CN216732640U - Homogenate equipment for horizontal die - Google Patents

Abstract

The utility model relates to homogenizing equipment for a horizontal die, which comprises a protective shell, a sliding bearing frame, a fixing tool and a driving assembly, wherein the protective shell is fixedly arranged on the sliding bearing frame; the sliding bearing is erected in the protective shell and is in sliding connection with the protective shell; the fixing tool is rotationally connected with the sliding bearing frame, the fixing tool is used for fixing a die, and the direction of the rotating axis of the fixing tool is the same as the sliding direction of the sliding bearing frame; the output end of the driving assembly is connected with the sliding bearing frame and the fixed tool so as to drive the sliding bearing frame to slide in a reciprocating manner and drive the fixed tool to rotate; the problem that slurry is not uniformly distributed in the direction of the rotation axis of the die is solved.

Description

Homogenate equipment for horizontal die

Technical Field

The utility model relates to the technical field of molding production equipment, in particular to homogenizing equipment for a horizontal mold.

Background

The slip casting process is simple, is suitable for producing products with complex and irregular shapes, non-strict requirements on the appearance and the size, thin walls and large thick tires, and has the following principle: and injecting the slurry with higher solid content and good fluidity into a porous mold, wherein the inner wall of the mold absorbs water from the slurry due to capillary suction of the porosity of the mold so as to form a solidified blank along the mold wall, and demolding after the blank has certain strength. However, in the conventional grouting, the phenomenon that the slurry is unevenly distributed in the mold is easy to occur, so that the bad phenomena such as layering and the like are caused, and the quality of a molded product is further influenced.

In order to solve the problem of uneven distribution of the slurry in the mold and make the slurry in the mold evenly distributed, the patent with the application number of CN201922166338.5 proposes a homogenizing device for mold, the rotation of the motor drives the rotation of the rotating rod and further drives the rotating box to rotate, the rotating box moves relative to the supporting rod, the supporting rod drives the output end of the rotating box to rotate, and the slurry in the mold can be evenly distributed and solidified in the mold under the rotating action of the output end of the rotating box and the rotating rod in different directions, so as to obtain a molded product with better quality.

However, the above structure can make the slurry uniformly distributed along the circumferential direction of the rotation direction of the mold, and it is difficult to solve the problem that the slurry is not uniformly distributed in the direction of the rotation axis of the mold.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a homogenizing apparatus for a horizontal mold, which solves the problem of uneven distribution of slurry in the direction of the rotation axis of the mold.

The utility model provides homogenizing equipment for a horizontal die, which comprises a protective shell, a sliding bearing frame, a fixing tool and a driving assembly, wherein the protective shell is fixedly arranged on the sliding bearing frame; the sliding bearing is erected in the protective shell and is in sliding connection with the protective shell; the fixing tool is rotationally connected with the sliding bearing frame, the fixing tool is used for fixing a die, and the direction of the rotating axis of the fixing tool is the same as the sliding direction of the sliding bearing frame; the output end of the driving assembly is connected with the sliding bearing frame and the fixing tool, and the driving assembly is used for driving the sliding bearing frame to slide in a reciprocating mode and driving the fixing tool to rotate.

Furthermore, the driving assembly comprises a rotating part and an axial pushing part, the output end of the rotating part is connected with the fixed tool to drive the fixed tool to rotate, and the output end of the axial pushing part is connected with the sliding bearing frame to drive the sliding bearing frame to slide in a reciprocating manner.

Further, the rotating part comprises a motor, the motor is fixedly connected with the sliding bearing frame, and an output shaft of the motor is connected with the fixed tool.

Furthermore, the axial pushing part comprises a rotating shaft, a fixed shaft, a first force arm and a second force arm, the rotating shaft and the fixed shaft are both perpendicular to the sliding direction of the sliding bearing frame, the rotating shaft is rotatably connected with the sliding bearing frame, one end of the first force arm is fixedly connected with the rotating shaft, the other end of the first force arm is hinged with one end of the second force arm, and the other end of the second force arm is hinged with the fixed shaft so as to be used for pulling the sliding bearing frame to slide back and forth through the rotation of the rotating shaft.

Further, the length of the first force arm is smaller than that of the second force arm, the larger the length of the first force arm is, the larger the stroke of the sliding bearing frame is, and the smaller the length of the first force arm is, the smaller the stroke of the sliding bearing frame is.

Furthermore, the rotating device further comprises a transmission piece, and the transmission piece is connected with the rotating shaft through the transmission piece so as to be used for driving the rotating shaft to rotate.

Furthermore, the transmission part comprises a speed regulating part and a connecting part, and the transmission part is connected with the rotating shaft through the speed regulating part and the connecting part in sequence.

