CN111283849A - Automatic blank cutting device for civil building glazed tile production - Google Patents

Abstract

An automatic blank cutting device for producing a civil building glazed tile comprises a blank mold at the bottom of the glazed tile; the blank mold at the bottom of the glazed tile is arranged at the top side of the supporting base; the right side of the supporting base is provided with a bottom blank mold ejection pedal in a shaft connection mode, and the other shaft end of the bottom blank mold ejection pedal is abutted to the bottom of the bottom blank mold of the glazed tile; the glazed tile top die pressing device is rotatably connected to the top side support of the supporting base on the adjacent side of the glazed tile bottom blank die. This automatic blank device that cuts of civil construction glazed tiles production is equipped with is provided with two spacing slide bars on the support of the top side both ends of support base's side support, and the horizontal cutting silk thread passes through the spacing slidable mounting of both ends slider on spacing slide bar, and the horizontal cutting stroke of horizontal cutting silk thread parallels the laminating with the roof of glazed tiles bottom embryo mould, be favorable to making the horizontal cutting silk thread carry out spacing removal on spacing slide bar, thereby make the horizontal cutting silk thread stable cutting operation on glazed tiles bottom embryo mould top diapire all the time.

Description

Automatic blank cutting device for civil building glazed tile production

Technical Field

The invention relates to the technical field of building glazed tile production equipment, in particular to an automatic blank cutting device for civil building glazed tile production.

Background

The glazed tile is made up of high-quality ore through screening, crushing, high-pressure shaping and high-temp firing. Has the advantages of high strength, good flatness, low water absorption, folding resistance, freezing resistance, acid resistance, alkali resistance, fastness and the like. The glaze is widely applicable to industrial and civil buildings such as factory buildings, houses, hotels, villas and the like, and is various in shape, simple and colorful in glaze color, environment-friendly, durable and deeply popular with architects. The forming method of glazed tiles generally adopts methods such as extrusion forming, manual blank printing, grouting forming and the like. The Western-style tile is molded by plastic compression. Especially, the manual blank printing is more popular with some ancient builders because of bearing the history and culture of Chinese nationality, and the manually pressed glazed tiles are richer in life and have better ornamental performance than those produced on machines.

Based on the above, the conventional production device still adopts a relatively traditional production pressing method, the cut blank soil is placed on the bottom die, then the top die is used for pressing, after pressing is completed, the cut blank string bow is used for cutting off the excess blank soil, then the pressed glazed tile is ejected out, and operation can be completed; the manual blank pressing control is the essence of the manual production and manufacturing of the glazed tiles, so that the mechanical change cannot be carried out, and the manual blank pressing control can only be improved in other aspects without influencing the production quality of the glazed tiles, so that the production efficiency of the glazed tiles is improved, and the labor intensity of workers can be reduced.

Therefore, the device is researched and improved aiming at the existing structure and defects, and provides an automatic blank cutting device for producing the glazed tiles of the civil buildings, so as to achieve the aim of higher practical value.

Disclosure of Invention

The invention aims to provide an automatic blank cutting device for the production of glazed tiles of civil buildings, which aims to solve the problem that the manual production method provided by the background technology needs to vacate hands each time to take the string bow of the cut blank to cut the blank; the manual blank pressing control is the essence of the manual production and manufacturing of the glazed tiles, so that the mechanical change cannot be carried out, and the problem that the manual improvement can only be carried out on the aspect that the production quality of the glazed tiles is not influenced is solved.

The invention relates to an automatic blank cutting device for producing glazed tiles of civil buildings, which has the purpose and the effect achieved by the following specific technical means:

an automatic blank cutting device for the production of the glazed tiles of the civil building comprises a blank mould at the bottom of the glazed tiles; the blank mold at the bottom of the glazed tile is arranged at the top side of the supporting base; the right side of the supporting base is provided with a bottom blank mold ejection pedal in a shaft connection mode, and the other shaft end of the bottom blank mold ejection pedal is abutted to the bottom of the bottom blank mold of the glazed tile; a glazed tile top mould pressing blank device is rotatably connected to the top side bracket of the supporting base at one side adjacent to the glazed tile bottom blank mould; the glazed tile top mould pressing device and the glazed tile bottom mould are designed in a matched structure; two lifting sliding rods are symmetrically and fixedly arranged in the middle positions of two sides of the supporting base, and the arrangement positions of the lifting sliding rods are matched and parallel with the inner side wall of the blank mold at the bottom of the glazed tile; a control pedal is arranged at the bottom of the left side of the supporting base; the inner side of the bottom of the mounting frame of the glazed tile top molding blank device is fixed with a driving motor through a bolt, and the driving motor is in transmission connection with the control pedal.

