CN218699980U - Form removing machine for concrete engineering - Google Patents

Abstract

The utility model relates to a formwork stripping machine for concrete engineering relates to the field of construction, and the formwork stripping machine includes that frame, interval set up the shaking table, the butt that are used for placing the mould on the shaking table of frame top, two settings are used for controlling the shaking mechanism of shaking table vibration from top to bottom, a plurality of settings are used for the direction subassembly to the removal play guide effect of shaking table between shaking table and frame, and are a plurality of the direction subassembly is along the circumference distribution of shaking table. This application has the effect that the concrete test block of being convenient for takes out from the mould.

Description

Form removing machine for concrete engineering

Technical Field

The application relates to the field of form dismantling machines, in particular to a form dismantling machine for concrete engineering.

Background

When a mechanical experiment of compressive strength is performed on concrete, firstly, the concrete is made into a test block through a mold, then, after the test block is solidified for a period of time, the test block is taken out of the mold, and the test block is subjected to an experiment.

At present, when a worker takes out a concrete test block from a mould, the mould is generally turned upside down by hands, and then the mould is knocked downwards to vibrate, so that the test block falls off from the mould; however, the test block is taken out from the mold by hands, the test block is easily damaged by overlarge force application of workers, the efficiency is low due to undersize force application, and the labor intensity is high.

In view of the above-mentioned related art, the inventors considered that there was a defect that the concrete test block was difficult to be released from the mold.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the concrete test block to take out from the mould, the application provides a form removal machine for concrete engineering.

The application provides a concrete engineering is with demolising machine adopts following technical scheme:

the utility model provides a concrete engineering is with demolising machine, includes that frame, interval set up the shaking table in the frame top, butt are used for placing the support frame of mould on the shaking table, two settings are used for controlling the shaking table vibration mechanism of vibration from top to bottom between shaking table and frame, a plurality of settings are used for playing the guide effect to the removal of shaking table between shaking table and frame, and are a plurality of the guide subassembly is along the circumference distribution of shaking table.

By adopting the technical scheme, when a worker takes out the concrete test block in the mold through the mold stripping machine, the support frame is firstly placed on the vibration table, then the mold with the concrete test block placed is reversely buckled on the support frame, then the vibration mechanism is started, the vibration mechanism drives the vibration table to move up and down under the guiding action of the guiding assembly, the vibration table drives the support frame to move up and down, and the support frame drives the mold to move up and down, so that the concrete test block in the mold is vibrated to be stripped; when the staff takes out the concrete test block from the mould, the staff does not need to knock the vibrating mould by hands, and the concrete test block can be taken down from the mould conveniently and quickly by disassembling the mould machine, thereby greatly reducing the labor intensity of the staff and improving the working efficiency of the staff.

Optionally, the vibration mechanism includes two supporting seats fixedly arranged on the frame, a rotating shaft rotatably connected between the two supporting seats, a driving motor arranged on one side of the rotating shaft, and an eccentric roller sleeved on the rotating shaft;

the output shaft of the driving motor is fixedly connected with the rotating shaft, the eccentric roller is connected with the rotating shaft in a sliding mode, and the eccentric roller is abutted to the vibrating table.

By adopting the technical scheme, when a worker drives the vibrating table to move up and down through the vibrating mechanism, the driving motor is started firstly, then the output shaft of the driving motor drives the rotating shaft to rotate, the rotating shaft drives the eccentric roller which is sleeved on the rotating shaft to rotate, and the eccentric roller drives the vibrating table to vibrate up and down, so that the up and down vibration of the vibrating table is realized.

Optionally, a linkage assembly for enabling the two rotating shafts to rotate synchronously is arranged between the rotating shafts in the two vibration mechanisms.

Through adopting above-mentioned technical scheme, two rotation axis synchronous rotations of linkage subassembly steerable and stop, it is more convenient to make the staff operate the mould machine of tearing open.

Optionally, the linkage assembly includes two synchronizing wheels respectively sleeved on the two rotating shafts, and a synchronous belt simultaneously meshed with the two synchronizing wheels; the synchronizing wheel is fixedly connected with the rotating shaft.

Through adopting above-mentioned technical scheme, after the staff started driving motor, driving motor drove one of them rotation axis and rotated, and the rotation axis drives the synchronizing wheel and rotates, and the synchronizing wheel drives the hold-in range rather than the meshing and rotates, and the hold-in range drives another synchronizing wheel and rotates, and another synchronizing wheel can drive rather than fixed connection's rotation axis rotation to realize the synchronous revolution between two rotation axes.

Optionally, a plurality of splines are fixedly arranged on the rotating shaft and distributed along the circumferential direction of the rotating shaft, a spline groove is formed in the eccentric roller, and the splines on the rotating shaft are inserted into the spline groove.

