CN116659379B - Measuring device for photovoltaic equipment installation - Google Patents

Abstract

The invention provides a measuring device for installing photovoltaic equipment, which relates to the technical field of photovoltaic panel installation and comprises an installation supporting part; the mounting support part is fixedly connected with a fitting support part, the fitting support part is connected with a lifting fitting part in a sliding manner, the lifting fitting part is rotationally connected with an inclined plane adapting part, the inclined plane adapting part is rotationally connected with a horizontal laser positioning part, the horizontal laser positioning part is connected with a fitting connection part in a sliding manner, and the fitting support part is fixedly connected with a bracket positioning part, so that the full attachment on the bottom side of the photovoltaic panel is realized, and the mounting precision of the large-area photovoltaic panel is improved; the problem that the existing measuring device for photovoltaic equipment installation is inconvenient to measure the bidirectional angle information of the photovoltaic panels once only, and manual measurement is not convenient to uniformly limit the reference marks of the photovoltaic panels in the tandem row is solved.

Description

Measuring device for photovoltaic equipment installation

Technical Field

The invention relates to the technical field of photovoltaic panel installation, in particular to a measuring device for photovoltaic equipment installation.

Background

A photovoltaic panel assembly is a power generation device that generates direct current when exposed to sunlight and is composed of thin solid photovoltaic cells made almost entirely of semiconductor materials. In the actual photovoltaic panel installation work, especially when laying the installation in a large scale, need carry out accurate measurement to its installation angle and allies oneself with the photovoltaic panel of arranging to guarantee installation quality, a measuring device that photovoltaic equipment installation usefulness that is good at this moment is very important.

However, the existing measurement device for photovoltaic device installation has the following problems:

1. the lamination extrusion structure is not arranged, so that bidirectional angle information of the photovoltaic panel is inconvenient to measure rapidly at one time, manual measurement is relied on, and the practicability is poor;

2. lead drop positioning and support positioning structures are not arranged, so that the integrated photovoltaic panels are inconvenient to uniformly limit the reference marks of the integrated photovoltaic panels, the installation efficiency is reduced by adopting one-by-one measurement of the photovoltaic panels, and errors are easy to occur.

Disclosure of Invention

In view of the above, the invention provides a measuring device for installing photovoltaic equipment, which is provided with a lead weight positioning part, can automatically and vertically adapt to and position the lowest position of a photovoltaic panel, can effectively improve the installation efficiency, effectively avoid shielding of the photovoltaic panel, effectively improve the practicability, and can determine the installation positions of adjacent front and rear photovoltaic panels through an original reference.

The invention provides a purpose and an efficacy of a measuring device for installing photovoltaic equipment, which particularly comprise an installation supporting part; the mounting support part is fixedly connected with a fitting support piece; the attaching support piece is connected with a lifting attaching piece in a sliding manner; the lifting fitting piece is rotatably connected with an inclined plane adapting part; the inclined plane adapting part is rotationally connected with a transverse laser positioning piece; the transverse laser positioning piece is connected with an attaching connecting piece in a sliding manner; the attaching support piece is fixedly connected with a bracket positioning piece; the lead weight positioning part is rotationally connected to the inclined plane adapting part; the mounting support includes: the device comprises an installation support plate, a positioning screw rod and a horizontal bubble limiting disc, wherein the installation support plate is connected with the positioning screw rod in a threaded manner; the installation support plate is fixedly connected with a horizontal bubble; and the bottoms of the four limiting plates are fixedly connected with limiting plates respectively.

Further, the lead weight positioning part includes: the positioning connecting plate, the positioning lead drop and the bottom limiting laser are rotationally connected to the inclined plane adapting plate; a positioning lead weight is fixedly connected to the positioning connecting plate; the bottom limiting laser is fixedly connected to the positioning connecting plate.

Further, the lift laminating piece includes: the lifting sliding rod is fixedly connected with two tension spring connecting plates; the lifting sliding rod is connected to the attaching support frame in a sliding manner; two tension spring connecting plates are fixedly connected to the lifting sliding rod; the lifting sliding rod is connected with a positioning bolt in a threaded manner, and the inner side of the positioning bolt is propped against the attaching support frame.

