CN203600444U - Pressing mechanism for manual ceramic tile cutting machine and manual ceramic tile cutting machine - Google Patents

Abstract

The utility model discloses a pressing mechanism for a manual ceramic tile cutting machine and the manual ceramic tile cutting machine. The pressing mechanism is composed of a sliding block, a connecting piece, a nut, a threaded rod and a pressing block. The upper end of the connecting piece is connected with the sliding block. The middle of the connecting piece is connected with a rectangular block, wherein the rectangular block is perpendicular to the length direction of the connecting piece and provided with a transverse rectangular through hole and a through hole parallel to the length direction of the connecting piece. The nut matched with the threaded rod is placed in the transverse rectangular through hole. A gap is reserved between the nut and the transverse rectangular through hole. The threaded rod penetrates through the through hole, and the lower end of the threaded rod is fixedly connected with the pressing block. One side of the lower end of the connecting piece makes contact with the part on one side of the pressing block all the time to limit the circumferential rotation of the threaded rod and the pressing block. The pressing block is formed in the manner that the bottom end of a block-shaped object extends towards the two sides to respectively form a pressing sheet. After a ceramic tile is marked with a cutting mark, a pressing block on a handle and the pressing block on the pressing mechanism can exert pressure on the front end and the back end of the ceramic tile at the same time, and the ceramic tile is cut off neatly along the cutting mark.

Description

A kind of pressure exerting arrangement for manual ceramic-tile cutting device and manual ceramic-tile cutting device

Technical field

The utility model relates to ceramic tile cutting device field, particularly a kind of pressure exerting arrangement for manual ceramic-tile cutting device and manual ceramic-tile cutting device.

Background technology

The manual ceramic-tile cutting device of prior art, refers to Fig. 1, has base, support, guide rail, handle, sliding seat, scribing wheel and is arranged on the briquetting on handle.When use, hold handle sliding seat is pulled to back seat, ceramic tile lies on base, after having good positioning, putting down handle makes scribing wheel contact with ceramic tile surface, handle touches forward the straight line that makes scribing wheel mark one continuous uniform at ceramic tile surface, then handle is lifted slightly and pulled back, make that briquetting is steady must be put off in the front-end surface of ceramic tile, break bar does not now contact with ceramic tile, depress handle by suitable strength, the briquetting that makes to be arranged on handle is depressed ceramic tile, and ceramic tile will disconnect along cut.This is because the cut that utilizes scribing wheel to mark is very thin, thus exist very large stress to concentrate at cut place, in the time that briquetting is depressed ceramic tile, while exerting pressure at cut both sides place, certain pulling force will bear in the cut place of ceramic tile, and it is more concentrated that stress becomes, and ceramic tile just can disconnect along cut.Manual ceramic-tile cutting device although it is so can cut easily, disconnect ceramic tile, but along with the increase of distance, the distortion meeting of ceramic tile rear end is less than front end, ceramic tile front and back end unbalance stress, the pulling force that cut place, ceramic tile rear end is subject to will be less than front end, for long ceramic tile, in the time disconnecting ceramic tile, the pulling force that cut place, ceramic tile front and back end is subject to is inhomogeneous, cut place, rear end tension power is smaller, ceramic tile can not neatly be disconnected along cut, ceramic tile disconnects irregularly, it need to be repaired, even may become waste material, waste like this material, not environmental protection.

Utility model content

Technical problem to be solved in the utility model is that manual ceramic-tile cutting device marks after cut on long ceramic tile surface, can neatly disconnect this ceramic tile along cut, does not need to repair again, reduces spillage of material, more environmental protection.

