CN218838397U - Automatic mould overturning equipment for polyurethane foaming product - Google Patents

Abstract

The utility model discloses an automatic rollover device of polyurethane foaming goods, which comprises a bracket and a mold, it is connected with the roating seat to rotate on the support, the mould rotates and connects on the roating seat, characteristics are its pivoted first cylinder of drive that is connected with of roating seat, the center fixedly connected with pivot of the bottom surface of mould department, the pivot coupling is on the roating seat, be equipped with the rotatory first motor of drive mould on the roating seat, the output of first motor is connected with first speed reducer, the pivot is connected to the output of first speed reducer, the advantage is through the rotation of roating seat on the support and the rotation of mould on the roating seat, it is inside to make the polyurethane material can be full of whole mould, the process of artifical mould overturning of simulation, machine control can also accurate control mould overturning time, make the goods of polyurethane material after the foaming in the mould complete, can not have the damage, and work efficiency is high, the cost of labor has been saved greatly.

Description

Automatic mould overturning equipment for polyurethane foaming product

Technical Field

The utility model relates to a mould equipment especially relates to an automatic mould equipment that turns over of polyurethane foaming goods.

Background

Polyurethane (PU), a full name of polyurethane, is a high molecular compound, and has been widely used in the field of pipeline cleaning, the field of home furnishing, the field of construction, the field of daily necessities, the field of transportation, the field of household appliances, and the like.

Polyurethane foamed products, i.e., articles made of polyurethane, such as polyurethane plastics (mainly foamed plastics), polyurethane fibers (china called spandex), polyurethane rubber, elastomers, and the like.

Many polyurethane foaming goods generally are through the mould shaping, need fill the polyurethane material between last mould and lower mould completely through upset mould, and current mould process of overturning carries out the upset to the mould through the manual work, and is inefficient, and the cost of labor is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic mould equipment that turns over of polyurethane foaming goods that production efficiency is high is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: automatic rollover equipment of polyurethane foaming goods, including support and mould, it is connected with the roating seat to rotate on the support, the mould rotates to be connected on the roating seat, the first end coupling of roating seat is served at one of support, the second end coupling of roating seat is served at the other end of support, just fixedly connected with rotating gear on the second end of roating seat, still be equipped with the driving rack with rotating gear engaged with on the support, the driving rack is connected with the driving cylinder that drives it and be reciprocating motion, still be equipped with the rotatory drive assembly of drive mould on the roating seat, drive assembly includes motor and speed reducer, the input of speed reducer is connected to the output of motor, the output and the mould of speed reducer link.

The utility model discloses a further preferred scheme does: the rotary seat is provided with an installation platform which is rotationally connected with the rotary seat, the die is detachably connected onto the installation platform, and the output end of the speed reducer is connected with the installation platform.

The utility model discloses a further preferred scheme does: the rotary seat is characterized in that rotary shafts are arranged at two ends of the rotary seat and are connected to the support in a shaft coupling mode, and the rotary gear is fixedly connected to one of the rotary shafts.

The utility model discloses a further preferred scheme does: the support comprises a base and two side plates arranged on two sides of the base, the two side plates are perpendicular to the bottom plate, and two ends of the rotating seat are respectively connected to the two side plates in a shaft mode.

The utility model discloses a further preferred scheme does: the driving cylinder is an air cylinder, an oil cylinder or a servo electric cylinder.

The utility model discloses a further preferred scheme does: the speed reducer is a worm gear speed reducer or a gear speed reducer.

Automatic rollover equipment of polyurethane foaming goods, including support and mould, it is connected with the roating seat to rotate on the support, the mould rotates and connects on the roating seat, the first end coupling of roating seat is served at one of support, the second end coupling of roating seat is served at the other end of support, be provided with drive roating seat pivoted motor on the support, the output of motor links with wherein one end of roating seat, the hookup has rotary gear on the mould, be equipped with the transmission rack with rotary gear engaged with on the support, transmission rack is connected with the driving cylinder that drives it and be reciprocating motion.

The utility model discloses a further preferred scheme does: the second end of the rotating seat is fixedly connected with a transmission gear, the output end of the motor is connected with an output gear meshed with the transmission gear, and the motor drives the rotating seat to rotate through the transmission gear and the output gear.

The utility model discloses a further preferred scheme does: the output end of the motor is connected with a speed reducer, and the output end of the speed reducer is connected with one end of the rotating seat.

