CN113916985A

CN113916985A - A wall quality check out test set for engineering reason

Info

Publication number: CN113916985A
Application number: CN202111184536.XA
Authority: CN
Inventors: 孙建永
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-12
Filing date: 2021-10-12
Publication date: 2022-01-11

Abstract

The invention relates to the field of turbochargers, in particular to wall surface quality detection equipment for engineering supervision. The invention aims to provide wall surface quality detection equipment for project supervision, which can detect whether a building wall surface has an empty drum phenomenon. The purpose of the invention is realized by the following technical scheme: including motor I, vertical pole, the meshing dish, X type frame, the hammering pole, the tup, spring and arc seat, motor I passes through output shaft and vertical pole fixed connection, the eccentric department position rigid coupling of meshing dish is at the middle part of vertical pole, the middle part rigid coupling of X type frame rear side has the arc seat, the equal rigid coupling in four corners department of X type frame has the rear side of a hammering pole, the equal rigid coupling in front side of every hammering pole has a tup, the spring is equipped with four, a spring has all been cup jointed to the rear side of every hammering pole, the rear side of four springs is the front side of rigid coupling in X type frame four corners department respectively, the meshing dish contacts with the arc seat.

Description

A wall quality check out test set for engineering reason

Technical Field

The invention relates to the field of wall surface quality detection, in particular to wall surface quality detection equipment for engineering supervision.

Background

Wall quality testing equipment among the prior art can possess tilting, liftable and adjust nimble advantage, at the application in-process of reality, can adjust this wall quality testing device's angle and height according to user's demand, and stability can be good, has made things convenient for the user to use, but is not convenient for carry out the detection whether the wall has the hollowing phenomenon in engineering supervision.

Disclosure of Invention

The invention aims to provide wall surface quality detection equipment for project supervision, which can detect whether a building wall surface has an empty drum phenomenon.

The purpose of the invention is realized by the following technical scheme: the utility model provides a wall quality detection equipment for engineering is prison and is managed, including motor I, vertical pole, the meshing dish, X type frame, the hammering pole, the tup, spring and arc seat, motor I passes through output shaft and vertical pole fixed connection, the eccentric department position rigid coupling of meshing dish is at the middle part of vertical pole, the middle part rigid coupling of X type frame rear side has the arc seat, the equal rigid coupling in four corners department of X type frame has the rear side of a hammering pole, the equal rigid coupling in front side of every hammering pole has a tup, the spring is equipped with four, a spring has all been cup jointed to the rear side of every hammering pole, the rear side of four springs is the front side of rigid coupling in X type frame four corners department respectively, the meshing dish contacts with the arc seat.

The four hammers are made of solid rubber.

Still include the testing stand, spacing post, solid fixed ring and convex seat, spacing post rigid coupling is at the middle part of testing stand upside, gu the fixed ring rigid coupling is on the upper portion of testing stand rear side, the left upper and lower both sides of testing stand all are equipped with a convex seat, the upper and lower both sides of vertical pole rotate the upper and lower both sides of connecting in the testing stand rear side respectively, I rigid coupling of motor is at the top of testing stand rear side, hammer lever of equal swing joint in four corners department of testing stand front side, the front side of every spring respectively with the four corners department rigid coupling of testing stand.

Still include roll-over stand, sill bar, ejector pin, spacing and push rod, the sill bar is established in the bottom of roll-over stand, and the ejector pin is established at the top of roll-over stand, and spacing middle part swing joint is on the ejector pin, and spacing left side rigid coupling has the push rod, and spacing post swing joint is at spacing rear side.

The left side and the right side of the roll-over stand are respectively provided with a strip hole.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a portion of the structure of the inspection frame of the present invention;

FIG. 2 is a schematic view of a portion of the construction of the spacing post of the present invention;

FIG. 3 is a schematic view of a portion of the X-frame of the present invention;

FIG. 4 is a schematic view of a part of the structure of the roll-over stand of the present invention;

FIG. 5 is a schematic view of a portion of the push rod of the present invention;

FIG. 6 is a partial structural schematic view of the I-shaped frame of the present invention;

FIG. 7 is a schematic view of a portion of the structure of the mobile frame of the present invention;

FIG. 8 is a schematic view of a portion of the structure of the elongated tube of the present invention;

FIG. 9 is a schematic view of a portion of the construction of the mixing bowl of the present invention;

FIG. 10 is a schematic view of a half-section of the mixing tank of the present invention;

FIG. 11 is a schematic view I of the overall structure of the present invention;

fig. 12 is a schematic diagram ii of the overall structure of the present invention.

