CN115319924A - Drainage type workbench for ceramic tile cutting machine - Google Patents

Abstract

The drainage type workbench comprises a movable platform and a pivotable flow guide seat. The movable platform is provided with a drainage channel, the flow guide seat is provided with a flow guide channel communicated with the drainage channel, two ends of the flow guide seat are respectively provided with a first flow guide port and a second flow guide port, when the movable platform is pulled to a first position, the first flow guide port of the flow guide seat is downwards inclined, so that the flow guide channel guides water flow brought by the drainage channel to a water collecting tank arranged below the movable platform from the first flow guide port, and when the movable platform is pushed to a second position, the second flow guide port of the flow guide seat is downwards inclined, so that the flow guide channel guides the water flow brought by the drainage channel to the water collecting tank from the second flow guide port. Therefore, the drainage type workbench can provide a good drainage effect.

Description

Drainage type workbench for ceramic tile cutting machine

Technical Field

The present invention relates to a tile cutting machine, and more particularly to a drainage table for a tile cutting machine.

Background

Since the tile itself has a characteristic of being brittle and hard, a general cutting tool cannot be used in cutting, but a tile cutter specially designed for cutting the tile is required. During the cutting process, water is sprayed to the ceramic tiles timely, so that the temperature of the saw blade can be cooled, dust can be wetted, and the dust cannot be scattered in the air, thereby avoiding discomfort caused by excessive dust sucked by an operator.

However, during the cutting process, some of the water sprayed on the tiles remains on the table, which can easily cause the operator's clothes to be wetted, and which can also soil the table because it often carries dust.

Disclosure of Invention

The invention mainly aims to provide a drainage type workbench for a tile cutting machine, which has a good drainage effect.

In order to achieve the above objective, the drainage type work bench of the present invention is suitable for a tile cutting machine, which comprises a base and a water collecting tank disposed on the base. The drainage type workbench comprises a movable platform and a flow guide seat, wherein the movable platform is positioned above the water collecting tank and can be movably arranged on the base between a first position and a second position, and the movable platform is provided with a drainage channel penetrating through two surfaces of the top and the bottom; the diversion seat is pivoted on the bottom surface of the movable platform and can pivot up and down relative to the movable platform between a first state and a second state, the diversion seat is provided with a diversion channel communicated with the drainage channel, one end of the diversion seat is provided with a first diversion port communicated with the diversion channel, the other end of the diversion seat is provided with a second diversion port communicated with the diversion channel, when the movable platform is positioned at the first position, the diversion seat inclines downwards towards the first diversion port to be positioned at the first state, at the moment, the first diversion port is positioned above the water collection tank, the vertical distance between the first diversion port and the movable platform is larger than the vertical distance between the second diversion port and the movable platform, so that the diversion channel guides the water flow brought by the drainage channel into the water collection tank from the first diversion port, when the movable platform is positioned at the second position, the diversion seat inclines downwards towards the second diversion port to be positioned at the second state, at the moment, the second diversion port is positioned above the water collection tank, and the vertical distance between the second diversion port and the movable platform is larger than the vertical distance between the diversion port and the drainage channel.

Therefore, the drainage type workbench provided by the invention can ensure that the flow guide seat can guide the water flow sprayed on the movable platform into the water collecting tank by utilizing the up-and-down swing of the flow guide seat no matter the movable platform moves forwards or backwards, so that the accumulated water formed on the movable platform is reduced, and the movable platform and operators are prevented from being wetted and polluted by the accumulated water.

According to the embodiment of the invention, a first guide piece and a second guide piece are respectively fixedly arranged on the front side and the rear side of the base, and the first guide piece and the second guide piece are positioned on the left side and the right side of the flow guide seat. The flow guide seat is provided with a first end and a second end, the first end is provided with the first flow guide port, the second end is provided with the second flow guide port, one side face of the flow guide seat is provided with a first chute, the first chute extends upwards in an inclined mode from the second end of the flow guide seat to the first end of the flow guide seat, the other opposite side face of the flow guide seat is provided with a second chute, and the second chute extends upwards in an inclined mode from the first end of the flow guide seat to the second end of the flow guide seat. Therefore, when the first guide piece is embedded in the first chute, the guide seat is pushed by the first guide piece to pivot to the first state, and at the moment, the second guide piece is separated from the second chute.

