CN217439575U - Adjustable concrete vibration extrusion flattening device - Google Patents

Abstract

The utility model provides an adjustable concrete vibration extrusion flattening device, which comprises a bottom supporting beam, an inclined bracket, a top transverse plate, a concrete flattening frame structure, an adjustable vibration frame structure, a T-shaped connecting frame, a tip limiting plate, a vibration motor, a concrete flattening frame structure, a spiral adjusting frame structure, a four-limb fixing pipe, a telescopic supporting rod, a locking bolt, a bottom moving wheel and a limiting guide rod, wherein the inclined bracket is respectively bolted at the four corners of the upper part of the bottom supporting beam; the top transverse plate is welded on the upper part of the inclined bracket; the concrete flattening frame structure is arranged on the left side of the lower part of the bottom supporting beam. The utility model has the advantages that: through vibrating column, protruding ring sum vibrating motor's setting, vibrating motor drives the vibrating column through T type link and reciprocates, is favorable to vibrating the concrete to the vibrating column and the protruding ring cooperation of a plurality of settings improve the device's vibration effect.

Description

Adjustable concrete vibration extrusion flattening device

Technical Field

The utility model belongs to the technical field of the concrete vibration extrusion pushes away the tie, especially, relate to a concrete vibration extrusion pushes away tie device with adjustable.

Background

The concrete vibration is to increase the fluidity of the concrete mixture for a medical vibration machine so as to be convenient for forming and increase the compactness of the concrete, after the concrete mixture is poured, the vibration machine is used for transmitting vibration energy with certain frequency, amplitude and exciting force to the concrete mixture, so that the adhesive force and the internal friction force in the concrete mixture are greatly reduced, the concrete mixture is in a heavy liquid state, and as aggregates are sunk and arranged under the action of self weight, gas in the concrete mixture is removed, gaps are eliminated, and the aggregates and cement paste are enabled to obtain compact arrangement and an effective filling template.

However, the conventional concrete vibrating, extruding and leveling device has the problems that the vibrating range of the vibrating rod cannot be adjusted according to the thickness of concrete during vibration, the concrete needs to be uniformly spread manually after being poured, and the height position of the leveling beam cannot be adjusted.

Therefore, it is necessary to develop an adjustable concrete vibration extrusion leveling device.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a concrete vibration extrusion pushes away paper-back edition and puts with adjustable, wherein the utility model discloses a can realize through following technical scheme:

an adjustable concrete vibration extrusion flattening device comprises a bottom supporting beam, an inclined bracket, a top transverse plate, a concrete flattening frame structure, an adjustable vibration frame structure, a T-shaped connecting frame, an end limiting plate, a vibration motor, a concrete flattening frame structure, a spiral adjusting frame structure, four-limb fixing pipes, telescopic supporting rods, locking bolts, bottom moving wheels and limiting guide rods, wherein the inclined bracket is respectively bolted at four corners of the upper part of the bottom supporting beam; the top transverse plate is welded on the upper part of the inclined bracket; the concrete flattening frame structure is arranged on the left side of the lower part of the bottom supporting beam; the adjustable vibration frame structure is arranged on the inner side of the bottom support beam; the T-shaped connecting frame is inserted into the inner side of the top transverse plate; the end limiting plate is in threaded connection with the lower part of the T-shaped connecting frame; the vibration motor is connected to the upper part of the T-shaped connecting frame through a bolt; the concrete leveling frame structure is arranged on the right side inside the bottom support beam; the spiral adjusting frame structure is arranged at the upper part of the concrete leveling frame structure; the upper parts of the four-limb fixing pipes are respectively connected with four corners of the outer side of the bottom supporting beam through bolts; the telescopic supporting rod is inserted at the lower part of the inner side of the limb fixing tube; the locking bolt is in threaded connection with the joint of the limb fixing tube and the telescopic support rod; the bottom movable wheel shaft is connected to the lower part of the telescopic supporting rod; the limiting guide rod is inserted into the inner side of the bottom supporting beam.