Further, the laminating connecting piece includes: the device comprises two laminating connection sliding shafts, two laminating connection connecting plates and two laminating auxiliary tension springs, wherein the two laminating connection sliding shafts are respectively and slidably connected to the positioning mounting plate; the two fitting connection sliding shafts are respectively fixedly connected with a fitting connection plate; the two fitting connection sliding shafts are respectively sleeved with an auxiliary fitting tension spring; the two auxiliary attaching tension springs are respectively connected between the attaching connecting plate and the attaching connecting sliding shaft.

Further, the mounting support portion further includes: the four limiting plates are respectively and fixedly connected with a ground inserting shaft.

Further, the bracket positioning member includes: the support mounting rod is fixedly connected to the laminating support frame; the support mounting rod is connected with a sliding connecting sleeve in a sliding manner; the bracket laser main body is fixedly connected to the sliding connecting sleeve; the positioning bolt is connected to the sliding connecting sleeve in a threaded manner; the section of the bracket mounting rod is of a rectangular structure; the inner side section of the sliding connecting sleeve is of a rectangular structure.

Further, the row laser positioning member further includes: the laser comprises two mounting row plates and a laser main body, wherein the two mounting row plates are fixedly connected to two sides of the positioning mounting plate respectively; and two rows of mounting row plates are respectively and fixedly connected with a row of laser main bodies.

Further, the slope adapting section includes: the device comprises an inclined plane adapting plate, an arc angle ruler, a joint mounting block and a transverse angle ruler, wherein the arc angle ruler is fixedly connected to the inclined plane adapting plate; the inclined plane adapting plate is rotationally connected to the lifting sliding rod; two attaching and mounting blocks are fixedly connected to the inclined plane adapting plate; and the bottom of the inclined plane adapting plate is fixedly connected with a transverse angle ruler.

Further, the conformable support includes: the laminating support frame is fixedly connected to the mounting support plate; two laminating connection tension springs are fixedly connected to the laminating support frame; and two laminating support frames are respectively fixedly connected with laminating connection tension springs.

Further, the laser positioning member includes: the positioning device comprises a positioning mounting plate and a positioning connecting block, wherein the positioning mounting plate is fixedly connected with the positioning connecting block; a pointer is arranged on the positioning connecting block; the positioning connecting block is rotationally connected to the inclined plane adapting plate; the positioning connection block penetrates through the inclined plane adapting plate.

Advantageous effects

1. The measuring device disclosed by the invention is used for comprehensively attaching the bottom side of the photovoltaic panel, realizing auxiliary bidirectional angle detection work, improving the installation accuracy of the large-area photovoltaic panel, realizing the calibration of an auxiliary base point and ensuring the installation efficiency.

2. Through the laminating connecting piece that adopts the setting, can realize supplementary efficient laminating adaptation work, the inclined plane adaptation portion that the cooperation set up, can realize comprehensive attached photovoltaic board bottom side, just also realized supplementary two-way angle detection work, and detection accuracy has been guaranteed, and a structure is simple and practical, adopt the laser instrument main part to realize transmitting laser to both sides simultaneously, can be convenient for follow-up photovoltaic board installation work more, and simple structure is practical, through adopting inclined plane adaptation portion, can cooperate lift laminating piece to middle part application of force, realize supplementary laminating photovoltaic board bottom, overall structure is simpler, use more nimble, when laminating the photovoltaic board through adopting at lift laminating piece roof pressure inclined plane adaptation portion, observe the angle reading through the arc angle chi, at this in-process, the laminating connecting plate can be driven laminating photovoltaic board bottom simultaneously, because the application of force direction upwards, the location connecting block also can the suitability take place to rotate this moment, with the lateral angle of adaptation photovoltaic board, adopt to set up the supplementary extension spring of laminating, the effect of improvement installation bent plate that can be better, guarantee detection accuracy, overall structure is simple structure, flexible operation laminating.

3. Through the lead weight locating part that adopts the setting, can realize the rotation of supplementary adaptation inclined plane adaptation portion, keep vertical laser demarcation, guaranteed vertical photovoltaic board installation low point position, the effectual installation accuracy who improves large tracts of land photovoltaic board, overall structure practicality is stronger, through the support setting element that adopts the setting, can realize supplementary efficient removal and mark the position of photovoltaic board installing support, the use is nimble high-efficient, through the downward application of force at location lead weight, utilize gravitation, it is vertical to have guaranteed the location connecting plate, and the steam generator is simple in structure is practical, need not frequent moving equipment.