According to an embodiment of the present invention, the first guiding member has a first supporting plate fixed on the base and a first pin member provided on the first supporting plate, and the first guiding member is embedded in the first chute by the first pin member. The second guide piece is provided with a second support piece fixedly arranged on the base and a second pin piece arranged on the second support piece, and the second guide piece is embedded in the second chute through the second pin piece.

According to the embodiment of the invention, the second end of the flow guide seat is provided with a first conical opening communicated with the first chute, and the width of the first conical opening is gradually increased towards the direction far away from the first chute, so that the first guide piece can smoothly enter and exit the first chute. The first end of the flow guide seat is provided with a second tapered opening communicated with the second inclined groove, and the width of the second tapered opening is gradually increased towards the direction far away from the second inclined groove, so that the second guide piece can smoothly enter and exit the second inclined groove.

According to embodiments of the present invention, the movable platform has a first pedestal and a second pedestal. The top surface of the first pedestal is provided with a first flow passage, the first pedestal is provided with a water outlet communicated with the flow guide passage, the second pedestal is arranged on the top surface of the first pedestal and forms a second flow passage with the first pedestal, one end of the second flow passage is communicated with the first flow passage, and the other end of the second flow passage is communicated with the water outlet, so that the first flow passage, the second flow passage and the water outlet form the water drainage passage together. Therefore, the water sprayed on the movable platform flows to the second flow passage from the first flow passage and then flows to the flow guide channel of the flow guide seat from the second flow passage through the water outlet.

According to the embodiment of the invention, the left side and the right side of the base are provided with the first stopping piece and the second stopping piece in a tandem manner. The bottom surface of the movable platform is provided with a first stopping part and a second stopping part, when the first stopping part of the movable platform touches the first stopping part, the movable platform stops moving and is positioned at the first position, and when the second stopping part of the movable platform touches the second stopping part, the movable platform stops moving and is positioned at the second position.

The detailed structure, characteristics, assembly or use of the drainage table for tile cutting machine according to the present invention will be described in the following detailed description of the embodiments. However, it should be understood by those skilled in the art that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Drawings

Fig. 1 is a perspective view of a tile cutter to which the drainage type work deck of the present invention is applied.

Fig. 2 is a partial exploded perspective view of fig. 1.

Fig. 3 is a partially exploded perspective view of the drain table of the present invention.

Fig. 4 is a cross-sectional view of fig. 2 taken along line 4-4.

Fig. 5 is a bottom perspective view of the drain table of the present invention.

Fig. 6 is a partial perspective view of the drain table of the present invention.

Fig. 7 is a perspective view of the diversion seat provided in the drainage workbench of the present invention, mainly showing the second raised strip and the first diversion port.

Fig. 8 is a side view of a deflector provided to the drain table of the present invention, mainly illustrating an extended state of the second chute.

Fig. 9 is a perspective view of the diversion seat provided in the drainage workbench of the present invention from another view angle, mainly showing the first chute and the second diversion port.

Fig. 10 is another side view of the deflector provided in the drain table of the present invention, mainly illustrating the extended state of the first chute.

Fig. 11 is a partial cross-sectional view of the drainage workbench of the present invention, mainly showing the movable platform at the first position and the diversion seat at the first state.

Fig. 12 is a partial cross-sectional view of the drainage platform of the present invention, mainly showing the movable platform at the second position and the diversion seat at the second position.

[ description of reference numerals ]

10: ceramic tile cutting machine

12: base seat

14: fixed platform

16: saw blade

18: water collecting tank

20: drainage type workbench

30: movable platform

32: first pedestal

34: roller wheel

36: guide rail

38: first stop part

40: second stop part

42: first flow channel

44: hollow groove

46: water outlet

48: second pedestal

50: second flow channel

52: the drain passage 54: first stopper 56: second stopper P1: first position P2: second position 60: a flow guide seat 62: the lug 64: pivot 66: fixing piece 68: flow guide passages 70: first end 72: first flow guide port 74: second end 76: second flow guide port 78: first convex strip 80: first chute 82: first tapered opening 84: second convex strip 86: second chute 88: second tapered opening 90: first guide 91: first support sheet 92: first pin 93: second guide 94: second support sheet 95: second pin S1: first state S2: second state

Detailed Description

Applicants first describe herein, throughout the specification and claims that follow, the directional terms used in the description and claims are used as reference to the orientation of the terms in the drawings. Next, in the embodiments and the drawings to be described below, the same element numbers denote the same or similar elements or structural features thereof.