Preferably, the upper part of the inclined bracket is respectively connected with four corners of the lower part of the top transverse plate, and the vibration motor is arranged on the upper part of the top transverse plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, vibrating column, protruding ring sum vibrating motor's setting, vibrating motor drives the vibrating column through T type link and reciprocates, is favorable to vibrating the concrete to the vibrating column and the protruding ring cooperation of a plurality of settings improve the device's vibration effect.

2. The utility model discloses in, the setting of removal sleeve pipe, spring clamp plate and adjusting bolt, be favorable to unscrewing adjusting bolt, adjust the position of spring clamp plate in the vibration post outside through removing the sleeve pipe to the vibration degree of depth of adjustment vibration post.

3. The utility model discloses in, threaded connection hole, T type link and tip limiting plate's setting, be favorable to making the lower part of T type link and the upper portion of vibration post link together, the tip limiting plate plays locking effect to the junction to be convenient for dismantle the maintenance to the device.

4. The utility model discloses in, buffer spring and spacing guide arm set up, be favorable to playing spacing effect through spacing guide arm to the position of vibration post, the left and right sides slope appears when preventing to vibrate the post body and remove down, lead to vibrating the post and take place fiercely collision with a bottom supporting beam's inboard.

5. The utility model discloses in, upper portion mounting bracket, lower open groove and toper pouring plate's setting, be favorable to collecting the inboard of lower open groove with the concrete of rolling up the heap, cooperate the inboard plane of upper portion mounting bracket, carry out the first push flat to the surface of concrete.

6. The utility model discloses in, the setting of bar division board, be favorable to cutting apart the inboard concrete of lower open groove, once push away the concrete at ordinary times more even, do not need the manual shakeout of staff, increase the device's service function.

7. The utility model discloses in, vertical sliding beam and toper push away dull and stereotyped setting, be favorable to pushing away the dull and stereotyped surface of pushing away the level to the concrete through the toper to promote unnecessary concrete to move to the left side, make unnecessary concrete remove to the depressed part.

8. The utility model discloses in, the setting of guide groove, spacing gyro wheel and triangle fixed plate, be favorable to carrying on spacingly to the position of vertical sliding beam, make vertical sliding beam remain throughout and set up perpendicularly to do not influence the vertical migration of vertical sliding beam.

9. The utility model discloses in, L type mount and connection bearing's setting, be favorable to cooperating the screw thread lifter to fix the position of vertical sliding beam to connecting the bearing and connecting the junction of screw thread lifter and vertical sliding beam, the normal lift of vertical sliding beam is not influenced in the rotation of screw thread lifter simultaneously.

10. The utility model discloses in, the setting of screw thread through-hole, screw thread lifter and rotatory hand wheel, be favorable to through the threaded connection between screw thread through-hole and the screw thread lifter, adjust the high position of longitudinal sliding beam to can carry out the extrusion of unable height to the concrete and push away the tie.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the adjustable vibration frame structure of the present invention.

Fig. 3 is a schematic structural view of the concrete spreading frame structure of the present invention.

Fig. 4 is a schematic structural view of the concrete leveling frame structure of the present invention.

Fig. 5 is a schematic structural diagram of the screw adjusting frame structure of the present invention.

In the figure:

