecting layer 33 and a chute guiding sliding plate 34, the inner side end of the boosting external threaded rod 24 is rotationally connected with the collecting concave plate 31, the cleaning right-angle scraping plate 32 is slidingly connected with the inner side surface of the collecting concave plate 31, the inner side surface of the cleaning right-angle scraping plate 32 is an inclined surface from top to bottom, the flash collecting layer 33 is fixedly mounted at the bottom of the cleaning right-angle scraping plate 32, the upper end surface of the flash collecting layer 33 is fixedly mounted at the bottom of the collecting concave plate 31 through a magic tape, the upper surface of the cleaning right-angle scraping plate 32 is provided with the chute guiding sliding plate 34, and the lower end of the chute guiding sliding plate 34 is slidingly connected with the upper surface of the cleaning right-angle scraping plate 32.

Working principle: when in use, after the boosting external threaded rod 24 gradually rotates and translates inwards, the two groups of collecting concave plates 31 are gradually driven to approach each other gradually, as shown in fig. 1,3 and 5, when the two groups of collecting concave plates 31 approach each other gradually, the two groups of cleaning right angle scraping plates 32 slide downwards along the inclined grooves on the chute guiding sliding plates 34 due to the fact that the positive and negative magnets are respectively and fixedly arranged on the opposite faces of the two groups of chute guiding sliding plates 34, the cleaning right angle scraping plates 32 are slidably connected to the bottoms of the chute guiding sliding plates 34, the outer sides of the cleaning right angle scraping plates 32 are slidably connected to the inner walls of the collecting concave plates 31, and the outer bottoms of the chute guiding sliding plates 34 are slidably connected to the upper surfaces of the collecting concave plates 31, simultaneously, under the limiting guide action of sliding connection between the outer side of the right-angle cleaning scraping plate 32 and the inner side wall of the collecting concave plate 31, the two groups of right-angle cleaning scraping plates 32 are driven to gradually move downwards and vertically, and as the inner side surfaces of the right-angle cleaning scraping plates 32 are inclined surfaces, the outer diameter of the right-angle cleaning scraping plates 32 is matched with the outer diameter of a die cavity in the die clamping member 11, namely, when the right-angle cleaning scraping plates 32 move downwards, the outer surfaces of the die cavity in the die clamping member 11 are slid downwards along the outer surfaces of the die cavity and scraped by the inclined surfaces of the right-angle cleaning scraping plates, so that plastic residues overflowed from the die cavity in the injection molding process can be scraped and fall off effectively, the outer surfaces of the die cavity of the die clamping member 11 can be in a cleaner state when the die clamping member 11 is used next time, and the influence on the molding effect of a subsequent plastic die due to the adhesion of external overflows to the die cavity is avoided, meanwhile, the working intensity of manually cleaning the die cavity in the later stage is reduced.

Example III

Referring to fig. 1 to 7, a mold clamping machine device with auxiliary functions for plastic production comprises a main working platform 1 of a machine body, an auxiliary pushing mechanism 2, four sides collaborative cleaning mechanisms 3, an air suction recovery mechanism 4 and an auxiliary stabilizing mechanism 5, wherein the main working platform 1 of the machine body comprises a mold clamping member 11, a slide rail machine part 12 and a mounting plate 13, the mold clamping member 11 is installed on the left side of the main working platform 1 of the machine body, the slide rail machine part 12 is installed on the upper surface of the right side of the main working platform 1 of the machine body, the mounting plate 13 is symmetrically and fixedly connected on the upper surface of the right side of the main working platform 1 of the machine body, the bottom of the mold clamping member 11 and the slide rail machine part 12 are in a sliding installation mode, the auxiliary pushing mechanisms 2 are symmetrically arranged on the front side and the rear sides of the mold clamping member 11, the auxiliary pushing mechanisms 2 comprise a linkage rack 21, a driven gear 22, a conical tooth head rotating shaft 23, a boosting external threaded rod 24 and driven conical teeth 25, the outer side of the mold clamping member 11 are fixedly connected on the outer side of the outside, the right side of the mold clamping member 11 is rotatably connected with the driven gear 22, the upper end of the driven conical gear 22 is rotatably connected on the inner side of the mounting plate 13, the upper end of the driven threaded rod 24 is rotatably connected with the inner end of the driven threaded rod 25, and the inner end of the driven threaded rod 25 is rotatably connected with the inner end of the driven threaded rod 25, and the driven threaded rod 25 is rotatably connected with the inner end of the threaded rod 25, and the inner end of the driven threaded rod 25 is rotatably provided with the inner end of the threaded rod 25, and the threaded end of the threaded rod 25, and the inner end of the threaded rod is rotatably connected with the threaded rod is provided with the auxiliary end;

