阅读说明：本技术 一种高效旋转造型机及其使用方法 (Efficient rotary molding machine and using method thereof ) 是由 李益 于 2021-09-07 设计创作，主要内容包括：本发明涉及一种高效旋转造型机,包括机体,旋转件,旋转件呈竖直向活动安装在机体内,旋转件上可拆卸安装有两套压砂组件,旋转件上设置有驱动件,驱动件一一对应驱动压砂组件沿旋转件的竖直方向自由位移,机体内还设置有接型组件与造型组件,接型组件与造型组件分别设置在旋转件的左右两侧,旋转件带动两套压砂组件在接型组件与造型组件之间做往返式回旋运动,造型组件包括上射砂箱、下射砂箱、上液压缸与下液压缸,上液压缸与下液压缸分别安装在机体的顶部与底部,上液压缸及下液压缸分别驱动上射砂箱及下射砂箱向压砂组件靠拢或者远离,所述上射砂箱及下射砂箱侧部开口。本发明使用双工位实现射砂造型,生产速率快,节拍好。(The invention relates to a high-efficiency rotary molding machine, which comprises a machine body and a rotary piece, wherein the rotary piece is vertically and movably arranged in the machine body, two sets of sand pressing assemblies are detachably arranged on the rotary piece, driving pieces are arranged on the rotary piece and drive the sand pressing assemblies to freely move along the vertical direction of the rotary piece in a one-to-one correspondence manner, a connecting assembly and a molding assembly are also arranged in the machine body, the connecting assembly and the molding assembly are respectively arranged at the left side and the right side of the rotary piece, the rotary piece drives the two sets of sand pressing assemblies to do reciprocating type rotary motion between the connecting assembly and the molding assembly, the molding assembly comprises an upper shooting box and a lower shooting box, the upper hydraulic cylinder and the lower hydraulic cylinder are respectively arranged at the top and the bottom of the machine body, the upper hydraulic cylinder and the lower hydraulic cylinder respectively drive the upper sand shooting box and the lower sand shooting box to move close to or away from the sand pressing assembly, and the side parts of the upper sand shooting box and the lower sand shooting box are provided with openings. The invention realizes sand shooting molding by using double stations, and has high production speed and good beat.)

1. An efficient rotary molding machine, characterized in that: the molding machine comprises a machine body and a rotating piece, wherein the rotating piece is vertically and movably arranged in the machine body, two sets of sand pressing assemblies are detachably arranged on the rotating piece, driving pieces are arranged on the rotating piece and drive the sand pressing assemblies to freely move along the vertical direction of the rotating piece in a one-to-one correspondence manner, a connecting assembly and a molding assembly are further arranged in the machine body, the connecting assembly and the molding assembly are respectively arranged at the left side and the right side of the rotating piece, the rotating piece drives the two sets of sand pressing assemblies to do reciprocating type rotary motion between the connecting assembly and the molding assembly, the molding assembly comprises an upper sand shooting box, a lower sand shooting box, an upper hydraulic cylinder and a lower hydraulic cylinder, the upper hydraulic cylinder and the lower hydraulic cylinder are respectively arranged at the top and the bottom of the machine body, and respectively drive the upper sand shooting box and the lower sand shooting box to approach or be far away from the sand pressing assemblies, the side openings of the upper sand shooting box and the lower sand shooting box are arranged.

2. A high efficiency rotary molding machine as claimed in claim 1, wherein: the rotating part comprises a motor, a positioning shaft and four guide posts, the end parts of the two ends of the positioning shaft are connected with the bottom of the machine body, a turntable and a bottom plate are movably sleeved on the positioning shaft, the guide posts are perpendicularly installed between the connecting turntable and the bottom plate and are uniformly surrounded by the positioning shaft, the motor is installed at the upper end of the machine body, the output end of the motor penetrates through the machine body and is movably connected with the turntable and is provided with two sets of sand pressing assemblies which are respectively parallel to the guide posts, the driving part is installed on the turntable or the bottom plate, and the output end of the driving part is connected with the sand pressing assemblies.