Furthermore, two limiting slide bars are symmetrically arranged on the supports at the two ends of the top side of the supporting base, the transverse cutting silk thread is arranged on the limiting slide bars in a limiting sliding mode through the slide blocks at the two ends, and the transverse cutting stroke of the transverse cutting silk thread is in parallel fit with the top wall of the blank mould at the bottom of the glazed tile.

Furthermore, the outer sides of the fixed sliding blocks of the transverse cutting silk threads are all connected with a transverse line cutting control arm in a shaft connection mode, the transverse line cutting control arm is of a two-section structural design with different lengths, the end head of the other end of the transverse line cutting control arm is fixedly connected to the central shaft of the transverse cutting driving gear, and the transverse line cutting control arm and the transverse cutting driving gear form a bias crank sliding block mechanism together.

Furthermore, a bevel gear set is arranged in the middle of the rotating shaft of the transverse cutting driving gear, and the transverse cutting driving gear is in transmission connection with the driving motor through the bevel gear set.

Furthermore, two vertical cutting driving gears are rotatably arranged on two sides of a fixed connection shaft seat of the glazed tile top mould pressing blank device, the vertical cutting driving gears and the glazed tile top mould pressing blank device are not driven, the vertical cutting driving gears and the transverse cutting driving gears are the same in size, and the vertical cutting driving gears and the transverse cutting driving gears are meshed with each other.

Furthermore, the top end of the sliding rod of the lifting sliding rod is fixedly provided with a vertical cutting silk thread, the vertical cutting silk thread can move in an up-and-down limiting manner through the lifting sliding rod, and the cutting stroke of the vertical cutting silk thread is mutually parallel to and attached to the inner side wall of the blank mold at the bottom of the glazed tile.

Furthermore, the outside of vertical cutting silk thread all the coupling is provided with vertical excision control arm, and vertical excision control arm adopts the two segmentation structural design of length difference, the equal fixed connection in the outside central point of vertical excision drive gear of other end department of vertical excision control arm puts, and vertical excision control arm constitutes biasing slider-crank mechanism with vertical excision drive gear jointly.

Furthermore, the top rear side bolt of glazed tiles top moulding embryo device is fixed with the balancing weight, and the balancing weight adopts barbell formula structural design to the balancing weight can be increased or decreased according to the user demand fast.

Compared with the prior structure, the invention has the following beneficial effects:

two limiting slide bars are symmetrically arranged on the supports at the two ends of the top side of the supporting base, the transverse cutting silk threads are arranged on the limiting slide bars in a limiting sliding mode through the slide blocks at the two ends, the transverse cutting stroke of the transverse cutting silk threads is in parallel fit with the top wall of the blank mold at the bottom of the glazed tile, the transverse cutting silk threads are enabled to move in a limiting mode on the limiting slide bars, and therefore the transverse cutting silk threads are enabled to be stable all the time to perform cutting operation on the top bottom wall of the blank mold at the bottom of the glazed tile.

The fixed sliding block outer side of the transverse cutting silk thread is connected with a transverse thread cutting control arm in a shaft connection mode, the transverse thread cutting control arm is of a two-section structural design with different lengths, the end head of the other end of the transverse thread cutting control arm is fixedly connected to the central shaft of the transverse cutting driving gear, and the transverse thread cutting control arm and the transverse cutting driving gear jointly form a bias crank sliding block mechanism, so that the forward and backward movement operation of the transverse cutting silk thread can be achieved through the bias crank sliding block mechanism, and the reciprocating cutting function can be achieved.

A bevel gear set is arranged in the middle of the rotating shaft of the transverse cutting driving gear, the transverse cutting driving gear is in transmission connection with a driving motor through the bevel gear set, the driving motor is favorable for driving the transverse cutting driving gear to rotate, the transverse cutting driving gear drives the transverse wire cutting control arm to rotate, and the driving motor is a low-power motor with low energy consumption.

The fixed connection axle bed both sides of glazed tiles top mould pressing embryo device are rotated and are installed two vertical excision drive gears, and vertical excision drive gear is not driven with glazed tiles top mould pressing embryo device, vertical excision drive gear is the same with horizontal excision drive gear size, and vertical excision drive gear and the mutual meshing of horizontal excision drive gear, and this structural design is favorable to making horizontal excision drive gear drive vertical excision drive gear synchronous rotation to realize linkage operation, thereby realize that the device that two gears driven moves on same rhythm all the time, can not bump.