Automatic rollover equipment of polyurethane foaming goods, including support and mould, it is connected with the roating seat to rotate on the support, the mould rotates to be connected on the roating seat, the first end coupling of roating seat is served at one of support, the second end coupling of roating seat is served at the other end of support, all be provided with the motor on support and the roating seat, the output of the motor on the support links with one of them end of roating seat, the output of the motor on the roating seat is connected with the speed reducer, the output of speed reducer links with the mould.

Compared with the prior art, the utility model has the advantages that through the rotation of roating seat on the support and the rotation of mould on the roating seat, make inside polyurethane material can be full of whole mould, the artifical process of turning over the mould of simulation, machine control can also accurate control turn over the mould time, and the goods that make polyurethane material after the foaming in the mould are complete, can not have the damage, and work efficiency is high, has saved the cost of labor greatly.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of explaining the preferred embodiments, and therefore should not be taken as limiting the scope of the present invention. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

Fig. 1 is a first schematic structural diagram of a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 3 is an exploded view of FIG. 1;

fig. 4 is a schematic structural diagram of a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a third embodiment of the present invention;

fig. 6 is a schematic structural diagram of a fourth embodiment of the present invention;

fig. 7 is a schematic structural diagram of a fifth embodiment of the present invention.

In the figure: 1. a support; 11. a base; 12. a side plate; 121. a shaft hole; 13. a drive rack; 14. a drive cylinder; 15. a bearing; 2. a rotating base; 21. a rotating shaft; 212. a transmission gear; 22. an installation table; 221. a rotating shaft; 23. a central bore; 24. a rotating gear; 25. a motor; 26. a speed reducer; 3. a mold; 41. an output gear.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the description is illustrative, exemplary only, and should not be construed as limiting the scope of the invention.

It should be noted that: like reference numerals refer to like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

Polyurethane foaming goods processing equipment, including the workstation with establish the automatic mould equipment that turns over of a plurality of on the workstation, this embodiment mainly explains the structure of automatic mould equipment that turns over, specifically as follows:

automatic rollover equipment of polyurethane foaming product includes support 1, is provided with roating seat 2 on support 1, is provided with mould 3 on roating seat 2.

The support 1 comprises a base 11 and two side plates 12 arranged on two sides of the base 11, wherein the two side plates 12 are perpendicular to the base 11, and two ends of the rotating base 11 are respectively connected to the two side plates 12 in a shaft mode.

Further, roating seat 2 is connected at the upper end of curb plate 12, and roating seat 2 is when rotating, and mould 3 can not touch bottom plate 11, can not influence the mould 3 activity.

The front end and the rear end of the rotary base 2 are provided with rotating shafts 21, the rotating shafts 21 are respectively connected to the two side plates 12 in a shaft connection mode, furthermore, shaft holes 121 are formed in the side plates 12, and the rotating shafts 21 are inserted in the shaft holes 121 and can rotate in the shaft holes 121.

The rotating base 2 is provided with an installation platform 22, the installation platform 22 is rotatably connected to the rotating base 2, further, a rotating shaft 221 is arranged at the center of the bottom of the installation platform 22, a central hole 23 is formed at the center of the rotating base 2, and the rotating shaft 221 is inserted into the central hole 23 and can rotate in the central hole.

The die 3 is detachably connected to the mounting table 22, and different dies 3 can be replaced to produce products with different specifications and shapes.

The first embodiment is as follows: as shown in fig. 1-3, one of the rotating shafts 21 is sleeved with a rotating gear 24, the bracket 1 is further provided with a transmission rack 13 engaged with the rotating gear 24, the transmission rack 13 moves on the bracket 1 to drive the rotating gear 24 to rotate, and the rotating gear 24 rotates to drive the rotating shaft 21 to rotate.

The support 1 is provided with a driving cylinder 14, and the output end of the driving cylinder 14 is connected with a transmission rack 13, so that the rotating seat 2 can be driven to rotate on the support 1 through the driving cylinder 14.

The support 1 is provided with a plurality of bearings 15, preferably, the number of the bearings 15 is two, two bearings 15 are pressed on the back of the transmission rack 13 and are in rolling fit with the transmission rack 13, and when the driving cylinder 14 drives the transmission rack 13 to move, the two bearings 15 roll on the back of the transmission rack 13, so that the stability of the transmission rack 13 in moving is improved.

The rotating base 2 is provided with a motor 25, the motor 25 is used for driving the die 3 to rotate, further, the output end of the motor 25 is connected with a speed reducer 26, the output end of the speed reducer 26 is connected with a rotating shaft 221, and the motor 25 drives the rotating shaft 221 to rotate so as to drive the mounting table 22 to rotate.