Through adopting above-mentioned technical scheme, splined connection has made things convenient for the staff to carry out installation, dismantlement and the maintenance of eccentric roller, and the spline can drive eccentric roller again simultaneously and rotate, and spline intensity is high, firm in connection.

Optionally, the spline is integrally formed with the rotating shaft.

Through adopting above-mentioned technical scheme, integrated into one piece sets up firm in connection, intensity is high, stable in use to make both connections of spline and rotation axis more firm, and then improved the connection stability between the two.

Optionally, the guide assembly includes a guide rod fixedly arranged on the frame, and a guide shaft fixedly arranged on one side of the vibration table close to the guide rod;

a guide groove is formed in the guide rod, and the guide shaft is located in the guide groove and slides.

Through adopting above-mentioned technical scheme, the guiding axle only can slide along the direction of seting up of guide way to realized the sliding motion of guiding axle, and played direction and spacing effect to the removal of guiding axle, made the guiding axle can not break away from the guide way.

Optionally, a plurality of guide assemblies located on the same side of the vibration table are evenly distributed at intervals along the circumferential direction of the vibration table.

Through adopting above-mentioned technical scheme, even interval distribution makes the shaking table whole smooth and easy more and stable when reciprocating to the stability of tearing the mould machine open has been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the worker takes out the concrete test block from the mold, the worker does not need to knock the mold with hands to vibrate, and the concrete test block can be conveniently and quickly taken out from the mold through the mold disassembling machine, so that the labor intensity of the worker is greatly reduced, and the working efficiency of the worker is improved;

2. the linkage assembly can control the two rotating shafts to synchronously rotate and stop, so that workers can operate the die dismounting machine more conveniently;

3. the guide shaft can only slide along the opening direction of the guide groove, thereby realizing the sliding motion of the guide shaft, having the functions of guiding and limiting the movement of the guide shaft and ensuring that the guide shaft can not be separated from the guide groove.

Drawings

FIG. 1 is a schematic structural diagram of a mold stripping machine in an embodiment of the present application;

FIG. 2 is a partial schematic view showing a vibration mechanism;

fig. 3 is a partially enlarged schematic view illustrating a portion a of fig. 2.

Description of the reference numerals: 1. a frame; 2. a vibration table; 3. a mold; 4. a support frame; 5. testing blocks; 6. a vibration mechanism; 61. a supporting base; 62. a rotating shaft; 63. a drive motor; 64. an eccentric roller; 641. a spline groove; 65. a spline; 66. a linkage assembly; 661. a synchronizing wheel; 662. a synchronous belt; 7. a guide assembly; 71. a guide bar; 711. a guide groove; 72. and (4) guiding the shaft.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a form removal machine for concrete engineering. Referring to fig. 1, the form removing machine comprises a frame 1, a vibration table 2 is arranged above the frame 1, the vibration table 2 is a rectangular plate, and the vibration table 2 and the frame 1 are arranged at intervals; a supporting frame 4 used for placing the mould 3 is arranged above the vibrating table 2, the supporting frame 4 is abutted against the vibrating table 2, and a formed concrete test block 5 is placed in the mould 3. A vibrating mechanism 6 is arranged between the vibrating table 2 and the frame 1, the vibrating mechanism 6 is used for controlling the vibrating table 2 to vibrate up and down, and the two vibrating mechanisms 6 are positioned on two sides of the vibrating table 2 in the width direction. Still be provided with a plurality of direction subassemblies 7 between shaking table 2 and the frame 1, direction subassembly 7 is used for playing the guide effect to the removal of shaking table 2, is located the even interval distribution of circumference along shaking table 2 of direction subassembly 7 of shaking table 2 homonymy.

When the staff takes out concrete test block 5 in with mould 3 through tearing the mould machine open, at first place support frame 4 on shaking table 2, 3 back-offs of mould that will place concrete test block 5 will be on support frame 4 after that, start vibration mechanism 6 afterwards, vibration mechanism 6 is under the guide effect of a plurality of direction subassemblies 7, it reciprocates to drive shaking table 2, shaking table 2 drives support frame 4 and reciprocates, support frame 4 drives mould 3 and reciprocates, thereby with the concrete test block 5 in the mould 3 comparatively convenient and fast's vibration take off can, thereby alleviate staff's intensity of labour greatly.

Referring to fig. 1 and 2, the vibration mechanism 6 includes two supporting bases 61 fixed on the frame 1, the two supporting bases 61 are parallel to each other, a rotating shaft 62 is disposed between the two supporting bases 61, and the rotating shaft 62 is rotatably connected to the supporting bases 61. A driving motor 63 is provided at one side of the rotating shaft 62, and an output shaft of the driving motor 63 is fixedly connected to the rotating shaft 62.