The equal fixed mounting in slide bar top of lift slide bar has vertical cutting silk thread, and vertical cutting silk thread accessible lift slide bar is made spacing removal from top to bottom to the cutting stroke of vertical cutting silk thread is laminated with the inside wall of glazed tiles bottom embryo mould is parallel to each other, is favorable to realizing the spacing removal from top to bottom of vertical cutting silk thread through the lift slide bar, the messenger of lift slide bar vertical cutting silk thread can be stable all the time the maintenance cut removal on the inside wall of glazed tiles bottom embryo mould.

The outer side of the vertical cutting silk thread is provided with a vertical cutting control arm in a shaft connection mode, the vertical cutting control arm is designed in a two-section structural design with different lengths, the end of the other end of the vertical cutting control arm is fixedly connected to the outer side center of the vertical cutting driving gear, the vertical cutting control arm and the vertical cutting driving gear form a bias crank slider mechanism together, and the design of the bias crank slider mechanism is beneficial to enabling the vertical cutting silk thread to move up and down, so that the vertical cutting silk thread can achieve the cutting function of reciprocating up and down.

The top rear side bolt of glazed tiles top moulding embryo device is fixed with the balancing weight, and the balancing weight adopts barbell formula structural design to the balancing weight can carry out the plus-minus fast according to the user demand, and the design of this structure is favorable to adding the weight of balancing weight by oneself according to the demand of suppression and workman's hand strength, thereby improves the convenient performance of glazed tiles suppression.

Drawings

FIG. 1 is a schematic diagram of a three-dimensional left-view structure of the present invention;

FIG. 2 is a schematic diagram of a three-dimensional right view structure of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic front view of the present invention;

FIG. 5 is a schematic view of a three-dimensional rear view structure of the present invention;

FIG. 6 is a schematic view of a three-dimensional micro-bottom structure of the present invention;

FIG. 7 is a schematic top view of the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of a three-dimensional cutting variation state according to the present invention;

FIG. 9 is a schematic side view of the three-dimensional cutting variation of the present invention;

fig. 10 is a three-dimensional structure diagram of the internal driving part of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a support base; 2. a lifting slide bar; 3. a transverse line cutting control arm; 4. transversely cutting off the driving gear; 5. a limiting slide bar; 6. a vertical resection drive gear; 7. a vertical resection control arm; 8. a glazed tile top mould pressing blank device; 9. cutting a silk thread vertically; 10. a blank mold at the bottom of the glazed tile; 11. transversely cutting the silk thread; 12. controlling pedaling; 13. ejecting the pedal from the bottom blank mold; 14. a balancing weight; 15. a bevel gear set; 16. the motor is driven.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 10:

the invention provides an automatic blank cutting device for producing glazed tiles of civil buildings, which comprises: a glazed tile bottom blank mold 10; the glazed tile bottom blank mold 10 is arranged on the top side of the support base 1; two limit slide bars 5 are symmetrically arranged on supports at two ends of the top side of the supporting base 1, a transverse cutting silk thread 11 is arranged on the limit slide bars 5 in a limiting sliding mode through sliders at two ends, the transverse cutting stroke of the transverse cutting silk thread 11 is in parallel fit with the top wall of the blank mould 10 at the bottom of the glazed tile, so that the transverse cutting silk thread 11 can move on the limit slide bars 5 in a limiting mode, the transverse cutting silk thread 11 can be cut on the top bottom wall of the blank mould 10 at the bottom of the glazed tile stably all the time, transverse cutting control arms 3 are connected to the outer sides of fixed sliders of the transverse cutting silk thread 11 in a shaft connection mode, the transverse cutting control arms 3 are designed in a two-section structure with different lengths, the other end heads of the transverse cutting control arms 3 are fixedly connected to the central shaft of a transverse cutting drive gear 4, and the transverse cutting control arms 3 and the transverse cutting drive gear 4 form an, the forward and backward movement operation of the transverse cutting wire 11 is realized through the offset slider-crank mechanism, so that the function of reciprocating cutting is realized; the right side of the supporting base 1 is provided with a bottom blank mold ejection pedal 13 in a shaft connection mode, and the other shaft end of the bottom blank mold ejection pedal 13 is propped against the bottom of the glazed tile bottom blank mold 10; a glazed tile top die pressing blank device 8 is rotatably connected to the top side bracket of the supporting base 1 at one side adjacent to the glazed tile bottom blank die 10; the glazed tile top mould pressing device 8 and the glazed tile bottom mould 10 are designed in a matched structure; two lifting sliding rods 2 are symmetrically and fixedly arranged at the middle positions of two sides of a supporting base 1, the arrangement positions of the lifting sliding rods 2 are matched with and parallel to the inner side wall of a glazed tile bottom blank mold 10, vertical cutting silk threads 9 are fixedly arranged at the top ends of the sliding rods of the lifting sliding rods 2, the vertical cutting silk threads 9 can move up and down in a limiting manner through the lifting sliding rods 2, the cutting stroke of the vertical cutting silk threads 9 is in parallel fit with the inner side wall of the glazed tile bottom blank mold 10, the vertical cutting silk threads 9 can move up and down in a limiting manner through the lifting sliding rods 2, the vertical cutting silk threads 9 can be always stably kept on the inner side wall of the glazed tile bottom blank mold 10 to cut and move through the lifting sliding rods 2, two-section type vertical cutting control arms 7 are axially connected to the outer sides of the vertical cutting silk threads 9, and the vertical cutting control arms 7 are designed in a structure with different lengths, the other end of the vertical cutting control arm 7 is fixedly connected to the center of the outer side of the vertical cutting driving gear 6, the vertical cutting control arm 7 and the vertical cutting driving gear 6 jointly form an offset slider-crank mechanism, and the offset slider-crank mechanism is designed to facilitate the vertical cutting silk thread 9 to move up and down, so that the reciprocating up and down cutting function of the vertical cutting silk thread 9 is realized; the bottom of the left side of the supporting base 1 is provided with a control pedal 12; a driving motor 16 is fixed on the inner side of the bottom of the mounting frame of the glazed tile top molding blank device 8 by bolts, and the driving motor 16 is in transmission connection with the control pedal 12.