That is, the motor 25 can rotate the mounting table 22 on the rotary base 2, and the mold 3 rotates along with the rotation of the mounting table 22.

Example two: the other structure is the same as the first embodiment, and the difference is that:

as shown in fig. 4, a motor 25 is disposed on the bracket 1, the motor 25 is used for driving the rotary base 2 to rotate, and an output end of the motor 25 is connected to one end of the rotary base 2.

Furthermore, one of the rotating shafts 21 is sleeved with a transmission gear 212, the output end of the motor 25 is connected with an output gear 41, the transmission gear 212 is meshed with the output gear 41, the motor 25 drives the rotating shaft 21 to rotate through the transmission gear 212 and the output gear 41, and the rotating shaft 21 rotates to drive the rotating base 2 to rotate.

The rotating shaft 221 is connected with a rotating gear 24, the bracket 1 is provided with a transmission rack 13 engaged with the rotating gear 24, and the transmission rack 13 is connected with a driving cylinder 14 for driving the transmission rack to reciprocate.

Further, the driving cylinder 14 is fixedly connected to the side portion of the support 1, a through hole (not shown) is formed in one of the rotating shafts 21, the output end of the driving cylinder 14 penetrates through the through hole and then is connected with the transmission rack 13, the driving cylinder 14 can drive the transmission rack 13 to move, the transmission rack 13 can drive the rotating gear 24 to rotate, the rotating gear 24 rotates to drive the mounting table 22 to rotate, the mounting table 22 rotates to drive the mold 3 to rotate, and the mold 3 rotates on the rotating base 2.

Example three: the other structures are the same as those of the embodiment, and the differences are as follows:

as shown in fig. 5, the output end of the motor 25 is connected to a speed reducer 26, the output end of the speed reducer 26 is fixedly connected to the rotating shaft 21, and the motor 25 drives the rotating shaft 21 to rotate through the speed reducer 26.

Example four: the other structure is the same as the first embodiment, and the difference is that:

as shown in fig. 6, the support 1 and the rotary base 2 are both provided with a motor 25, the motor 25 on the support 1 is used for driving the rotary base 2 to rotate, and the output end of the motor 25 is connected to one end of the rotary base 2.

Furthermore, one of the rotating shafts 21 is sleeved with a transmission gear 212, the output end of the motor 25 is connected with an output gear 41, the transmission gear 212 is meshed with the output gear 41, the motor 25 on the bracket 1 drives the rotating shaft 21 to rotate through the transmission gear 212 and the output gear 41, and the rotating shaft 21 rotates to drive the rotating base 2 to rotate.

Motor 25 on roating seat 2 is used for driving mould 3 and rotates, and is further, and motor 25's output is connected with speed reducer 26, and pivot 221 is connected to speed reducer 26's output, and motor 25 on roating seat 2 drives pivot 221 and rotates to drive mount table 22 and rotate, and the mount table 22 is rotatory to be driven mould 3 and is rotatory, realizes that mould 3 rotates on roating seat 2.

Example five: the other structures are the same as the fourth embodiment, and the differences are as follows:

as shown in fig. 7, the output end of the motor 25 on the bracket 1 is provided with a speed reducer 26, the output end of the speed reducer 26 is fixedly connected with the rotating shaft 21, and the motor 25 on the bracket 1 drives the rotating shaft 21 to rotate through the speed reducer 26.

In the above embodiment, the reducer 26 may be a worm gear reducer or a gear reducer, and the reducer 26 is of a conventional structure, such as a worm gear reducer with publication number CN212985928U, or a planetary gear reducer with publication number CN 111536208A.

The actuating cylinder 14 may be an air cylinder, a hydro cylinder or a servo-electric cylinder.

The motor 25 is a servo motor.

Automatic mould equipment that turns over of polyurethane foaming goods can application on the processing equipment of polyurethane foaming goods, and processing equipment includes workstation and the automatic mould equipment that turns over of a plurality of, and the automatic mould equipment that turns over of a plurality of arranges in order on the workstation, and the workstation can be long straight assembly line, also can be conventional processing equipment assembly lines such as annular assembly line, disc assembly line, and in addition, the automatic mould equipment that turns over of polyurethane foaming goods also can place alone and use subaerial.

Preferably, the workbench is an annular assembly line, the automatic turnover devices are sequentially arranged on the annular workbench, the workbench can rotate, and an operator can operate each automatic turnover device only by standing in situ, so that the operation is more convenient.

