CN114571678A

CN114571678A - Cutting thickness adjustable die for processing automobile interior trimming panel

Info

Publication number: CN114571678A
Application number: CN202210352123.6A
Authority: CN
Inventors: 张军
Original assignee: Nantong Yiying Machinery Technology Co ltd
Current assignee: Nantong Yiying Machinery Technology Co ltd
Priority date: 2022-04-03
Filing date: 2022-04-03
Publication date: 2022-06-03

Abstract

The utility model discloses a cutting thickness adjustable die for processing an automotive interior panel, which comprises a supporting table and supporting plates, wherein four groups of supporting columns are arranged at the bottom of the supporting table, an installation box is arranged at the bottom of the supporting table, and the installation box is positioned on the inner sides of the supporting columns. According to the utility model, the material injection pipe is arranged on the inner side of the supporting plate, the control motor is arranged at the top of the material injection pipe, the control motor operates to drive the rotating rod at the output end to rotate, the rotating rod rotates to drive the helical blade at the outer side to rotate, the helical blade rotates to drive the material to move downwards through threads, the material is guided to move by the material injection pipe in the material moving process, the material moves downwards to the inner side of the extrusion opening, the heating pipe is electrified and heated while the material is conveyed, heat is provided for the material at the inner side, the material is in a hot melting state, the phenomenon that the temperature of the material is reduced and solidified is avoided, the material is conveyed into the assembling pipe through the extrusion opening, and a user controls the conveying speed of the material by controlling the speed of the motor.

Description

Cutting thickness adjustable die for processing automobile interior trimming panel

Technical Field

The utility model relates to the technical field of dies, in particular to a die with adjustable cutting thickness for processing an automotive interior trim panel.

Background

With the development of social economy, automobiles become indispensable transportation and transportation tools, and the requirements of consumers on vehicles are higher and higher, most of the prior vehicle models only pay attention to economy and durability, so that the details of the vehicles are rough, particularly the interior trim of the vehicles is very crude, and the production of the interior panels needs to be pressed and molded through molds.

The mould in the prior art has the defects that:

1. patent document CN216100018U discloses a mold for molding environmental protection plastic, which comprises a dissolving tank, a base and a hydraulic machine, wherein the dissolving tank is arranged above a bottom plate, a feed inlet is arranged above the dissolving tank, the hydraulic machine is arranged above the bottom plate, an output end above the hydraulic machine is provided with a hydraulic rod, one side of a pressure plate is rotatably connected between shock absorbers, and a discharge outlet above the pressure plate is arranged at the bottom of the dissolving tank, because the existing device for molding plastic mold is inconvenient to add plastic finished raw materials into the mold, after a limiting block rebounds from a positioning groove through an upper spring rod, the pressure plate is rotated to enable a sliding block at the bottom of the shock absorber and the limiting block at one side to slide in the sliding groove, after the pressure plate is rotated, one side of the pressure plate is supported and rotated on the shock absorber at the other side, so that the discharge outlet at the bottom of the dissolving tank is more convenient to load the plastic raw materials into a mold container, the production efficiency of the finished product of the die is improved. "the inside pressure boost structure of usefulness does not possess to this mould, causes the material to take place the jam easily in the in-process of carrying.

2. The patent document CN210851101U discloses a damping die for producing automobile buttons, which comprises a damping component and an elastic component, wherein the damping component is in sliding connection with a sliding rod through a clamping block, an extrusion plate is fixedly connected with an upper pressing plate through a connecting block, a heat insulation layer is arranged below the extrusion plate, an extrusion hole is formed in the middle of the lower part of the extrusion plate, a heat conducting plate is arranged above the elastic component, and the elastic component is arranged in a bottom plate. The die cavity structure inside the die is relatively fixed, only products with single signals can be produced, and the production of products with different thicknesses cannot be met.

3. Patent document CN211842945U discloses an injection mold for shaping car connector shell has adjustable structure, "including bed die and slip bearing structure, the bed die top is connected with the mould, the inside reference column that is provided with of connecting hole, the bed die both sides are connected with the support arm, screwed pipe is inside to run through to have the hoop tie, bed die one side is connected with the connecting piece, pivot end-to-end connection has servo motor, it is connected with the pipe of moulding plastics to go up the mould outside, slip bearing structure connects in the bed die outside. This an injection mold servo motor for shaping car connector shell has adjustable structure drives the pivot thereby makes the bed die, goes up the mould and carries out anticlockwise rotation, and the bed die, goes up the mould because rotatory production slope, injects the material into the mould inside through the pipe of moulding plastics, and the material is piled up from the mould bottommost under the gravitation effect, is favorable to inside material evenly distributed and the mould, avoids the gas pocket to appear to be favorable to reducing the appearance rate of wastrel. ' the interior of the die is not provided with a refrigerating device, the material can only be slowly cooled in the forming process, and the production speed of the device is too slow.

