CN109556582B - Horizontal laser generator for building - Google Patents

Abstract

The invention discloses a horizontal laser generator for buildings, which structurally comprises a dumping weighing fine-tuning distance-increasing device, a rotary switch, an anti-skidding sleeve and an upper sealing cover, wherein the rotary switch is embedded and installed on the left side surface of the dumping weighing fine-tuning distance-increasing device, the inner side of the anti-skidding sleeve is nested with the outer side of the top of the dumping weighing fine-tuning distance-increasing device and is positioned on the same central line, and the top of the anti-skidding sleeve is attached to the bottom of the upper sealing cover. According to the horizontal laser generator, when the horizontal laser generator is placed on the ground of a construction site, the liquid level and the inclination force of the steel balls can be weighed to judge that the liquid pump needing to be started is used for adjusting the height, so that the deviation of the accuracy during measurement is avoided, and the horizontal laser generator separates a glass plate from external flying dust through the sealing partition plate, so that the flying dust is prevented from being adhered to the glass plate to cause the glass plate to be fuzzy, and the laser shooting distance is shortened.

Description

Horizontal laser generator for building

Technical Field

The invention relates to the field of building equipment, in particular to a horizontal laser generator for buildings.

Background

Whether the measurement of will carrying out the level to ground, face wall in building engineering shifts, present mostly be through manual measurement, the precision is not high like this, can improve the precision greatly through horizontal laser generator detection. However, the current horizontal laser generator for buildings has the following disadvantages:

1. this horizontal laser generator is when using, because the horizontal plane on building site ground is still usually at the construction stage, and the ground is unsmooth, when measuring with the device, is difficult to adjusting device's height, leads to precision skew when measuring.

2. And light flying dust can be diffused in the air when the construction site is in the construction stage, so that the flying dust is adhered to the glass plate to obscure the glass plate, and the laser shooting distance is shortened.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a horizontal laser generator for buildings, which solves the defects that when the horizontal laser generator in the prior art is used, the horizontal plane of the ground of a building site is usually in a construction stage, the ground is uneven, the height of a device is difficult to adjust when the device is used for measurement, so that the precision is deviated during measurement, and light flying dust can diffuse in the air when the building site is in the construction stage, so that the light flying dust is adhered to a glass plate to cause the glass plate to be fuzzy, and the laser range is shortened.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a horizontal laser generator for buildings structurally comprises an inclined weighing fine-tuning distance-increasing device, a rotary switch, an anti-skidding sleeve and an upper sealing cover, wherein the rotary switch is embedded and installed on the left side surface of the inclined weighing fine-tuning distance-increasing device, the inner side of the anti-skidding sleeve is nested with the outer side of the top of the inclined weighing fine-tuning distance-increasing device and is positioned on the same central line, the top of the anti-skidding sleeve is attached to the bottom of the upper sealing cover, the top of the inclined weighing fine-tuning distance-increasing device is connected with the bottom of the upper sealing cover, the inclined weighing fine-tuning distance-increasing device comprises an accumulated water steel ball shaking device, an inclined weighing detection device, a hydraulic fine-tuning device, a triangular head supporting mechanism and a clear distance-increasing device, the lower surface of the accumulated water steel ball shaking device is attached to the upper surface of the inclined weighing detection device, the inclined weighing detection device is electrically connected, and a hydraulic fine-adjustment device is arranged below the clear distance-increasing device and is arranged at the left end and the right end of the accumulated water steel ball shaking device.

As a further scheme of the invention, the ponding steel ball shaking device comprises a fixed bottom plate, a bolt, a fixed top plate, a sealed water accumulating tank, a sealing rubber, an outer cover shell, a U-shaped bottom plate and steel balls, wherein the bolt is provided with four bolts embedded and installed on the surface of the fixed bottom plate, the upper surface of the fixed bottom plate is parallel to the lower surface of the fixed top plate, two ends of the fixed bottom plate are connected through the sealed water accumulating tank, the upper surface of the fixed bottom plate is connected with the lower surface of the sealed water accumulating tank in an electric welding mode, the top end of the sealed water accumulating tank is connected with the lower surface of the fixed top plate, the sealing rubber is provided with two blocks which are installed at the left end and the right end of the inner side of the sealed water accumulating tank, the bottom of the outer cover shell is connected with the middle section of the lower surface of, the surface of the fixed bottom plate is provided with an overturning weighing detection device.

