CN210834916U - Hydraulic engineering concrete quality detection device - Google Patents

Abstract

The utility model discloses a hydraulic engineering concrete quality detection device, the on-line screen storage device comprises a base, the top left side welding of base has the push-and-pull handrail, the top right side of base is fixed with the support column, the connecting cylinder is installed to circulating water pump mechanism's bottom, and the inside draw-in groove of connecting cylinder is connected with first gag lever post, the downside integration of first gag lever post is provided with the dead lever, the right side internally mounted of base is fixed with the guard box, the top middle part welding of base has the backup pad, the upper end through connection of reference column has the second gag lever post, the antiskid ribbed tile is installed to the bottom of reference column. This hydraulic engineering concrete quality detection device can be effectively spacing, prevents to rock and squint, guarantees going on smoothly of boring the core operation, and can effectively avoid the piece to splash to can concentrate the piece, convenient clearance, the convenient renewal part moreover, stability is strong, can guarantee life.

Description

Hydraulic engineering concrete quality detection device

Technical Field

The utility model relates to a hydraulic engineering technical field specifically is a hydraulic engineering concrete quality detection device.

Background

Hydraulic engineering is an engineering for human intervention and water flow control, concrete is usually used for constructing channels and the like in the hydraulic engineering, the quality of the concrete influences the use condition of the hydraulic engineering, and therefore the quality of the concrete needs to be detected, the concrete quality detection is generally divided into a rebound method, a pull-out method, a core drilling method and the like, wherein the core drilling method is to drill a special drilling machine for concrete to obtain a core sample;

hydraulic engineering concrete quality detection device who uses at present produces easily and rocks and squints, and the inconvenient smooth going on of guaranteeing the core operation of boring, and produces the piece easily and splash, inconvenient clearance, inconvenient renewal part moreover, consequently, we provide a hydraulic engineering concrete quality detection device to in solving the problem that proposes in the aforesaid.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic engineering concrete quality detection device to current hydraulic engineering concrete quality detection device who proposes in solving above-mentioned background art produces easily and rocks and squints, and the going on smoothly of inconvenient assurance drill core operation, and produce the piece easily and splash, inconvenient clearance, the inconvenient problem of renewal part moreover.

In order to achieve the above object, the utility model provides a following technical scheme: a hydraulic engineering concrete quality detection device comprises a base, wherein a push-pull handrail is welded on the left side of the upper portion of the base, universal wheels are installed on the lower side of the base, a supporting column is fixed on the right side of the upper portion of the base, a circulating water pump mechanism is integrally arranged on the right side of the supporting column, an engine is installed on the left side of the supporting column, a connecting cylinder is installed at the bottom of the circulating water pump mechanism, a first limiting rod is connected to an internal clamping groove of the connecting cylinder, a fixed rod is integrally arranged on the lower side of the first limiting rod, a screw rod is tightly attached to the inside of the fixed rod, a drilling rod is installed on the lower side of the fixed rod, a protection box is fixedly installed inside the right side of the base, a cleaning door is movably connected to the outer side of the protection box, a supporting plate is welded on the middle portion of the upper, and the lower end of the second limiting rod is integrally provided with a limiting block, the bottom of the positioning column is provided with an anti-skid plate, and the bottom of the anti-skid plate is connected with an anti-skid block in a sticking manner.

Preferably, the outer side of the cross section of the first limiting rod is of a sawtooth structure, and the diameter of the outer cross section of the first limiting rod is equal to that of the outer cross section of the fixing rod.

Preferably, the cleaning doors are symmetrically distributed about a vertical central axis of the protective box, the cleaning doors form a rotating structure on the protective box, and the protective box is connected with the drill core rod in a clamping groove connection mode.

Preferably, the non-slip blocks are distributed on the non-slip plate in an array mode, and the horizontal plane where the lower side faces of the non-slip blocks are located coincides with the horizontal plane where the lower side faces of the universal wheels are located.

Preferably, the support plates are symmetrically distributed about a vertical central axis of the base, and the longitudinal sections of the support plates are in an L-shaped structure.

Preferably, the second limiting rod is connected with the support plate in a clamping groove connection mode, and the second limiting rod forms a sliding structure on the support plate through the limiting block.