4. Patent document CN211842946U discloses an automobile connector injection mold who easily carries, "including bed die, concatenation fixed establishment and ejection mechanism, the mould is installed to the top of bed die, and goes up the top of mould and be fixed with the handle, seal ring is installed in the junction outside between bed die and the last mould, and the both sides top of going up the mould is provided with the mouth of moulding plastics, concatenation fixed establishment installs in the both sides of bed die and last mould, the below both sides of bed die are fixed with the dead lever, and the below of dead lever installs the base. This automobile connector injection mold who easily carries is provided with symmetrical bed die and can assembles with last mould, can form the mould chamber of connector inside it to the injection moulding of connector of being convenient for, the connection leakproofness when both assemble is convenient for strengthened in the setting of the seal ring of rectangle, and the setting in water-cooling storehouse is convenient for cool off the mould behind bed die and the last mould inside shaping, thereby improves the mould cooling rate. "the inside of this mould lacks supplementary demoulding structure, and the device can't be fast accomplish the taking out of material from the mould.

Disclosure of Invention

The utility model aims to provide a cutting thickness-adjustable die for processing an automotive interior panel, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a cutting thickness adjustable die for processing an automotive interior panel comprises a supporting table and supporting plates, wherein four groups of supporting columns are mounted at the bottom of the supporting table, an installation box is mounted at the bottom of the supporting table and located on the inner side of the supporting columns, a lower die is mounted at the top of the supporting table, four groups of supporting rods are mounted at the top of the supporting table and located on the outer side of the lower die, and the supporting plates are mounted at the tops of the supporting rods;

two groups of electric telescopic rods are installed on the inner side of the supporting plate in a penetrating mode, a lifting plate is installed at the bottom end of each electric telescopic rod, and two groups of adjusting rods which are symmetrically distributed are installed on the inner side of each lifting plate in a penetrating mode;

the inboard of backup pad is run through and is installed the notes material pipe, and annotates the material pipe and be located between two sets of electric telescopic handle, the zone of heating is installed to the inboard of notes material pipe, the heating pipe is installed to the inboard of zone of heating, install the pan feeding mouth on the outer wall of one side of notes material pipe.

Preferably, the compressor is installed to the inboard diapire of install bin, first connecting pipe is installed to one side of compressor, the condenser is installed to the inboard diapire of install bin, and the condenser is located one side of compressor, and the condenser passes through the pipe and is connected with the compressor, the second connecting pipe is installed to one side of condenser.

Preferably, the antetheca of install bin runs through and installs the air intake, the filter screen is installed to the front end of air intake, the hair-dryer is installed through the support to the inboard of air intake, the back wall of install bin runs through and installs the mouth of blowing.

Preferably, a plastic groove is formed in the inner side of the lower die, a heat absorption pipe is mounted on the outer wall of the plastic groove and mounted inside the lower die, two ends of the heat absorption pipe penetrate through the outer wall of the lower die, the input end of the heat absorption pipe is in threaded connection with the output end of the second connecting pipe, the output end of the heat absorption pipe is in threaded butt joint with the input end of the first connecting pipe, butt joints are mounted at two ends of the heat absorption pipe, an electric push rod penetrates through the inner bottom wall of the lower die, a push plate is mounted at the top end of the electric push rod and movably mounted on the inner side of the plastic groove, and an embedded piece is mounted at the top of the lower die.

Preferably, the control motor is installed at the top of notes material pipe, the roof of notes material pipe runs through and installs the dwang, and the top and the output of control motor of dwang are connected, helical blade is installed in the outside of dwang, and helical blade is located the inboard of notes material pipe, the bottom of notes material pipe is installed and is extruded the mouth, annotate the front outer wall of material pipe and install the temperature controller.

Preferably, the inboard of lifter plate is run through and is seted up and run through the mouth, the gomphosis groove has been seted up to the diapire of lifter plate, and the gomphosis groove is corresponding with the gomphosis piece, and it is located between two sets of regulation poles to run through the mouth, the holding down plate is installed to the bottom of adjusting the pole, the inboard of holding down plate is run through and is installed the input tube, flexible pipe is installed on the top of input tube, and flexible pipe is located the inboard that runs through the mouth, the assembly pipe is installed on the top of flexible pipe, the top of assembly pipe through bolt with extrude mouthful bottom butt joint, resistance heating wire is installed to the bottom inner wall of input tube.

Preferably, the controller is installed on the outer wall of the front surface of the lower die.

Preferably, the working steps of the die are as follows:

s1, a user controls an electric telescopic rod to extend to drive a lifting plate at the bottom end to move downwards, the bottom of the lifting plate moves downwards to abut against the upper surface of a lower die, meanwhile, an embedded piece is inserted into the inner side of an embedded groove, the movement of the lifting plate is guided through the matching of the embedded groove and the embedded piece, the lifting plate is prevented from shifting in the moving process, the lifting plate drives a lower pressing plate at the bottom to move downwards, the lower pressing plate is embedded into the inner side of a plastic groove, the length of an adjusting rod is controlled by the user according to needs, the lifting height of the lower pressing plate is controlled through adjusting the length of the adjusting rod, and the lower pressing plate, the plastic groove and a pushing plate are matched to form a die cavity;