Referring first to fig. 1, the tile cutter 10 shown in fig. 1 comprises a base 12, a fixed platform 14, a saw blade 16 and a water collection tank 18. A fixed platform 14 fixed above the base 12 and located at the right side of the base 12 for placing a tile (not shown) to be cut; the saw blade 16 is disposed at the center of the base 12 and is driven to rotate by a power source (e.g., a motor, not shown); a water collection sump 18 is provided within the base 12 and to the left of the base 12. Since the tile cutting machine 10 is not essential in this case, the detailed structure and operation process thereof will not be described herein.

Referring to fig. 1 to 3, the drainage workbench 20 of the present invention includes a movable platform 30, a guiding seat 60, a first guiding member 90 and a second guiding member 93.

The movable platform 30 is located on the left side of the base 12 above the water collection tank 18 and cooperates with the fixed platform 14 to place the tiles (not shown) to be cut, so that the saw blade 16 cuts the tiles. As shown in fig. 3, the movable platform 30 has a first base 32, a plurality of rollers 34 (four rollers in the embodiment, but not limited thereto) are respectively disposed on the left and right sides of the bottom surface of the first base 32, two parallel guide rails 36 are disposed on the top surface of the base 12, and the rollers 34 of the first base 32 are assembled on the two guide rails 36 of the base 12, so that the first base 32 can move back and forth relative to the base 12.

In order to limit the moving range of the first pedestal 32, the left and right sides of the base 12 are respectively provided with a first stop 54 (such as the stop shown in fig. 2, but not limited thereto) and a second stop 56 (such as the stop shown in fig. 2, but not limited thereto), the bottom surface of the first pedestal 32 is respectively locked with a U-shaped ring at the left and right sides, the two U-shaped rings respectively form a first stop portion 38 and a second stop portion 40 (shown in fig. 5), when the movable platform 30 moves forward to make the first stop portion 38 touch the first stop 54 (shown in fig. 11), the movable platform 30 is positioned at the first position P1, and when the movable platform 30 moves backward to make the second stop portion 40 touch the second stop 56 (shown in fig. 12), the movable platform 30 is positioned at the second position P2.

In addition, as shown in fig. 3, the top surface of the first pedestal 32 has a first flow channel 42 along the edge, and the first pedestal 32 has a hollow groove 44 and a water outlet 46 adjacent to the hollow groove 44 at the middle position. The movable platform 30 further has a second pedestal 48, the second pedestal 48 is disposed on the top surface of the first pedestal 32 and covers the hollow groove 44 and the drain 46, on one hand, a second flow channel 50 (as shown in fig. 4) is formed between the second pedestal 48 and the first pedestal 32, one end of the second flow channel 50 is communicated with the first flow channel 42, and the other end of the second flow channel 50 is communicated with the drain 46, so that the first flow channel 42, the second flow channel 50 and the drain 46 jointly form a drain channel 52, and on the other hand, the top surface of the second pedestal 48 is flush with the top surface of the first pedestal 32, so that tiles placed thereon can maintain good flatness.

As shown in fig. 6, the center of the deflector 60 has two lugs 62, the two lugs 62 of the deflector 60 are penetrated by a pivot 64, and the pivot 64 is fixed on the bottom surface of the first pedestal 32 by two fixing pieces 66, so that the deflector 60 can swing up and down around the pivot 64. As shown in fig. 7 and 9, the flow guide seat 60 has a flow guide channel 68 with an upward opening, the flow guide channel 68 is communicated with the water outlet 46 of the first pedestal 32, the two opposite ends of the flow guide seat 60 are respectively a first end 70 and a second end 74, the first end 70 of the flow guide seat 60 has a first flow guide opening 72 (shown in fig. 7) communicated with the flow guide channel 68, and the second end 74 of the flow guide seat 60 has a second flow guide opening 76 (shown in fig. 9) communicated with the flow guide channel 68.