In the figure: a detection frame 101; a stopper post 102; a fixing ring 103; a motor I104; a vertical rod 105; an engagement disc 106; an X-shaped frame 107; a hammer rod 108; a hammer head 109; a spring 110; a boss 111; an arc-shaped seat 112; a roll-over stand 201; a bottom bar 202; a top rod 203; a limiting frame 204; a push rod 205; a motor II 301; a lead screw 302; a H-shaped frame 303; a sliding post 304; a moving frame 401; an arcuate frame 402; right-angled frame 403; a wheel carrier 404; a wheel 405; a mixing tank 501; a feed inlet 502; a long tube 503; a motor III 504; a short pipe 505; a rotating rod 506; the stirring blade 507.

Detailed Description

This section is based on the working procedure expressed in figures 1, 2 and 3: the output shaft of motor I104 passes through the upper end rigid coupling of shaft coupling and vertical pole 105, the middle part rigid coupling of vertical pole 105 has the eccentric department position of meshing dish 106, arc seat 112 rigid coupling is in the middle part of X type frame 107 rear side, hammering pole 108 is equipped with four, the rear end of four hammering poles 108 rigid coupling respectively is in the four corners department of X type frame 107, hammer head 109 of equal rigid coupling of the front end of every hammering pole 108, the rear end position department of every hammering pole 108 all cup joints a spring 110, the front end of X type frame 107 four corners department rigid coupling respectively has the rear end of a spring 110, the arc position department of arc seat 112 and the middle part contact meshing of meshing dish 106 mesh.

To explain further, when in use, the driving motor I104 drives the vertical rod 105 to rotate, when the vertical rod 105 rotates, because the eccentric position of the engaging disk 106 is fixedly connected with the middle part of the vertical rod 105, the engaging disk 106 makes a circular motion around the center of the vertical rod 105, and further, since the arc-shaped seat 112 is engaged with the engaging disk 106, when the engaging disk 106 makes a circular motion, the arc base 112 can be pushed repeatedly to reciprocate, further the arc base 112 drives the X-shaped frame 107 and the four hammering rods 108 at the four corners of the X-shaped frame 107 to reciprocate, so that the hammer head 109 on each hammering rod 108 can knock the wall surface of the building to measure and check whether hollowing exists through sound judgment, and then be convenient for follow-up in time add the work of putty to the sky drum department, simple structure, the detection when being convenient for project supervision, it is convenient to measure, and it is comparatively convenient to further the measurement on large tracts of land building surface.

This section is based on the working procedure expressed in figures 1, 2 and 3: four hammers 109 fixedly connected to the front ends of the four hammering rods 108 are made of solid rubber respectively.

Further, when the four hammers 109 are made of solid rubber, the damage to the decorative building materials like tiles laid on the outer surface of the building can be prevented when the building is knocked to measure whether hollowing exists or not.

This section is based on the working procedure expressed in figures 1, 2 and 3: the middle part rigid coupling of test rack 101 upside has spacing post 102, the upper portion rigid coupling of test rack 101 rear side has solid fixed ring 103, boss 111 is equipped with two, two boss 111 rigid couplings are at the upper and lower both ends of test rack 101 left end respectively, the upper and lower both sides of test rack 101 rear side are rotated the upper and lower both sides that are connected with vertical pole 105 respectively, the top rigid coupling of test rack 101 rear side has motor I104, sliding connection is in the four corners department of test rack 101 front side respectively at the middle part of four hammering pole 108, the four corners department of test rack 101 respectively with the front side rigid coupling of four springs 110.

To explain further, when the arc-shaped seat 112 at the middle part of the rear side of the X-shaped frame 107 is engaged with the engaging disk 106, the reciprocating motion is generated by the reaction force of the spring 110 at the rear side of each hammering rod 108, so that the arc-shaped seat 112 can always maintain the contact state with the engaging disk 106, thereby enabling the four hammering rods 108 to perform reciprocating motion at the four corners of the detection frame 101, and further maintaining the stability of the device.

This part is according to the working process expressed in figures 4, 5, 11 and 12: the bottom of the roll-over stand 201 is fixedly connected with a bottom rod 202, the top of the roll-over stand 201 is fixedly connected with a top rod 203, the top rod 203 is slidably connected with the middle of a limiting stand 204, a push rod 205 is fixedly connected with the left side of the top of the limiting stand 204, and the rear side of the limiting stand 204 is slidably connected with a limiting column 102.