Further, the speed governing part includes first spur gear, second spur gear and speed governing axle, the connecting piece includes first bevel gear and second bevel gear, the speed governing axle is on a parallel with the axis of rotation setting of fixed frock, the speed governing axle with the sliding bearing frame rotates and connects, first spur gear locates on the fixed frock, the second spur gear is located on the speed governing axle, first spur gear with the meshing is connected between the second spur gear to be used for the speed governing, first bevel gear locates on the speed governing axle, second bevel gear locates in the pivot, first bevel gear with meshing is connected between the second bevel gear, in order to be used for the drive the pivot is rotated.

Further, the sliding bearing frame comprises two bearing seats and a plurality of connecting rods, the two bearing seats are connected through the plurality of connecting rods, the two bearing seats are connected with sliding grooves formed in the inner bottom wall of the protective shell in a sliding mode, and two sides of the fixed tool are connected with the two bearing seats respectively.

Furthermore, fixed frock includes casing, last casing and two rotation axes down, down the casing with can dismantle the connection between the last casing, down the casing with form a fixed cavity between the last casing for the fixed mould of having filled the thick liquid, the both sides of casing respectively with two rotation axis fixed connection down, two the rotation axis all with sliding bearing frame rotates and is connected.

Compared with the prior art, rotate with the sliding bearing frame through setting up fixed frock and be connected, under drive assembly's effect, it rotates to drive fixed frock last fixed mould, make the thick liquid in the mould distribute evenly along its rotation circumferential direction, and simultaneously, through setting up sliding bearing frame and protecting sheathing sliding connection, the axis of rotation direction of fixed frock is the same with the sliding direction of sliding bearing frame, under drive assembly's effect, it slides to drive fixed frock last fixed mould, make the thick liquid in the mould distribute evenly along its axis of rotation direction, the product quality who makes through above-mentioned homogenate equipment is better.

Drawings

FIG. 1 is a schematic view of the overall internal structure of a homogenizing apparatus for a horizontal mold according to the present invention in this embodiment;

fig. 2 is a schematic structural view of the connection between the slide bearing bracket and the protective housing in the embodiment of the homogenizing apparatus for the horizontal mold according to the present invention.

Detailed Description

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the utility model and together with the description, serve to explain the principles of the utility model and not to limit the scope of the utility model.

As shown in fig. 1, the homogenizing apparatus for a horizontal mold in this embodiment includes a protective housing 100, a sliding bearing frame 200, a fixing tool 300 and a driving assembly 400, wherein the fixing tool 300 is disposed in the protective housing 100 via the sliding bearing frame 200, the fixing tool 300 can rotate in the protective housing 100 and slide back and forth along the rotation axis direction thereof, and specifically, the driving assembly 400 is used to realize the bidirectional movement of the fixing tool 300, which will be explained and explained in more detail below.

The protective case 100 in this embodiment is a structure for protecting the entire device.

Specifically, since the fixing tool 300 needs to rotate and slide, if derailing occurs, a safety accident is easily caused, and thus the fixing tool is placed in the protective housing 100, and the safety accident can be effectively avoided.

The sliding bearing housing 200 in this embodiment is disposed inside the protective casing 100 and is slidably connected to the protective casing 100.

The fixing tool 300 is mounted on the sliding bearing frame 200, so as to provide a condition for the rotation of the fixing tool 300, and meanwhile, the sliding of the fixing tool 300 is driven by the sliding of the sliding bearing frame 200 relative to the protection housing 100.

The fixed tool 300 in this embodiment is rotatably connected to the slide bearing frame 200, the fixed tool 300 is used for fixing a mold, and the direction of the rotation axis of the fixed tool 300 is the same as the sliding direction of the slide bearing frame 200.

Wherein, fixed frock 300 is the structure that is used for fixed mould, and through the slip and the rotation of fixed frock 300, the slip and the rotation of the mould that drive to be fixed in on this fixed frock 300 make the thick liquids in the mould distribute more evenly.

The output end of the driving assembly 400 in this embodiment is connected to the sliding bearing frame 200 and the fixing tool 300, so as to drive the sliding bearing frame 200 to slide reciprocally and drive the fixing tool 300 to rotate.

Wherein the sliding and rotation of the mold is achieved by the driving assembly 400.

The driving assembly 400 in this embodiment includes a rotating member and an axial pushing member 500, an output end of the rotating member is connected to the fixing tool 300 for driving the fixing tool 300 to rotate, and an output end of the axial pushing member 500 is connected to the sliding bearing frame 200 for driving the sliding bearing frame 200 to slide reciprocally.

Wherein, rotating the piece and including a motor, motor and sliding bearing frame 200 fixed connection, the output shaft and the fixed frock 300 of motor are connected, and it can be understood that rotates the piece and also can adopt the structure of other forms to replace, as long as can drive fixed frock 300 and rotate.