The utility model solves the technical scheme that its technical problem adopts and is to provide a kind of pressure exerting arrangement for manual ceramic-tile cutting device, it is characterized in that, described pressure exerting arrangement is made up of slide block, connector, nut, threaded rod and briquetting; Described slide block is provided with the axis hole of the guide rail that is sheathed on manual ceramic-tile cutting device; Described connector is shaft, and its upper end is connected with slide block, and described connector middle part is connected with a rectangular block perpendicular to its length direction, and described rectangular block is provided with horizontal rectangular through-hole and is parallel to the through hole of connector length direction; Coordinate the nut of realizing vertical motion to be placed in this horizontal rectangular through-hole with threaded rod, between nut and this horizontal rectangular through-hole, leave gap, and the external diameter of nut is greater than the width of horizontal rectangular through-hole, threaded rod coordinates with via clearance, and threaded rod is fixedly connected with briquetting through described through hole and threaded rod lower end; One side of described connector lower end contacts to limit threaded rod with briquetting one side part all the time and briquetting circumferentially rotates; Described briquetting is that a block bottom is respectively extended a compressing tablet that ceramic tile is exerted pressure and formed to both sides.

Described slider bottom is provided with a through hole and slide block side is provided with an internal thread hole, the cylinder that the vertical upper end of described connector is provided with is one outstanding from surface, can match with slider bottom through hole, described cylinder middle part is provided with one makes connector realize with slide block the through hole being connected with the cooperation of screw, slide block internal thread hole.

Described briquetting is provided with a vertical through hole, and described threaded rod interference fit is in this through hole.

Described nut is round nut, and the outer circumference surface of this nut is along being circumferentially with the groove that increases friction.

The utility model sea provides a kind of manual ceramic-tile cutting device with pressure exerting arrangement simultaneously, comprise base, support, guide rail, handle, sliding seat, scribing wheel and be arranged on the briquetting on handle, it is characterized in that, described manual ceramic-tile cutting device is equipped with pressure exerting arrangement, and described pressure exerting arrangement is made up of slide block, connector, nut, threaded rod and briquetting; Described slide block is provided with the axis hole of the guide rail that is sheathed on manual ceramic-tile cutting device; Described connector is shaft, and its upper end is connected with slide block, and described connector middle part is connected with a rectangular block perpendicular to its length direction, and described rectangular block is provided with horizontal rectangular through-hole and is parallel to the through hole of connector length direction; Coordinate the nut of realizing vertical motion to be placed in this horizontal rectangular through-hole with threaded rod, between nut and this horizontal rectangular through-hole, leave gap, and the external diameter of nut is greater than the width of horizontal rectangular through-hole, threaded rod coordinates with via clearance, and threaded rod is fixedly connected with briquetting through described through hole and threaded rod lower end; One side of described connector lower end contacts to limit threaded rod with briquetting one side part all the time and briquetting circumferentially rotates; Described briquetting is that a block bottom is respectively extended a compressing tablet that ceramic tile is exerted pressure and formed to both sides.

Described slider bottom is provided with a through hole and slide block side is provided with an internal thread hole, the cylinder that the vertical upper end of described connector is provided with is one outstanding from surface, can match with slider bottom through hole, described cylinder middle part is provided with one makes connector realize with slide block the through hole being connected with the cooperation of screw, slide block internal thread hole.

Described briquetting is provided with a vertical through hole, and described threaded rod interference fit is in this through hole.

Described nut is round nut, and the outer circumference surface of this nut is along being circumferentially with the groove that increases friction.

The utility model can neatly disconnect long ceramic tile after adopting such technical scheme after cut, does not need to repair again, reduces spillage of material, more environmental protection.For long ceramic tile, mark after cut, rotate the nut of pressure exerting arrangement, drive threaded rod to realize vertical motion, regulate briquetting height, the briquetting of pressure exerting arrangement is contacted with ceramic tile surface, depress again the briquetting on handle, briquetting on handle is exerted pressure at ceramic tile front end, now ceramic tile rear end perk slightly, and ceramic tile rear end will be subject to the pressure of the briquetting of pressure exerting arrangement.The briquetting of the briquetting on handle and pressure exerting arrangement is exerted pressure to the front-end and back-end of ceramic tile simultaneously like this, just can guarantee all to obtain certain pressure at the ceramic tile surface along cut both sides, ceramic tile can neatly be disconnected along cut, reduce spillage of material, more environmental protection.