The motion of cylinder needs certain stroke, therefore the cylinder can occupy great position, drives through adopting servo motor, can reduce the holistic volume of moulding mechanism that turns over, makes the volume of the automatic moulding equipment that turns over of whole polyurethane foaming goods littleer, can place more moulding mechanisms in the same space.

The mould overturning process of the automatic mould overturning equipment for the polyurethane foaming product comprises the following steps:

step one, a mould 3 is positioned above a rotating seat 2, the mould 3 is opened, a polyurethane material is injected into the mould 3, the mould 3 is closed, and the polyurethane material is gathered at the lower part of the mould;

rotating the rotary seat 2 to enable the mould 3 to be positioned below the rotary seat 2, and enabling a part of polyurethane material to flow in the mould;

rotating the rotating seat 2 to enable the mold 3 to be positioned on the side portion of the rotating seat 2, enabling the mold 3 to be in a horizontal state, enabling a part of polyurethane material to flow towards the side portion of the mold, rotating the mold 3 by 180 degrees, enabling the mold 3 to be still in the horizontal state, and enabling a part of polyurethane material to flow towards the other side direction of the mold;

step four, the mold 3 rotates to enable the mold 3 to be in a vertical state, so that part of the polyurethane material flows towards the end part of the mold 3, the mold 3 rotates 180 degrees, the mold 3 is still in a vertical state, so that part of the polyurethane material flows towards the end part of the other side of the mold 3, and the mold cavity is filled with the polyurethane material;

and step five, the mold 3 rotates, the rotary seat 2 rotates, the state of the step one is reset, the mold 3 is opened, and the processed polyurethane product is taken down.

Through the all-round mould turnover operation of automatic mould turnover equipment, the process of the manual mould turnover of simulation makes the polyurethane material can be full of in the mould completely, compares in manual mould turnover, and efficiency is higher, saves the cost of labor greatly.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship that the products of the present invention are usually placed when used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

It introduces to go on in detail the utility model provides an automatic mould equipment that turns over of polyurethane foaming goods, it is right to have used specific individual example here the utility model discloses a principle and embodiment have explained, and the description of above embodiment only is used for helping to understand the utility model discloses and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (7)

1. Automatic mould equipment that turns over of polyurethane foaming goods, including support and mould, it is connected with the roating seat to rotate on the support, the mould rotates to be connected on the roating seat, its characterized in that: the first end coupling of roating seat is served at one of support, the second end coupling of roating seat is served at the other end of support, just fixedly connected with swing pinion on the second end of roating seat, still be equipped with the driving rack with swing pinion engaged with on the support, driving rack is connected with the drive its actuating cylinder that is reciprocating motion, still be equipped with the rotatory drive assembly of drive mould on the roating seat, drive assembly includes motor and speed reducer, the input of speed reducer is connected to the output of motor, the output of speed reducer links with the mould.

2. The automatic rollover device for polyurethane foamed products according to claim 1, characterized in that: the rotary seat is provided with an installation platform which is rotationally connected with the rotary seat, the die is detachably connected onto the installation platform, and the output end of the speed reducer is connected with the installation platform.

3. The automatic rollover device for polyurethane foamed products according to claim 1, characterized in that: the rotary seat is characterized in that rotary shafts are arranged at two ends of the rotary seat and are connected to the support in a shaft coupling mode, and the rotary gear is fixedly connected to one of the rotary shafts.

4. The automatic rollover device for polyurethane foamed products according to claim 1, characterized in that: the support comprises a base and two side plates arranged on two sides of the base, the two side plates are perpendicular to the bottom plate, and two ends of the rotating seat are respectively connected to the two side plates in a shaft mode.

5. The automatic rollover equipment for polyurethane foamed products according to claim 1, characterized in that: the driving cylinder is an air cylinder, an oil cylinder or a servo electric cylinder.

6. The automatic rollover device for polyurethane foamed products according to claim 1, characterized in that: the speed reducer is a worm gear speed reducer or a gear speed reducer.

7. Automatic mould equipment that turns over of polyurethane foaming goods, including support and mould, it is connected with the roating seat to rotate on the support, the mould rotates to be connected on the roating seat, its characterized in that: the first end of the rotary seat is coupled to one end of the support, the second end of the rotary seat is coupled to the other end of the support, the support and the rotary seat are both provided with motors, the output end of the motor on the support is connected with one end of the rotary seat, the output end of the motor on the rotary seat is connected with a speed reducer, and the output end of the speed reducer is connected with the mold.

Images