As a further scheme of the invention, the dumping weighing detection device comprises a high-precision pressure weigher, a data conversion line, a base and a power line, wherein the high-precision pressure weigher is arranged on the surface of a fixed bottom plate, the high-precision pressure weigher is connected with the base through the data conversion line, the bottom end of the base is connected with the bottom end of the data conversion line, the high-precision pressure weigher is arranged above the base, two ends of the high-precision pressure weigher are connected with the left surface of the base through the data conversion line, and the right end of the power line is connected with the left surface of.

As a further scheme of the invention, the hydraulic fine adjustment device comprises a power supply connecting wire, a liquid pumping pump bottom plate, a liquid pumping pump, a sealing connecting sleeve and a plastic hose, wherein the power supply connecting wire is electrically connected with the liquid pumping pump through a wire, the right side surface of the liquid pumping pump bottom plate is connected with the left side surface of the liquid pumping pump through an electric welding mode, the right side of the liquid pumping pump is connected with the left side of the sealing connecting sleeve, the outer end of the plastic hose is nested with the inner side of the sealing connecting sleeve, the plastic hose is inserted through the sealing connecting sleeve to be connected with the liquid pumping pump, the liquid pumping pump bottom plate is installed on the left side of the plastic hose.

As a further scheme of the invention, the triangular head supporting mechanism comprises a conical supporting foot, a connecting block, a piston, a shell, a sealing top plate and a welding block, the inner side of the shell is provided with a plastic hose, the conical supporting legs are arranged above the connecting block and are of an integrated structure, the conical supporting legs are connected with the piston through connecting blocks, the upper surface of each connecting block is perpendicular to the lower surface of the piston and is connected with the lower surface of the piston through an electric welding mode, the piston is arranged on the inner side of the shell and is connected with the shell in a sliding mode, a sealing top plate is arranged above the shell and is of an integrated structure, the lower surface of the sealing top plate is parallel to the upper surface of the piston, two ends of the sealing top plate are connected through the shell, the upper surface of the sealing top plate is welded with the lower surface of the welding block, the shell is connected with the welding block through the sealing top plate, and the connecting block is connected with the shell through the piston.

As a further scheme of the invention, the clear distance increasing device comprises an electrode electrifying and pulling device and an extruding sliding isolation mechanism, wherein the electrode electrifying and pulling device is arranged above the extruding sliding isolation mechanism.

As a further scheme of the invention, the electrode electrifying and pulling device comprises a controller, pins, an iron rod, a coil, a fixed welding plate and an armature, wherein the upper surface of the controller is connected with the bottom ends of the pins, the tail ends of the pins are connected with the head ends of the coil, the coil is arranged on the outer side of the iron rod in a surrounding manner, the fixed welding plate is provided with two fixed welding plates which are arranged at the left end and the right end of the iron rod, the upper surface of the armature is parallel to the lower surface of the iron rod, the pins are connected with the iron rod through the coil, and the controller is electrically connected with.

In a further aspect of the present invention, the extrusion sliding isolation mechanism includes a glass plate, a sliding connection block, a sealing partition plate, a rolling shaft, a sliding groove, a compression spring, and a pulling block, the right side of the glass plate is parallel to the left side of the sealing partition plate, the sliding connection block is mounted on the left side of the sealing partition plate and is of an integrated structure, the rolling shaft is mounted on the right side of the sealing partition plate and is of an integrated structure, the rolling shaft is embedded inside the sliding groove and is connected in a sliding manner, the left side of the sliding groove is attached to the right side of the sealing partition plate, the sealing partition plate is slidably connected to the sliding groove through the rolling shaft, the bottom end of the compression spring is perpendicular to the top end of the sealing partition plate and is connected in an electric welding manner, the compression spring is mounted on the.