3. A high efficiency rotary molding machine as claimed in claim 2, wherein: the bottom of the machine body is further provided with a buffer cylinder, an included angle exists between the output direction of the buffer cylinder and the edge of the bottom plate, and bulges are arranged at four edges of the bottom plate.

4. A high efficiency rotary molding machine as claimed in claim 3, wherein: the connecting assembly comprises an upper molding oil cylinder and a lower molding oil cylinder, the upper molding oil cylinder and the lower molding oil cylinder are respectively arranged at the top and the bottom of the machine body, the output ends of the upper molding oil cylinder and the lower molding oil cylinder are respectively provided with a push plate, and the output ends of the upper molding oil cylinder and the lower molding oil cylinder move towards one side of the sand pressing assembly in opposite directions.

5. A high efficiency rotary molding machine as claimed in claim 4, wherein: the driving member is an electric cylinder, a hydraulic cylinder or an air cylinder.

6. A high efficiency rotary molding machine as claimed in claim 1, wherein: still be provided with last sand subassembly in the organism with lower sand subassembly of advancing, go up sand subassembly and advance sand subassembly lower extreme all is provided with the side opening down.

7. A high efficiency rotary molding machine as claimed in claim 6, wherein: the molding assembly is characterized by further comprising a mold mounting frame, the mold mounting frame comprises a stand column, a supporting plate and a driving air cylinder, the two ends of the stand column are connected with the top and the bottom of the machine body, the end part of the supporting plate is movably connected with the stand column, the driving air cylinder is installed at the bottom of the machine body, and the output end of the driving air cylinder is connected with the supporting plate.

8. A high efficiency rotary molding machine as claimed in claim 7, wherein: the sand pressing assembly comprises an upper sand pressing box and a lower sand pressing box, the upper sand pressing box and the lower sand pressing box are both square frames, the upper sand pressing box and the lower sand pressing box are detachably connected with the guide post through sliding sleeves, the output end of the driving piece is connected with the sliding sleeves, and the upper sand pressing box is located right above the lower sand pressing box.

9. A high efficiency rotary molding machine as claimed in claim 1 or 8, wherein: the external protective housing that still installs additional of organism, the protective housing sets up outside the organism, bottom of the body still is provided with the base.

10. The use method of the high-efficiency rotary molding machine is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1, supporting a mold in the middle of the molding assembly, driving an empty sand pressing assembly to be switched into a position between an upper sand shooting box and a lower sand shooting box by a rotating piece, and clamping the mold in the sand pressing assembly;

s2, the upper hydraulic cylinder and the lower hydraulic cylinder respectively drive the upper sand shooting box and the lower sand shooting box to approach and abut against the sand pressing assembly, and sand shooting modeling is started;

s3, after the sand shooting modeling is finished, the upper hydraulic cylinder and the lower hydraulic cylinder respectively drive the upper sand shooting box and the lower sand shooting box to reset, and the driving piece drives the sand pressing assembly to move in the vertical direction to be separated from the mold;

s4, the rotating piece drives the sand pressing assembly carrying the sand mold to rotate, and the sand pressing assembly is transferred into a mold receiving assembly to carry out mold receiving and material removing; meanwhile, the synchronous rotation degree of the sand pressing assembly which is originally vacant in the molding receiving assembly is transferred into the molding assembly for sand shooting molding;

and S5, repeating the steps.

Technical Field

The invention relates to the technical field of sand mold molding equipment, in particular to an efficient rotary molding machine and a using method thereof.

Background

Steel, iron and most nonferrous metal castings can be obtained by sand casting. The manufacturing material used for sand casting is cheap and easy to obtain, the casting mould is simple and convenient to manufacture, and the casting mould can adapt to single-piece production, batch production and mass production of castings, and is a basic process in casting production for a long time. A molding machine is used in the sand casting process. The action flow in the moulding process of the existing moulding equipment is complex, sand shooting, die casting, die parting and mould connecting can be completed in a single station, and then the material can be discharged, so that the moulding efficiency is low.

Disclosure of Invention

Accordingly, it is necessary to provide an efficient rotary molding machine and a method of using the same, in order to solve the problem of low molding efficiency of conventional sand mold casting.

