CN212238942U

CN212238942U - Dish washer inner bag undercut machine

Info

Publication number: CN212238942U
Application number: CN201922307181.3U
Authority: CN
Inventors: 张海波; 查家昌; 李安涛; 朱厚军; 李普阳; 卫少克; 李骥
Original assignee: 704th Research Institute of CSIC
Current assignee: 704th Research Institute of CSIC
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-12-29
Anticipated expiration: 2029-12-19

Abstract

The utility model relates to a dish washer liner undercut machine, a moulding bed component, a track mould, a profiling component, a sucker component and a moulding bed frame are arranged on a movable base; the four groups of hobbing cutter mechanisms are divided into two pairs and symmetrically arranged on the two sides of the base, and each pair of hobbing cutter mechanisms are symmetrically distributed on the upper surface and the lower surface of the base; the track die is provided with four pieces which are symmetrically arranged on a moving base, the moving base is arranged in a base, sliding shoes are arranged at the bottoms of two sides of the moving base and are matched and connected with a guide rail on the base, and screw nuts are arranged on two sides of the moving base and are matched and connected with a ball screw of a servo driving system; a mould assembly is arranged on the mould base, inner container plates are placed in the mould assembly, and a servo driving system drives a screw rod nut to drive the movable base to slide along a guide rail on the base. The utility model discloses a 4 limits interlock simultaneously about the undercut machine of technology structural style can be about, and the mounting height is simple and convenient, and the reliability is high, has shortened remodelling adjustment time greatly.

Description

Dish washer inner bag undercut machine

Technical Field

The utility model relates to a processing equipment that dish washer inner bag interlock takes shape, concretely relates to inner bag interlock machine.

Background

Along with the rapid development of economy in China and the continuous improvement of the living standard of people, the dish-washing machine as a common household appliance is more and more popular among young people, and the experience and satisfaction of customers are better and better. In the near future, dishwashers will be as popular as washing machines and refrigerators, and the market for them will be very large.

The key point of the production of the dish-washing machine is the processing and manufacturing of the inner container, namely, the stainless steel and stainless iron thin plates are punched and formed, and then three or four plates which are punched and formed are spliced into the sealed cubic inner container with one open end. At present, two modes of welding and undercutting are mainly adopted for forming the inner container of the dish washer, the welding mode belongs to the original process, the product consistency is poor, the appearance is poor, hidden dangers such as water leakage exist, the technology is gradually eliminated, and the mainstream technology is to splice formed plates together through the occluded flanging.

At present, the edge seaming forming equipment for the inner container of the dish-washing machine is mainly a product from Italy Meloney company. One is a turntable type undercut machine, the undercut machine is structurally characterized in that a moulding bed frame provided with an inner lining die is arranged in the middle of the equipment, and a plate is adsorbed on the inner lining die through a sucking disc; big turnplates are arranged on two sides, four forming occlusion hobs are mounted on the big turnplates, a forming occlusion hob track die with an annular groove is fixed in the middle of each turnplate, and the forming occlusion hob is driven to roll along the inner container occlusion edge under the constraint of the track die through the rotation of the big turnplates, so that the undercut splicing is completed. The edge biting machine can only bite two edges, each large turntable is provided with four forming and biting hobs, and meshing is completed by four times of forming. Because the forming occlusion hob is less, the bending deformation of the plate is large each time the plate is formed, and due to the characteristics of the sheet metal part, the occlusion qualification rate is low when the incoming material characteristics have deviation. Therefore, this type of hemming machine is poor in compatibility with the material characteristics and the external dimensional deformation amount of the workpiece. Therefore, the undercut process needs to be innovated and improved on the basis, the undercut process is divided into six parts, the compatibility of the incoming material characteristics and the size deformation of the workpiece is greatly improved, and the undercut time is shortened.

The forming occlusion hob of the turntable type edging machine is arranged on the turntable, and each forming occlusion hob sequentially winds the inner container for a circle when the turntable rotates. A large number of tests prove that the deformation of the sheet metal piece in the occlusion process is reduced by increasing the number of the forming occlusion hobs, so that the occlusion forming of the sheet metal is facilitated. However, due to the limitation of the perimeter of the workpiece and the size of the turntable, the number of the formed meshing hobs installed on the edge biting machine can only be 4-8.