Advantageous effects of the invention

The invention relates to a horizontal laser generator for buildings, an antiskid sleeve is held by hands to place a device at a position to be measured, when the ground is unbalanced, water in a sealed water accumulation tank can be poured, steel balls in an outer housing can be poured in a U-shaped bottom plate, detection is carried out through a high-precision pressure weighing device, data are transmitted to a base through a data conversion line, a liquid pump which is controlled to be started and connected through a power supply connecting line is used for pumping liquid through a plastic hose, oil above a piston in the housing is pumped slowly, oil in the liquid pump is injected, the piston is extruded or retracted to drive a conical supporting leg to be adjusted, precision deviation during measurement is avoided, after adjustment is finished, a controller can be started to electrify a coil connected with a pin, and an armature iron rod arranged inside in the housing can be electrified to generate electromagnetic force to adsorb the lower part to drive a sliding connecting block to move, the sealing partition plate and the rolling shaft are matched to move upwards along the sliding groove, the compression spring is extruded and opened, and then the glass plate can work, so that the phenomenon that flying dust is adhered to the glass plate to cause the glass plate to be fuzzy, and the laser shooting distance is shortened is avoided.

According to the horizontal laser generator for the building, disclosed by the invention, when the horizontal laser generator is placed on the ground of a construction site, the liquid level and the inclination force of the steel ball can be weighed to judge that a liquid pump needing to be started is used for adjusting the height, so that the deviation of the precision during measurement is avoided, and the horizontal laser generator is used for isolating a glass plate from external flying dust through the sealing partition plate, so that the flying dust is prevented from being adhered to the glass plate to cause the glass plate to be fuzzy, and the laser range is shortened.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural diagram of a horizontal laser generator for buildings according to the present invention.

Fig. 2 is a structural plan view of a dumping weighing fine-tuning distance-increasing device of the invention.

Fig. 3 is a detailed structural schematic diagram of a dumping weighing fine-tuning distance-increasing device of the present invention.

Fig. 4 is a detailed structural schematic diagram of the ponding steel ball shaking device.

Fig. 5 is a plan view of a clear distance increasing device according to the present invention.

Fig. 6 is a detailed structural schematic diagram of a clear distance increasing device according to the present invention.

In the figure: a dumping weighing fine-adjustment distance-increasing device-1, a rotary switch-2, an anti-slip sleeve-3, an upper seal cover-4, an accumulated water steel ball shaking device-11, a dumping weighing detection device-12, a hydraulic fine-adjustment device-13, a triangular head supporting mechanism-14, a clear distance-increasing device-15, a fixed bottom plate-111, a bolt-112, a fixed top plate-113, a sealed water accumulating tank-114, a sealing rubber-115, an outer housing-116, a U-shaped bottom plate-117, a steel ball-118, a high-precision pressure weighing device-121, a data conversion line-122, a base-123, an energizing line-124, a power supply connecting line-131, a liquid pump bottom plate-132, a liquid pump-133, a sealing connecting sleeve-134, a plastic hose-135, a conical supporting leg-141, a conical supporting leg, The device comprises a connecting block-142, a piston-143, a shell-144, a sealing top plate-145, a welding block-146, an electrode electrifying and pulling device-151, an extruding sliding isolation mechanism-152, a controller-1511, a pin-1512, an iron rod-1513, a coil-1514, a fixed welding plate-1515, an armature-1516, a glass plate-1521, a sliding connecting block-1522, a sealing partition-1523, a rolling shaft-1524, a sliding groove-1525, a compression spring-1526 and a pulling block-1527.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 6, the present invention provides a technical solution of a horizontal laser generator for buildings:

