CN108331302B - Infrared-used punching bar system and application method thereof - Google Patents

Abstract

The invention relates to the field of building decoration construction, in particular to a punching bar system using infrared rays and a using method thereof. The component comprises an infrared level, a ruler rod and a cutting line, wherein an upper sliding groove is formed in the upper end of the ruler rod, an upper sliding block is movably installed in the upper sliding groove, the upper sliding block is fixedly connected with one end of a positioning line, a lower sliding groove is formed in the lower part of the ruler rod, a lower sliding block is movably installed in the lower sliding groove, a cutter groove is formed in the lower sliding block, the other end of the positioning line is fixedly connected with a cutter, and the cutter is movably installed in the cutter groove. According to the invention, the infrared level gauge and the punching bar ruler are matched, so that the working procedure of manufacturing ash cakes to perform construction positioning is omitted, and meanwhile, the ruler rod is provided with vertical normal scales, so that an operator can control the thickness of punching bars more easily, and accurate construction is realized; the locating line, the cutting line and the cutter are additionally arranged on the ruler plate, so that the location of the construction process can be clearer and more accurate according to infrared rays, and workers can carry and operate more conveniently.

Description

Infrared-used punching bar system and application method thereof

Technical Field

The invention relates to the field of building decoration construction, in particular to a punching bar system using infrared rays and a using method thereof.

Background

The labor and material loss during later decoration can be effectively reduced by improving house room, depth, square accuracy, wall perpendicularity, flatness and the like, so that the control of plastering quality of a decoration base layer becomes the key point of project construction quality control, and the accurate convenience degree of naturally plastering and punching is also an important target of project cost reduction and synergy.

According to the conventional method, when decoration is performed, operators always choose a common plumb bob and a guiding rule to firstly beat ash cakes and then perform punching operation, but the method has a plurality of defects: (1) Under the influence of a construction process, people frequently use a plumb bob and a guiding rule to punch a certain number of ash cakes, then use the guiding rule to punch ribs, and the quality control effect is not ideal due to half effort; (2) Part of sites are troublesome, the process of punching tendons is directly omitted, and the painting quality is more difficult to control; (3) Because the common plumb bob is inconvenient to hang, the common plumb bob is difficult to hang downwards from the bottom of the top plate, constructors often save trouble and hang downwards from the position 300mm away from the bottom of the top plate, and therefore the punching accuracy of the common plumb bob is reduced manually; (4) Because of the interference of external adverse factors such as wind force, a common plumb line is easy to shake continuously, so that the line drop is caused to shake, the plumb is required to wait for a period of time or be stabilized by using external force, the time can be delayed, the thickness of a punching rib can be deviated, and the depth and the vertical flatness of a room are further influenced; (5) Two persons are often required to cooperate for use by the common plumb bob, so that human resources are wasted.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides an infrared-ray-based tendon punching system and a use method thereof.

The technical scheme of the invention is as follows: the utility model provides an use infrared ray's punching rib system, includes infrared ray spirit level, ruler, cutting line, and the spout has been seted up to the ruler upper end, and movable mounting has the slider in the spout, and the one end fixed connection of slider and locating wire has been seted up down the spout in the ruler lower part, and movable mounting has the slider down in the spout, and the sword groove has been seted up to the slider down, and the locating wire other end and cutter fixed connection, cutter movable mounting are in the sword groove.

The cutter is provided with a clamping groove I, and a convex clamping block matched with the clamping groove I is arranged in the cutter groove.

The cutting line is a steel wire, and both ends of the steel wire are connected with pull rings.

The positioning wire comprises two steel wires, one end of each steel wire is fixedly connected with the upper sliding block, the other end of each steel wire is fixedly connected with the lower sliding block, two rows of circular rings are arranged on the cutter, and the cutter is slidably arranged on the two steel wires through the two rows of circular rings.

The ruler rod body between the upper chute and the lower chute is sleeved with a clamping groove II in a sliding mode, a cutting line is connected to the clamping groove II, and a handle is arranged on the clamping groove II.