In addition, the undercut machine needs to replace the track die, the lining film and even the middle lining die frame directly when the product is replaced, and the replacement mode is long in adjustment time and poor in stability.

The other one of the forming occluding hob is a chain type undercutting machine which is mainly structurally characterized in that a moulding bed frame of an inner lining mould is fixedly arranged in the middle, and a plate to be occluded is placed on the inner lining mould and is pressed by a clamping device. A group of forming occlusion hobs driven by chains are respectively arranged on two sides of the moulding bed, and the forming occlusion hobs driven by the chains are driven by a motor to move for a circle along an occlusion edge, so that occlusion is completed. The edge biting machine has compact and small structure, but can only bite two edges like a rotating disc type edge biting machine, and has the defect of complicated shape change.

The dish washer has wide market prospect, and the models of household electrical appliances are various and are frequently updated. The inner container of the dish washing machine is an important part of the dish washing machine, and most of the inner containers in the engagement form of the dish washing machine at present are formed by bending a middle plate into a U shape and then engaging with an upper bottom plate and a lower bottom plate to form an open inner cavity. Because the middle plate is bent to cause the rear part to have a round angle, the use space of the inner container is reduced. The liner with the same size can be formed by four plates which are meshed with each other to form four edges so that the rear part of the liner has no round angle in order to increase the space utilization rate of the liner.

Disclosure of Invention

The utility model discloses be to the inner bag of some new models (no medium plate is bent, directly form the open-ended inner chamber by 4 plate spare interlocks, inner bag rear portion does not have the fillet behind the interlock), solve the problem of the compatible polytypic inner bag production of an undercut quick-witted fast remodelling simultaneously, and provide a brand-new dish washer inner bag undercutting machine, this undercutting machine can control 4 limits from top to bottom and interlock together simultaneously, can also be under the condition of not changing spare part the production of compatible many models inner bag simultaneously, and mounting height is simple and convenient, high reliability, remodelling adjustment time has been shortened greatly.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a dish washer inner bag undercut machine, this inner bag undercut machine comprises base, removal base, child die carrier, hobbing cutter mechanism, child mould subassembly, orbit mould, profiling subassembly, sucking disc subassembly, compress tightly subassembly, servo drive system, control system, its characterized in that: the hob mechanism, the servo driving system and the control system are arranged on the base, and the moulding bed assembly, the track mould, the profiling assembly, the sucker assembly and the moulding bed frame are arranged on the moving base; the four groups of hobbing cutter mechanisms are divided into two pairs and symmetrically arranged on two sides of the base, and each pair of hobbing cutter mechanisms are symmetrically distributed on the upper surface and the lower surface of the base; the track die is provided with four track dies which are symmetrically arranged on a moving base, the moving base is arranged in a base, sliding shoes are arranged at the bottoms of two sides of the moving base and are matched and connected with a guide rail on the base, and screw nuts are arranged on two sides of the moving base and are matched and connected with a ball screw of a servo driving system; the forming and meshing hobbing cutter moves along the curve edge of the inner container under the constraint of the track die, so that the upper, lower, left and right edges of the inner container of the seaming machine are simultaneously meshed and meshed together.

Further, the profiling assembly consists of a top outer profiling assembly and a bottom outer profiling assembly, the top outer profiling assembly and the bottom outer profiling assembly are provided with a cylinder support, a cylinder, a profiling substrate, a profiling pressing block and an outer profiling, the profiling substrate is fixedly connected to the upper surface of the outer profiling, the upper surface of the profiling substrate is connected with the cylinder support through the cylinder, and the cylinder support is fixed with the movable base; after the top outer explorator component and the bottom outer explorator component are placed on the top plate and the bottom plate of the inner container, the cylinder extends out to drive the outer explorators to move, and finally the top plate and the bottom plate are pressed tightly under the action of the top outer explorators and the bottom outer explorators.

Furthermore, a model changing device is further installed in the top outer explorator component and consists of a guide sleeve, a guide rod, a connecting plate, a profiling pressing block and a spring pin, the guide rod is installed on the explorator base plate through the guide sleeve, the upper end of the guide rod is connected with the connecting plate and the profiling pressing block, position holes corresponding to the models of the inner containers are formed in the guide rod, the connecting plate is only required to be lifted up when the models are switched, the position holes corresponding to the models of the guide rod are made to move to the position of the spring pin, and then the spring pin is tightly pinned.