The utility model provides a high-efficient rotatory molding machine, includes the organism, the rotating member is vertical to movable mounting in the organism, demountable installation has two sets of sand pressing assemblies on the rotating member, be provided with the driving piece on the rotating member, the driving piece one-to-one drive the sand pressing assembly is followed the vertical direction free displacement of rotating member, still be provided with in the organism and connect type subassembly and molding subassembly, connect type subassembly with molding subassembly sets up respectively the left and right sides of rotating member, the rotating member drives two sets the sand pressing assembly is in connect type subassembly with do the back and forth formula rotary motion between the molding subassembly, molding subassembly includes shooting box, last pneumatic cylinder and lower pneumatic cylinder, last pneumatic cylinder with lower pneumatic cylinder installs respectively the top and the bottom of organism, go up the pneumatic cylinder and lower pneumatic cylinder drive respectively shooting box and shooting box draw close to sand pressing assembly or far away And the side parts of the upper sand shooting box and the lower sand shooting box are opened.

Preferably, the rotating member includes the motor, location axle and four guide posts, the both ends tip of location axle with the top and the bottom of organism are connected, the epaxial movable sleeve of location is equipped with carousel and bottom plate, four the guide post is installed perpendicularly connect between carousel and the bottom plate, four the guide post evenly centers on the location axle sets up, the motor is installed in the organism upper end, the output of motor runs through the organism with carousel swing joint, two sets the sand pressing subassembly is respectively with two that are parallel the connection can be dismantled to the guide post, and is a plurality of the driving piece is installed on carousel or the bottom plate, the output of driving piece with the sand pressing subassembly is connected.

Preferably, the bottom of the machine body is further provided with a buffer cylinder, an included angle exists between the output direction of the buffer cylinder and the edge of the bottom plate, and the four corners of the bottom plate are provided with bulges.

Preferably, the connecting assembly comprises an upper molding oil cylinder and a lower molding oil cylinder, the upper molding oil cylinder and the lower molding oil cylinder are respectively arranged at the top and the bottom of the machine body, the output ends of the upper molding oil cylinder and the lower molding oil cylinder are respectively provided with a push plate, and the output ends of the upper molding oil cylinder and the lower molding oil cylinder move towards one side of the sand pressing assembly in opposite directions.

Preferably, the drive member is an electric cylinder, a hydraulic cylinder or an air cylinder.

Preferably, still be provided with the upper sand subassembly in the organism with lower sand subassembly, the upper sand subassembly with lower sand subassembly lower extreme all is provided with the side opening.

Preferably, the molding assembly further comprises a mold mounting frame, the mold mounting frame comprises a stand column, a supporting plate and a driving cylinder, the two ends of the stand column are connected with the top and the bottom of the machine body, the end part of the supporting plate is movably connected with the stand column, the driving cylinder is mounted at the bottom of the machine body, and the output end of the driving cylinder is connected with the supporting plate.

Preferably, the sand pressing assembly comprises an upper sand pressing box and a lower sand pressing box, the upper sand pressing box and the lower sand pressing box are both in a square frame shape, the upper sand pressing box and the lower sand pressing box are detachably connected with the guide post through a sliding sleeve, the output end of the driving piece is connected with the sliding sleeve, and the upper sand pressing box is located right above the lower sand pressing box.

Preferably, a protective shell is additionally arranged outside the machine body, the protective shell is arranged outside the machine body, and a base is further arranged at the bottom of the machine body.

A method for using a high-efficiency rotary molding machine comprises the following steps,

s1, supporting a mold in the middle of the molding assembly, driving an empty sand pressing assembly to be switched into a position between an upper sand shooting box and a lower sand shooting box by a rotating piece, and clamping the mold in the sand pressing assembly;

s2, the upper hydraulic cylinder and the lower hydraulic cylinder respectively drive the upper sand shooting box and the lower sand shooting box to approach and abut against the sand pressing assembly, and sand shooting modeling is started;

s3, after the sand shooting modeling is finished, the upper hydraulic cylinder and the lower hydraulic cylinder respectively drive the upper sand shooting box and the lower sand shooting box to reset, and the driving piece drives the sand pressing assembly to move in the vertical direction to be separated from the mold;

s4, the rotating piece drives the sand pressing assembly carrying the sand mold to rotate, and the sand pressing assembly is transferred into a mold receiving assembly to carry out mold receiving and material removing; meanwhile, the synchronous rotation degree of the sand pressing assembly which is originally vacant in the molding receiving assembly is transferred into the molding assembly for sand shooting molding;

and S5, repeating the steps.