Wherein, the middle position of the rotating shaft of the transverse cutting driving gear 4 is provided with a bevel gear set 15, and the transverse cutting driving gear 4 is in transmission connection with a driving motor 16 through the bevel gear set 15, so that the transverse cutting driving gear 4 is driven to rotate through the driving motor 16, the transverse cutting driving gear 4 drives the transverse cutting control arm 3 to rotate, and the driving motor 16 adopts a low-power motor with low energy consumption.

Wherein, the fixed connection axle bed both sides of glazed tiles top moulding embryo device 8 are rotated and are installed two vertical excision drive gear 6, and vertical excision drive gear 6 is not driven with glazed tiles top moulding embryo device 8, vertical excision drive gear 6 is the same with horizontal excision drive gear 4 size, and vertical excision drive gear 6 and the mutual meshing of horizontal excision drive gear 4, this structural design is convenient for make horizontal excision drive gear 4 drive vertical excision drive gear 6 synchronous rotation, thereby realize the linkage operation, thereby realize that the device that two gears driven moves on same rhythm all the time, can not bump.

Wherein, glazed tiles top moulding embryo device 8's top rear side bolt is fixed with balancing weight 14, and balancing weight 14 adopts barbell formula structural design to balancing weight 14 can add and subtract fast according to the user demand, and the design of this structure is convenient for add the weight of balancing weight 14 by oneself according to the demand of suppression and workman's hand strength, thereby improves the convenient performance of glazed tiles suppression.

The specific use mode and function of the embodiment are as follows: when the device is used, firstly, a power supply needs to be connected, then the device can be used, firstly, the glazed tile top die blank pressing device 8 needs to be lifted up as shown in figure 1, then blank soil is placed on the inner side of a glazed tile bottom blank die 10, then the blank soil is forcibly pressed down through handles on two sides of the glazed tile top die blank pressing device 8 and repeatedly beaten for several times, then the glazed tile top die blank pressing device 8 is lifted up, at the moment, a control pedal 12 is pressed down by feet, a driving motor 16 is rotated, so that a transverse cutting driving gear 4 is driven to rotate, the transverse cutting driving gear 4 drives a vertical cutting driving gear 6 to rotate, the transverse cutting driving gear 4 and the vertical cutting driving gear 6 simultaneously drive a transverse cutting control arm 3 and a vertical cutting control arm 7 to carry out offset crank sliding operation, so that the reciprocating motion of a transverse cutting silk thread 11 and a vertical cutting silk thread 9 is realized, therefore, the operation of quick reset after cutting is realized, the cutting lines at the two positions of the transverse cutting wire 11 and the vertical cutting wire 9 are controlled by the transverse cutting control arm 3 and the vertical cutting control arm 7, the lengths of the transverse cutting control arm 3 and the vertical cutting control arm 7 and the initial distance of the rotation displacement of the transverse cutting drive gear 4 and the vertical cutting drive gear 6 are calculated, when the vertical cutting wire 9 rises, cuts and descends, the transverse cutting wire 11 reaches the topmost end of the vertical cutting wire 9, so that the redundant blank is cut off, but the blank is not broken and separated, then the blank is taken down by hands, then the bottom blank mold is stepped by feet to eject the pedal 13, so that the bottom blank mold 10 of the glazed tile is lifted upwards, the glazed tile blank can be better demolded, then the glazed tile blank is taken down, and then the operation is repeated, the device design has saved and has held the step that the string bow cut the stock with the hand, and mechanical cutting is more regular than manual cutting, effectual reduction intensity of labour, improves production efficiency, improves product quality.