A method for using an infrared-ray tendon punching system comprises the following steps,

step one: placing an infrared ray level meter on a wall control line of a room, opening the infrared ray level meter, and enabling vertical infrared rays to coincide with the wall control line so as to find a plane parallel to a wall painting finish surface;

step two: selecting a ruler rod with vertical through length scales;

step three: the thickness of the painting layer is supposed to be Hmm, the ruler rod is vertically attached to the wall surface, the vertical infrared rays are overlapped with Hmm vertical scale marks of the ruler rod, the upper sliding block and the lower sliding block are adjusted, the positioning lines, the cutter and the vertical infrared rays and Hmm vertical scale marks are located on the same plane, and the ruler rod is taken down;

step four: mortar or gypsum is smeared on a scale area of 0-Hmm of the ruler rod, the plastering surface of the ruler rod is clung to a wall body, the ruler rod is lightly pressed, the bottom of the ruler rod is clung to the ground, and the ruler rod is prevented from moving downwards, so that room opening, depth, squareness, wall body perpendicularity and flatness are ensured, and an ideal plastering completion surface and a punching surface are determined;

step five: when the mortar or plastering gypsum is semi-dry, pushing the cutter to cut off the redundant punching rib edges along the vertical scale lines of Hmm, selecting a steel wire line with a pull ring as a cutting line, enabling the steel wire line to be clung to the plastering surface of the ruler rod and to be drawn down from top to bottom, separating the plastering surface from the surface of the ruler rod, taking down the ruler rod, and placing the cutter into the cutter groove to finish a vertical punching rib;

step six: and (3) repeating the fourth step and the fifth step according to the specified space to finish the residual vertical punching process.

And in the first step, the control line of the room wall is the alignment control line of the center point of the room wall.

And in the fifth step, the dryness and humidity of the mortar or plastering gypsum reaches sixty percent to eighty percent, and the next step is carried out.

According to the invention, the infrared level gauge and the punching bar ruler are matched, so that the working procedure of manufacturing ash cakes to perform construction positioning is omitted, and meanwhile, the vertical through length scale is arranged on the ruler rod, so that an operator can control the thickness of the punching bar more easily, and accurate construction is realized; the locating line, the cutting line and the cutter are additionally arranged on the ruler plate, so that the location of the construction process can be clearer and more accurate according to infrared rays, and workers can carry and operate more conveniently.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the present invention in use;

FIG. 2 is a front view of the ruler of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of the present invention;

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

FIG. 5 is a schematic view of a cutting line of the present invention;

fig. 6 is a plan view of the card slot II of the present invention.

The infrared level gauge comprises a 1 infrared level gauge, a 2 ruler rod, a 3 upper sliding groove, a 4 upper sliding block, a 5 positioning line, a 6 lower sliding groove, a 7 lower sliding block, an 8 cutter, a 9 clamping groove I, a 10 cutter groove, an 11 cutting line and a 12 clamping groove II.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without any inventive effort, are intended to be within the scope of the invention.

Example 1: as shown in fig. 1-5, an infrared-based bar punching system comprises an infrared level 1, a ruler rod 2 and a cutting line 11, wherein an upper sliding groove 3 is formed in the upper end of the ruler rod 2, an upper sliding block 4 is movably installed in the upper sliding groove 3, the upper sliding block 4 is fixedly connected with one end of a positioning line 5, a lower sliding groove 6 is formed in the lower portion of the ruler rod 2, a lower sliding block 7 is movably installed in the lower sliding groove 6, a cutter groove 10 is formed in the lower sliding block 7, the other end of the positioning line 5 is fixedly connected with a cutter 8, and the cutter 8 is movably installed in the cutter groove 10.

Example 2: the utility model provides an use infrared ray's punching rib system, including infrared ray spirit level 1, ruler 2, cutting line 11, the spout 3 has been seted up to ruler 2 upper end, upward movable mounting has slider 4 in the spout 3, upward slider 4 and the one end fixed connection of locating wire 5, spout 6 has been seted up to ruler 2 lower part, movable mounting has slider 7 down in the spout 6 down, sword groove 10 has been seted up to slider 7 down, locating wire 5 other end and cutter 8 fixed connection, be equipped with draw-in groove I9 on the cutter 8, be equipped with in the sword groove 10 with draw-in groove I9 matched with protruding fixture block, cutter 8 movable mounting is in sword groove 10.