To further explain, in order to further improve the accurate measurement of the building surface area, when the knock measurement hollowing is performed, and when the front side of the roll-over stand 201 is attached to the building surface, the limiting stand 204 on the push rod 205 can be manually pushed, and the limiting stand 204 drives the limiting column 102 and the detection stand 101 at the bottom of the limiting column 102 to move transversely, so as to further accurately measure whether the building surface has the hollowing phenomenon.

This part is according to the working process expressed in figures 4, 5, 11 and 12: the middle positions of the left end and the right end of the roll-over stand 201 are provided with strip holes along the length direction.

For further explanation, the long holes on both sides of the roll-over stand 201 provide the necessary conditions for the up-and-down movement of the inspection stand 101.

Still include motor II 301, lead screw 302, worker shape frame 303 and slip post 304, motor II 301 passes through output shaft and lead screw 302 fixed connection, slip post 304 rigid coupling is in worker shape frame 303's front side, the middle part transmission of worker shape frame 303 is connected on lead screw 302, the upper and lower both sides of connection at roll-over stand 201 rear side are rotated respectively to lead screw 302's both sides, motor II 301 rigid coupling is at the top of roll-over stand 201 rear side, the left and right sides difference swing joint of slip post 304 is downthehole at two rectangular strips of roll-over stand 201 left and right sides, the middle part swing joint of detection frame 101 is on slip post 304.

This part is according to the working procedure expressed in figures 6, 11 and 12: an output shaft of the motor II 301 is fixedly connected with a lead screw 302 through a coupler, a sliding column 304 is fixedly connected to the front end of the H-shaped frame 303, the middle of the H-shaped frame 303 is connected to the lead screw 302 in a threaded mode, the upper side and the lower side of the rear side of the roll-over stand 201 are respectively rotatably connected with the two sides of the lead screw 302, the motor II 301 is fixedly connected to the top of the rear side of the roll-over stand 201, the left end and the right end of the sliding column 304 are respectively connected in two strip holes in the left side and the right side of the roll-over stand 201 in a sliding mode, and the middle of the detection stand 101 is connected to the sliding column 304 in a sliding mode.

To explain further, when the building wall is accurately measured to determine whether the hollowing phenomenon exists, the driving motor ii 301 drives the screw 302 to rotate, the rotating screw 302 further drives the i-shaped frame 303 and the sliding column 304 at the front end of the i-shaped frame 303 to lift, so that the sliding column 304 drives the detection frame 101 to lift, the knocking range of the hammer 109 is further expanded, the hollowing measurement on the building surface at a high position is facilitated, and when the detection frame 101 lifts, the limiting column 102 at the upper end of the detection frame 101 slides up and down at the rear side of the limiting frame 204.

The sliding column 304 is polished.

This part is according to the working procedure expressed in figures 6, 11 and 12: the surfaces of the sliding columns 304 fixed to the front end of the H-shaped frame 303 from left to right are polished.

To explain further, the polishing process performed on the sliding column 304 facilitates the movement of the detecting frame 101 to be smoother and more stable.

Still including removing frame 401, arc frame 402, right angle frame 403, wheel carrier 404 and wheel 405, the left and right sides of removing the frame 401 rear side rigid coupling respectively has an arc frame 402, right angle frame 403 rigid coupling is at the middle part on removing frame 401 right side, wheel carrier 404 is equipped with two, two wheel carriers 404 rigid couplings are in the left and right sides of removing frame 401 respectively, the equal rotation of both sides is connected with a wheel 405 around every wheel carrier 404, the left and right sides of sill bar 202 rotates the left and right sides of connecting in removing frame 401 front side respectively, the left and right sides difference swing joint of ejector pin 203 is on two arc frames 402.

This part is according to the working procedure expressed in figures 7, 11 and 12: arc frame 402 is equipped with two, and two arc frame 402 rigid coupling are respectively at both ends about removing 401 rear end, and the middle part rigid coupling on removing 401 right side has right angle frame 403, removes wheel carrier 404 of both ends rigid coupling respectively about removing 401 bottom, and both ends are all rotated around every wheel carrier 404 and are connected with a wheel 405, remove both ends and rotate respectively about the front end of frame 401 and be connected with the both ends about sill bar 202, sliding connection has ejector pin 203 about both ends respectively on two arc frames 402.