s2, a user butt joints a feeding device with a feeding port, when the feeding device is used for injecting materials into the feeding port during processing, the materials enter the inner side of a material injection pipe, a motor is controlled to operate to drive an output end rotating rod to rotate, the rotating rod rotates to drive a helical blade on the outer side to rotate, the helical blade rotates to drive the materials to move downwards through threads, the materials move downwards to the inner side of an extrusion port, a heating pipe is electrified and heated when the materials are conveyed, heat is provided for the materials on the inner side, the materials are in a hot melting state, the materials are conveyed into an assembling pipe through the extrusion port, the materials move downwards due to the pressure above the materials and enter the interior of a telescopic pipe, the materials are conveyed into an input pipe, the input pipe inputs the materials into a die cavity, the die cavity is filled with the materials, and the motor is controlled to stop operating;

s3, after filling the material, the compressor operates to compress the refrigerant inside to make the refrigerant turn into high pressure steam, then it is transported to the condenser through the pipe, the condenser is equipped with a winding radiating pipe, when the blower operates, the blower sucks the outside air into the device, the filter screen intercepts the impurity, the air enters into the air inlet to generate air flow, the air flow moves forward, it blows to the radiating pipe in the condenser to accelerate the radiating speed of the radiating pipe, the high temperature is changed into high pressure gas-liquid, then the refrigerant is transported to the inner part of the heat absorbing pipe by the second connecting pipe, the refrigerant moves in the heat absorbing pipe to absorb the heat emitted by the material, accelerate the radiating speed of the device, ensure the material can be shaped quickly, then the refrigerant is transported to the inner part of the first connecting pipe, the refrigerant is transported back to the inner part of the compressor by the first connecting pipe, the refrigerant is made to move circularly to finish the operation of temperature reduction;

s4, the inside of controller drives temperature monitoring equipment, monitors the temperature of material, and after the material reached appointed temperature, the regulation pole shortened the holding down plate rebound that drives the bottom, and holding down plate and product break away from, and electric telescopic handle shortens simultaneously and drives the lifter plate rebound, takes out the material for the user and provides the space, and the person of facilitating the use takes out the material.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the material injection pipe is arranged on the inner side of the supporting plate, the control motor is arranged at the top of the material injection pipe, the control motor operates to drive the rotating rod at the output end to rotate, the rotating rod rotates to drive the helical blade at the outer side to rotate, the helical blade rotates to drive the material to move downwards through threads, the material is guided to move by the material injection pipe in the material moving process, the material moves downwards to the inner side of the extrusion opening, the heating pipe is electrified and heated while the material is conveyed, heat is provided for the material at the inner side, the material is in a hot melting state, the phenomenon that the temperature of the material is reduced and solidified is avoided, the material is conveyed into the assembling pipe through the extrusion opening, and a user controls the conveying speed of the material by controlling the speed of the motor.

2. According to the utility model, through the installation of the adjusting rod, after the lifting plate moves downwards and the bottom of the lifting plate is abutted against the upper surface of the lower die, a user controls the length of the adjusting rod according to the requirement, and controls the lifting height of the lower pressing plate by adjusting the length of the adjusting rod for controlling the model space, so that a plate with a corresponding thickness can be processed, and the lower pressing plate, the plastic groove and the push plate are matched to form a die cavity.

3. The utility model installs the compressor on the inner side of the installation box, after the material is input into the mould, the compressor operates to compress the refrigerant on the inner side, so that the refrigerant is changed into high-pressure steam, and then the high-pressure steam is transmitted to the inner part of the condenser through the guide pipe, the winding radiating pipe is installed in the condenser, when the blower operates, the blower sucks the outside air into the device, the filter screen intercepts impurities, the air enters the air inlet to generate air flow, the air flow moves forwards and blows to the radiating pipe in the condenser, the radiating speed of the radiating pipe is accelerated, so that the high temperature is correctly changed into high-pressure gas-liquid, then the refrigerant is transmitted to the inner part of the heat absorbing pipe through the second connecting pipe, the refrigerant moves in the heat absorbing pipe, the heat emitted by the material is absorbed, the radiating speed of the device is accelerated, the material can be quickly molded, and then the refrigerant is transmitted to the inner part of the first connecting pipe, the first connecting pipe conveys the refrigerant back to the inside of the compressor, and the compressor continues to pressurize the refrigerator, so that the refrigerant can move circularly to finish the cooling of the inside of the equipment.

4. According to the utility model, the adjusting rod is arranged, the adjusting rod shortens to drive the lower pressing plate at the bottom end to move upwards, the resistance heating wire heats up to soften the material at the inner side in the process of separating the lower pressing plate from the product, the material at the inner side of the input pipe can be easily separated from the finished product, a connected wire drawing user can be cut off by the scissors, and the electric telescopic rod shortens to drive the lifting plate to move upwards, so that a space is provided for the user to take out the material, and the user can take out the material conveniently.