Further, the moulding bed is provided with a top moulding bed component, a bottom moulding bed component, a sucker component and a pressing mechanism, wherein the top moulding bed component and the bottom moulding bed component are provided with a moulding bed cylinder seat, a moulding bed base plate, a moulding bed, an inclined plane push rod, a moulding bed pressing block and a spring; the base plate of the moulding bed is fixed on the moulding bed frame, the moulding bed is arranged on the base plate of the moulding bed and is connected with an inclined plane push rod, the inclined plane push rod is connected with a moulding bed cylinder, a moulding bed press block is arranged on the base plate of the moulding bed, the inclined plane push rod and a moulding bed spring are arranged between the moulding bed and the moulding bed, when the cylinder extends out, the inclined plane push rod is pushed, so that the moulding bed is pushed to extend outwards to a working position, and when the moulding bed cylinder retracts, the moulding bed retracts inwards to restore the original position under the action of the spring.

Further, the sucking disc subassembly has four groups, is left side, right side, top and bottom sucking disc subassembly respectively, and left and right sides and bottom sucking disc subassembly pass through sucking disc pole and moulding bed fixed connection, or be the telescopic installation of sucking disc pole through cylinder or servo motor, and the inner bag that the interlock is good of being convenient for takes out.

Further, the sucker component consists of a sucker, a sucker rod, a gear, a servo motor, a sucker frame, a ball screw and a screw nut; the servo motor drives the ball screw and the nut through a gear, the nut is connected with the sucker frame and drives the sucker frame to move up and down, and the sucker is fixedly arranged on the sucker frame, so that the up-and-down position of the sucker frame and the sucker can be adjusted; the height of the top sucker is adjusted, and the device is suitable for the heights of liner top plates of different types; the pressing mechanism consists of an air cylinder and a pressing head, the pressing mechanism is respectively arranged at the end part and two sides of the tire mold frame, when the liner plate is placed, the tire mold air cylinder firstly extends out, the top and bottom tire molds are pushed outwards to a working position, the liner plate is placed by being attached to the tire molds, and then the sucking disc component adsorbs the plate and the pressing mechanism presses the plate; when all the plates of the inner container are adsorbed by the sucking disc, the positions of all the plates are not changed when the inner container is occluded under the action of the end parts and the pressing mechanisms on the two sides.

Further, the hob mechanism consists of a slide rail, a forming occlusion hob shaft, a forming occlusion hob seat, a forming occlusion hob, a backup wheel and a slide plate bracket, wherein the slide plate bracket is in matched connection with a base sliding shoe on the base through the slide rail, and the lower surface of the slide plate bracket is in matched connection with the track die through the backup wheel; the sliding plate bracket is connected with a forming occlusion hob shaft and a forming occlusion hob through a forming occlusion hob seat; when the movable base moves relative to the base, the track mold moves relative to the idler wheel, and meanwhile, the forming occlusion hob on the sliding plate support and the forming occlusion hob on the movable base are driven to move relative to each other.

Furthermore, the last group of hob mechanisms is provided with a pressure cylinder and a needle roller guide rail, the pressure cylinder is arranged on the sliding plate support through a pressure cylinder mounting seat, the pressure cylinder is connected with a push block, the push block is in fit connection with the needle roller guide rail fixed on the sliding plate support, and the position of the formed occlusion hob is adjusted by the pressure cylinder, so that the distance between the formed occlusion hob and a moulding bed can be adjusted, and the pressure during occlusion can be increased.

Furthermore, the dish washer inner container undercutting machine is also provided with an atomization spraying system, the spraying system consists of a box body, a pressurizing pump assembly, a pipeline and an atomization nozzle, the pressurizing pump assembly is installed on the box body and is connected with the atomization nozzle through the pipeline, when the inner container moves relative to the forming occlusion hob, the forming occlusion hob is driven to rotate clockwise, the atomization nozzle sprays oil-water mixture on the forming occlusion hob, the forming occlusion hob stuck with the oil-water mixture then occludes the inner container, and glue can be prevented from being stuck to the forming occlusion hob; the atomizing nozzle is arranged on the tire mold frame, and the box body and the pressure pump assembly are arranged on the movable base or fixedly arranged on the base.

The utility model has the advantages that:

the utility model discloses a linear undercut machine comprises base, removal base, child die carrier, hobbing cutter mechanism, child mould subassembly, orbit mould, profiling subassembly, sucking disc subassembly, servo drive system and control system.