As shown in fig. 10, two first protruding strips 78 are disposed on a side surface of the flow guide base 60, a first inclined groove 80 is formed between the two first protruding strips 78, and the first inclined groove 80 extends from the second end 74 of the flow guide base 60 to the first end 70 of the flow guide base 60 in an upward inclined manner. As shown in fig. 8, two second protruding strips 84 are disposed on the other opposite side of the flow guide seat 60, a second inclined groove 86 is formed between the two second protruding strips 84, and the second inclined groove 86 extends obliquely upward from the first end 70 of the flow guide seat 60 toward the second end 74 of the flow guide seat 60.

Referring back to fig. 2, the first guide member 90 and the second guide member 93 are disposed on the base 12 in tandem and located on the left and right sides of the airflow guiding seat 60. The first guiding member 90 has a first supporting piece 91 and a first pin member 92, the bottom end of the first supporting piece 91 is fixedly arranged at the front side of the base 12, and the first pin member 92 is inserted at the top end of the first supporting piece 91; the second guiding member 93 has a second supporting piece 94 and a second pin member 95, the bottom end of the second supporting piece 94 is fixed at the rear side of the base 12, and the second pin member 95 is inserted at the top end of the second supporting piece 94.

In actual operation, when the movable platform 30 is pulled from the initial position originally juxtaposed to the fixed platform 14 to the first position P1 shown in fig. 11, the first guide member 90 is inserted into the first inclined groove 80 by the first pin member 92, and since the first inclined groove 80 extends obliquely upward from the second end 74 of the flow guide base 60 toward the first end 70 of the flow guide base 60, the first pin member 92 pushes the two first protrusions 78 to pivot the flow guide base 60 about the pivot 64 to the first state S1 shown in fig. 11, at this time, the first flow guide opening 72 is located above the water collection tank 18, and the vertical distance between the first flow guide opening 72 and the movable platform 30 is greater than the vertical distance between the second flow guide opening 76 and the movable platform 30, that is, the flow guide channel 68 is in a state of being inclined downward toward the first flow guide opening 72, so that the flow guide channel 68 guides the water flow brought by the drainage channel 52 into the water collection tank 18 from the first flow guide opening 72.

During the process that the movable platform 30 is pushed to the second position P2 as shown in fig. 12, the first pin 92 is disengaged from the first inclined groove 80, the second guide member 93 is inserted into the second inclined groove 86 by the second pin 95, and since the second inclined groove 86 extends obliquely upward from the first end 70 of the flow guide 60 toward the second end 74 of the flow guide 60, the second pin 95 pushes the two second protrusions 84, so that the flow guide 60 pivots about the pivot 64 to the second state S2 as shown in fig. 12, at which the second flow guide 76 is located above the water collection groove 18, and the vertical distance between the second flow guide 76 and the movable platform 30 is greater than the vertical distance between the first flow guide 72 and the movable platform 30, that is, the flow guide channel 68 is inclined downward toward the second flow guide 76, so that the flow guide channel 68 guides the water flow brought by the drainage channel 52 from the second flow guide 76 to the water collection groove 18. In other words, no matter the movable platform 30 moves forward or backward, the diversion seat 60 can guide the water flow from the drainage channel 52 to the water collection tank 18 by the up-and-down swing of the diversion seat 60, so as to solve the problem of accumulated water in the movable platform 30, and further avoid the movable platform 30 and the operator from being wet and dirty by the accumulated water.

It should be added that, as shown in fig. 10, the two first protruding strips 78 form a first tapered opening 82 at the second end 74 of the diversion seat 60 and communicated with the first inclined slot 80, and the width of the first tapered opening 82 gradually increases toward a direction away from the first inclined slot 80, so that the first pin 92 can smoothly enter and exit the first inclined slot 80, so as to avoid interference with the two first protruding strips 78; similarly, as shown in fig. 8, the two second protrusions 84 form a second tapered opening 88 communicating with the second inclined groove 86 at the first end 70 of the flow guide seat 60, and the width of the second tapered opening 88 gradually increases toward a direction away from the second inclined groove 86, so that the second pin 95 can smoothly enter and exit the second inclined groove 86 to avoid interference with the two second protrusions 84.