The invention has the advantages that: 1. two sets of sand pressing assemblies are arranged on a rotating part in the machine body at an interval of 180 degrees, and the rotating part is utilized to drive the two sets of sand pressing assemblies to rotate back and forth in the molding assembly and the mold receiving assembly, so that the two sets of sand pressing assemblies respectively complete molding and mold receiving work, the production efficiency is greatly improved, and the original 120-mold times is improved to 180-mold times; 2. the rotating piece drives the two sets of sand pressing assemblies to do rotary motion, so that the rotating piece is prevented from rotating all the time in the sand shooting and molding process, the driving part of the rotating piece is easy to break down, and the maintenance cost is increased; 3. after the sand pressing assembly enters the molding assembly under the driving of the rotating part, the three steps of sand shooting, die casting and box separation can be completed in one station of the molding assembly by matching with a mold arranged in the middle of the molding assembly, and the molding assembly has good synchronous cooperation and high efficiency; 4. the sand pressing assembly and the upper sand shooting box and the lower sand shooting box in the molding assembly are of split design, when sand is shot for molding, the upper sand shooting box and the lower sand shooting box are respectively positioned at the upper end and the lower end of the sand pressing assembly to play a role in blocking the upper end and the lower end of the sand pressing assembly, the die-cast sand mold is positioned in the closed sand pressing assembly, the sand mold is more compact, and collapse cannot occur.

Drawings

FIG. 1 is a schematic perspective view of one embodiment of a high-efficiency rotary molding machine;

FIG. 2 is a partial perspective view of a high efficiency rotary molding machine;

FIG. 3 is a schematic, partial front view of a high efficiency rotary molding machine;