The hob mechanisms are distributed on the base in an up-down and left-right symmetrical mode, the movable base moves relative to the base, meanwhile, the inner container plate placed on the movable base moves relative to the forming occlusion hob, and therefore four edges can be simultaneously occluded. The undercut machine of this kind of form, simple structure is reliable, is convenient for adjust the maintenance.

The linear undercutting machine can also reduce the diameter of the forming occlusion hob and increase the number of each group of forming occlusion hobs, thereby improving the forming variable of each forming occlusion hob and improving the occlusion quality. The front end and the tail end of the profiling component outside the top are adjusted to change the model, so that the inner containers of different models are switched to be occluded for production, and one machine is multipurpose and compatible with different product specifications.

Drawings

FIG. 1 is a schematic view of a new type of inner container engagement process;

FIG. 2 is a general schematic view of the edge seaming machine for the inner container of the dishwasher of the present invention;

FIG. 3 is a schematic diagram of a servo drive system and control system;

FIG. 4 is a schematic view of a motion base;

FIG. 5 is a top outer fence assembly;

FIG. 6 is a perspective view of a tire mold carrier mounting structure;

FIG. 7 is a front view of a tire mold carrier mounting structure;

fig. 8 is a schematic view of the hob mechanism.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and examples.

Aiming at the inner container with a new model, the utility model provides a new occlusion process, which is shown in detail in figure 1. Four edges of the inner container are independently occluded, and two sides of the inner container are respectively and simultaneously engaged. Four groups of forming meshing hobbing cutter mechanisms 3 and four track molds 6 are symmetrically arranged up and down and left and right. The central line of the track die 6 is parallel to the contour line of the liner 11, and the forming occlusion hobs move along the track die to ensure that each group of forming occlusion hobs roll over the outer edge of the liner at equal intervals to complete occlusion. The new occlusion process principle of occlusion has two motion forms: 1. the inner container workpiece is fixed with the track die, and the forming occlusion hob moves relative to the inner container workpiece along the track die; 2. and fixing the forming occlusion hob, and moving the liner workpiece and the track die. The occlusion edges of the two motion forms can be straight lines or curved lines, and are designed according to the inner container product.

Therefore, in the 2 nd motion form, a completely new linear undercutting machine needs to be developed.

As shown in fig. 2 to 8, a linear undercutting machine for the motion type 2 consists of a base 1, a moving base 4, a die frame, a hob mechanism 3, a die assembly 9, a track die 6, a profiling assembly 5, a sucker assembly 10, a servo drive system 2, a control system and a spraying system.

The hob mechanism 3, the servo drive system 2 and the control system are arranged on the base 1, and the moulding bed assembly 9, the track mould 6, the profiling assembly 5, the sucker assembly 10 and the moulding bed frame are all arranged on the movable base 4. The bottom parts of the two sides of the moving base 4 are provided with sliding shoes matched with the guide rails on the base 1, the two sides of the moving base 4 are also provided with screw nuts matched with the ball screws of the servo driving system 2, and the moving base 4 is driven by the screw nuts to slide along the guide rails on the base 1 under the action of the servo driving system 2.

As shown in fig. 3, the servo drive system 2 includes: the servo motor 201, the coupler 202, the bearing 203 seat and the ball screw 204 are symmetrically arranged on the base 1. In addition, the base 1 is symmetrically provided with hob sliding shoes for mounting a hob mechanism at the upper, lower, left and right sides, and the end part is provided with a control panel.

As shown in fig. 4, a feed screw nut 301, a base shoe 302, a track former 6, a top outer fence assembly 304, and a bottom outer fence assembly 305 are mounted on both sides of the moving base 4. The lead screw nut 301 is matched with a ball screw 204 arranged on the base 1, the motion of the lead screw nut 301 relative to the ball screw 204 provides power for the motion of the moving base 4, and the base sliding shoe 302 is matched with a guide rail on the base 1 and provides guidance when the moving base 4 moves. The hob mechanism 3 is installed on the base 1, a slide rail of the hob mechanism 3 is matched with a base slide shoe 302 of the base 1, and a idler wheel in the hob mechanism 3 can roll in a groove of the track die 6. Through the change of the track path, the distance of the forming occlusion hob in the hob mechanism 3 relative to the outer surface of the forming die is kept unchanged when the moving base 4 moves. After the top outer explorator component 304 and the bottom outer explorator component 305 are placed on the top plate and the bottom plate of the inner container, the air cylinders extend out to drive the outer explorators to move, and finally the top plate and the bottom plate are pressed tightly under the action of the top outer explorators and the bottom outer explorators.