Example 3: the utility model provides an use infrared ray's punching rib system, includes infrared ray spirit level 1, ruler 2, cutting line 11, and runner 3 has been seted up to ruler 2 upper end, and movable mounting has gone up slider 4 in the runner 3, and positioning wire 5 includes two steel wires, and one end and the last slider 4 fixed connection of steel wire, the other end and the slider 7 fixed connection of steel wire, install two rows of rings on the cutter 8, and cutter 8 is through two rows of ring slidable mounting on two steel wires, and other structures are the same with embodiment 1.

Example 4: as shown in FIG. 6, an infrared-based bar punching system comprises an infrared level 1, a ruler rod 2 and a cutting line 11, wherein an upper sliding groove 3 is formed in the upper end of the ruler rod 2, an upper sliding block 4 is movably installed in the upper sliding groove 3, the upper sliding block 4 is fixedly connected with one end of a positioning line 5, a lower sliding groove 6 is formed in the lower portion of the ruler rod 2, a clamping groove II12 is sleeved on a rod body of the ruler rod 2 between the upper sliding groove 3 and the lower sliding groove 6 in a sliding manner, the cutting line 11 is connected to the clamping groove II12, a handle is arranged on the clamping groove II12, and other structures are the same as those of the embodiment 1.

Example 5: the application method of the punching rib system using infrared rays comprises the following application steps:

step one: placing the infrared level meter 1 on a room wall control line, aligning the center point with the control line, opening vertical infrared rays and enabling the vertical infrared rays to coincide with the wall control line so as to find a plane parallel to a wall painting finish surface;

step two: a ruler rod 2 with vertical through length scales is selected;

step three: the thickness of the brushing layer is supposed to be Hmm, the ruler rod 2 is vertically attached to the wall surface, the vertical infrared rays are overlapped with Hmm vertical scale marks of the ruler rod 2, the upper sliding block 4 and the lower sliding block 7 are adjusted, the positioning lines 5 and the cutters 8 are positioned on the same plane with the vertical infrared rays and Hmm vertical scale marks, and the ruler rod 2 is taken down;

step four: mortar or gypsum is smeared on the scale area of 0-Hmm of the ruler rod 2, the plastering surface of the ruler rod 2 is tightly attached to the wall body, the ruler rod 2 is lightly pressed, meanwhile, the bottom of the ruler rod 2 is tightly attached to the ground, and the ruler rod 2 is prevented from moving downwards, so that room opening, depth, squareness, wall perpendicularity and flatness are guaranteed, and an ideal plastering completion surface and a punching surface are determined;

step five: when the mortar or plastering gypsum is dried, pushing the cutter 8 to cut off the redundant punching rib edges along the vertical scale marks of Hmm, selecting a steel wire with a pull ring as a cutting line 11, enabling the steel wire to cling to the plastering surface of the ruler rod 2 and scratch down from top to bottom, separating the plaster surface from the surface of the ruler rod 2, taking down the ruler rod 2, and putting the cutter 8 into the cutter groove 10 to finish a vertical punching rib;

step six: and (3) repeating the fourth step and the fifth step according to the specified space to finish the residual vertical punching process.

Example 6: the application method of the punching rib system using infrared rays comprises the following application steps:

step one: placing the infrared ray level meter 1 on a control line (the center point of the infrared ray level meter is aligned with the control line) of a room wall body of 100mm, opening the infrared ray level meter and enabling the infrared ray level meter to emit vertical infrared rays to coincide with the control line of the wall body so as to find a plane parallel to the painting finish surface of the wall body;

step two: considering that the room layer height is basically 2900mm or 3000mm, for one-time punching to the top, a ruler rod 2 with a length of 2850mm and a thickness of 20mm and a scale is selected, and the vertical through length scale on the ruler rod 2 is 110mm;

step three: the thickness of the brushing layer is assumed to be 15mm, the ruler rod 2 is vertically attached to the wall surface, the vertical infrared rays are overlapped with the 15mm vertical scale marks of the ruler rod 2, the upper sliding block 4 and the lower sliding block 7 are adjusted, the positioning lines 5 and the cutters 8 are positioned on the same plane with the vertical infrared rays and the 15mm vertical scale marks, and the ruler rod 2 is taken down;