In summary, although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments or equivalent substitutions for some technical features, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides an automatic blank device that cuts of civil construction glazed tile production which characterized in that: comprises a glazed tile bottom blank mould (10); the blank mould (10) at the bottom of the glazed tile is arranged at the top side of the supporting base (1); the right side of the supporting base (1) is provided with a bottom blank mold ejection pedal (13) in a shaft connection mode, and the other shaft end of the bottom blank mold ejection pedal (13) is abutted to the bottom of the glazed tile bottom blank mold (10); a glazed tile top mould pressing blank device (8) is rotatably connected to the top side bracket of the supporting base (1) at one side adjacent to the glazed tile bottom blank mould (10); the glazed tile top mould pressing blank device (8) and the glazed tile bottom blank mould (10) are in a matched structure; two lifting sliding rods (2) are symmetrically and fixedly arranged in the middle positions of two sides of the supporting base (1), and the positions of the lifting sliding rods (2) are matched and parallel with the inner side wall of the blank mold (10) at the bottom of the glazed tile; a control pedal (12) is arranged at the bottom of the left side of the supporting base (1); a driving motor (16) is fixed on the inner side of the bottom of the mounting frame of the glazed tile top mould pressing blank device (8) through a bolt, and the driving motor (16) is in transmission connection with the control pedal (12).

2. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: two limiting slide bars (5) are symmetrically arranged on supports at two ends of the top side of the supporting base (1), a transverse cutting silk thread (11) is installed on the limiting slide bars (5) in a limiting sliding mode through slide blocks at two ends, and the transverse cutting stroke of the transverse cutting silk thread (11) is attached to the top wall of the blank mould (10) at the bottom of the glazed tile in a parallel mode.

3. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: the fixed slider outside of horizontal cutting silk thread (11) all the coupling is connected with horizontal line excision control arm (3), and horizontal line excision control arm (3) adopt the two segmentation structures of length difference, the equal fixed connection in the center pin of horizontal excision drive gear (4) of the other end of horizontal line excision control arm (3), and horizontal line excision control arm (3) and horizontal excision drive gear (4) constitute biasing slider-crank mechanism jointly.

4. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: a bevel gear set (15) is arranged in the middle of a rotating shaft of the transverse cutting driving gear (4), and the transverse cutting driving gear (4) is in transmission connection with a driving motor (16) through the bevel gear set (15).

5. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: fixed connection axle bed both sides of glazed tiles top mould pressing embryo device (8) are rotated and are installed two vertical excision drive gear (6), and vertical excision drive gear (6) and glazed tiles top mould pressing embryo device (8) are not driven, vertical excision drive gear (6) is the same with horizontal excision drive gear (4) size, and vertical excision drive gear (6) and horizontal excision drive gear (4) meshing each other.

6. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: the equal fixed mounting in slide bar top of lift slide bar (2) has vertical cutting silk thread (9), and vertical cutting silk thread (9) accessible lift slide bar (2) do spacing removal from top to bottom to the cutting stroke of vertical cutting silk thread (9) is laminated with the inside wall of glazed tiles bottom embryo mould (10) is parallel to each other.

7. An automatic blank cutting device for the production of civil building glazed tiles according to claim 1 or 6, wherein: the equal coupling in outside of vertical cutting silk thread (9) is provided with vertical excision control arm (7), and vertical excision control arm (7) adopt the two segmentation structures of length difference, the equal fixed connection in the outside central point of vertical excision drive gear (6) of the other end department of vertical excision control arm (7) puts, and vertical excision control arm (7) and vertical excision drive gear (6) constitute biasing slider-crank mechanism jointly.

8. The automatic blank cutting device for the production of the civil building glazed tile as claimed in claim 1, wherein: the top rear side bolt of glazed tiles top mould pressing embryo device (8) is fixed with balancing weight (14), and balancing weight (14) adopt barbell formula structure to balancing weight (14) can be increased or reduced according to the user demand fast.

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