1. a bottom support beam; 2. a tilting bracket; 3. a top transverse plate; 4. a concrete flattening frame structure; 41. an upper mounting bracket; 42. a lower opening groove; 43. a strip-shaped partition plate; 44. a conical material pouring plate; 5. an adjustable vibration mount structure; 51. a vibrating column; 52. a raised ring; 53. connecting a threaded hole; 54. moving the sleeve; 55. a spring pressing plate; 56. adjusting the bolt; 57. a buffer spring; 6. a T-shaped connecting frame; 7. an end limiting plate; 8. a vibration motor; 9. a concrete leveling frame structure; 91. a longitudinal sliding beam; 92. a conical pushing plate; 93. a guide groove; 94. limiting rollers; 95. a triangular fixing plate; 10. a screw adjusting bracket structure; 101. an L-shaped fixing frame; 102. a threaded through hole; 103. a threaded lifting rod; 104. rotating a hand wheel; 105. connecting a bearing; 11. a limb fixing tube; 12. a telescopic support rod; 13. locking the bolt; 14. a bottom moving wheel; 15. limiting guide rods.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 and fig. 2, an adjustable concrete vibration extrusion leveling device comprises a bottom supporting beam 1, an inclined bracket 2, a top transverse plate 3, a concrete leveling frame structure 4, an adjustable vibration frame structure 5, a T-shaped connecting frame 6, an end limiting plate 7, a vibration motor 8, a concrete leveling frame structure 9, a spiral adjusting frame structure 10, four limb fixing pipes 11, telescopic supporting rods 12, locking bolts 13, bottom moving wheels 14 and limiting guide rods 15, wherein the inclined bracket 2 is respectively bolted at four corners of the upper part of the bottom supporting beam 1; the top transverse plate 3 is welded on the upper part of the inclined bracket 2; the concrete flattening frame structure 4 is arranged on the left side of the lower part of the bottom supporting beam 1; the adjustable vibration frame structure 5 is arranged on the inner side of the bottom support beam 1; the T-shaped connecting frame 6 is inserted into the inner side of the top transverse plate 3; the end limiting plate 7 is in threaded connection with the lower part of the T-shaped connecting frame 6; the vibration motor 8 is connected to the upper part of the T-shaped connecting frame 6 through bolts; the concrete leveling frame structure 9 is arranged on the right side inside the bottom support beam 1; the spiral adjusting frame structure 10 is arranged at the upper part of the concrete leveling frame structure 9; the upper parts of the four-limb fixing pipes 11 are respectively connected with four corners of the outer side of the bottom supporting beam 1 through bolts; the telescopic support rod 12 is inserted at the lower part of the inner side of the limb fixing tube 11; the locking bolt 13 is in threaded connection with the connection part of the limb fixing tube 11 and the telescopic supporting rod 12; the bottom moving wheel 14 is connected to the lower part of the telescopic supporting rod 12 by a shaft; the limiting guide rod 15 is inserted into the inner side of the bottom support beam 1; the adjustable vibration frame structure 5 comprises a vibration column 51, a convex ring 52, a threaded connecting hole 53, a movable sleeve 54, a spring pressing plate 55, an adjusting bolt 56 and a buffer spring 57, wherein the convex ring 52 is integrally arranged at the lower part of the outer side of the vibration column 51; the threaded connecting hole 53 is arranged at the upper part of the inner side of the vibrating column 51; the movable sleeve 54 is respectively sleeved on the upper part and the lower part of the outer side of the vibrating column 51; the spring pressing plate 55 is integrally arranged on the outer side of the movable sleeve 54; the adjusting bolt 56 is in threaded connection with the connection position of the movable sleeve 54 and the vibrating column 51; the four buffer springs 57 are respectively connected to the upper part and the lower part of the inner side of the spring pressure plate 55 by a group of bolts; the vibrating motor 8 drives the vibrating column 51 to vibrate up and down through the T-shaped connecting frame 6, the convex ring 52 is matched to vibrate the inner side of concrete, and the spring pressing plate 55 moves along with the up-down vibration of the vibrating column 51 and continuously extrudes the buffer spring 57.

As shown in fig. 3, in the above embodiment, specifically, the concrete spreading frame structure 4 includes an upper mounting frame 41, a lower opening groove 42, a strip-shaped partition plate 43 and a tapered material pouring plate 44, where the lower opening groove 42 is opened at the inner front end of the upper mounting frame 41; the strip-shaped partition plate 43 is integrally arranged on the inner side of the upper mounting frame 41; the conical material pouring plate 44 is respectively bolted to the upper part and the lower part of the left side of the upper mounting frame 41; the tapered stripper plate 44 collects the concrete to the inside of the lower open groove 42, and the strip-shaped partition plate 43 divides the concrete and makes the concrete spread evenly in cooperation with the plane inside the lower open groove 42.