a horizontal laser generator for buildings structurally comprises an inclined weighing fine-tuning distance-increasing device 1, a rotary switch 2, an anti-skidding sleeve 3 and an upper sealing cover 4, wherein the rotary switch 2 is embedded in the left side surface of the inclined weighing fine-tuning distance-increasing device 1, the inner side of the anti-skidding sleeve 3 is nested with the outer side of the top of the inclined weighing fine-tuning distance-increasing device 1 and is positioned on the same central line, the top of the anti-skidding sleeve 3 is attached to the bottom of the upper sealing cover 4, the top of the inclined weighing fine-tuning distance-increasing device 1 is connected with the bottom of the upper sealing cover 4, the inclined weighing fine-tuning distance-increasing device 1 comprises an accumulated water steel ball shaking device 11, an inclined weighing detection device 12, a hydraulic fine-tuning device 13, a triangular head supporting mechanism 14 and a clear distance-increasing device 15, the lower surface of the accumulated water steel ball shaking device 11 is attached to the upper surface of the inclined weighing detection device 12, the hydraulic fine-adjustment device 13 is arranged above the triangular head supporting mechanism 14, the hydraulic fine-adjustment device 13 is arranged below the clear distance-increasing device 15, the hydraulic fine-adjustment device 13 is arranged at the left end and the right end of the accumulated water steel ball shaking device 11, the accumulated water steel ball shaking device 11 comprises a fixed bottom plate 111, a bolt 112, a fixed top plate 113, a sealed water accumulating tank 114, sealing rubber 115, an outer cover shell 116, a U-shaped bottom plate 117 and steel balls 118, the bolt 112 is provided with four bolts embedded in the surface of the fixed bottom plate 111, the upper surface of the fixed bottom plate 111 is parallel to the lower surface of the fixed top plate 113, the two ends of the fixed bottom plate are connected through the sealed water accumulating tank 114, the upper surface of the fixed bottom plate 111 is connected with the lower surface of the sealed water accumulating tank 114 in an electric welding mode, the top end of the sealed water accumulating, the bottom of the outer casing 116 is connected with the middle section of the lower surface of the inner side of the sealed water accumulating tank 114, the U-shaped bottom plate 117 is installed on the inner side of the outer casing 116 and is of an integrated structure, steel balls 118 are arranged above the U-shaped bottom plate 117, the bolt 112 is connected with the sealed water accumulating tank 114 through the fixed bottom plate 111, the surface of the fixed bottom plate 111 is provided with the dumping weighing detection device 12, the dumping weighing detection device 12 comprises a high-precision pressure weigher 121, a data conversion line 122, a base 123 and an electrified line 124, the high-precision pressure weigher 121 is installed on the surface of the fixed bottom plate 111, the high-precision pressure weigher 121 is connected with the base 123 through the data conversion line 122, the bottom end of the base 123 is connected with the bottom end of the data conversion line 122, the high-precision pressure weigher 121 is installed above the base 123 and two ends of the high-precision, the hydraulic fine-tuning device 13 comprises a power connection line 131, a liquid pumping pump bottom plate 132, a liquid pumping pump 133, a sealing connection sleeve 134 and a plastic hose 135, wherein the power connection line 131 is electrically connected with the liquid pumping pump 133 through a wire, the right side surface of the liquid pumping pump bottom plate 132 is connected with the left side surface of the liquid pumping pump 133 through an electric welding mode, the right side of the liquid pumping pump 133 is connected with the left side of the sealing connection sleeve 134, the outer end of the plastic hose 135 is nested with the inner side of the sealing connection sleeve 134, the plastic hose 135 penetrates through the sealing connection sleeve 134 to be connected with the liquid pumping pump 133, the liquid pumping pump bottom plate 132 is installed at the left side of the plastic hose 135, the plastic hose 135 is embedded and installed at the inner side of a triangular head supporting mechanism 14, the triangular head supporting mechanism 14 comprises a conical supporting leg 141, a connecting block 142, a, the conical supporting leg 141 is arranged above the connecting block 142 and is of an integrated structure, the conical supporting leg 141 is connected with the piston 143 through the connecting block 142, the upper surface of the connecting block 142 is perpendicular to the lower surface of the piston 143 and is connected with the lower surface of the piston 143 by electric welding, the piston 143 is arranged inside the casing 144 and is connected with the piston by sliding, a sealing top plate 145 is arranged above the casing 144 and is of an integrated structure, the lower surface of the sealing top plate 145 is parallel to the upper surface of the piston 143 and is connected with two ends of the sealing top plate 144, the upper surface of the sealing top plate 145 is welded with the lower surface of the welding block 146, the casing 144 is connected with the welding block 146 through the sealing top plate 145, the connecting block 142 is connected with the casing 144 through the piston 143, the clear distance increasing device 15 comprises an electrode electrifying pulling device 151 and an extrusion sliding isolating mechanism 152, the electrode electrifying and pulling device 151 comprises a controller 1511, pins 1512, an iron rod 1513, a coil 1514, a fixed welding plate 1515 and an armature 1516, wherein the upper surface of the controller 1511 is connected with the bottom ends of the pins 1512, the tail ends of the pins 1512 are connected with the head ends of the coil 1514, the coil 1514 is arranged outside the iron rod 1513 in a surrounding manner, the fixed welding plate 1515 is provided with two pieces of fixed welding plate 1513 which are arranged at the left end and the right end of the iron rod 1513, the upper surface of the armature 1516 is parallel to the lower surface of the iron rod 1513, the pins 1512 are connected with the iron rod 1513 through the coil 1514, the controller 1511 is electrically connected with the coil 1514 through a lead, the extrusion sliding isolation mechanism 152 comprises a glass plate 1521, a sliding connection block 1522, a sealing partition plate 1523, a rolling shaft 4, a sliding groove 5, a compression spring 1521526 and a pulling block 1527, the right side of the glass plate 1521 is parallel to the left side of, the rolling shaft 1524 is installed on the right side of the sealing partition 1523 and is of an integrated structure, the rolling shaft 1524 is installed inside the sliding groove 1525 in an embedded mode and is connected in a sliding mode, the left side of the sliding groove 1525 is attached to the right side of the sealing partition 1523, the sealing partition 1523 is connected with the sliding groove 1525 in a sliding mode through the rolling shaft 1524, the bottom end of the compression spring 1526 is perpendicular to the top end of the sealing partition 1523 and is connected in an electric welding mode, the compression spring 1526 is installed on the left side of the sliding groove 1525, and the left side of the pull block 1527 is connected with the right side of the sealing partition 1523.