step four: mortar or gypsum with the thickness of about 20mm is smeared on a scale area of 0-15 mm of the ruler rod 2, the plastering surface of the ruler rod 2 is tightly attached to a wall body and the ruler rod 2 is lightly pressed, in addition, the bottom of the ruler rod 2 is tightly attached to the ground to prevent the ruler rod 2 from moving downwards, thus ensuring room space, depth, squareness and wall body perpendicularity and flatness, and further determining ideal plastering completion surface and punching surface;

step five: when mortar or plastering gypsum is dried, pushing a cutter 8 to cut off the redundant punching rib edges along the vertical scale marks of 15mm, selecting a steel wire line with a pull ring, wherein the length of the steel wire line is 300mm, and the diameter of the steel wire line is 0.5mm, so that the steel wire line clings to the plastering surface of the ruler rod 2 and is drawn down from top to bottom, the plaster surface is separated from the surface of the ruler rod 2, the ruler rod 2 is taken down, and the cutter 8 is placed into a cutter groove 10 to finish a vertical punching rib;

step six: and (3) repeating the fourth step and the fifth step according to the specified space to finish the residual vertical punching process.

Example 7: the utility model provides an use infrared ray's punching rib system, including infrared ray spirit level 1, ruler 2, cutting line 11, the spout 3 has been seted up to ruler 2 upper end, upward movable mounting has slider 4 in the spout 3, upward slider 4 and the one end fixed connection of locating wire 5, spout 6 has been seted up to ruler 2 lower part, movable mounting has slider 7 down in the spout 6 down, sword groove 10 has been seted up to slider 7 down, locating wire 5 other end and cutter 8 fixed connection, be equipped with draw-in groove I9 on the cutter 8, be equipped with in the sword groove 10 with draw-in groove I9 matched with protruding fixture block, cutter 8 movable mounting is in sword groove 10, its use step is as follows:

step one: placing the infrared ray level meter 1 on a control line (the center point is aligned with the control line) of a room wall body of 100mm, opening the infrared ray level meter 1 and enabling vertical infrared rays emitted by the infrared ray level meter to coincide with the wall body control line so as to find a plane parallel to a wall body painting finish surface;

step two: considering that the room layer height is basically 2900mm or 3000mm, for one-time punching to the top, a ruler rod 2 with a length of 2850mm and a thickness of 20mm and a scale is selected, and the vertical through length scale on the ruler rod 2 is 110mm;

step three: the thickness of the brushing layer is assumed to be 15mm, the ruler rod 2 is vertically attached to the wall surface, the vertical infrared rays are overlapped with the 15mm vertical scale marks of the ruler rod 2, the upper sliding block 4 and the lower sliding block 7 are adjusted, the positioning lines 5 and the cutters 8 are positioned on the same plane with the vertical infrared rays and the 15mm vertical scale marks, and the ruler rod 2 is taken down;

step four: mortar or gypsum with the thickness of about 20mm is smeared on a scale area of 0-15 mm of the ruler rod 2, the plastering surface of the ruler rod 2 is tightly attached to a wall body and the ruler rod 2 is lightly pressed, in addition, the bottom of the ruler rod 2 is tightly attached to the ground to prevent the ruler rod 2 from moving downwards, thus ensuring room space, depth, squareness and wall body perpendicularity and flatness, and further determining ideal plastering completion surface and punching surface;

step five: when mortar or plastering gypsum is dried, pushing a cutter 8 to cut off the redundant punching rib edges along the vertical scale marks of 15mm, selecting a steel wire line with a pull ring, wherein the length of the steel wire line is 300mm, and the diameter of the steel wire line is 0.5mm, so that the steel wire line clings to the plastering surface of the ruler rod 2 and is drawn down from top to bottom, the plaster surface is separated from the surface of the ruler rod 2, the ruler rod 2 is taken down, and the cutter 8 is placed into a cutter groove 10 to finish a vertical punching rib;

step six: and (3) repeating the fourth step and the fifth step according to the specified space to finish the residual vertical punching process.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and is to be interpreted as illustrative only, and not as limiting the scope of the invention.