FIG. 4 is a perspective view of the assembly of the rotary member, the driving member and the sand-pressing assembly.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 4, an efficient rotary molding machine includes a machine body 1 and a rotary member 2, wherein the rotary member 2 is vertically and movably installed in the machine body 1, two sets of sand pressing assemblies 3 are detachably installed on the rotary member 2, driving members 4 are installed on the rotary member 2, the driving members 4 drive the sand pressing assemblies 3 to freely move along the vertical direction of the rotary member 2 in a one-to-one correspondence manner, a molding receiving assembly 5 and a molding assembly 6 are further installed in the machine body 1, the molding receiving assembly 5 and the molding assembly 6 are respectively installed on the left side and the right side of the rotary member 2, the rotary member 2 drives the two sets of sand pressing assemblies 3 to make reciprocating type rotary motion between the molding receiving assembly 5 and the molding assembly 6, the molding assembly 6 includes an upper sand shooting box 61, a lower sand shooting box 62, an upper hydraulic cylinder 63 and a lower hydraulic cylinder 64, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 are respectively installed on the top and the bottom of the machine body 1, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 drive the upper shooting box 61 and the lower shooting box 62 to approach or separate from the sand pressing assembly 3, respectively, and the side portions of the upper shooting box 61 and the lower shooting box 62 are open. Specifically, in this embodiment, the rotating member 2 is vertical to movable mounting in organism 1, the electricity back is gone up to the rotating member 2, not only self can rotate, can also drive two sets of sand pressing assemblies 3 of being connected with the rotating member 2 and rotate, because two sets of sand pressing assemblies 3 are that a straight line is vertical in rotating member 2 both sides, consequently, when one set of sand pressing assembly 3 gos into the type of connecing subassembly 5, another set of sand pressing assembly 6 must get into the molding assembly 6, connect type or molding process to the sand pressing assembly 3 in it through type of connecing subassembly 5 and molding assembly 6 in step, sand mould production efficiency has been improved greatly, save production time, reduce cost. It should be noted that, in this embodiment, two sets of sand pressing assemblies 3 are disposed on two sides of the rotating member 2 to correspond to the mold receiving assemblies 5 and the molding assemblies 6 on two sides of the rotating member 2, and the rotating member 2 drives the two sets of sand pressing assemblies 3 to perform reciprocating rotary motion between the mold receiving assemblies 5 and the molding assemblies 6 through driving components such as a servo motor, that is, after one set of sand pressing assemblies 3 completes mold receiving in the mold receiving assemblies 5, the other set of sand pressing assemblies 3 completes sand shooting and molding in the molding assemblies 6, the time consumption of the two is close, and the time difference is only within 5s, so that the non-production time consumed when the rotating member 2 drives the sand pressing assemblies 3 to rotate is greatly saved, the overall production time of a single sand mold from sand shooting to mold receiving discharging is reduced, and the production efficiency is further improved. In addition, because the rotating part 2 does reciprocating rotary motion, the driving part of the rotating part 2 does not need to drive the rotating part 2 to continuously do rotary motion in the production process, the load of the driving part is greatly reduced, and the failure rate of the driving part is reduced. Further, the molding assembly 6 includes an upper sand shooting box 61, a lower sand shooting box 62, an upper hydraulic cylinder 63 and a lower hydraulic cylinder 64, it can be understood that when the upper sand shooting box 61 and the lower sand shooting box 62 start to shoot sand, raw materials required by sand molds are accumulated in the upper sand shooting box 61 and the lower sand shooting box 62, the upper sand shooting box 61 is connected with the top of the machine body 1 through the upper hydraulic cylinder 63, the lower sand shooting box 62 is connected with the bottom of the machine body 1 through the lower hydraulic cylinder 64, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to approach to the middle sand-pressing assembly 3, and the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively press loose raw material sand in the upper sand shooting box 61 and the lower sand shooting box 62 into the sand-pressing assembly 3 to match with the sand-pressing assembly 3, thereby completing molding. It should be noted that, in the present technical solution, lateral sand shooting is adopted, that is, after the upper sand shooting box 61 and the lower sand shooting box 62 are driven to the designated positions and abutted to the sand pressing assembly 3, the lateral sides of the upper sand shooting box 61 and the lower sand shooting box 62 are blown with sand and flow into the sand pressing assembly 3, and lateral air blowing sand shooting is adopted, so that the raw material sand can be effectively prevented from caking, the uneven spreading of the sand mold surface can be prevented, and the sand mold formed in the sand pressing assembly 3 is loose and easy to break. Meanwhile, the moving distance of the upper shooting box 61, the lower shooting box 62 and the sand pressing assembly 3 in the vertical direction is larger, the height of the produced sand mold is higher, and the sand molds with different sizes are adapted to be more, so that the sand molding machine is convenient to popularize and use. In addition, because the upper sand shooting box 61 and the lower sand shooting box 62 shoot sand laterally, the sand inlet on the upper sand shooting box is not in direct contact with the sand pressing assembly 3, so the sand pressing assemblies 3 with different sizes can be replaced according to different sand moulds, and the matching performance is very strong. It can be understood that, the mould (not shown in the figure) is arranged in the sand pressing component 3 during modeling, in order to avoid collision between the sand pressing component 3 and the mould when the sand pressing component 3 is turned into the modeling component 6, the sand pressing component 3 can be designed into an up-and-down split type, the driving part 4 arranged in the rotating part 2 can separate and fold the sand pressing component 3, and the sand pressing component 3 is convenient to separate and combine. Furthermore, after the sand shooting is completed, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to reset, the stress applied to the upper end and the lower end of the sand pressing component 3 is removed, the sand pressing component 3 can be separated under the action of the driving part 4, after the separation, a mold in the sand pressing component 3 cannot interfere with the rotation of the sand pressing component 3, the sand pressing component 3 can be driven by the rotating part 2 to enter the molding receiving component 5 to automatically perform molding receiving and discharging, the molding receiving component 5 can adopt a manipulator, a hydraulic cylinder or other driving parts, a molded sand mold is taken out from the separated sand pressing component 3, the discharging speed is high, full-automatic molding receiving and discharging is completely realized, and the labor cost is reduced. The circulation realizes the automatic synchronous production of the molding and the connecting mold, the production rhythm is good, the efficiency is high, the production cost of a single sand mold is reduced, and the market competition is more facilitated.