Compared with the prior art, the beneficial effects of the utility model are that: the hydraulic engineering concrete quality detection device can effectively limit, prevent shaking and deviation, ensure smooth operation of core drilling operation, effectively avoid fragment splashing, concentrate fragments, facilitate cleaning, facilitate part replacement, and ensure long service life;

1. the second limiting rod, the positioning column and the anti-slip plate are arranged, the positioning column slides on the supporting plate by sliding the second limiting rod to the right side, and the anti-slip plate and the anti-slip block arranged at the bottom of the positioning column are tightly attached to the ground, so that the effective limiting can be realized, the shaking and the deviation can be prevented, and the smooth operation of the core drilling operation can be ensured;

2. the protective box, the cleaning door and the drill core rod are arranged, debris can be gathered in the protective box through shielding of the protective box and the cleaning door, the debris can be effectively prevented from splashing, the cleaning door is rotated on the protective box, the debris can be gathered, and cleaning is convenient;

3. be provided with first gag lever post, dead lever and screw rod, through upwards being connected first gag lever post and connecting cylinder draw-in groove, the outside of the dead lever that makes the integration of first gag lever post downside set up and the inboard of connecting cylinder closely laminate, fix connecting cylinder and first gag lever post with the screw rod, convenient location and renewal part, stability is strong, can guarantee life.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of a side view of the connection between the support pillar and the base of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the first position-limiting rod and the connecting cylinder of the present invention showing a top-view cross-sectional structure;

fig. 5 is a schematic view of the overall structure of the first limiting rod and the fixing rod of the present invention.

In the figure: 1. the base, 2, push-and-pull handrail, 3, support column, 4, engine, 5, circulating water pump mechanism, 6, connecting cylinder, 7, first gag lever post, 8, dead lever, 9, screw rod, 10, bore core pole, 11, protective housing, 12, clearance door, 13, non slipping spur, 14, backup pad, 15, reference column, 16, second gag lever post, 17, stopper, 18, non slipping spur, 19, universal wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Unless the direction is defined separately, the directions of up, down, left, right, front, back, etc. referred to herein are the directions of up, down, left, right, front, back, etc. in the drawings of the present invention, and are herein incorporated by reference.

Referring to fig. 1-5, the present invention provides a technical solution: a hydraulic engineering concrete quality detection device comprises a base 1, a push-pull handrail 2, a support column 3, an engine 4, a circulating water pump mechanism 5, a connecting cylinder 6, a first limiting rod 7, a fixed rod 8, a screw rod 9, a drill core rod 10, a protection box 11, a cleaning door 12, an anti-skid block 13, a support plate 14, a positioning column 15, a second limiting rod 16, a limiting block 17, an anti-skid plate 18 and a universal wheel 19, wherein the push-pull handrail 2 is welded on the left side above the base 1, the universal wheel 19 is installed on the lower side of the base 1, the support column 3 is fixed on the right side above the base 1, the circulating water pump mechanism 5 is integrally arranged on the right side of the support column 3, the engine 4 is installed on the left side of the support column 3, the connecting cylinder 6 is installed at the bottom of the circulating water pump mechanism 5, the first limiting rod 7 is connected with an internal clamping groove of, and the inside of dead lever 8 closely laminates screw rod 9, and the drilling rod pole 10 is installed to the downside of dead lever 8, the right side internally mounted of base 1 is fixed with protecting box 11, and the outside swing joint of protecting box 11 has clearance door 12, the welding of the top middle part of base 1 has backup pad 14, and the front end through connection of backup pad 14 has reference column 15, the upper end through connection of reference column 15 has second gag lever post 16, and the lower extreme integration of second gag lever post 16 is provided with stopper 17, antiskid ribbed tile 18 is installed to the bottom of reference column 15, and the bottom of antiskid ribbed tile 18 pastes and is connected with non slipping spur 13.

Specifically, as in fig. 4 and 5, the outer side of the cross section of the first limiting rod 7 is in a sawtooth structure, and the diameter of the outer side cross section of the first limiting rod 7 is equal to that of the outer side cross section of the fixing rod 8, so that the fixing is effective in limiting, convenient to fix, and capable of reducing the abrasion of the fixing rod 8.

Specifically, as in fig. 1, the cleaning doors 12 are symmetrically distributed about the vertical central axis of the protective box 11, the cleaning doors 12 form a rotating structure on the protective box 11, and the protective box 11 is connected with the core drilling rod 10 in a clamping groove connection mode, so that the chips can be effectively prevented from splashing, and the chips can be concentrated.

Specifically, as in fig. 1 and fig. 2, the anti-skid blocks 13 are arranged on the anti-skid plate 18 in an array manner, and the horizontal plane where the lower side surfaces of the anti-skid blocks 13 are located coincides with the horizontal plane where the lower side surfaces of the universal wheels 19 are located, so that the limitation can be effectively realized, the shaking can be avoided, and the work of the core drilling rod 10 can be guaranteed.

Specifically, as shown in fig. 2, the support plates 14 are symmetrically distributed about the vertical central axis of the base 1, and the longitudinal section of the support plate 14 is in an L-shaped structure, so that the stability is high, and the fixing is convenient.