Claims (7)

1. An infrared-based tendon punching system is characterized in that: the automatic cutting device comprises an infrared level (1), a ruler rod (2) and a cutting line (11), wherein an upper sliding groove (3) is formed in the upper end of the ruler rod (2), an upper sliding block (4) is movably installed in the upper sliding groove (3), the upper sliding block (4) is fixedly connected with one end of a positioning line (5), a lower sliding groove (6) is formed in the lower portion of the ruler rod (2), a lower sliding block (7) is movably installed in the lower sliding groove (6), a cutter groove (10) is formed in the lower sliding block (7), the other end of the positioning line (5) is fixedly connected with a cutter (8), and the cutter (8) is movably installed in the cutter groove (10);

the application method comprises the following steps:

step one: placing an infrared ray level meter (1) on a wall control line of a room, opening the infrared ray level meter (1) and enabling vertical infrared rays emitted by the infrared ray level meter to coincide with the wall control line so as to find a plane parallel to a wall painting finish surface;

step two: a ruler rod (2) with vertical through length scales is selected;

step three: the thickness of the brushing layer is supposed to be Hmm, the ruler rod (2) is vertically abutted on the wall surface, the vertical infrared rays are overlapped with Hmm vertical scale marks of the ruler rod (2), the upper sliding block (4) and the lower sliding block (7) are adjusted, the positioning line (5) and the cutter (8) are positioned on the same plane with the vertical infrared rays and Hmm vertical scale marks, and the ruler rod (2) is taken down;

step four: mortar or gypsum is smeared on a scale area of 0-Hmm of the ruler rod (2), the plastering surface of the ruler rod (2) is clung to a wall body, the ruler rod (2) is lightly pressed, and meanwhile, the bottom of the ruler rod (2) is clung to the ground, so that the ruler rod (2) is prevented from moving downwards, room opening, depth, squareness, wall perpendicularity and flatness are guaranteed, and an ideal plastering completion surface and a punching surface are determined;

step five: when the mortar or plastering gypsum is semi-dry, pushing the cutter (8) to cut off the redundant punching rib edges along the vertical scale marks of Hmm, selecting a steel wire with a pull ring as a cutting line (11), enabling the steel wire to be clung to the plastering surface of the ruler rod (2) and to be drawn down from top to bottom, enabling the plaster surface to be separated from the surface of the ruler rod (2), taking down the ruler rod (2), and placing the cutter (8) into the cutter groove (10) to finish a vertical punching rib;

step six: and (3) repeating the fourth step and the fifth step according to the specified space to finish the residual vertical punching process.

2. An infrared-based tendon punching system as set forth in claim 1, wherein: the cutter (8) is provided with a clamping groove I (9), and a convex clamping block matched with the clamping groove I (9) is arranged in the cutter groove (10).

3. An infrared-based tendon punching system as set forth in claim 1, wherein: the cutting line (11) is a steel wire, and both ends of the steel wire are connected with pull rings.

4. An infrared-based tendon punching system as set forth in claim 1, wherein: the positioning wire (5) comprises two steel wires, one end of each steel wire is fixedly connected with the upper sliding block (4), the other end of each steel wire is fixedly connected with the lower sliding block (7), two rows of circular rings are arranged on the cutter (8), and the cutter (8) is slidably arranged on the two steel wires through the two rows of circular rings.

5. An infrared-based tendon punching system as set forth in claim 1, wherein: the rod body of the ruler rod (2) between the upper chute (3) and the lower chute (6) is sleeved with a clamping groove II (12) in a sliding manner, a cutting line (11) is connected to the clamping groove II (12), and a handle is arranged on the clamping groove II (12).

6. An infrared-based tendon punching system as claimed in any one of claims 1 to 5, characterized in that: the room wall control line in the first step is a center point alignment control line of the room wall.

7. An infrared-based tendon punching system as set forth in claim 6, wherein: and fifthly, the dry humidity of the mortar or the plastering gypsum reaches sixty percent to eighty percent, and the next step is carried out.