As shown in fig. 5, the top outer fence assembly 304 includes a cylinder support 401, a cylinder 402, a fence base plate 403, a copying press block 404, a connecting plate 405, a guide post 406, a spring pin 407, a guide sleeve 408, and a top outer fence 409. The upper surface of the top outer explorator 409 is fixedly connected with an explorator base plate 403, and the upper surface of the explorator base plate 403 is connected with a cylinder support 401 through a cylinder 402. The top outer profile 409 is internally provided with a connecting plate 405 and a profiling pressing block 404. Because the roof deflection is big when the pressure is formed, the four corners can the perk when placing on the top child mould, installs the device of remodeling in the profile modeling subassembly 304 outside the top this moment. The model changing device is divided into a front end and a tail end and consists of a guide sleeve 408, a guide rod 406, a connecting plate 405, a profiling pressing block 404 and a spring pin 407. The guide rod 406 is provided with position holes corresponding to the models of the inner containers, and when the models are switched, the connecting plate 405 is lifted, so that the position holes corresponding to the models of the guide rod 406 move to the position of the spring pin 407, and then the spring pin 407 is tightly pinned. At the moment, the top outer profiling mold descends to press the top plate, the model changing device also descends along with the top outer profiling mold, and the profiling blocks press four corners of the top plate.

The bottom outer fence assembly 305 is similar in structure to the top outer fence assembly 304, except that the bottom outer fence assembly 305 has no remodeling device.

As shown in fig. 6 and 7, the jig frame is provided with a top jig assembly, a bottom jig assembly, a suction cup assembly 10 and a pressing mechanism 506. The top tire mold assembly and the bottom tire mold assembly are composed of a tire mold cylinder 501, a cylinder seat 502, an inclined plane push rod 503, a tire mold press plate 504, a tire mold 505, a spring 515, a tire mold base plate 516, a first sucker rod 507, a limiting block 508 and the like. The suction cup assembly 10 is composed of a suction cup 509, a suction cup rod II 510, a gear 511, a servo motor 512, a suction cup frame 513, a ball screw 514, a screw nut and the like. The pressing mechanism 506 is composed of an air cylinder and a pressing head. When the liner plate is placed, the moulding bed air cylinder 501 firstly extends out, the top and bottom moulding beds are pushed outwards to the working position, the liner plate is placed by being attached to the moulding beds, and then the suction disc assembly 10 adsorbs the plate by the pressing mechanism 506 and the plate is pressed tightly.

The sucker assembly 10 has four groups, wherein the top sucker assembly comprises a sucker, a sucker rod, a gear, a servo motor, a sucker frame, a ball screw, a screw nut and the like. According to different models, the output of the servo motor is controlled to drive the suction cup frame to ascend and descend through the transmission of the gear ball screw, and therefore the switching of the working position of the top suction cup is achieved. The sucking disc components on the two sides consist of sucking discs and sucking disc rods, and the sucking disc rods can be fixedly arranged on the tire mold frame and also can be made into telescopic type to be arranged on the tire mold frame.

As shown in fig. 8, the hob mechanism 3 includes a slide rail 601, a pressure cylinder 602, a pressure cylinder mounting base 603, a push block 604, a needle guide 605, a forming engagement hob shaft 606, a forming engagement hob base 607, a forming engagement hob 608, an idler 609, a skid plate support 610, a stopper rod 611, and the like. The rest hob mechanisms can only consist of a slide rail, a forming occlusion hob shaft, a forming occlusion hob seat, a forming occlusion hob, a idler wheel, a sliding plate bracket and a limiting rod. The slide rail 601 of the hob mechanism is installed in cooperation with the base shoe 302 on the base 1, and the idler 609 is installed in cooperation with the track mold 6. When the movable base 4 moves, the track die 6 passes by the idler 609 of each set of forming and engaging hob mechanisms in sequence. Thereby driving all the forming meshing hobs 608 to move along the base sliding shoe 302 relative to the moulding bed in turn, and each group of forming meshing hobs 608 rolls through the meshing surface of the inner container in turn to complete the seaming.