Drawings

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

FIG. 2 is a schematic cross-sectional internal structure of the present invention;

FIG. 3 is a schematic view of the structure of the mounting box of the present invention;

FIG. 4 is a front internal view of the lower mold of the present invention;

FIG. 5 is a schematic view of the structure of the injecting tube of the present invention;

FIG. 6 is a schematic diagram of a lifter plate structure according to the present invention;

FIG. 7 is a schematic diagram of an input tube structure according to the present invention;

fig. 8 is a schematic view of the internal structure of the injection tube of the present invention.

In the figure: 1. a support table; 101. a support pillar; 2. installing a box; 201. a compressor; 202. a condenser; 203. a first connecting pipe; 204. a second connecting pipe; 205. an air inlet; 206. a filter screen; 207. a blower; 208. an air blowing port; 3. a lower die; 301. a plastic-shaped groove; 302. an electric push rod; 303. pushing the plate; 304. a heat absorbing tube; 305. a butt joint port; 306. an engaging member; 307. a controller; 4. a support plate; 401. a support bar; 5. a material injection pipe; 501. a heating layer; 502. heating a tube; 503. a feeding port; 504. rotating the rod; 505. a helical blade; 506. controlling the motor; 507. an extrusion port; 508. a temperature controller; 6. a lifting plate; 601. an electric telescopic rod; 602. a fitting groove; 603. adjusting a rod; 604. a lower pressing plate; 605. an input tube; 606. a telescopic pipe; 607. assembling a pipe; 608. a through opening; 609. resistance heating wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be a fixed connection or a movable connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, an embodiment of the present invention: a cutting thickness adjustable die for processing an automotive interior panel;

including a supporting table 1 and a supporting plate 4, four groups of supporting columns 101 are installed at the bottom of the supporting table 1, an installation box 2 is installed at the bottom of the supporting table 1, the supporting columns 101 support the supporting table 1 at the top, the stability of the supporting table 1 is ensured, the supporting table 1 is convenient to fix the bottom installation box 2, the installation box 2 is positioned at the inner side of the supporting columns 101, a compressor 201 is installed at the inner side bottom wall of the installation box 2, a first connecting pipe 203 is installed at one side of the compressor 201, a condenser 202 is installed at the inner side bottom wall of the installation box 2, the condenser 202 is positioned at one side of the compressor 201, the condenser 202 is connected with the compressor 201 through a guide pipe, a second connecting pipe 204 is installed at one side of the condenser 202, an air inlet 205 is installed through the front wall of the installation box 2, a filter screen 206 is installed at the front end of the air inlet 205, and a blower 207 is installed at the inner side of the air inlet 205 through a support, the rear wall of the installation box 2 is provided with an air blowing port 208 in a penetrating manner, the inner side of the installation box 2 is provided with refrigeration equipment, the outer wall of the plastic groove 301 is provided with a heat absorbing pipe 304, the heat absorbing pipe 304 is installed inside the lower die 3, two ends of the heat absorbing pipe 304 penetrate through the outer wall of the lower die 3, the input end of the heat absorbing pipe 304 is in threaded connection with the output end of the second connecting pipe 204, the output end of the heat absorbing pipe 304 is in threaded connection with the input end of the first connecting pipe 203, two ends of the heat absorbing pipe 304 are provided with a butt joint port 305, the compressor 201 and the condenser 202 are installed inside the device to ensure that the device can run stably, the compressor 201 compresses the refrigerant inside to ensure that the refrigerant is changed into high-pressure steam, then the high-pressure steam is conveyed to the inside of the condenser 202 through a conduit, a winding radiating pipe is installed inside the condenser 202, and when the blower 207 runs, the outside air is sucked into the device, the impurities are intercepted by the filter screen 206, air flows are generated after entering the air inlet 205, the air flows move forwards and blow towards the radiating pipes in the condenser 202, the radiating speed of the radiating pipes is accelerated, high temperature is correctly changed into high-pressure gas-liquid, then the refrigerant is transmitted to the inside of the heat absorbing pipe 304 by the second connecting pipe 204, the refrigerant moves in the inside of the heat absorbing pipe 304 to absorb heat emitted by materials, the radiating speed of the device is accelerated, the materials can be quickly formed, then the refrigerant is transmitted to the inside of the first connecting pipe 203, the refrigerant is transmitted back to the inside of the compressor 201 by the first connecting pipe 203, the compressor 201 continuously pressurizes the refrigerator, the refrigerant can circularly move, the temperature reduction of the inside of the device is completed, the compressor 201 stops operating when the materials are injected, and the compressor 201 operates after the materials are input;

including a supporting table 1, a lower die 3 is installed at the top of the supporting table 1, a plastic groove 301 is installed on the inner side of the lower die 3, the lower die 3 is fixed at the top of the supporting table 1, the stability of the lower die 3 is guaranteed, the lower die 3 is supported on the inner side of the plastic groove 301 in a limiting manner, the stability of the plastic groove 301 is guaranteed, an electric push rod 302 is installed inside the bottom wall of the lower die 3 in a penetrating manner, a push plate 303 is installed at the top end of the electric push rod 302, the push plate 303 is movably installed on the inner side of the plastic groove 301, after the device is processed, the electric push rod 302 operates to drive the push plate 303 of the output end to move upwards, the push plate 303 moves upwards to push out a processed workpiece, the material is conveniently demoulded, an embedded part 306 is installed at the top of the lower die 3, a controller 307 is installed on the outer wall of the front side of the lower die 3, and a user can control the device to operate through the controller 307, the user can operate the equipment conveniently.