4. Through adopting the lift laminating piece that sets up can realize advancing quick lift slip laminating photovoltaic board, use more nimble, simultaneously assistance-localization real-time that can be quick, the installation supporting part of setting can be realized in ground level adjustment, guarantee the detection precision, overall structure is simple, this structure is the datum point of photovoltaic board installation simultaneously, photovoltaic board installation quality has been guaranteed, it is more practical, through under the pulling of laminating connection extension spring, drive lift slide bar and rise, guarantee that inclined plane adaptation portion can laminate the photovoltaic board, holistic detection precision has been guaranteed.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of a measuring device of the present invention;

FIG. 2 is a schematic view of the bottom structure of the measuring device of the present invention;

FIG. 3 is a cross-sectional view of the measuring device of the present invention;

FIG. 4 is a schematic view of the bottom structure of the bevel adapter of the present invention;

FIG. 5 is a schematic view of the mounting support structure of the present invention;

FIG. 6 is a schematic view of a lifting attachment of the present invention;

FIG. 7 is a schematic view of the bevel adapter structure of the present invention;

FIG. 8 is a schematic view of a laser positioning member according to the present invention;

FIG. 9 is a schematic illustration of the construction of a conformable connector of the present invention;

FIG. 10 is a schematic view of a bracket positioning member according to the present invention;

fig. 11 is a schematic view of the lead weight positioning part structure of the invention.

List of reference numerals

1. Mounting a supporting part; 101. mounting a supporting plate; 102. positioning a screw rod; 103. horizontal blisters; 104. a limiting disc; 105. a ground inserting shaft; 2. attaching a supporting piece; 201. attaching a supporting frame; 202. a tension spring is connected in a fitting way; 3. lifting the attaching piece; 301. lifting the sliding rod; 302. a tension spring connecting plate; 303. positioning bolts; 4. a bevel adapting portion; 401. a bevel adapting plate; 402. an arc angle ruler; 403. attaching the mounting block; 404. a transverse angle ruler; 5. a laser positioning member; 501. positioning the mounting plate; 502. positioning a connecting block; 5. arranging laser positioning pieces; 503. installing a row plate; 504. a laser body; 6. attaching the connecting piece; 601. the sliding shaft is connected in a fitting way; 602. attaching a connecting plate; 603. attaching an auxiliary tension spring; 7. a bracket positioning member; 701. a bracket mounting rod; 702. sliding the connecting sleeve; 703. a stand laser body; 704. positioning bolts; 8. a lead weight positioning part; 801. positioning a connecting plate; 802. positioning a lead weight; 803. a bottom limit laser.

Detailed Description

In order to make the objects and advantages of the technical solution of the present invention more clear, the technical solution of the present invention will be clearly and completely described below with reference to the drawings of the specific embodiments of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 11:

the invention provides a measuring device for installing photovoltaic equipment, which comprises an installation supporting part 1; the mounting support part 1 is fixedly connected with a fitting support piece 2; the laminating support piece 2 is connected with a lifting laminating piece 3 in a sliding way; the lifting fitting piece 3 is rotatably connected with an inclined plane adapting part 4; the inclined plane adapting part 4 is rotationally connected with a horizontal laser positioning piece 5; the transverse laser positioning piece 5 is connected with an attaching connecting piece 6 in a sliding way; the attaching support piece 2 is fixedly connected with a bracket positioning piece 7; the bevel adapting part 4 is rotationally connected with a lead weight positioning part 8; the mounting support 1 includes: the device comprises an installation support plate 101, a positioning screw rod 102 and a horizontal bubble 103 limiting disc 104, wherein the installation support plate 101 is connected with the positioning screw rod 102 in a threaded manner; a horizontal blister 103 is fixedly connected to the mounting support plate 101; the bottoms of the four limiting plates 104 are fixedly connected with limiting plates 104 respectively.