Specifically, as shown in fig. 2 and 3, the second limiting rod 16 is connected with the support plate 14 in a clamping groove connection manner, and the second limiting rod 16 forms a sliding structure on the support plate 14 through the limiting block 17, so that the stability is high, and the limiting is effective.

Specifically, when the hydraulic engineering concrete quality detection device is used, as shown in fig. 4 and 5, the first limiting rod 7 and the connecting cylinder 6 are connected to each other, so that the outer side of the fixing rod 8 integrally arranged at the lower side of the first limiting rod 7 is tightly attached to the inner side of the connecting cylinder 6, then the connecting cylinder 6 and the first limit rod 7 are fixed by the screw 9, and then as shown in figure 1, the push-pull handrail 2 is pushed to make the base 1 be in a proper position, then, as shown in fig. 1, 2 and 3, the second stopper rod 16 is slid to the right, the stopper 17 installed at the lower side of the second stopper rod 16 is slid on the support plate 14, the positioning column 15 slides on the supporting plate 14, and the anti-skid plate 18 and the anti-skid block 13 arranged at the bottom of the positioning column 15 are tightly attached to the ground, so that the anti-skid effect can be realized, and the shaking can be avoided;

then the power supply of the engine 4 and the circulating water pump mechanism 5 arranged on the left side and the right side of the supporting column 3 is opened, the drill core rod 10 rotates, and core taking operation is carried out, the working principle of the circulating water pump mechanism 5 and the drill core rod 10 is consistent with that of the circulating water pump mechanism 5 and the drill core rod 10 on the market, when the drill core rod 10 works, generated scraps are gathered inside the protective box 11 through shielding of the protective box 11 and the cleaning door 12, after core taking is finished, the gathered scraps can be cleaned by rotating the cleaning door 12 on the protective box 11, so that a series of operations of the hydraulic engineering concrete quality detection device are completed, and the content which is not described in detail in the description belongs to the prior art which is well known by a person skilled in the art.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a hydraulic engineering concrete quality detection device, includes base (1), its characterized in that: the cleaning device is characterized in that a push-pull handrail (2) is welded on the left side of the upper portion of the base (1), universal wheels (19) are installed on the lower side of the base (1), a supporting column (3) is fixed on the right side of the upper portion of the base (1), a circulating water pump mechanism (5) is integrally arranged on the right side of the supporting column (3), an engine (4) is installed on the left side of the supporting column (3), a connecting cylinder (6) is installed at the bottom of the circulating water pump mechanism (5), a first limiting rod (7) is connected to an inner clamping groove of the connecting cylinder (6), a fixing rod (8) is integrally arranged on the lower side of the first limiting rod (7), a screw rod (9) is tightly attached to the inner portion of the fixing rod (8), a drilling core rod (10) is installed on the lower side of the fixing rod (8), a protection box (11) is fixedly installed on the inner, the utility model discloses a shoe sole, including base (1), backup pad (14), front end through connection have reference column (15) of backup pad (14), the upper end through connection of reference column (15) has second gag lever post (16), and the lower extreme integration of second gag lever post (16) is provided with stopper (17), antiskid ribbed tile (18) are installed to the bottom of reference column (15), and the bottom of antiskid ribbed tile (18) is pasted and is connected with non slipping spur (13).

2. The hydraulic engineering concrete quality detection device of claim 1, wherein: the outer side of the cross section of the first limiting rod (7) is of a sawtooth structure, and the diameter of the outer side cross section of the first limiting rod (7) is equal to that of the outer side cross section of the fixing rod (8).

3. The hydraulic engineering concrete quality detection device of claim 1, wherein: the cleaning doors (12) are symmetrically distributed about a vertical central axis of the protective box (11), the cleaning doors (12) form a rotating structure on the protective box (11), and the protective box (11) is connected with the drill core rod (10) in a clamping groove connection mode.

4. The hydraulic engineering concrete quality detection device of claim 1, wherein: the antiskid blocks (13) are distributed on the antiskid plate (18) in an array mode, and the horizontal plane where the lower side faces of the antiskid blocks (13) are located coincides with the horizontal plane where the lower side faces of the universal wheels (19) are located.

5. The hydraulic engineering concrete quality detection device of claim 1, wherein: the supporting plates (14) are symmetrically distributed about a vertical central axis of the base (1), and the longitudinal section of each supporting plate (14) is of an L-shaped structure.

6. The hydraulic engineering concrete quality detection device of claim 1, wherein: the second limiting rod (16) is connected with the supporting plate (14) in a clamping groove connection mode, and the second limiting rod (16) forms a sliding structure on the supporting plate (14) through a limiting block (17).

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