Accompanying drawing explanation

Be described in further detail below in conjunction with accompanying drawing and embodiment of the present utility model:

Fig. 1 is the side view of manual ceramic-tile cutting device of the present utility model.

Fig. 2 is the stereogram of pressure exerting arrangement of the present utility model.

Fig. 3 is the three-dimensional exploded view of pressure exerting arrangement of the present utility model.

The specific embodiment

As shown in Figure 1, the utility model provides a kind of manual ceramic-tile cutting device with pressure exerting arrangement 10, described manual ceramic-tile cutting device is made up of base 20, support 30, guide rail 40, handle 50, sliding seat 60, scribing wheel 61 and the briquetting 62 that is arranged on handle, compared with prior art, manual ceramic-tile cutting device of the present utility model is equipped with pressure exerting arrangement 10, and described pressure exerting arrangement 10 is arranged on manual ceramic-tile cutting device rear end.

As shown in Figures 2 and 3, described pressure exerting arrangement 10 is made up of slide block 11, connector 12, nut 13, threaded rod 14 and briquetting 15.

Slide block 11 is provided with the axis hole 111 of the guide rail 40 that is sheathed on manual ceramic-tile cutting device, coordinate described pressure exerting arrangement 10 is arranged on manual ceramic-tile cutting device with the guide rail 40 of manual ceramic-tile cutting device by this axis hole 111, after installing, pressure exerting arrangement 10 can be along guide rail 40 moving linearlies.

Connector 12 is shaft, and connector 12 upper ends and slide block 11 link together.Slide block 11 can be realized and being fixedly connected with of connector 12 by being welded on connector 12 upper ends.Preferred version is, be provided with a through hole 112 in slide block 11 bottoms and slide block 11 sides are provided with an internal thread hole 113, connector 12 upper ends are provided with a cylinder 122 matching with slide block 11 bottom through-holes 112, be provided with a through hole 1221 matching with slide block 11 internal thread holes 113 at these cylinder 122 middle parts, when installation, cylinder 122 is pegged graft in slide block 11 bottom through-holes 112, and recycling screw 16, the internal thread hole 113 of slide block 11 sides and the through hole 1221 of cylinder 122 are realized being fixedly connected with of slide block 11 and connector 12.

The middle part of connector 12 is connected with a rectangular block 121 perpendicular to its length direction, is provided with horizontal rectangular through-hole 1211 and the through hole 1221 that is parallel to connector 12 length directions on rectangular block 121.Laterally rectangular through-hole 1211 is interior has placed one and matches with threaded rod 14 and realize the nut 13 of threaded rod 14 vertical motions, and leave gap between nut 13 and horizontal rectangular through-hole 1211, this gap allows nut 13 in the laterally interior circumferential rotation of rectangular through-hole 1211, but restriction nut 13 is at the horizontal interior excessive axial float of rectangular through-hole 1211.Through hole 1212 diameters are a bit larger tham the large footpath of threaded rod 14, threaded rod 14 and through hole 1212 matched in clearance, and threaded rod 14 makes threaded rod 14 realize vertical motion 1212 li of through holes through through hole 1212.Threaded rod 14 lower ends are fixedly connected with briquetting 15, make threaded rod 14 and briquetting 15 realize vertical motion like this by rotating nut 13.Threaded rod 14 can be realized and being fixedly connected with of briquetting 15 by welding.Preferred version is, on briquetting 15, process a diameter than the smaller vertical through hole 153 in the large footpath of threaded rod 14, threaded rod 14 lower end interference fit are in the vertical through hole 153 of briquetting 15, when installation, can threaded rod 14 and briquetting 15 be achieved a fixed connection by utilizing instrument that threaded rod 14 is squeezed into 153 li of vertical through holes.

Nut 13 external diameters are greater than the length of horizontal rectangular through-hole 121, and nut 13 outer circumference surfaces will protrude from rectangular block 121 side places like this, and after installing, just can make to go smoothly can contact easily top nut 13 and nut 13 is applied to moment of torsion.Nut 13 can be preferably round nut, and circumferentially has groove 131 on the circle end face edge of nut 13, can increase the coefficient of friction of hand and nut 13 during like this with hand rotating nut 13, easy to use.