To explain further, when in use, in order to measure whether the wall surface of a small-sized low building with an inclination angle which forms an acute angle with the ground has a hollowing phenomenon, the turning frame 201 can be properly adjusted to rotate at the front side of the moving frame 401 by taking the bottom rod 202 as a center, so that the top rod 203 at the upper side of the turning frame 201 can slide on the two arc frames 402, the hammer 109 on the detection frame 101 can accurately measure the hollowing phenomenon, and the wheel frames 404 arranged at the left side and the right side of the bottom of the moving frame 401 and the wheels 405 at the front side and the rear side of the wheel frames 404 are convenient for the device to detect the hollowing phenomenon and move.

Still include agitator 501, pan feeding mouth 502, long tube 503, motor III 504, short pipe 505, rotary rod 506 and stirring leaf 507, the rear side at agitator 501 top is equipped with pan feeding mouth 502, the bottom of long tube 503 and the bottom intercommunication of agitator 501 front side, the left upper and lower both sides of long tube 503 communicate a short pipe 505 respectively, the both sides of rotary rod 506 are rotated respectively and are connected in the left and right sides of agitator 501, stirring leaf 507 rigid coupling is at the middle part of rotary rod 506, motor III 504 passes through output shaft and rotary rod 506 rigid coupling, motor III 504 rigid coupling is in the left side of agitator 501, the middle part rigid coupling of agitator 501 is on right-angle bracket 403, the left upside rigid coupling of long tube 503 is in solid fixed ring 103, two short pipes 505 rigid couplings are in two convex seats 111 respectively.

This section is based on the working procedure expressed in figures 8, 9, 10, 11 and 12: pan feeding mouth 502 establishes the rear side at agitator 501 top, the bottom of agitator 501 front side is fixed and the intercommunication with the bottom of long tube 503, nozzle stub 505 is equipped with two, two nozzle stubs 505 are fixed respectively and communicate in the left upper and lower both sides of long tube 503, the left and right sides of agitator 501 rotates the both sides of connecting at rotary rod 506 respectively, the middle part rigid coupling of rotary rod 506 has stirring leaf 507, the left side rigid coupling of agitator 501 has motor III 504, the rigid coupling has the middle part of agitator 501 on right-angle frame 403, the rigid coupling has the upper end of long tube 503 left end in the solid fixed ring 103, the rigid coupling has the middle part of agitator 501 on the right-angle frame 403, the rigid coupling has the left upside of long tube 503 in the solid fixed ring 103, there are two nozzle stubs 505 in two convex seats 111 respectively the rigid coupling.

Further, when the hollow drum is detected, the position of the hollow drum is detected, knocking can be immediately stopped to add putty again on the surface of the building, the processed putty is stirred in the stirring barrel 501 in advance, when the putty is stirred, the driving motor III 504 drives the rotating rod 506 to rotate, so that the stirring blades 507 on the rotating rod 506 stir the putty and circulate the putty at the same time, the putty is circulated from the long pipe 503 during circulation and then flows out of the hollow drum of the wall surface of the building from the two short pipes 505, the structure is simple, the use is convenient, the putty can be timely filled after the hollow drum is measured, and the putty is convenient to use when engineering supervision is facilitated and is convenient and simple.

The long tube 503 is a flexible tube.

This section is based on the working procedure expressed in figures 8, 9, 10, 11 and 12: the long tube 503 fixed and communicated with the bottom of the front end of the stirring barrel 501 is a flexible plastic hose.

For further explanation, the long tube 503 is a flexible tube so that the long tube 503 can rotate in response to the movement of the testing stand 101.

Claims

1. The utility model provides a wall quality detection equipment for engineering supervision, includes motor I (104), vertical pole (105), meshing dish (106), X type frame (107), hammering pole (108), tup (109), spring (110) and arc seat (112), its characterized in that: motor I (104) are through output shaft and vertical pole (105) fixed connection, the eccentric department position rigid coupling of meshing dish (106) is at the middle part of vertical pole (105), the middle part rigid coupling of X type frame (107) rear side has arc seat (112), the equal rigid coupling in four corners department of X type frame (107) has the rear side of a hammering pole (108), the equal rigid coupling in front side of every hammering pole (108) has a tup (109), spring (110) are equipped with four, the rear side of every hammering pole (108) has all cup jointed a spring (110), the rear side of four springs (110) is the front side of rigid coupling in X type frame (107) four corners department respectively, meshing dish (106) and arc seat (112) contact.