As shown in fig. 2 to 4, the rotating member 2 includes a motor 21, a positioning shaft 22 and four guide posts 23, end portions of two ends of the positioning shaft 22 are connected to the top and the bottom of the machine body 1, a rotating disc 221 and a bottom plate 222 are movably sleeved on the positioning shaft 22, the four guide posts 24 are vertically installed between the connecting rotating disc 221 and the bottom plate 222, the four guide posts 24 are uniformly arranged around the positioning shaft 22, the motor 21 is installed at the upper end of the machine body 1, an output end of the motor 21 penetrates through the machine body 1 and is movably connected to the rotating disc 221, two sets of the sand compacting assemblies 3 are detachably connected to two parallel guide posts 23, the driving member 4 is installed on the rotating disc 221 or the bottom plate 222, and an output end of the driving member 4 is connected to the sand compacting assembly 3. Specifically, in this embodiment, the motor 21 is installed on the top of the machine body 1, and the motor 21 may be movably connected to the turntable 221 at the end of the positioning shaft 22 in a belt, chain or gear engagement manner, so as to drive the turntable 221 to rotate. When the rotary table 221 rotates, the four guide posts 23 installed between the rotary table 221 and the bottom plate 222 rotate synchronously, so that the design purpose of driving the two sets of sand pressing assemblies 3 to do 180-degree reciprocating rotary motion is realized. It should be noted that, the guide post 23 is used for installing the sand pressing assembly 3, so that the driving piece 4 can drive the sand pressing assembly 3 to move up and down, the sand pressing assembly can only move along the vertical direction when the boxes are combined and separated, the sand cannot deviate, the sand leakage phenomenon cannot occur in the process of combining the boxes and performing tight joint sealing, and the sand cannot leak in the shape.

As shown in fig. 2 to 4, the bottom of the machine body 1 is further provided with a buffer cylinder 7, an included angle exists between the output direction of the buffer cylinder 7 and the edge of the bottom plate 222, and protrusions 2221 are arranged at four corners of the bottom plate 222. Specifically, when the rotating member 2 drives two sets of sand pressing assemblies 3 to rotate, because one set of sand pressing assemblies 3 carries sand molds, the other set of sand pressing assemblies 3 is empty, the rotating member 2 can cause the two sets of sand pressing assemblies 3 to respectively transfer to the receiving assembly 5 and the modeling assembly 6 because of the rotating speed of the motor 21 and the self inertia factor, the position is deviated, and therefore the buffer cylinder 7 is arranged at the bottom of the machine body 1, because the bottom plate 222 synchronously rotates with the sand pressing assemblies 3, in the embodiment, the bottom of the machine body 1 is provided with the two buffer cylinders 7, the two buffer cylinders 7 are matched with each other, the output end extends, the bottom plate 222 is clamped at the protrusion 2221, the bottom plate 222 is clamped, and further, the rotating member 2 is prevented from integrally continuously rotating, and the sand pressing assemblies 3 can be stopped. Prevent because of inertia reason and rotating member 2 focus skew etc. factor, when leading to the sand pressing subassembly 3 to rotate, the position deviation appears, leads to molding and connects the type trouble.