Wherein, the installation support portion 1 further comprises: the ground inserting shafts 105 are fixedly connected with the ground inserting shafts 105 on the four limiting plates 104 respectively; the fitting support 2 includes: the laminating support frame 201 and the laminating connection tension spring 202, the laminating support frame 201 is fixedly connected to the mounting support plate 101; two attaching and connecting tension springs 202 are fixedly connected to the attaching and supporting frame 201; the two attaching support frames 201 are respectively fixedly connected with attaching connection tension springs 202; the lifting bonding piece 3 comprises: the lifting slide rod 301, the tension spring connecting plates 302 and the positioning bolts 303, wherein the lifting slide rod 301 is fixedly connected with the two tension spring connecting plates 302; the lifting sliding rod 301 is connected to the attaching support 201 in a sliding manner; two tension spring connecting plates 302 are fixedly connected to the lifting sliding rod 301; the utility model provides a threaded connection has positioning bolt 303 on the lift slide bar 301, and positioning bolt 303 inboard supports presses in laminating support frame 201, can realize advancing quick lift slip laminating photovoltaic board through the lift laminating piece 3 that adopts the setting, use more nimble, simultaneously can be quick assistance-localization real-time, the installation supporting part 1 of setting can be realized adjusting at ground level, guarantee the detection precision, and an overall structure is simple, this structure is the datum point of photovoltaic board installation simultaneously, photovoltaic board installation quality has been guaranteed, and is more practical, through under the pulling of laminating connection extension spring 202, drive lift slide bar 301 rises, guarantee that inclined plane adaptation portion 4 can laminate the photovoltaic board, holistic detection precision has been guaranteed.

Wherein the bevel adaptation portion 4 comprises: the device comprises an inclined plane adapting plate 401, an arc angle ruler 402, a fitting mounting block 403 and a transverse angle ruler 404, wherein the arc angle ruler 402 is fixedly connected to the inclined plane adapting plate 401; the inclined surface adapting plate 401 is rotatably connected to the lifting slide rod 301; two attaching and mounting blocks 403 are fixedly connected to the inclined surface adapting plate 401; the bottom of the inclined plane adapting plate 401 is fixedly connected with a transverse angle ruler 404; the laser positioning member 5 includes: the positioning device comprises a positioning mounting plate 501 and a positioning connecting block 502, wherein the positioning mounting plate 501 is fixedly connected with the positioning connecting block 502; a pointer is arranged on the positioning connection block 502; the positioning connection block 502 is rotatably connected to the inclined plane adapting plate 401; the positioning connection block 502 passes through the bevel adapter plate 401; the laser alignment fixture 5 further includes: the laser comprises two mounting plates 503 and a laser body 504, wherein the two mounting plates 503 are fixedly connected to two sides of a positioning mounting plate 501 respectively; a row of laser bodies 504 are fixedly connected to the two rows of mounting plates 503 respectively; the fitting connection 6 includes: the laminating connection sliding shafts 601, the laminating connection plates 602 and the laminating auxiliary tension springs 603 are arranged, two laminating connection sliding shafts 601 are respectively and slidably connected to the positioning mounting plate 501; the two attaching connection sliding shafts 601 are fixedly connected with attaching connection plates 602 respectively; the two attaching connecting sliding shafts 601 are respectively sleeved with an attaching auxiliary tension spring 603; two laminating auxiliary tension springs 603 connect respectively between laminating connecting plate 602 and laminating connection sliding shaft 601, through adopting laminating connecting piece 6 that sets up, can realize supplementary efficient laminating adaptation work, slope adaptation portion 4 that the cooperation set up, can realize comprehensive attached photovoltaic board downside, just also realized supplementary two-way angle detection work, detection precision has been guaranteed, and a simple structure is practical, adopt laser instrument main part 504 to realize emitting laser to both sides simultaneously, can be convenient for follow-up photovoltaic board installation work more, and simple structure is practical, through adopting slope adaptation portion 4, can cooperate lift laminating piece 3 to middle part application of force, realize supplementary laminating photovoltaic board bottom, overall structure is simpler, more nimble in use, when adopting in the laminating of lifting laminating piece 3 roof pressure slope adaptation portion 4 laminating photovoltaic board, through the arc angle scale 402 observation angle reading, in this process, laminating connecting plate 602 can be driven laminating photovoltaic board bottom simultaneously, because the application of force direction upwards, positioning 502 also can the suitability take place to rotate this moment, with the horizontal angle of adaptation photovoltaic board 603, adopt the laminating tension spring to set up, can improve the installation precision of installing the auxiliary tension spring 503, the flexible structure is guaranteed, the whole flexible operation is simple.