The device comprises a supporting table 1, wherein four groups of supporting rods 401 are arranged at the top of the supporting table 1, the supporting rods 401 are positioned at the outer side of a lower die 3, a supporting plate 4 is arranged at the top of each supporting rod 401, the supporting table 1 supports the supporting rods 401 at the top to ensure the stability of the supporting rods 401, the supporting rods 401 are fixed to the supporting plate 4 at the top to facilitate the fixing of the supporting plates 4 to an inner electric telescopic rod 601 to ensure the stability of the electric telescopic rod 601, two groups of electric telescopic rods 601 are arranged at the inner side of each supporting plate 4 in a penetrating manner, a lifting plate 6 is arranged at the bottom end of each electric telescopic rod 601 in a penetrating manner, two groups of symmetrically distributed adjusting rods 603 are arranged at the inner side of each lifting plate 6 in a penetrating manner, a penetrating port 608 is arranged at the inner side of each lifting plate 6 in a penetrating manner, an embedded groove 602 is arranged at the bottom wall of each lifting plate 6, the embedded part 602 corresponds to the embedded part 306, and the penetrating port 608 is positioned between the two groups of adjusting rods 603, the bottom end of the adjusting rod 603 is provided with a lower pressing plate 604, the electric telescopic rod 601 extends to drive the lifting plate 6 at the bottom end to move downwards, the bottom of the lifting plate 6 moves downwards to abut against the upper surface of the lower die 3, meanwhile, the embedded piece 306 is inserted into the inner side of the embedded piece 602, the lifting plate 6 is guided by the matching of the embedded piece 306 and the embedded piece 602, the lifting plate 6 is prevented from being deviated in the moving process, the lifting plate 6 drives the lower pressing plate 604 at the bottom to move downwards, the lower pressing plate 604 is embedded into the inner side of the shaping groove 301, the user controls the length of the adjusting rod 603 as required, the lifting height of the lower pressing plate 604 is controlled by adjusting the length of the adjusting rod 603, and the lower pressing plate 604, the shaping groove 301 and the pushing plate 303 are matched to form a die cavity.

Comprises a supporting plate 4, wherein a material injection pipe 5 is arranged on the inner side of the supporting plate 4 in a penetrating way, the material injection pipe 5 is positioned between two groups of electric telescopic rods 601, the supporting plate 4 fixes the material injection pipe 5 to ensure the stable operation of the material injection pipe 5, a heating layer 501 is arranged on the inner side of the material injection pipe 5, a heating pipe 502 is arranged on the inner side of the heating layer 501, the heating layer 501 is fixed on the inner side of the material injection pipe 5 to improve the installation space for the heating pipe 502, the heating pipe 502 is electrified and heated to transfer heat to materials, a material inlet 503 is arranged on the outer wall of one side of the material injection pipe 5, a control motor 506 is arranged on the top of the material injection pipe 5, a top wall of the material injection pipe 5 is provided with a rotating rod 504 in a penetrating way, the top end of the rotating rod 504 is connected with the output end of the control motor 506, a helical blade 505 is arranged on the outer side of the rotating rod 504, and the helical blade 505 is positioned on the inner side of the material injection pipe 5, an extrusion opening 507 is installed at the bottom end of the material injection pipe 5, a temperature controller 508 is installed on the outer wall of the front face of the material injection pipe 5, an input pipe 605 is installed on the inner side of the lower pressing plate 604 in a penetrating mode, an extension pipe 606 is installed at the top end of the input pipe 605, the extension pipe 606 is located on the inner side of a penetrating opening 608, an assembly pipe 607 is installed at the top end of the extension pipe 606, the top end of the assembly pipe 607 is in butt joint with the bottom end of the extrusion opening 507 through a bolt, a feeding device is in butt joint with a feeding opening 503, during processing, the feeding device injects a material into the feeding opening 503, the material enters the inner side of the material injection pipe 5, meanwhile, a motor 506 is controlled to operate to drive an output end rotating rod 504 to rotate, the rotating rod 504 rotates to drive a helical blade 505 on the outer side to rotate, the helical blade 505 rotates to drive the material to move downwards through threads, the material moves downwards to the inner side of the extrusion opening 507, and the heating pipe 502 is heated by electrifying while conveying the material, the heat is provided for the material on the inner side, so that the material is in a hot melting state, the material is conveyed into the assembling pipe 607 through the extrusion port 507, the material moves downwards due to the pressure above the material and enters the telescopic pipe 606, the material is conveyed into the input pipe 605 through the telescopic pipe 606, the material is input into the die cavity through the input pipe 605, the die cavity is filled with the material, the control motor 506 stops running, the resistance heating wire 609 is installed on the inner wall of the bottom end of the input pipe 605, after the material is cooled, the temperature of the resistance heating wire 609 is raised, so that the material on the inner side of the input pipe 605 is softened, the material can be easily separated from a finished product, and a connected wire drawing user can cut off the material through scissors.