As shown in fig. 2 to 3, the mold receiving assembly 5 includes an upper mold discharging cylinder 51 and a lower mold discharging cylinder 52, the upper mold discharging cylinder 51 and the lower mold discharging cylinder 52 are respectively installed at the top and the bottom of the machine body 1, the output ends of the upper mold discharging cylinder 51 and the lower mold discharging cylinder 52 are respectively provided with a push plate 511, and the output ends of the upper mold discharging cylinder 51 and the lower mold discharging cylinder 52 are displaced toward the sand pressing assembly 3. Specifically, in this embodiment, after the sand pressing assembly 3 enters the mold receiving assembly 5, the push plates 511 at the ends of the upper mold discharging cylinder 51 and the lower mold discharging cylinder 52 extend into the corresponding sand pressing assembly 3 to push the sand mold, so that the side portion of the sand mold is separated from the sand pressing assembly 3, and the mold receiving and mold discharging step is completed. The empty sand pressing component 3 is driven by the rotating component 2 to be transferred into the modeling component 6, and the cycle is repeated, so that the rhythm of the production rhythm is good, and the production efficiency is improved.

In particular, the driving member 4 is an electric cylinder, a hydraulic cylinder or an air cylinder. What adopt in this technical scheme is the electric jar, and the backstage controller of being convenient for is accurate to be controlled, and ageing is good, and reaction rate is fast, and small, and it is little to occupy the area of carousel 221, and then reduces the whole area of carousel 221, reduces the whole volume of rotating member 2.

As shown in fig. 2 to 3, the molding assembly 6 further includes a mold mounting frame 65, the mold mounting frame 65 includes a pillar 651, a supporting plate 652 and a driving cylinder 653, both ends of the pillar 651 are connected to the top and bottom of the machine body 1, an end of the supporting plate 652 is movably connected to the pillar 651, the driving cylinder 653 is installed at the bottom of the machine body 1, and an output end of the driving cylinder 653 is connected to the supporting plate 652. Specifically, in this embodiment, in order to realize the automatic replacement of different molds, the stand 651 is used to cooperate with the supporting plate 652 to support the mold, the driving cylinder 653 is installed at the bottom of the machine body 1, the output end of the driving cylinder 653 is connected with the supporting plate 652, the supporting plate 652 is driven to vertically displace up and down along the stand 651, when the supporting plate 652 moves to the bottom, the mold can be replaced by a manipulator or a direct manual operation, and then the driving cylinder 653 drives the supporting plate 652 to ascend to the middle part, thereby completing the mold replacement operation.

As shown in fig. 1 to 3, an upper sand feeding assembly 8 and a lower sand feeding assembly 9 are further arranged in the machine body 1, and side openings 81 are respectively arranged at the lower ends of the upper sand feeding assembly 8 and the lower sand feeding assembly 9. Specifically, in this embodiment, in order to realize continuous shooting modeling, an upper sand shooting assembly 8 and a lower sand shooting assembly 9 are further disposed in the machine body 1, after the upper sand shooting box 61 and the lower sand shooting box 62 are respectively driven by the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 to abut against the sand pressing assembly 3, the side openings 81 of the upper sand shooting assembly 8 and the lower sand shooting assembly 9 are respectively communicated with the upper sand shooting box 61 and the lower sand shooting box 62, and under the external blowing action, raw material sand respectively enters the upper sand shooting box 61 and the lower sand shooting box 62 through the upper sand shooting assembly 8 and the lower sand shooting assembly 9, and then enters the closed sand pressing assembly 3. It should be noted that, because this technical scheme adopts the mode of side direction blowing sand feeding, avoids adopting original formula sand shooting from top to bottom, can effectively reduce the height of complete machine, secondly, go up sand subassembly 8 and down sand subassembly 9 all vertically to installing in organism 1, all be provided with switching device in it for play the separation effect.

As shown in fig. 2 to 4, the sand-pressing assembly 3 includes an upper sand-pressing box 31 and the lower sand-pressing box 32, the upper sand-pressing box 31 and the lower sand-pressing box 32 are both in a square frame shape, both the upper sand-pressing box 31 and the lower sand-pressing box 32 are detachably connected to the guide posts 23 by sliding sleeves 33, the output end of the driving member 4 is connected to the sliding sleeves 33, and the upper sand-pressing box 31 is located right above the lower sand-pressing box 32. Specifically, in the present embodiment, the upper sand-pressing box 31 and the lower sand-pressing box 32 are in a box shape, but in other embodiments, they may have other shapes such as a cylindrical shape, as long as they can seal the sand mold. The side parts of the upper sand-pressing box 31 and the lower sand-pressing box 32 are connected with the guide posts 23 through sliding sleeves 33, and the output end of the driving piece 4 is connected with the sliding sleeves 33 to drive the upper sand-pressing box 31 and the lower sand-pressing box 32 to move along the guide posts 23, so that the box closing and box separating operation is realized. It should be noted that the upper sand-pressing box 31, the lower sand-pressing box 32 and the sliding sleeve 33 are all connected by bolts, which is convenient for disassembly and replacement during maintenance.