Wherein, the support setting element 7 includes: the bracket mounting rod 701, the sliding connecting sleeve 702, the bracket laser main body 703 and the positioning bolt 704, wherein the bracket mounting rod 701 is fixedly connected to the attaching support frame 201; a sliding connecting sleeve 702 is connected to the bracket mounting rod 701 in a sliding manner; the bracket laser body 703 is fixedly connected to the sliding connection sleeve 702; the positioning bolt 704 is in threaded connection with the sliding connecting sleeve 702; the section of the bracket mounting rod 701 is of a rectangular structure; the inner side section of the sliding connecting sleeve 702 is of a rectangular structure; the lead weight positioning portion 8 includes: the positioning connecting plate 801, the positioning lead drop 802 and the bottom limit laser 803 are rotatably connected to the inclined plane adapting plate 401; a positioning lead weight 802 is fixedly connected to the positioning connecting plate 801; the bottom limit laser 803 is fixedly connected to the positioning connection plate 801, through adopting the lead weight positioning part 8 that sets up, can realize the rotation of auxiliary adaptation inclined plane adaptation part 4, keep vertical laser demarcation, vertical photovoltaic board installation low point position has been guaranteed, the effectual installation accuracy that improves large tracts of land photovoltaic board, the overall structure practicality is stronger, through adopting the support setting piece 7 that sets up, can realize the position of supplementary efficient removal calibration photovoltaic board installing support, the use mode is nimble high-efficient, through utilizing the gravitation downwards force application at the positioning lead weight 802, the vertical of positioning connection plate 801 has been guaranteed, and a structure is simple and practical, need not frequent equipment of moving.

Specific use and action of the embodiment: according to the invention, firstly, the positioning screw rod 102 is adopted to drive the ground inserting shaft 105 to lift and adjust the height, the horizontal bubble 103 is observed to realize the auxiliary adjustment level, the lifting sliding rod 301 is driven to lift under the pulling of the attaching connection tension spring 202, the inclined plane adapting part 4 can be attached to the photovoltaic panel, the integral detection precision is guaranteed, when the lifting attaching part 3 is used for pressing the inclined plane adapting part 4 to attach the photovoltaic panel, the angle reading is observed through the arc angle ruler 402, in the process, the attaching connection plate 602 can be simultaneously driven to attach the bottom of the photovoltaic panel, meanwhile, because the force application direction is upward, the positioning connection block 502 can be adaptively rotated at the moment, so that the transverse angle of the photovoltaic panel is adapted, the laser body 504 emits light beams to determine the transverse angle position, the precision of the whole row of laser body 504 is higher, the attaching effect of the installation row of the photovoltaic panel 503 can be better improved through the arrangement of the attaching auxiliary tension spring 404, the attaching effect of the installation row of the installation plate 503 is better improved through the sliding connection sleeve 702, the laser body 703 can be positioned through the positioning bolt 704 after the position is calibrated, and the laser body 704 can be positioned through the positioning lead positioning bolt 704, and then the laser body 803 can be positioned through the positioning connection plate 803 is arranged, and the rest of the laser body 803 can be calibrated, namely, the laser body 803 can be positioned and the position can be calibrated through the position by the position of the lowest position.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (6)