As shown in fig. 1-2, the axial pushing member 500 includes a rotating shaft 510, a fixed shaft 520, a first force arm 530 and a second force arm 540, the rotating shaft 510 and the fixed shaft 520 are both disposed perpendicular to the sliding direction of the sliding bearing frame 200, the rotating shaft 510 is rotatably connected to the sliding bearing frame 200, one end of the first force arm 530 is fixedly connected to the rotating shaft 510, the other end of the first force arm 530 is hinged to one end of the second force arm 540, and the other end of the second force arm 540 is hinged to the fixed shaft 520, so as to pull the sliding bearing frame 200 to slide back and forth through the rotation of the rotating shaft 510.

The rotation of the rotating shaft 510 drives the first force arm 530 and the second force arm 540 to form different included angles, so as to adjust the relative position between the rotating shaft 510 and the fixed shaft 520, because the rotating shaft 510 is connected with the sliding bearing frame 200, and the fixed shaft 520 is connected with the protective housing 100, so as to challenge the relative position between the sliding bearing frame 200 and the protective housing 100, and because the sliding direction of the sliding bearing frame 200 and the protective housing 100 is limited, the sliding bearing frame 200 can be controlled to slide back and forth relative to the protective housing 100 through the rotation of the rotating shaft 510.

It should be noted that the length of the first force arm 530 is less than the length of the second force arm 540, and the greater the length of the first force arm 530, the greater the travel of the slide bearing frame 200, and the smaller the length of the first force arm 530, the less the travel of the slide bearing frame 200.

In order to reduce the cost, the present embodiment further includes a transmission member 600, the rotation member is connected to the rotation shaft 510 via the transmission member 600, so as to drive the rotation shaft 510 to rotate, and only one motor is required to realize the rotation and sliding of the fixed tool 300.

Wherein, driving medium 600 includes speed governing part 610 and connecting piece 620, driving medium 600 is connected with pivot 510 via speed governing part 610 and connecting piece 620 in proper order, it is specific, speed governing part 610 includes first spur gear, second spur gear and speed governing axle, connecting piece 620 includes first bevel gear and second bevel gear, the speed governing axle is on a parallel with the axis of rotation setting of fixed frock 300, the speed governing axle rotates with sliding bearing frame 200 and is connected, first spur gear is located on fixed frock 300, the second spur gear is located on the speed governing axle, meshing connection between first spur gear and the second spur gear, so that be used for the speed governing, first bevel gear is located on the speed governing axle, second bevel gear is located on pivot 510, meshing connection between first bevel gear and the second bevel gear, so that be used for driving pivot 510 to rotate.

It is understood that the axial pushing member 500 may be replaced by other structures as long as the sliding bearing frame 200 can be driven to slide back and forth.

The sliding bearing frame 200 in this embodiment includes two bearing seats and a plurality of connecting rods 210, and the two bearing seats are connected via the plurality of connecting rods 210, and the two bearing seats are all connected with the sliding groove 111 that is seted up on the inner bottom wall of the protective housing 100 in a sliding manner, and the two sides of the fixed tool 300 are connected with the two bearing seats respectively.

The fixing tool 300 in this embodiment includes a lower casing, an upper casing, and two rotating shafts 510, the lower casing is detachably connected to the upper casing, a fixing cavity is formed between the lower casing and the upper casing for fixing the mold filled with slurry, two sides of the lower casing are respectively fixedly connected to the two rotating shafts 510, and the two rotating shafts 510 are both rotatably connected to the sliding bearing frame 200.

It is understood that the fixing tool 300 may be replaced by other structures as long as the mold can be fixed thereon and be carried to rotate on the sliding bearing frame 200.

In order to facilitate the placement and removal of the mold, the protective casing 100 in this embodiment includes a case body 110 and a case cover 120, a slide bearing bracket 200 is slidably coupled to the case body 110, and the case body 110 is hinged to the case cover 120.

The working process is as follows: the box cover 120 is opened, the mold filled with slurry is fixed on the fixing tool 300, the box cover 120 is closed, the motor is started, the motor drives the fixing tool 300 to rotate, the fixing tool 300 rotates, the slurry in the mold is uniformly distributed along the circumferential direction of the rotation of the fixing tool, meanwhile, the speed reduction function is realized through the first straight gear and the second straight gear, the speed regulating shaft drives the rotating shaft 510 to rotate through the first bevel gear and the second bevel gear, the rotating shaft 510 rotates to drive the first force arm 530 to rotate, in the rotating process of the first force arm 530, the included angle between the first force arm 530 and the second force arm 540 is continuously changed, meanwhile, the distance between the rotating shaft 510 and the fixing shaft 520 is continuously changed, so that the sliding bearing frame 200 is driven to reciprocate relative to the protective shell 100, the slurry in the mold reciprocates along the direction of the rotation axis of the mold, and the slurry is uniformly distributed in the direction of the rotation axis of the mold.