As shown in fig. 1, a protective shell 11 is further installed outside the machine body 1, the protective shell 11 is arranged outside the machine body 1, and a base 12 is further arranged at the bottom of the machine body 1. Specifically, a protective shell 11 is arranged outside the machine body 1 to play a protective role, a base 12 is arranged at the bottom of the machine body 1 to heighten the machine body 1, and an installation space is reserved for the lower discharging oil cylinder 52 and the lower hydraulic cylinder 64.

A method for using a high-efficiency rotary molding machine comprises the following steps,

s1, supporting a mold in the middle of the molding assembly 6, driving the vacant sand pressing assembly 3 to rotate to a position between the upper sand shooting box 61 and the lower sand shooting box 62 by the rotating piece 2, and clamping the mold in the sand pressing assembly 3;

s2, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to approach and abut against the sand pressing assembly 3, and sand shooting modeling is started;

s3, after the sand shooting modeling is finished, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to reset, and the driving piece drives the sand pressing component 3 to displace in the vertical direction to separate from the mold;

s4, the rotating piece 2 drives the sand pressing assembly 3 carrying the sand mold to rotate 180 degrees, and the sand pressing assembly is transferred into the mold receiving assembly 5 to carry out mold receiving and material removing; meanwhile, the sand pressing assembly 3 which is empty originally in the molding receiving assembly 5 rotates 180 degrees synchronously and is transferred into the molding assembly 6 for sand shooting molding;

and S5, repeating the steps.

Specifically, when shooting sand molding, the sand pressing component 3 is in a box-separating state, and under the drive of the rotating component 2, the sand pressing component 6 is shifted to, then the driving component 4 drives the sand pressing component 3 to close the box, and the mold is clamped in the sand pressing component 3, and at the moment, the upper sand shooting box 61 and the lower sand shooting box 62 are respectively positioned right above and below the sand pressing component 3. Furthermore, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to approach and abut against the sand pressing assembly 3, so as to start sand shooting and molding, and loose sand in the upper sand shooting box 61 and the lower sand shooting box 62 is sent into the sand pressing assembly 3, and a sand mold with a certain cavity shape is formed by matching with a mold. Further, the upper hydraulic cylinder 63 and the lower hydraulic cylinder 64 respectively drive the upper sand shooting box 61 and the lower sand shooting box 62 to reset, so that the upper sand shooting box 61 and the lower sand shooting box 62 are both separated from the sand-pressing assembly 3, and thereafter, the driving member 4 drives the sand-pressing assembly 3 to displace in the vertical direction to separate from the mold. It should be noted that, at this time, the sand pressing assembly 3 is separated, and the sand mold therein does not fall down depending on the friction between itself and the side wall of the sand pressing assembly 3. Furthermore, the rotating part 2 drives the sand pressing assembly to rotate 180 degrees, the sand pressing assembly enters the mould receiving assembly 5, and the sand mould can be taken out of the sand pressing assembly 5 by utilizing driving parts such as a hydraulic cylinder or a mechanical arm arranged in the mould receiving assembly 5, so that the mould receiving and stripping steps are completed. After the model receiving is finished, the vacant sand pressing component 5 can be rotated into the modeling component 6 to perform sand shooting modeling. The sand mould is characterized in that the sand pressing assemblies are arranged on the left side and the right side of the mould, the mould connecting assemblies 5 and the moulding assemblies 6 are arranged on the left side and the right side of the mould, the mould is continuously connected and moulded, the production rhythm is very good, the production efficiency of the sand mould is greatly improved, the speed is increased by 30% compared with different single stations and multiple stations, and the production cost of the sand mould is greatly reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.