1. A measuring device for photovoltaic equipment installation, characterized by comprising an installation support (1); the mounting support part (1) is fixedly connected with a fitting support piece (2); the laminating support (2) is connected with a lifting laminating piece (3) in a sliding manner; an inclined plane adapting part (4) is rotatably connected to the lifting attaching piece (3); the inclined plane adapting part (4) is rotationally connected with a horizontal laser positioning piece (5); the transverse laser positioning piece (5) is connected with an attaching connecting piece (6) in a sliding manner; a bracket positioning piece (7) is fixedly connected to the attaching support piece (2); the inclined plane adapting part (4) is rotationally connected with a lead weight positioning part (8); the mounting support (1) comprises: the device comprises an installation support plate (101), a positioning screw rod (102) and a horizontal bubble (103) limiting disc (104), wherein the installation support plate (101) is in threaded connection with the positioning screw rod (102); the horizontal water bubble (103) is fixedly connected to the mounting support plate (101); the bottoms of the four limiting plates (104) are fixedly connected with the limiting plates (104) respectively, and the mounting support part (1) further comprises: the ground inserting shafts (105) are fixedly connected to the four limiting plates (104) respectively, and the attaching support piece (2) comprises: the laminating support frame (201) and the laminating connection tension spring (202), wherein the laminating support frame (201) is fixedly connected to the mounting support plate (101); two attaching connection tension springs (202) are fixedly connected to the attaching support frame (201); the two laminating support frames (201) are respectively fixedly connected with laminating connection tension springs (202), and the lifting laminating piece (3) comprises: the lifting sliding rod (301), tension spring connecting plates (302) and positioning bolts (303), wherein the two tension spring connecting plates (302) are fixedly connected to the lifting sliding rod (301); the lifting sliding rod (301) is connected to the attaching support frame (201) in a sliding manner; two tension spring connecting plates (302) are fixedly connected to the lifting sliding rod (301); the lifting sliding rod (301) is connected with a positioning bolt (303) in a threaded mode, the inner side of the positioning bolt (303) is propped against the attaching support frame (201), and the inclined plane adapting part (4) comprises: the device comprises an inclined plane adapting plate (401), an arc angle ruler (402), a joint mounting block (403) and a transverse angle ruler (404), wherein the arc angle ruler (402) is fixedly connected to the inclined plane adapting plate (401); the inclined plane adapting plate (401) is rotatably connected to the lifting sliding rod (301); two attaching and mounting blocks (403) are fixedly connected to the inclined plane adapting plate (401); the bottom of the inclined plane adapting plate (401) is fixedly connected with a transverse angle ruler (404).

2. The measurement device for photovoltaic equipment installation according to claim 1, wherein: the laser positioning member (5) includes: the positioning device comprises a positioning mounting plate (501) and a positioning connecting block (502), wherein the positioning connecting block (502) is fixedly connected to the positioning mounting plate (501); a pointer is arranged on the positioning connecting block (502); the positioning connection block (502) is rotationally connected to the inclined plane adapting plate (401); the positioning connection block (502) penetrates through the inclined plane adapting plate (401).

3. A measuring device for photovoltaic equipment installation according to claim 2, characterized in that: the row of laser positioners (5) further comprises: the laser comprises two mounting row plates (503) and a laser main body (504), wherein the two mounting row plates (503) are respectively and fixedly connected to two sides of a positioning mounting plate (501); and a row of laser bodies (504) are fixedly connected to the two rows of mounting row plates (503) respectively.

4. A measuring device for photovoltaic equipment installation according to claim 2, characterized in that: the fitting connection (6) comprises: the device comprises two attaching connecting sliding shafts (601), attaching connecting plates (602) and attaching auxiliary tension springs (603), wherein the two attaching connecting sliding shafts (601) are respectively and slidably connected to a positioning mounting plate (501); the two attaching connection sliding shafts (601) are respectively fixedly connected with attaching connection plates (602); the two fitting connection sliding shafts (601) are respectively sleeved with fitting auxiliary tension springs (603); the two auxiliary attaching tension springs (603) are respectively connected between the attaching connecting plate (602) and the attaching connecting sliding shaft (601).

5. The measurement device for photovoltaic equipment installation according to claim 1, wherein: the bracket positioning piece (7) comprises: the device comprises a bracket mounting rod (701), a sliding connecting sleeve (702), a bracket laser main body (703) and a positioning bolt (704), wherein the bracket mounting rod (701) is fixedly connected to a joint supporting frame (201); the bracket mounting rod (701) is connected with a sliding connecting sleeve (702) in a sliding manner; the bracket laser main body (703) is fixedly connected to the sliding connecting sleeve (702); the positioning bolt (704) is in threaded connection with the sliding connecting sleeve (702); the section of the bracket mounting rod (701) is of a rectangular structure; the inner side section of the sliding connecting sleeve (702) is of a rectangular structure.

6. The measurement device for photovoltaic equipment installation according to claim 1, wherein: the lead weight positioning part (8) comprises: the positioning connecting plate (801), the positioning lead drop (802) and the bottom limit laser (803), wherein the positioning connecting plate (801) is rotationally connected to the inclined plane adapting plate (401); a positioning lead weight (802) is fixedly connected to the positioning connecting plate (801); the bottom limit laser (803) is fixedly connected to the positioning connection plate (801).