Connector 12 lower ends have been baffle effect, in the time that pressure exerting arrangement 10 is worked, one side of connector 12 lower ends contacts with a side part of briquetting 15 all the time, make in the time that nut 13 rotations drive threaded rod 14 and briquetting 15 to realize vertical motion, can limit threaded rod 14 and briquetting 15 and circumferentially rotate, only allow threaded rod 14 and briquetting 15 vertical motions.Rotate and can make threaded rod 14 and briquetting 15 realize vertical motion by nut 13, to meet the processing request of the ceramic tile to different-thickness.

Briquetting 15 is that block 151 bottoms are respectively extended a compressing tablet that ceramic tile is exerted pressure 152 and formed to both sides, when briquetting 15 presses after ceramic tile, briquetting 15 does not contact with the ceramic tile at ceramic tile cut place, only contact with the ceramic tile of both sides, cut place, briquetting 15 is just only exerted pressure to ceramic tile both sides like this, meets instructions for use.

When pressure exerting arrangement 10 is exerted pressure, owing to leaving space between nut 13 and horizontal rectangular through-hole 1211, so just can rotate easily the nut 13 that is placed on horizontal rectangular through-hole 1211, rotating nut 13, drive threaded rod 14 and briquetting 15 to realize vertical motion, briquetting 15 is contacted with ceramic tile surface, simultaneously because the gap between nut 13 and horizontal rectangular through-hole 1211 is little, can there is not excessive axial float in nut 13, when pressure exerting arrangement 10 is done the used time to ceramic tile, can be because of ceramic tile the reaction force to briquetting 15, make briquetting 15 that excessive axial float occur, affect the serviceability of pressure exerting arrangement 10.

As shown in Figure 1, pressure exerting arrangement 10 of the present utility model is sheathed on the guide rail 40 of manual ceramic-tile cutting device by the axis hole 111 on slide block 11, be arranged on manual ceramic-tile cutting device rear end.When use, first ceramic tile is lain in to manual ceramic-tile cutting device base 20, utilize manual ceramic-tile cutting device to mark after cut at ceramic tile, then the nut 13 that rotates pressure exerting arrangement 10 can contact with the rear end surface of ceramic tile the briquetting 15 of pressure exerting arrangement 10.Depressing handle 60 makes the briquetting 62 on handle 60 exert pressure at the front end of ceramic tile, the now rear end of ceramic tile perk slightly, the briquetting 15 of pressure exerting arrangement 10 will apply certain pressure to the rear end of ceramic tile, thereby can guarantee that the front-end and back-end of ceramic tile are under pressure simultaneously.By rotating the nut 13 of described pressure exerting arrangement 10, make threaded rod 14 and briquetting 15 realize vertical motion, regulate briquetting 15 height to meet the processing request of different-thickness ceramic tile, described pressure exerting arrangement 10 can be along guide rail 40 moving linearlies, to meet the processing request of different length ceramic tile.Mark after cut at ceramic tile like this, briquetting 62 on handle 60 can be exerted pressure in the front-end and back-end of ceramic tile respectively with the briquetting 15 of pressure exerting arrangement 10 simultaneously, guarantee can obtain certain pressure along the ceramic tile surface of cut both sides, can neatly disconnect ceramic tile, do not need to repair again, reduce spillage of material, more environmental protection.

Claims (8)