As shown in fig. 4, in the above embodiment, specifically, the concrete pushing frame structure 9 includes a longitudinal sliding beam 91, a tapered pushing plate 92, a guiding groove 93, a limiting roller 94 and a triangular fixing plate 95, and the tapered pushing plate 92 is integrally disposed at the lower part of the longitudinal sliding beam 91; the guide grooves 93 are respectively formed on the left side and the right side of the longitudinal sliding beam 91; the limiting rollers 94 are respectively arranged at the left side and the right side of the longitudinal sliding beam 91; the lower part of the triangular fixing plate 95 is respectively connected with the front end and the rear end of the limiting roller 94 by a shaft; the limiting rollers 94 roll on the inner side of the triangular fixing plate 95 following the movement of the longitudinal sliding beam 91 and limit the left and right positions of the longitudinal sliding beam 91 in cooperation with the guide grooves 93 until the lower portion of the tapered push plate 92 comes into contact with the concrete.

As shown in fig. 4, in the above embodiment, specifically, the screw adjusting frame structure 10 includes an L-shaped fixing frame 101, a threaded through hole 102, a threaded lifting rod 103, a rotating handwheel 104 and a connecting bearing 105, where the threaded through hole 102 is opened at the upper right portion inside the L-shaped fixing frame 101; the thread lifting rod 103 is connected with the inner side of the thread through hole 102 in a threaded manner; the rotating handwheel 104 is connected with the upper part of the thread lifting rod 103 through a bolt; the inner side of the connecting bearing 105 is connected to the lower part of the outer side of the threaded lifting rod 103 in an interference manner; the overall height of the device is adjusted, then according to the distance between the concrete and the bottom supporting beam 1, the hand wheel 104 is held by hand to rotate the thread lifting rod 103, the thread lifting rod 103 is lifted up and down while rotating at the inner side of the thread through hole 102, and the longitudinal sliding beam 91 is pushed to move up and down by matching with the connecting bearing 105.

In the above embodiment, specifically, the vibration columns 51 are provided in plurality, and are sequentially arranged inside the spring pressing plate 55 from front to back, so as to improve the working efficiency of the device.

In the above embodiment, specifically, the vibration column 51 penetrates through the inner side of the bottom support beam 1, so as to ensure the normal vibration of the vibration column 51.

In the above embodiment, specifically, the spring pressing plates 55 disposed at the upper and lower portions are symmetrically disposed, and both of them can play a role of buffering when the vibrating column 51 reciprocates.

In the above embodiment, the spring pressing plates 55 are respectively disposed at the upper and lower portions of the bottom support beam 1, and play a role in buffering without affecting vibration.

In the above embodiment, specifically, the lower portion of the T-shaped connecting frame 6 is screwed inside the screw connecting hole 53, so as to facilitate the detachment of the connecting portion.

In the above embodiment, specifically, the raised ring 52 is disposed at the lower part of the moving sleeve 54 to play a role of anti-loosening.

In the above embodiment, specifically, the upper and lower portions of the limiting guide rod 15 respectively penetrate through the buffer spring 57 and are connected with the four corners of the spring pressing plate 55 by bolts.

In the above embodiment, specifically, the upper mounting bracket 41 is disposed on the left side of the vibration column 51, and the rear right side is bolted to the lower left side of the bottom support beam 1.

In the above embodiment, specifically, the upper portion of the longitudinal sliding beam 91 is inserted into the right side of the inside of the bottom support beam 1.

In the above embodiment, specifically, the upper portion of the triangular fixing plate 95 is connected to the lower portion of the bottom support beam 1 by bolts.

In the above embodiment, specifically, the limiting roller 94 is inserted into the inner side of the guiding groove 93, so as to reduce the abrasion during moving.

In the above embodiment, specifically, the left lower portion of the L-shaped fixing frame 101 is connected to the upper portion and the right side of the bottom supporting beam 1 by bolts.

In the above embodiment, specifically, the outer ring of the connecting bearing 105 is in interference connection with the upper middle position of the longitudinal sliding beam 91.