The working steps of the die are as follows:

s1, a user controls the electric telescopic rod 601 to extend to drive the lifting plate 6 at the bottom end to move downwards, the bottom of the lifting plate 6 moves downwards to abut against the upper surface of the lower die 3, meanwhile, the embedded piece 306 is inserted into the inner side of the embedded piece 602, the movement of the lifting plate 6 is guided by the matching of the embedded piece 306 and the embedded piece 602, the lifting plate 6 is prevented from deviating in the moving process, the lifting plate 6 drives the lower pressing plate 604 at the bottom to move downwards, the lower pressing plate 604 is embedded into the inner side of the shaping groove 301, the user controls the length of the adjusting rod 603 as required, and controls the lifting height of the lower pressing plate 604 to be used for controlling a model space, so that a plate with a corresponding thickness can be processed, and the lower pressing plate 604, the shaping groove 301 and the pushing plate 303 are matched to form a die cavity;

s2, a user butt joints a feeding device with a feeding port 503, when processing, the feeding device injects a material into the feeding port 503, the material enters the inner side of a material injection pipe 5, and at the same time, the motor 506 is controlled to operate to drive the output end rotating rod 504 to rotate, the rotating rod 504 rotates to drive the helical blade 505 on the outer side to rotate, the helical blade 505 rotates to drive the material to move downwards through threads, the material moves downwards to the inner side of an extrusion port 507, the heating pipe 502 is electrified and heated when the material is conveyed, heat is provided for the material on the inner side, so that the material is in a hot melting state, the extrusion port 507 conveys the material to the inside of an assembly pipe 607, the material moves downwards due to the upper pressure and enters the inside of a telescopic pipe 606, the material is guided by the telescopic pipe to be conveyed to the inside of an input pipe 605, the input pipe 605 inputs the material to the inside of a mold cavity, and the mold cavity is filled with the material, controlling the motor 506 to stop running;

s3, after filling the material, the compressor 201 operates to compress the refrigerant inside to make the refrigerant turn into high pressure vapor, and then it is transported to the inside of the condenser 202 through the pipe, the inside of the condenser 202 is installed with the winding radiating pipe, when the blower 207 operates, the blower 207 sucks the outside air into the inside of the device, the filter screen 206 intercepts the impurity, the air enters the air inlet 205 to generate the air flow, the air flow moves forward, and blows to the radiating pipe in the condenser 202 to accelerate the radiating speed of the radiating pipe, so that the high temperature is correctly changed into high pressure gas-liquid, then the refrigerant is transported to the inside of the heat absorbing pipe 304 by the second connecting pipe 204, the refrigerant moves in the inside of the heat absorbing pipe 304 to absorb the heat of the material radiating process, accelerate the radiating speed of the device, ensure the material can be shaped quickly, then the refrigerant is transported to the inside of the first connecting pipe 203, the refrigerant is conveyed back to the inside of the compressor 201 by the first connection pipe 203, so that the refrigerant circularly moves to finish the operation of temperature reduction;

s4, the controller 307 drives the temperature monitoring device to monitor the temperature of the material, when the material reaches a specified temperature, the adjusting rod 603 shortens the lower pressing plate 604 driving the bottom end to move upwards, the lower pressing plate 604 is separated from the product, and meanwhile, the electric telescopic rod 601 shortens the driving lifting plate 6 to move upwards, so that a space is provided for a user to take out the material, and the user can take out the material conveniently.