The right side of the die clamping component 11 and the upper surface of the main working platform 1 of the machine body are provided with four-side cooperative cleaning mechanisms 3, each four-side cooperative cleaning mechanism 3 comprises a collecting concave plate 31, a cleaning right-angle scraping plate 32, a flash collecting layer 33 and a chute guide sliding plate 34, the inner side ends of the boosting external threaded rods 24 are respectively and rotatably connected with the collecting concave plate 31, the inner side surfaces of the collecting concave plates 31 are respectively and slidably connected with the cleaning right-angle scraping plates 32, the inner side surfaces of the cleaning right-angle scraping plates 32 are respectively inclined surfaces from top to bottom, the flash collecting layers 33 are respectively and fixedly arranged at the bottoms of the cleaning right-angle scraping plates 32, the upper end surfaces of the flash collecting layers 33 are fixedly arranged at the bottoms of the collecting concave plates 31 through magic tapes, the upper surfaces of the cleaning right-angle scraping plates 32 are provided with the chute guide sliding plates 34, and the lower ends of the chute guide sliding plates 34 are slidably connected with the upper surfaces of the cleaning right-angle scraping plates 32;

The right end of the sliding rail machine member 12 is provided with an air suction recovery mechanism 4, the air suction recovery mechanism 4 comprises a recovery cylinder 41, a dust suction nozzle 42, a piston plate 43, a linkage bent rod 44 and a push plate 45, the recovery cylinder 41 is fixedly arranged on the right side of the sliding rail machine member 12 below the outer side of the collection concave plate 31, the recovery cylinder 41 is of a cavity structure, the left end of the recovery cylinder 41 is connected with a disassembling head through threads, the left side of the recovery cylinder 41 is communicated with the dust suction nozzle 42, the width of the dust suction nozzle 42 is matched with the inner diameter of the sliding rail machine member 12, the push plate 45 is arranged in the left end of the sliding rail machine member 12, the piston plate 43 is movably inserted on the right side of the recovery cylinder 41, the linkage bent rod 44 is fixedly connected with the outer side surface of the piston plate 43, the linkage bent rod 44 is horizontally arranged above the sliding rail machine member 12, and the position of the sliding rail machine member 12 is consistent with the horizontal line of the linkage rack 21;

The bottom of mounting panel 13 is provided with supplementary stabilizing mean 5, and supplementary stabilizing mean 5 includes oil storage section of thick bamboo 51, hand clamp plate 52, oil drip tubule 53, and the upper end fixed surface of mounting panel 13 installs oil storage section of thick bamboo 51, and oil storage section of thick bamboo 51 is transparent visual material, and the inside activity of oil storage section of thick bamboo 51 is pegged graft has hand clamp plate 52, and the bottom intercommunication of oil storage section of thick bamboo 51 has oil drip tubule 53, and the lower extreme of oil drip tubule 53 runs through the top of mounting panel 13 to the top of awl tooth head pivot 23.

The invention has the complete flow and working principle:

After the equipment is molded, the driving device drives the mold clamping member 11 to carry out demolding and feeding of a plastic mold to the right side of the main working platform 1 of the machine body along the track of the sliding rail machine part 12, then the mold clamping member 11 is pushed horizontally to the right side along with the continuous pushing of the mold clamping member 11, after the linkage racks 21 positioned at the front side and the rear side of the mold clamping member 11 are in contact engagement with the driven gears 22, the driven gears 22 are driven to rotate by the horizontal movement force of the mold clamping member 11, so that the bevel head rotating shaft 23 is driven to synchronously rotate, the bevel head rotating shaft 23 consists of a rotating shaft and bevel teeth, and the bevel teeth are fixedly connected to the upper end of the rotating shaft, as shown in fig. 4, the driven bevel teeth 25 meshed with the bevel head rotating shaft are driven to synchronously rotate along with the rotating shaft, and the inner side of the driven bevel teeth 25 are matched with the inner threads of the boosting external driving plate 24, and the driven bevel teeth 25 are driven to rotate and are connected to the inner wall of the mounting plate 13, the boosting external 24 is driven to gradually rotate and move to the inner side under the action of the thread transmission, so that the driving force of the driving threaded rod is driven by the driving external 24 to gradually and move to the side, and the side of the driving plate is driven by the driving rod is driven to gradually and the driving rod is driven to gradually move in a rotating direction to the side of the driving gear 25, and the driving gear 25 is driven to the driven bevel teeth 25 to rotate synchronously rotate and the driven to the driven bevel teeth 25 to rotate and the driven to rotate with the driven gear 25 to rotate and the driving gear to rotate which is engaged with the driving gear, which is driven side and engaged with the driving gear 25;