1. for a pressure exerting arrangement for manual ceramic-tile cutting device, it is characterized in that, described pressure exerting arrangement (10) is made up of slide block (11), connector (12), nut (13), threaded rod (14) and briquetting (15); Described slide block (11) is provided with the axis hole (111) of the guide rail (40) that is sheathed on manual ceramic-tile cutting device; Described connector (12) is shaft, its upper end is connected with slide block (11), described connector (12) middle part is connected with a rectangular block perpendicular to its length direction (121), and described rectangular block (121) is provided with horizontal rectangular through-hole (1211) and is parallel to the through hole (1212) of connector (12) length direction; Coordinate the nut (13) of realizing vertical motion to be placed in this horizontal rectangular through-hole (1211) with threaded rod (14), between nut (13) and this horizontal rectangular through-hole (1211), leave gap, and the external diameter of nut (13) is greater than the width of horizontal rectangular through-hole (1211), threaded rod (14) and through hole (1212) matched in clearance, threaded rod (14) is fixedly connected with briquetting (15) through described through hole (1212) and threaded rod (14) lower end; One side of described connector (12) lower end contacts to limit threaded rod (14) with briquetting (15) one side parts all the time and briquetting (15) circumferentially rotates; Described briquetting (15) is that a block (151) bottom is respectively extended a compressing tablet that ceramic tile is exerted pressure (152) and formed to both sides.

2. pressure exerting arrangement according to claim 1, it is characterized in that, described slide block (11) bottom is provided with a through hole (112) and slide block (11) side is provided with an internal thread hole (113), described connector (12) vertically upper end is provided with cylinder (122) outstanding from surface, that can match with slide block (11) bottom through-hole (112), and described cylinder (122) middle part is provided with one makes connector (12) and slide block (11) realize the through hole (1221) being connected with the cooperation of screw (16), slide block internal thread hole (113).

3. pressure exerting arrangement according to claim 1, is characterized in that, described briquetting (15) is provided with a vertical through hole (153), and described threaded rod (14) interference fit is in this through hole (153).

4. pressure exerting arrangement according to claim 1, is characterized in that, described nut (13) is round nut, and the outer circumference surface of this nut (13) is along being circumferentially with the groove (131) that increases friction.

5. the manual ceramic-tile cutting device with the pressure exerting arrangement of claim 1, comprise base (20), support (30), guide rail (40), handle (50), sliding seat (60), scribing wheel (61) and be arranged on the briquetting (62) on handle, it is characterized in that, described manual ceramic-tile cutting device is equipped with pressure exerting arrangement (10), and described pressure exerting arrangement (10) is made up of slide block (11), connector (12), nut (13), threaded rod (14) and briquetting (15); Described slide block (11) is provided with the axis hole (111) of the guide rail (40) that is sheathed on manual ceramic-tile cutting device; Described connector (12) is shaft, its upper end is connected with slide block (11), described connector (12) middle part is connected with a rectangular block perpendicular to its length direction (121), and described rectangular block (121) is provided with horizontal rectangular through-hole (1211) and is parallel to the through hole (1212) of connector (12) length direction; Coordinate the nut (13) of realizing vertical motion to be placed in this horizontal rectangular through-hole (1211) with threaded rod (14), between nut (13) and this horizontal rectangular through-hole (1211), leave gap, and the external diameter of nut (13) is greater than the width of horizontal rectangular through-hole (1211), threaded rod (14) and through hole (1212) matched in clearance, threaded rod (14) is fixedly connected with briquetting (15) through described through hole (1212) and threaded rod (14) lower end; One side of described connector (12) lower end contacts to limit threaded rod (14) with briquetting (15) one side parts all the time and briquetting (15) circumferentially rotates; Described briquetting (15) is that a block (151) bottom is respectively extended a compressing tablet that ceramic tile is exerted pressure (152) and formed to both sides.

6. manual ceramic-tile cutting device according to claim 5, it is characterized in that, described slide block (11) bottom is provided with a through hole (112) and slide block (11) side is provided with an internal thread hole (113), described connector (12) vertically upper end is provided with cylinder (122) outstanding from surface, that can match with slide block (11) bottom through-hole (112), and described cylinder (122) middle part is provided with one makes connector (12) and slide block (11) realize the through hole (1221) being connected with the cooperation of screw (16), slide block internal thread hole (113).

7. manual ceramic-tile cutting device according to claim 5, is characterized in that, described briquetting (15) is provided with a vertical through hole (153), and described threaded rod (14) interference fit is in this through hole (153).

8. manual ceramic-tile cutting device according to claim 5, is characterized in that, described nut (13) is round nut, and the outer circumference surface of this nut (13) is along being circumferentially with the groove (131) that increases friction.

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