The invention relates to a horizontal laser generator for buildings, which has the working principle that: the anti-skid sleeve 3 is held by hand to place the device at a position to be measured, when the ground is unbalanced, water in the water accumulation tank 114 can be sealed to dump, steel balls 118 in the outer cover shell 116 can dump in the U-shaped bottom plate 117, the high-precision pressure weighing device 121 is used for detecting, data are transmitted to the base 123 through the data conversion line 122, the liquid pumping pump 133 which is controlled to be started and connected through the power connecting line 131 pumps liquid through the plastic hose 135, oil above the piston 143 in the shell 144 is pumped slowly, oil in the liquid pumping pump 133 is injected, the piston 143 is extruded or retracted to drive the conical supporting leg 141 to be adjusted, precision deviation during measurement is avoided, after adjustment is completed, the controller 1511 can be started to electrify a coil 1514 connected through a pin 1512, so that an armature 1516 which is arranged around an iron rod 1513 arranged inside to be electrified to generate magnetic adsorption to drive the sliding connecting block 1522 to move, the integrated sealing partition plate 1523 and the rolling shaft 1524 move upwards along the sliding groove 1525 in a matched mode, the compression spring 1526 is squeezed and opened, and then the work can be conducted, so that the phenomenon that flying dust is adhered to a glass plate to cause the glass plate to be fuzzy and the laser shooting distance is shortened is avoided.