The working principle is as follows: the user controls the electric telescopic rod 601 to extend to drive the lifting plate 6 at the bottom end to move downwards, the lifting plate 6 moves downwards, the bottom of the lifting plate 6 is abutted against the upper surface of the lower die 3, meanwhile, the embedded part 306 is inserted into the inner side of the embedded groove 602, the movement of the lifting plate 6 is guided by the matching of the embedded groove 602 and the embedded part 306, the deviation of the lifting plate 6 in the moving process is avoided, the lifting plate 6 drives the lower pressing plate 604 at the bottom to move downwards, the lower pressing plate 604 is embedded into the inner side of the shaping groove 301, the user controls the length of the adjusting rod 603 according to needs, controls the lifting height of the lower pressing plate 604 by adjusting the length of the adjusting rod 603, is used for controlling a model space, so that a plate with corresponding thickness can be processed, the lower pressing plate 604, the shaping groove 301 and the pushing plate 303 are matched to form a die cavity, the user butt joints the feeding equipment with the feeding port 503, and when processing, the feeding equipment injects materials into the feeding port 503, the material enters the inner side of the material injection pipe 5, the motor 506 is controlled to operate to drive the output end rotating rod 504 to rotate, the rotating rod 504 rotates to drive the helical blade 505 on the outer side to rotate, the helical blade 505 rotates to drive the material to move downwards through threads, the material moves downwards to the inner side of the extrusion opening 507, the heating pipe 502 is electrified and heated while the material is conveyed, heat is provided for the material on the inner side, the material is in a hot melting state, the extrusion opening 507 conveys the material to the inside of the assembling pipe 607, the material moves downwards due to the pressure above and enters the inside of the telescopic pipe 606, the telescopic pipe 606 guides the material to be conveyed to the inside of the input pipe 605, the input pipe 605 conveys the material to the inside of the mold cavity, the mold cavity is filled with the material, the motor 506 is controlled to stop operating, after the material is filled, the compressor 201 operates to compress the refrigerant on the inner side, so that the refrigerant becomes high-pressure steam, then the refrigerant is conveyed to the inside of the condenser 202 through a conduit, a winding radiating pipe is arranged inside the condenser 202, when the blower 207 runs, the blower 207 sucks outside air into the inside of the device, impurities are intercepted by the filter screen 206, the air enters the air inlet 205 to generate air flow, the air flow moves forwards and blows towards the radiating pipe in the condenser 202, the radiating speed of the radiating pipe is accelerated, so that high temperature is correctly changed into high-pressure gas and liquid, then the refrigerant is conveyed to the inside of the heat absorption pipe 304 through the second connecting pipe 204, the refrigerant moves inside the heat absorption pipe 304 to absorb heat radiated and processed by the material, the radiating speed of the device is accelerated, so that the material can be quickly molded, then the refrigerant is conveyed to the inside of the first connecting pipe 203, the refrigerant is conveyed back to the inside of the compressor 201 through the first connecting pipe 203, so that the refrigerant circularly moves, and the operation of temperature reduction is completed, the inside of controller 307 drives temperature monitoring equipment, monitors the temperature of material, and after the material reached appointed temperature, the regulation pole 603 shortened the lower holding down plate 604 rebound that drives the bottom, and lower holding down plate 604 breaks away from with the product, and electric telescopic handle 601 shortens simultaneously and drives lifter plate 6 rebound, takes out the material for the user and provides the space, and convenience of customers takes out the material.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a processing of automotive interior board is with cutting thickness adjustable mould, includes brace table (1) and backup pad (4), its characterized in that: four groups of supporting columns (101) are mounted at the bottom of the supporting table (1), an installation box (2) is mounted at the bottom of the supporting table (1), the installation box (2) is located on the inner side of the supporting columns (101), a lower die (3) is mounted at the top of the supporting table (1), four groups of supporting rods (401) are mounted at the top of the supporting table (1), the supporting rods (401) are located on the outer side of the lower die (3), and supporting plates (4) are mounted at the tops of the supporting rods (401);

two groups of electric telescopic rods (601) are arranged on the inner side of the supporting plate (4) in a penetrating manner, a lifting plate (6) is arranged at the bottom end of each electric telescopic rod (601), and two groups of adjusting rods (603) which are symmetrically distributed are arranged on the inner side of each lifting plate (6) in a penetrating manner;

the inboard of backup pad (4) is run through and is installed notes material pipe (5), and notes material pipe (5) are located between two sets of electric telescopic handle (601), the zone of heating (501) are installed to the inboard of notes material pipe (5), heating pipe (502) are installed to the inboard of zone of heating (501), install pan feeding mouth (503) on the one side outer wall of notes material pipe (5).

2. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: compressor (201) are installed to the inboard diapire of install bin (2), first connecting pipe (203) are installed to one side of compressor (201), condenser (202) are installed to the inboard diapire of install bin (2), and condenser (202) are located one side of compressor (201), and condenser (202) pass through the pipe and are connected with compressor (201), second connecting pipe (204) are installed to one side of condenser (202).

3. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: the utility model discloses a fan, including install installation box (2), the antetheca of installation box (2) is run through and is installed air intake (205), filter screen (206) are installed to the front end of air intake (205), hair-dryer (207) are installed through the support to the inboard of air intake (205), the back wall of installation box (2) is run through and is installed mouth of blowing (208).

4. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: the inner side of the lower die (3) is provided with a plastic groove (301), the outer wall of the plastic groove (301) is provided with a heat absorbing pipe (304), the heat absorbing pipe (304) is arranged inside the lower die (3), two ends of the heat absorbing pipe (304) penetrate through the outer wall of the lower die (3), the input end of the heat absorbing pipe (304) is in threaded connection with the output end of the second connecting pipe (204), the output end of the heat absorbing pipe (304) is in threaded butt joint with the input end of the first connecting pipe (203), two ends of the heat absorbing pipe (304) are provided with butt joints (305), the bottom wall of the lower die (3) is internally provided with an electric push rod (302) in a penetrating mode, the top end of the electric push rod (302) is provided with a push plate (303), the push plate (303) is movably arranged on the inner side of the plastic groove (301), and the top of the lower die (3) is provided with an embedded part (306).

5. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: control motor (506) are installed at the top of notes material pipe (5), the roof of notes material pipe (5) is run through and is installed dwang (504), and the top of dwang (504) is connected with the output of control motor (506), helical blade (505) are installed in the outside of dwang (504), and helical blade (505) are located the inboard of notes material pipe (5), the bottom of notes material pipe (5) is installed and is extruded mouth (507), thermostat (508) are installed to the front outer wall of notes material pipe (5).

6. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: the inner side of the lifting plate (6) is provided with a through hole (608) in a penetrating mode, the bottom wall of the lifting plate (6) is provided with a tabling groove (602), the tabling groove (602) corresponds to the tabling piece (306), the through hole (608) is located between two groups of adjusting rods (603), a lower pressing plate (604) is installed at the bottom end of each adjusting rod (603), an input pipe (605) is installed on the inner side of each lower pressing plate (604) in a penetrating mode, a telescopic pipe (606) is installed at the top end of the input pipe (605), the telescopic pipe (606) is located on the inner side of the through hole (608), an assembling pipe (607) is installed at the top end of the telescopic pipe (606), the top end of the assembling pipe (607) is in butt joint with the bottom end of the extrusion hole (507) through a bolt, and a resistance heating wire (609) is installed on the inner wall of the bottom end of the input pipe (605).

7. The mold with the adjustable cutting thickness for processing the automotive interior trim panel according to claim 1, wherein: and a controller (307) is arranged on the outer wall of the front surface of the lower die (3).

8. The die with the adjustable cutting thickness for processing the automotive interior trim panel according to any one of claims 1 to 7, characterized in that the die is operated by the following steps:

s1, the user controls the electric telescopic rod (601) to extend to drive the lifting plate (6) at the bottom end to move downwards, the lifting plate (6) moves downwards, the bottom of the lifting plate is pressed against the upper surface of the lower die (3), meanwhile, the embedded part (306) is inserted into the inner side of the embedded groove (602), the movement of the lifting plate (6) is guided by the matching of the embedded groove (602) and the embedded part (306), the lifting plate (6) is prevented from deviating in the moving process, the lifting plate (6) drives the lower pressing plate (604) at the bottom to move downwards, the lower pressing plate (604) is embedded into the inner side of the plastic groove (301), and a user controls the length of the adjusting rod (603) according to the requirement, the lifting height of the lower pressure plate (604) is controlled by adjusting the length of the adjusting rod (603) for controlling the model space, therefore, a plate with a corresponding thickness can be processed, and the lower pressing plate (604), the shaping groove (301) and the push plate (303) are matched to form a die cavity;

s2, a user butt joints a feeding device with a feeding port (503), when processing, the feeding device injects materials into the feeding port (503), the materials enter the inner side of a material injection pipe (5), simultaneously, a motor (506) is controlled to operate to drive an output end rotating rod (504) to rotate, the rotating rod (504) rotates to drive an outer helical blade (505) to rotate, the helical blade (505) rotates to drive the materials to move downwards through threads, the materials move downwards to the inner side of an extrusion port (507), a heating pipe (502) is electrified and heated while conveying the materials, heat is provided for the materials on the inner side, the materials are in a hot melting state, the extrusion port (507) conveys the materials to the inside of an assembly pipe (607), the materials move downwards due to the pressure above and enter the inside of a telescopic pipe (606), and the materials are conveyed to the inside of an input pipe (605) under the guidance of the telescopic pipe (606), the input pipe (605) inputs the material into the die cavity, the material fills the die cavity, and the motor (506) is controlled to stop running;

s3, after the filling of the materials is completed, the compressor (201) operates to compress the refrigerant inside, so that the refrigerant is changed into high-pressure steam, and then the high-pressure steam is conveyed to the inside of the condenser (202) through a guide pipe, a winding radiating pipe is arranged inside the condenser (202), when the blower (207) operates, the blower (207) sucks the outside air into the device, impurities are intercepted by the filter screen (206), the air enters the air inlet (205) to generate air flow, the air flow moves forwards and blows towards the radiating pipe in the condenser (202), the radiating speed of the radiating pipe is accelerated, so that the high temperature is correctly changed into high-pressure gas-liquid, then the refrigerant is conveyed to the inside of the heat absorbing pipe (304) through the second connecting pipe (204), the refrigerant moves inside of the heat absorbing pipe (304), the heat emitted and processed by the materials is absorbed, the radiating speed of the device is accelerated, and the rapid forming of the materials is ensured, then the refrigerant is conveyed to the interior of the first connecting pipe (203), and the refrigerant is conveyed back to the interior of the compressor (201) by the first connecting pipe (203), so that the refrigerant circularly moves to finish the operation of temperature reduction;

s4, temperature monitoring equipment is driven by the inside of the controller (307), the temperature of the material is monitored, after the material reaches the specified temperature, the adjusting rod (603) is shortened to drive the lower pressing plate (604) at the bottom end to move upwards, the lower pressing plate (604) is separated from the product, meanwhile, the electric telescopic rod (601) is shortened to drive the lifting plate (6) to move upwards, space is provided for a user to take out the material, and the user can take out the material conveniently.