In the above embodiment, specifically, the rotating handwheel 104 is arranged on the upper portion of the threaded lifting rod 103.

Principle of operation

The utility model discloses a theory of operation: when the device is used, the bottom supporting beam 1 is moved to the upper part of concrete, then the bottom supporting beam is unscrewed, the relative position between the four-limb fixing pipe 11 and the telescopic supporting rod 12 is adjusted, the overall height of the device is adjusted, then the hand wheel 104 is held by hand to rotate the threaded lifting rod 103 according to the distance between the concrete and the bottom supporting beam 1, the threaded lifting rod 103 rotates in the threaded through hole 102 and simultaneously lifts up and down, the longitudinal sliding beam 91 is pushed to move up and down by matching the connecting bearing 105, the longitudinal sliding beam 91 lifts up and down in the right side of the bottom supporting beam 1, the limiting roller 94 rolls on the inner side of the triangular fixing plate 95 along with the movement of the longitudinal sliding beam 91, the left and right positions of the longitudinal sliding beam 91 are limited by matching the guide groove 93 until the lower part of the conical pushing plate 92 is contacted with the concrete, the adjusting bolt 56 is unscrewed, according to the thickness of the concrete, adjusting the position of the vibrating column 51 on the inner side of the movable sleeve 54, so as to change the relative position between the spring pressing plate 55 and the vibrating column 51, screwing the adjusting bolt 56 after reaching the proper position, driving the vibrating column 51 to vibrate up and down through the T-shaped connecting frame 6 by the vibrating motor 8, vibrating the inner side of the concrete by matching with the raised ring 52, moving the spring pressing plate 55 along with the up-and-down vibration of the vibrating column 51, continuously extruding the buffer spring 57, thereby achieving the buffering effect, pushing the bottom support beam 1 to move to the left while vibrating, collecting the concrete to the inner side of the lower opening groove 42 by the conical material pouring plate 44, cutting the concrete by the strip-shaped partition plate 43, flattening the concrete by matching with the plane on the inner side of the lower opening groove 42, flattening the concrete at the same time, moving the conical material pushing plate 92 on the upper part of the concrete, flattening the concrete, and meanwhile, the redundant concrete is moved to the left side, so that the concrete is moved to a sunken position, and the flatness of the surface of the concrete is ensured.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (8)

1. The adjustable concrete vibration extrusion and flattening device is characterized by comprising a bottom supporting beam (1), an inclined bracket (2), a top transverse plate (3), a concrete flattening frame structure (4), an adjustable vibration frame structure (5), a T-shaped connecting frame (6), an end limiting plate (7), a vibration motor (8), a concrete flattening frame structure (9), a spiral adjusting frame structure (10), four-limb fixing pipes (11), telescopic supporting rods (12), locking bolts (13), bottom moving wheels (14) and limiting guide rods (15), wherein the inclined bracket (2) is respectively bolted at four corners of the upper part of the bottom supporting beam (1); the top transverse plate (3) is welded on the upper part of the inclined bracket (2); the concrete flattening frame structure (4) is arranged on the left side of the lower part of the bottom supporting beam (1); the adjustable vibration frame structure (5) is arranged on the inner side of the bottom supporting beam (1); the T-shaped connecting frame (6) is inserted into the inner side of the top transverse plate (3); the end limiting plate (7) is in threaded connection with the lower part of the T-shaped connecting frame (6); the vibration motor (8) is connected to the upper part of the T-shaped connecting frame (6) through bolts; the concrete leveling frame structure (9) is arranged on the right side of the inside of the bottom supporting beam (1); the spiral adjusting frame structure (10) is arranged at the upper part of the concrete leveling frame structure (9); the upper parts of the four-limb fixing pipes (11) are respectively connected with four corners of the outer side of the bottom supporting beam (1) through bolts; the telescopic support rod (12) is inserted at the lower part of the inner side of the limb fixing tube (11); the locking bolt (13) is in threaded connection with the connection part of the limb fixing tube (11) and the telescopic supporting rod (12); the bottom moving wheel (14) is coupled to the lower part of the telescopic supporting rod (12) in a shaft way; the limiting guide rod (15) is inserted into the inner side of the bottom supporting beam (1); the adjustable vibration frame structure (5) comprises a vibration column (51), a raised ring (52), a threaded connection hole (53), a movable sleeve (54), a spring pressing plate (55), an adjusting bolt (56) and a buffer spring (57), wherein the raised ring (52) is integrally arranged at the lower part of the outer side of the vibration column (51); the threaded connecting hole (53) is formed in the upper part of the inner side of the vibrating column (51); the movable sleeve (54) is respectively sleeved on the upper part and the lower part of the outer side of the vibrating column (51); the spring pressing plate (55) is integrally arranged on the outer side of the movable sleeve (54); the adjusting bolt (56) is in threaded connection with the connecting position of the movable sleeve (54) and the vibrating column (51); the four buffer springs (57) are respectively connected to the upper part and the lower part of the inner side of the spring pressure plate (55) by a group of bolts.