The invention solves the problems that when the horizontal laser generator in the prior art is used, the ground is uneven when the horizontal plane of the ground of a building site is usually in a construction stage, the height of the device is difficult to adjust when the device is used for measurement, so that the precision of the measurement is deviated, and light flying dust can diffuse in the air when the building site is in the construction stage, so that the flying dust is adhered to a glass plate to cause the blurring, so that the laser range is shortened, through the mutual combination of the components, the horizontal laser generator can judge a liquid pump to be started to adjust the height by weighing the liquid level and the inclination force of a steel ball when being placed on the ground of the building site, and avoid the precision deviation when in the measurement, and the horizontal laser generator can isolate the glass plate from the external flying dust through a sealing plate to avoid the flying dust from being adhered to the glass plate to cause the blurring, resulting in a shorter laser throw.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a horizontal laser generator for building, its structure is including empting fine setting range extender (1), rotary switch (2), antiskid cover (3), upper cover (4) of weighing, rotary switch (2) embedding is installed in empting fine setting range extender (1) left surface of weighing, antiskid cover (3) inboard with empty fine setting range extender (1) top outside of weighing inlay the cover and be located same central line mutually, antiskid cover (3) top is laminated with upper cover (4) bottom mutually, it is connected its characterized in that to empty fine setting range extender (1) top of weighing and upper cover (4) bottom:

the dumping weighing fine-adjustment distance-increasing device (1) comprises a ponding steel ball shaking device (11), a dumping weighing detection device (12), a hydraulic fine-adjustment device (13), a triangular head supporting mechanism (14) and a clear distance-increasing device (15), wherein the lower surface of the ponding steel ball shaking device (11) is attached to the upper surface of the dumping weighing detection device (12), the dumping weighing detection device (12) is electrically connected with the hydraulic fine-adjustment device (13) through a wire, the hydraulic fine-adjustment device (13) is installed above the triangular head supporting mechanism (14), the hydraulic fine-adjustment device (13) is arranged below the clear distance-increasing device (15), and the hydraulic fine-adjustment device (13) is installed at the left end and the right end of the ponding steel ball shaking device (11);

the accumulated water steel ball shaking device (11) comprises a fixed bottom plate (111), a bolt (112), a fixed top plate (113), a sealed water accumulating tank (114), sealing rubber (115), an outer casing (116), a U-shaped bottom plate (117) and steel balls (118), wherein the bolt (112) is provided with four embedded parts and is installed on the surface of the fixed bottom plate (111), the upper surface of the fixed bottom plate (111) is parallel to the lower surface of the fixed top plate (113) and two ends of the upper surface of the fixed bottom plate are connected through the sealed water accumulating tank (114), the upper surface of the fixed bottom plate (111) is connected with the lower surface of the sealed water accumulating tank (114) in an electric welding mode, the top end of the sealed water accumulating tank (114) is connected with the lower surface of the fixed top plate (113), the sealing rubber (115) is provided with two ends which are installed at the left end and the right end of the inner side, the U-shaped bottom plate (117) is arranged on the inner side of the outer housing (116) and is of an integrated structure, steel balls (118) are arranged above the U-shaped bottom plate (117), the bolt (112) is connected with the sealed water accumulation tank (114) through a fixed bottom plate (111), and the surface of the fixed bottom plate (111) is provided with a dumping weighing detection device (12);

the dumping weighing detection device (12) comprises a high-precision pressure weigher (121), a data conversion line (122), a base (123) and an electrified line (124), wherein the high-precision pressure weigher (121) is installed on the surface of the fixed bottom plate (111), the high-precision pressure weigher (121) is connected with the base (123) through the data conversion line (122), the bottom end of the base (123) is connected with the bottom end of the data conversion line (122), the high-precision pressure weigher (121) is installed above the base (123) and two ends of the high-precision pressure weigher pass through the data conversion line (122), and the right end of the electrified line (124) is connected with the left side surface of the base (123);