The spraying system consists of a box body, a pressurizing pump assembly, a pipeline, an atomizing nozzle and the like. The pressurizing pump assembly is arranged on the box body and is connected with the atomizing nozzle through a pipeline. When the inner container workpiece moves relative to the forming occlusion hob, the forming occlusion hob is driven to rotate clockwise, the oil-water mixture is sprayed out by the atomizing nozzle and sprinkled on the forming occlusion hob, the forming occlusion hob adhered with the oil-water mixture then occludes the inner container workpiece, and therefore the glue cannot be adhered to the forming occlusion hob. In the system, the atomizing nozzle can be arranged on a tire mold frame, and the box body 704 and the pressure pump assembly can be arranged on the movable base 4 and can also be fixedly arranged with the base 1.

When the inner container is occluded, glue is coated on the inner container sheet material in order to ensure that the occluded position is not water-tight, and when the inner container is occluded, the sheet material folded edge is extruded by external force, the glue is extruded out and is stuck on the forming occluded hobbing cutter. The atomizing and spraying system can spray the oil-water mixture on the forming occlusion hob in an atomizing mode while the molding occlusion hob is occluded by the idler wheel, so that the glue can directly fall off from the forming occlusion hob when extruded and does not adhere to the forming occlusion hob. The atomization nozzle of the system is arranged on a tire mold frame and moves along with a liner workpiece, when the workpiece moves relative to a forming occlusion hob, the forming occlusion hob is driven to rotate, when each forming occlusion hob rotates, the workpiece passes through the position of the nozzle in sequence, the nozzle is guaranteed to work all the time in an occlusion process, and the fact that each forming occlusion hob has an oil-water mixture can be guaranteed.

The base is the main part of equipment and supports, has good rigidity, and the machined surface needs to satisfy the position accuracy requirement. The base has an integral type and a split type, the split type is that the upper mounting part is connected with the bottom part through a bolt pin, and the integral type is selected. The base is provided with a hob mechanism, a driving system, a control system, a guide rail and the like. When the model is changed, the position of the front and the back profiling pressing blocks of the top cover is adjusted.

Claims

1. The utility model provides a dish washer inner bag undercut machine which characterized in that: the inner container edge seaming machine comprises a base, a moving base, a mould frame, a hobbing cutter mechanism, a mould assembly, a track mould, a profiling assembly, a sucker assembly, a pressing assembly, a servo driving system and a control system, wherein the hobbing cutter mechanism, the servo driving system and the control system are arranged on the base; the four groups of hobbing cutter mechanisms are divided into two pairs and symmetrically arranged on two sides of the base, and each pair of hobbing cutter mechanisms are symmetrically distributed on the upper surface and the lower surface of the base; the track die is provided with four track dies which are symmetrically arranged on a moving base, the moving base is arranged in a base, sliding shoes are arranged at the bottoms of two sides of the moving base and are matched and connected with a guide rail on the base, and screw nuts are arranged on two sides of the moving base and are matched and connected with a ball screw of a servo driving system; the forming and meshing hobbing cutter moves along the curve edge of the inner container under the constraint of the track die, so that the upper, lower, left and right edges of the inner container of the seaming machine are simultaneously meshed and meshed together.

2. The machine of claim 1, wherein: the profiling assembly consists of a top outer profiling assembly and a bottom outer profiling assembly, the top outer profiling assembly and the bottom outer profiling assembly are provided with a cylinder support, a cylinder, a profiling substrate, a profiling pressing block and an outer profiling, the profiling substrate is fixedly connected to the upper surface of the outer profiling, the upper surface of the profiling substrate is connected with the cylinder support through the cylinder, and the cylinder support is fixed with the movable base; after the top outer explorator component and the bottom outer explorator component are placed on the top plate and the bottom plate of the inner container, the cylinder extends out to drive the outer explorators to move, and finally the top plate and the bottom plate are pressed tightly under the action of the top outer explorators and the bottom outer explorators.

3. The machine of claim 2, wherein: the profiling mechanism is characterized in that a profiling device is further installed in the top outer explorator component and comprises a guide sleeve, a guide rod, a connecting plate, a profiling pressing block and a spring pin, the guide rod is installed on the explorator base plate through the guide sleeve, the upper end of the guide rod is connected with the connecting plate and the profiling pressing block, position holes corresponding to the models of the inner containers are formed in the guide rod, the connecting plate is only required to be lifted up when the models are switched, the position holes corresponding to the models of the guide rod are made to move to the position of the spring pin, and then the spring pin is.