Claims (6)

1. A drainage type workbench for a tile cutter, which comprises a base and a water collecting tank arranged on the base, the drainage type workbench comprises:

a movable platform which is positioned above the water collecting tank and is movably arranged on the base between a first position and a second position, and the movable platform is provided with a drainage channel which penetrates through the top and the bottom; and

the guide seat is pivoted on the bottom surface of the movable platform and can swing up and down relative to the movable platform between a first state and a second state, when the movable platform is positioned at the first position, the guide seat is positioned at the first state, when the movable platform is positioned at the second position, the guide seat is positioned at the second state, the guide seat is provided with a guide channel communicated with the drainage channel, one end of the guide seat is provided with a first guide opening communicated with the guide channel, the other end of the guide seat is provided with a second guide opening communicated with the guide channel, when the guide seat is positioned at the first state, the first guide opening is positioned above the water collecting tank, the vertical distance between the first guide opening and the movable platform is larger than the vertical distance between the second guide opening and the movable platform, and when the guide seat is positioned at the second state, the second guide opening is positioned above the water collecting tank, and the vertical distance between the second guide opening and the movable platform is larger than the vertical distance between the first guide opening and the movable platform.

2. The drainage workbench for ceramic tile cutting machine according to claim 1, further comprising a first guiding member and a second guiding member, wherein the first guiding member and the second guiding member are fixedly disposed at the front and rear two sides of the base in tandem and located at the left and right two opposite sides of the guiding seat, the guiding seat has a first end and a second end, the first end has the first guiding opening, the second end has the second guiding opening, one side of the guiding seat has a first chute, the first chute extends from the second end of the guiding seat to the first end of the guiding seat in an upward inclined manner, the other opposite side of the guiding seat has a second chute, the second chute extends from the first end of the guiding seat to the second end of the guiding seat in an upward inclined manner, when the first guiding member is embedded in the first chute, the guiding seat is located at the first state, and when the second guiding member is embedded in the second chute, the guiding seat is located at the second state.

3. The drainage table for ceramic tile cutter as claimed in claim 2, wherein the first guide member has a first supporting piece and a first pin member, the bottom end of the first supporting piece is fixed to the base, the first pin member is provided at the top end of the first supporting piece, the first guide member is embedded in the first chute by the first pin member, the second guide member has a second supporting piece and a second pin member, the bottom end of the second supporting piece is fixed to the base, the second pin member is provided at the top end of the second supporting piece, and the second guide member is embedded in the second chute by the second pin member.

4. The drainage table for ceramic tile cutter as claimed in claim 2, wherein the second end of the diversion seat has a first tapered opening communicating with the first inclined groove, the width of the first tapered opening gradually increases towards the direction away from the first inclined groove, the first end of the diversion seat has a second tapered opening communicating with the second inclined groove, and the width of the second tapered opening gradually increases towards the direction away from the second inclined groove.

5. The drainage workbench for the tile cutting machine according to any of the claims 1 to 4, wherein the movable platform comprises a first pedestal and a second pedestal, the first pedestal is movably disposed on the base, the top surface of the first pedestal has a first flow channel, the first pedestal has a drainage port communicating with the flow guide channel, the second pedestal is detachably disposed on the top surface of the first pedestal and forms a second flow channel with the first pedestal, one end of the second flow channel communicates with the first flow channel, the other end of the second flow channel communicates with the drainage port, such that the first flow channel, the second flow channel and the drainage port together form the drainage channel.

6. The drainage platform of claim 1, further comprising a first stopping member and a second stopping member, wherein the first stopping member and the second stopping member are fixed to the left and right sides of the base, the bottom surface of the movable platform has a first stopping portion and a second stopping portion, the movable platform is located at the first position when the first stopping portion of the movable platform contacts the first stopping member, and the movable platform is located at the second position when the second stopping portion of the movable platform contacts the second stopping member.

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