In the second flow, after the boosting external threaded rod 24 rotates and translates gradually inwards, the two groups of collecting concave plates 31 are gradually driven to approach gradually, as shown in fig. 1, 3 and 5, when the two groups of collecting concave plates 31 approach gradually, positive and negative magnets are respectively and fixedly arranged on opposite surfaces of the two groups of chute guide sliding plates 34, a cleaning right angle scraping plate 32 is slidingly connected to the bottom of the chute guide sliding plates 34, the outer sides of the cleaning right angle scraping plates 32 are slidingly connected to the inner walls of the collecting concave plates 31, the outer sides of the chute guide sliding plates 34 are slidingly connected to the upper surfaces of the collecting concave plates 31, so that the two groups of cleaning right angle scraping plates 32 slide downwards along inclined grooves on the chute guide sliding plates 34, and simultaneously, under the limiting guide action of the outer sides of the cleaning right angle scraping plates 32 and the inner side walls of the collecting concave plates 31, the two groups of cleaning right angle scraping plates 32 are gradually and vertically moved downwards, and the outer diameters of the cleaning right angle scraping plates 32 are matched with the outer diameters of the die cavity members 11, namely, the outer diameters of the cleaning right angle scraping plates 32 slide downwards along the inclined surfaces of the die cavity members 11, the die cavity members slide downwards, the die cavity surfaces of the die cavity 11 slide downwards, the die cavity surfaces of the die cavity surfaces are simultaneously, the die cavity surfaces of the die cavity surfaces are cleaned, the die cavity surfaces of the die cavity surfaces are manually and the die cavity surfaces is cleaned, and the die cavity surfaces is simultaneously, and the die cavity surfaces of the die cavity surfaces is formed by the die cavity surfaces is manually and the die cavity surfaces is formed by the die surfaces, and the die surfaces of the die cavity surfaces of the plastic surfaces are simultaneously is formed. The overflow collecting layer 33 automatically falls into the upper surface of the overflow collecting layer 33, the upper surface of the overflow collecting layer 33 is adhered with an adsorption layer, the adsorption layer is used for adsorbing residual glue on the surface of the overflow collecting layer, so that the residual glue is collected, meanwhile, the overflow collecting layer 33 is made of soft rubber, so that after the overflow collecting layer 33 contacts with a die cavity in the die clamping member 11, the overflow collecting layer can be tightly adhered to the outer wall of the die cavity to the greatest extent under the characteristic effect of the soft rubber, the residual glue is further reduced to fall onto the main working platform 1 of the machine body, the rationality of collecting the residual glue is further improved, in addition, the overflow collecting layer 33 is arranged at the bottom of the collecting concave plate 31 through a magic tape, the overflow collecting layer 33 is taken down in a portable mode even after workers use, and the residual glue is further recovered;

in the third process, when the linkage rack 21 moves to the right side, the right end of the linkage rack 21 is abutted against the left end of the linkage curved bar 44, so that the linkage curved bar 44 drives the piston plate 43 to move to the right side, as shown in fig. 6, namely, the suction nozzle 42 which is positioned at the left end of the recovery cylinder 41 and is positioned in the slide rail machine member 12 and is matched with the inner diameter of the slide rail machine member 12 is in a suction step from left to right, meanwhile, as the bottom of the right side of the mold clamping member 11 is fixedly connected with the push plate 45 through the spring, and the push plate 45 is also matched with the inner diameter of the slide rail machine member 12, dust and impurities in the slide rail machine member 12 are pushed to the right side of the slide rail machine member 12 together through the process of pushing the mold clamping member 11 to the right side, so that the dust and impurities can be recovered by the suction nozzle 42 at the moment, and the recovered dust and impurities are stored in the recovery cylinder 41, thereby completing recovery and treatment of the dust and impurities in the slide rail machine member 12, stability in the movement of the slide rail machine member 12 is further improved, and stability in the whole operation is also improved, and meanwhile, the recovery cylinder 41 can be continuously cleaned through the screw thread connection of the left end and the recovery cylinder 41 after the recovery cylinder is continuously cleaned;

In addition, by arranging the transparent and visible oil storage cylinder 51, a worker can conveniently observe the oil position inside the oil storage cylinder 51 in time, and simultaneously, the worker can manually press the hand pressing plate 52 in proper time under the action of atmospheric pressure to cause the lubricating oil stored inside the oil storage cylinder 51 to drop between the bevel gear head rotating shaft 23 and the driven bevel gear 25 along the lower end of the oil drop thin pipe 53, so that the lubricating and maintenance effects can be achieved on the lubricating oil, and the stability of the auxiliary pushing mechanism 2 in operation is further improved.