the hydraulic fine adjustment device (13) comprises a power supply connecting wire (131), a liquid pump bottom plate (132), a liquid pump (133), a sealing connecting sleeve (134) and a plastic hose (135), wherein the power supply connecting wire (131) is electrically connected with the liquid pump (133) through a wire, the right side surface of the liquid pump bottom plate (132) is connected with the left side surface of the liquid pump (133) in an electric welding mode, the right side of the liquid pump (133) is connected with the left side of the sealing connecting sleeve (134), the outer end of the plastic hose (135) is nested with the inner side of the sealing connecting sleeve (134), the plastic hose (135) penetrates through the sealing connecting sleeve (134) to be connected with the liquid pump (133), the liquid pump bottom plate (132) is installed on the left side of the plastic hose (135), and the plastic hose (135) is embedded and installed on the inner side of the;

the triangular head supporting mechanism (14) comprises a conical supporting leg (141), a connecting block (142), a piston (143), a shell (144), a sealing top plate (145) and a welding block (146), wherein a plastic hose (135) is arranged on the inner side of the shell (144), the conical supporting leg (141) is installed above the connecting block (142) and is of an integrated structure, the conical supporting leg (141) is connected with the piston (143) through the connecting block (142), the upper surface of the connecting block (142) is perpendicular to the lower surface of the piston (143) and is connected with the lower surface of the piston (143) in an electric welding mode, the piston (143) is installed on the inner side of the shell (144) and is connected with the piston in a sliding mode, the sealing top plate (145) is arranged above the shell (144) and is of an integrated structure, the lower surface of the sealing top plate (145) is parallel to, the upper surface of the sealing top plate (145) is welded with the lower surface of the welding block (146), the shell (144) is connected with the welding block (146) through the sealing top plate (145), and the connecting block (142) is connected with the shell (144) through the piston (143);

the clear distance increasing device (15) comprises an electrode electrifying and pulling device (151) and an extruding sliding isolation mechanism (152), wherein the electrode electrifying and pulling device (151) is installed above the extruding sliding isolation mechanism (152), the electrode electrifying and pulling device (151) comprises a controller (1511), pins (1512), an iron rod (1513), a coil (1514), a fixed welding plate (1515) and an armature (1516), the upper surface of the controller (1511) is connected with the bottom ends of the pins (1512), the tail ends of the pins (1512) are connected with the head ends of the coil (1514), the coil (1514) is installed on the outer side of the iron rod (1513) in a surrounding manner, the fixed welding plate (1515) is provided with two blocks which are installed at the left end and the right end of the iron rod (1513), the upper surface of the armature (1516) is parallel to the lower surface of the iron rod (1513), and the pin (1512) is connected with the iron rod (1513) through the coil (, the controller (1511) is electrically connected with the coil (1514) through a lead, the extrusion sliding isolation mechanism (152) comprises a glass plate (1521), a sliding connection block (1522), a sealing partition plate (1523), a rolling shaft (1524), a sliding groove (1525), a compression spring (1526) and a pulling block (1527), the right side of the glass plate (1521) is parallel to the left side of the sealing partition plate (1523), the sliding connection block (1522) is installed on the left side of the sealing partition plate (1523) and is of an integrated structure, the rolling shaft (1524) is installed on the right side of the sealing partition plate (1523) and is of an integrated structure, the rolling shaft (1524) is embedded inside the sliding groove (1525) and is connected in a sliding mode, the left side of the sliding groove (5) is attached to the right side of the sealing partition plate (1523), and the sealing partition plate (1523) is in sliding connection with the sliding groove (1525) through the rolling shaft (152, the bottom end of the compression spring (1526) is perpendicular to the top end of the sealing partition plate (1523) and is connected with the sealing partition plate in an electric welding mode, the compression spring (1526) is installed on the left side of the sliding groove (1525), and the left side of the pull block (1527) is connected with the right side of the sealing partition plate (1523).

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