2. The adjustable concrete vibration extrusion and pushing apparatus as claimed in claim 1, wherein said concrete spreading frame structure (4) comprises an upper mounting frame (41), a lower open groove (42), a strip-shaped partition plate (43) and a conical material pouring plate (44), said lower open groove (42) being opened at the inner front end of the upper mounting frame (41); the strip-shaped partition plates (43) are integrally arranged on the inner side of the upper mounting frame (41); the conical material pouring plate (44) is respectively connected to the upper portion and the lower portion of the left side of the upper portion mounting frame (41) through bolts.

3. The adjustable concrete vibration extrusion and flattening device according to claim 1, wherein the concrete flattening frame structure (9) comprises a longitudinal sliding beam (91), a tapered flattening plate (92), a guide groove (93), a limiting roller (94) and a triangular fixing plate (95), wherein the tapered flattening plate (92) is integrally arranged at the lower part of the longitudinal sliding beam (91); the guide grooves (93) are respectively arranged at the left side and the right side of the longitudinal sliding beam (91); the limiting idler wheels (94) are respectively arranged at the left side and the right side of the longitudinal sliding beam (91); the lower part of the triangular fixing plate (95) is respectively connected with the front end and the rear end of the limiting roller (94) through shafts.

4. The adjustable concrete vibration extrusion and flattening device as claimed in claim 1, wherein the screw adjusting frame structure (10) comprises an L-shaped fixing frame (101), a threaded through hole (102), a threaded lifting rod (103), a rotating hand wheel (104) and a connecting bearing (105), wherein the threaded through hole (102) is formed in the right upper part of the inner side of the L-shaped fixing frame (101); the thread lifting rod (103) is in threaded connection with the inner side of the thread through hole (102); the rotary hand wheel (104) is connected to the upper part of the threaded lifting rod (103) through a bolt; the inner side of the connecting bearing (105) is connected to the lower part of the outer side of the threaded lifting rod (103) in an interference manner.

5. The adjustable concrete vibration extrusion and leveling device as claimed in claim 1, wherein a plurality of vibration columns (51) are arranged inside the spring pressing plate (55) from front to back, and the vibration columns (51) penetrate through the inner side of the bottom support beam (1).

6. The adjustable concrete vibration extrusion leveling device according to claim 1, wherein the spring pressing plates (55) arranged at the upper and lower parts are symmetrically arranged, and the spring pressing plates (55) are respectively arranged at the upper and lower parts of the bottom support beam (1).

7. The adjustable concrete vibration extrusion and leveling device as recited in claim 1, wherein the lower portion of the T-shaped link frame (6) is screwed inside the screw coupling hole (53), and the protrusion ring (52) is provided at the lower portion of the moving sleeve (54).

8. The adjustable concrete vibrating, extruding and leveling device as recited in claim 1, wherein the upper and lower portions of the position-limiting guide rod (15) are respectively connected with four corner positions of the spring pressure plate (55) through the buffer spring (57).

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