4. The machine of claim 1, wherein: the top mould assembly and the bottom mould assembly are provided with a mould cylinder seat, a mould base plate, a mould, an inclined plane push rod, a mould pressing block and a spring; the base plate of the moulding bed is fixed on the moulding bed frame, the moulding bed is arranged on the base plate of the moulding bed and is connected with an inclined plane push rod, the inclined plane push rod is connected with a moulding bed cylinder, a moulding bed press block is arranged on the base plate of the moulding bed, the inclined plane push rod and a moulding bed spring are arranged between the moulding bed and the moulding bed, when the cylinder extends out, the inclined plane push rod is pushed, so that the moulding bed is pushed to extend outwards to a working position, and when the moulding bed cylinder retracts, the moulding bed retracts inwards to restore the original position under the action of the spring.

5. The machine of claim 4, wherein: the sucking disc subassembly has four groups, is left side, right side, top and bottom sucking disc subassembly respectively, and left and right sides and bottom sucking disc subassembly pass through sucking disc pole and moulding bed fixed connection, or be the telescopic installation of sucking disc pole through cylinder or servo motor, and the inner bag that the interlock is good of being convenient for takes out.

6. The machine of claim 4, wherein: the sucker component consists of a sucker, a sucker rod, a gear, a servo motor, a sucker frame, a ball screw and a screw nut; the servo motor drives the ball screw and the nut through a gear, the nut is connected with the sucker frame and drives the sucker frame to move up and down, and the sucker is fixedly arranged on the sucker frame, so that the up-and-down position of the sucker frame and the sucker can be adjusted; the height of the top sucker is adjusted, and the device is suitable for the heights of liner top plates of different types; the pressing mechanism consists of an air cylinder and a pressing head, the pressing mechanism is respectively arranged at the end part and two sides of the tire mold frame, when the liner plate is placed, the tire mold air cylinder firstly extends out, the top and bottom tire molds are pushed outwards to a working position, the liner plate is placed by being attached to the tire molds, and then the sucking disc component adsorbs the plate and the pressing mechanism presses the plate; when all the plates of the inner container are adsorbed by the sucking disc, the positions of all the plates are not changed when the inner container is occluded under the action of the end parts and the pressing mechanisms on the two sides.

7. The machine of claim 1, wherein: the hob mechanism consists of a slide rail, a forming occlusion hob shaft, a forming occlusion hob seat, a forming occlusion hob, a idler wheel and a sliding plate support, the sliding plate support is connected with a base sliding shoe on the base in a matched mode through the slide rail, and the lower face of the sliding plate support is connected with the track die in a matched mode through the idler wheel; the sliding plate bracket is connected with a forming occlusion hob shaft and a forming occlusion hob through a forming occlusion hob seat; when the movable base moves relative to the base, the track mold moves relative to the idler wheel, and meanwhile, the forming occlusion hob on the sliding plate support and the forming occlusion hob on the movable base are driven to move relative to each other.

8. The machine of claim 7, wherein: and the last group of hob mechanisms is provided with a pressure cylinder and a needle roller guide rail, the pressure cylinder is arranged on the sliding plate support through a pressure cylinder mounting seat and is connected with a push block, the push block is in fit connection with the needle roller guide rail fixed on the sliding plate support, and the position of the formed occlusion hob is adjusted by the pressure cylinder, so that the distance between the formed occlusion hob and a moulding bed can be adjusted, and the pressure during occlusion can be increased.

9. The machine of claim 1, wherein: the dish-washing machine inner container undercut machine is also provided with an atomization spraying system, the spraying system consists of a box body, a pressurizing pump assembly, a pipeline and an atomization nozzle, the pressurizing pump assembly is installed on the box body and is connected with the atomization nozzle through the pipeline, when the inner container moves relative to the forming undercut hob, the forming undercut hob is driven to rotate clockwise, the atomization nozzle sprays oil-water mixture on the forming undercut hob, the forming undercut hob adhered with the oil-water mixture is engaged with the inner container again, and glue can be prevented from adhering to the forming undercut hob; the atomizing nozzle is arranged on the tire mold frame, and the box body and the pressure pump assembly are arranged on the movable base or fixedly arranged on the base.