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 (3)

1. A mold clamping machine device for plastic production with auxiliary functions, comprising a main working platform (1) of the machine body, an auxiliary pushing mechanism (2), a four-side coordinated cleaning mechanism (3), an air suction recovery mechanism (4), and an auxiliary stabilizing mechanism (5), characterized in that: the main working platform (1) of the machine body comprises a mold clamping component (11), a slide rail component (12), and a mounting plate (13), the left side of the main working platform (1) of the machine body is installed with the mold clamping component (11), the right upper surface of the main working platform (1) of the machine body is installed with the slide rail component (12), the right upper surface of the main working platform (1) of the machine body is symmetrically connected to the mounting plate (13), the front and rear sides of the mold clamping component (11) are both symmetrically connected to the mounting plate (13), and the front and rear sides of the mold clamping component (11) are both symmetrically connected to the mounting plate (13). The invention relates to a device for producing a mold clamping member (11) having a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, wherein the movable parts are provided with a plurality of movable parts, A driven gear (22) is fixedly connected to the upper end of the driven gear (22) with a bevel gear head rotating shaft (23), an upper end of the bevel gear head rotating shaft (23) and an upper end of the mounting plate (13) are provided with a boost external threaded rod (24), an inner end of the boost external threaded rod (24) and an upper end of the bevel gear head rotating shaft (23) are sleeved with a driven bevel gear (25), the driven bevel gear (25) is rotatably connected to the inner wall of the mounting plate (13), the boost external threaded rod (24) is horizontally rotatably connected to the upper end of the mounting plate (13), an inner side of the driven bevel gear (25) is provided with an internal thread, and the internal thread on the inner side of the driven bevel gear (25) is matched with the boost external threaded rod (24), and the four-side coordinated cleaning The processing mechanism (3) comprises a collecting concave plate (31), a cleaning right-angle scraper (32), an overflow collecting layer (33), and an inclined groove guide slide plate (34); the inner end of the boosting external threaded rod (24) is rotatably connected to the collecting concave plate (31), and the inner surface of the collecting concave plate (31) is slidably connected to the cleaning right-angle scraper (32); the bottom of the cleaning right-angle scraper (32) is fixedly mounted with an overflow collecting layer (33); the upper surface of the cleaning right-angle scraper (32) is provided with an inclined groove guide slide plate (34), and the lower end of the inclined groove guide slide plate (34) is slidably connected to the upper surface of the cleaning right-angle scraper (32); and the inner surface of the cleaning right-angle scraper (32) is an inclined surface from top to bottom. 2. A plastic production mold clamping machine with auxiliary functions according to claim 1, characterized in that: the air suction recovery mechanism (4) includes a recovery cylinder (41), a dust suction nozzle (42), a piston plate (43), and a linkage bent rod (44); a recovery cylinder (41) is fixedly installed below the outer side of the collecting concave plate (31) and located on the right side of the slide rail mechanism (12); the left side of the recovery cylinder (41) is connected to the dust suction nozzle (42); the width of the dust suction nozzle (42) is matched with the inner diameter of the slide rail mechanism (12); a push plate (45) is installed inside the left end of the slide rail mechanism (12); the right side of the recovery cylinder (41) is movably connected with the piston plate (43), and the outer surface of the piston plate (43) is fixedly connected with the linkage bent rod (44). 3. A plastic production mold clamping machine with auxiliary functions according to claim 1, characterized in that: the auxiliary stabilization mechanism (5) includes an oil storage cylinder (51), a hand pressure plate (52), and an oil dripping tube (53), the upper end surface of the mounting plate (13) is fixedly mounted with the oil storage cylinder (51), the interior of the oil storage cylinder (51) is movably connected with the hand pressure plate (52), the bottom of the oil storage cylinder (51) is connected with the oil dripping tube (53), and the lower end of the oil dripping tube (53) passes through the top of the mounting plate (13) to the top of the bevel gear head shaft (23).