Compared with the prior art: rotate with sliding bearing frame 200 through setting up fixed frock 300 and be connected, under drive assembly 400's effect, the mould that drives fixed on the fixed frock 300 rotates, make the thick liquid in the mould distribute evenly along its rotation circumferential direction, and simultaneously, through setting up sliding bearing frame 200 and protecting sheathing 100 sliding connection, the axis of rotation direction of fixed frock 300 is the same with sliding bearing frame 200's slip direction, under drive assembly 400's effect, the mould that drives fixed on the fixed frock 300 slides, make the thick liquid in the mould distribute evenly along its axis of rotation direction, the product quality who makes through above-mentioned homogenate equipment is better.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (10)

1. A homogenizing device for a horizontal die is characterized by comprising a protective shell, a sliding bearing frame, a fixing tool and a driving assembly;

the sliding bearing is erected in the protective shell and is in sliding connection with the protective shell;

the fixing tool is rotationally connected with the sliding bearing frame, the fixing tool is used for fixing a die, and the direction of the rotating axis of the fixing tool is the same as the sliding direction of the sliding bearing frame;

the output end of the driving assembly is connected with the sliding bearing frame and the fixing tool, so that the driving assembly is used for driving the sliding bearing frame to slide in a reciprocating mode and driving the fixing tool to rotate.

2. The homogenizing apparatus for the horizontal mold according to claim 1, wherein the driving assembly comprises a rotating member and an axial pushing member, an output end of the rotating member is connected to the fixed tooling for driving the fixed tooling to rotate, and an output end of the axial pushing member is connected to the sliding bearing frame for driving the sliding bearing frame to slide reciprocally.

3. The homogenizing apparatus for the horizontal mold according to claim 2, wherein the rotating member comprises a motor, the motor is fixedly connected to the sliding bearing frame, and an output shaft of the motor is connected to the fixing tool.

4. The horizontal homogenizing apparatus for mold according to claim 2, wherein the axial pushing member includes a rotating shaft, a fixed shaft, a first force arm and a second force arm, the rotating shaft and the fixed shaft are both disposed perpendicular to the sliding direction of the sliding bearing frame, the rotating shaft is rotatably connected to the sliding bearing frame, one end of the first force arm is fixedly connected to the rotating shaft, the other end of the first force arm is hinged to one end of the second force arm, and the other end of the second force arm is hinged to the fixed shaft, so as to pull the sliding bearing frame to slide back and forth through the rotation of the rotating shaft.

5. The horizontal homogenizing apparatus for molds according to claim 4, wherein the length of the first force arm is smaller than the length of the second force arm, and the greater the length of the first force arm, the greater the stroke of the slide bearing bracket, and the smaller the length of the first force arm, the smaller the stroke of the slide bearing bracket.

6. The horizontal homogenizing apparatus for mold according to claim 4, further comprising a transmission member, wherein the transmission member is connected to the rotating shaft for driving the rotating shaft to rotate.

7. The homogenizing apparatus for a horizontal mold according to claim 6, wherein the transmission member comprises a speed adjusting member and a connecting member, and the transmission member is connected to the rotating shaft via the speed adjusting member and the connecting member in turn.

8. The homogenizing device for the horizontal mold according to claim 7, wherein the speed adjusting member comprises a first spur gear, a second spur gear and a speed adjusting shaft, the connecting member comprises a first bevel gear and a second bevel gear, the speed adjusting shaft is parallel to the rotation axis of the fixed tool, the speed adjusting shaft is connected with the sliding bearing frame in a rotating manner, the first spur gear is arranged on the fixed tool, the second spur gear is arranged on the speed adjusting shaft, the first spur gear is connected with the second spur gear in a meshing manner to be used for speed adjustment, the first bevel gear is arranged on the speed adjusting shaft, the second bevel gear is arranged on the rotating shaft, the first bevel gear is connected with the second bevel gear in a meshing manner to be used for driving the rotating shaft to rotate.

9. The homogenizing device for the horizontal mold according to claim 1, wherein the sliding bearing frame comprises two bearing seats and a plurality of connecting rods, the two bearing seats are connected with each other through the plurality of connecting rods, the two bearing seats are both in sliding connection with a sliding groove formed in the inner bottom wall of the protective housing, and two sides of the fixing tool are respectively connected with the two bearing seats.

10. The horizontal homogenizing apparatus for the mold according to claim 1, wherein the fixing tool comprises a lower housing, an upper housing and two rotating shafts, the lower housing is detachably connected with the upper housing, a fixing cavity is formed between the lower housing and the upper housing for fixing the mold filled with the slurry, two sides of the lower housing are fixedly connected with the two rotating shafts respectively, and the two rotating shafts are rotatably connected with the sliding bearing frame.

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