2. A wall surface quality detecting apparatus for project supervision according to claim 1, characterized in that: the four hammers (109) are made of solid rubber.

3. A wall surface quality detecting apparatus for project supervision according to claim 1, characterized in that: still include test rack (101), spacing post (102), solid fixed ring (103) and convex seat (111), spacing post (102) rigid coupling is at the middle part of test rack (101) upside, gu fixed ring (103) rigid coupling is on the upper portion of test rack (101) rear side, the left upper and lower both sides of test rack (101) all are equipped with one convex seat (111), the upper and lower both sides of vertical pole (105) rotate respectively and connect the upper and lower both sides in test rack (101) rear side, motor I (104) rigid coupling is at the top of test rack (101) rear side, equal swing joint hammer lever (108) of four corners department of test rack (101) front side, the front side of every spring (110) respectively with the four corners department rigid coupling of test rack (101).

4. A wall surface quality detecting apparatus for project supervision according to claim 3, characterized in that: still include roll-over stand (201), sill bar (202), ejector pin (203), spacing (204) and push rod (205), the bottom at roll-over stand (201) is established in sill bar (202), the top at roll-over stand (201) is established in ejector pin (203), the middle part swing joint of spacing (204) is on ejector pin (203), the left side rigid coupling of spacing (204) has push rod (205), spacing post (102) swing joint is at the rear side of spacing (204).

5. A wall surface quality detecting apparatus for project supervision according to claim 4, characterized in that: the left side and the right side of the roll-over stand (201) are respectively provided with a strip hole.

6. A wall surface quality detecting apparatus for project supervision according to claim 5, characterized in that: still include motor II (301), lead screw (302), worker shape frame (303) and slip post (304), motor II (301) are through output shaft and lead screw (302) fixed connection, slip post (304) rigid coupling is in the front side of worker shape frame (303), the middle part transmission of worker shape frame (303) is connected on lead screw (302), the upper and lower both sides of connection in roll-over stand (201) rear side are rotated respectively to the both sides of lead screw (302), motor II (301) rigid coupling is at the top of roll-over stand (201) rear side, the left and right sides of slip post (304) swing joint is downthehole at two rectangular of roll-over stand (201) left and right sides respectively, the middle part swing joint of detecting frame (101) is on slip post (304).

7. A wall surface quality detecting apparatus for project supervision according to claim 6, characterized in that: and polishing treatment is carried out on the sliding column (304).

8. A wall surface quality detecting apparatus for project supervision according to claim 7, characterized in that: still including removing frame (401), arc frame (402), right angle frame (403), wheel carrier (404) and wheel (405), the left and right sides of removing frame (401) rear side rigid coupling respectively has an arc frame (402), right angle frame (403) rigid coupling is at the middle part on removing frame (401) right side, wheel carrier (404) are equipped with two, two wheel carriers (404) rigid coupling respectively are in the left and right sides of removing frame (401), the equal rotation of the front and back both sides of every wheel carrier (404) is connected with a wheel (405), the left and right sides of sill bar (202) rotates respectively and connects the left and right sides at removing frame (401) front side, the left and right sides difference swing joint of ejector pin (203) is on two arc frames (402).

9. A wall surface quality detecting apparatus for project supervision according to claim 8, characterized in that: also comprises a stirring barrel (501), a feeding port (502), a long pipe (503), a motor III (504), a short pipe (505), a rotating rod (506) and a stirring blade (507), the rear side at agitator (501) top is equipped with pan feeding mouth (502), the bottom of long tube (503) and the bottom intercommunication of agitator (501) front side, the upper and lower both sides on long tube (503) left side communicate one nozzle stub (505) respectively, the both sides of rotary rod (506) are rotated respectively and are connected in the left and right sides of agitator (501), stirring leaf (507) rigid coupling is in the middle part of rotary rod (506), motor III (504) pass through output shaft and rotary rod (506) rigid coupling, motor III (504) rigid coupling is in the left side of agitator (501), the middle part rigid coupling of agitator (501) is on right-angle stand (403), the left upside rigid coupling of long tube (503) is in solid fixed ring (103), two nozzle stubs (505) rigid couplings are in two convex seats (111) respectively.

10. A wall surface quality detecting apparatus for project supervision according to claim 9, characterized in that: the long pipe (503) is a flexible hose with elasticity.