Referring to fig. 2 and 3, the rotating shaft 62 is sleeved with an eccentric roller 64, the eccentric roller 64 abuts against the vibration table 2, the eccentric roller 64 is connected with the rotating shaft 62 in a sliding manner, the rotating shaft 62 is provided with a plurality of splines 65, the splines 65 are uniformly distributed along the circumferential direction of the rotating shaft 62 at intervals, the splines 65 and the rotating shaft 62 are integrally formed, the eccentric roller 64 is provided with a spline groove 641, and the splines 65 on the rotating shaft 62 are inserted into the spline groove 641.

Referring to fig. 1 and 2, a linkage assembly 66 is arranged between the rotating shafts 62 in the two vibrating mechanisms 6, the linkage assembly 66 is used for enabling the two rotating shafts 62 to synchronously rotate and stop, the linkage assembly 66 comprises two synchronizing wheels 661 respectively sleeved on the two rotating shafts 62, the synchronizing wheels 661 are fixedly connected with the rotating shafts 62, a synchronous belt 662 is arranged between the two synchronizing wheels 661, and the synchronous belt 662 is meshed with the two synchronizing wheels 661 simultaneously.

When the staff drove shaking table 2 through vibration mechanism 6 and reciprocates, at first start driving motor 63, driving motor 63's output shaft drives one of them rotation axis 62 and rotates after that, rotation axis 62 drives synchronizing wheel 661 and rotates, synchronizing wheel 661 drives the hold-in range 662 rotation rather than the meshing, hold-in range 662 drives another synchronizing wheel 661 and rotates, another synchronizing wheel 661 can drive the rotation axis 62 rotation rather than fixed connection, thereby realize the synchronous rotation between two rotation axes 62, rotation axis 62 drives the eccentric roller 64 that the cover was established on rotation axis 62 afterwards and rotates, eccentric roller 64 drives shaking table 2 and vibrates from top to bottom, thereby realize shaking table 2's top to bottom vibration.

Referring to fig. 1 and 3, the guide assembly 7 includes a guide rod 71 fixedly arranged on the frame 1, a guide shaft 72 is fixedly arranged on one side of the vibration table 2 close to the guide rod 71, a guide groove 711 is formed in the guide rod 71, the guide groove 711 is formed in the vertical direction, and the guide shaft 72 is located in the guide groove 711 and slides.

When the vibration table 2 ascends and descends, the vibration table 2 drives the guide shaft 72 fixedly connected with the vibration table to ascend and descend, the guide shaft 72 can only slide along the opening direction of the guide groove 711, so that the sliding motion of the guide shaft 72 is realized, the guide groove 711 plays a role in guiding and limiting the movement of the guide shaft 72, the guide shaft 72 cannot be separated from the guide groove 711, and the stability of the vibration table 2 is improved.

The implementation principle of the mold dismantling machine for the concrete engineering in the embodiment of the application is as follows: when a worker takes out the concrete test block 5 in the mold 3 through the mold stripping machine, firstly, the support frame 4 is placed on the vibration table 2, then the mold 3 with the concrete test block 5 placed is reversely buckled on the support frame 4, then, the driving motor 63 is started, the output shaft of the driving motor 63 controls and drives the vibration mechanism 6 to move up and down under the guiding action of the guiding component 7, the vibration table 2 drives the support frame 4 to move up and down, the support frame 4 drives the mold 3 to move up and down, and therefore the concrete test block 5 in the mold 3 is vibrated to be stripped; when the staff took out concrete test block 5 from mould 3, need not the people hand and strike vibration mould 3, can take off concrete test block 5 in mould 3 through tearing the mould machine open convenient and fast comparatively to alleviate staff's intensity of labour greatly, improved staff's work efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a form removal machine for concrete engineering which characterized in that: including frame (1), interval setting shaking table (2) in frame (1) top, butt be used for placing support frame (4) of mould (3) on shaking table (2), two settings are used for controlling shaking table (2) vibration mechanism (6) of vibration from top to bottom between shaking table (2) and frame (1), a plurality of settings are used for playing guide effect's direction subassembly (7) to the removal of shaking table (2) between shaking table (2) and frame (1), and are a plurality of direction subassembly (7) are along the circumference distribution of shaking table (2).

2. The form removing machine for concrete engineering according to claim 1, characterized in that: the vibration mechanism (6) comprises two supporting seats (61) fixedly arranged on the rack (1), a rotating shaft (62) rotatably connected between the two supporting seats (61), a driving motor (63) arranged on one side of the rotating shaft (62), and an eccentric roller (64) sleeved on the rotating shaft (62);

an output shaft of the driving motor (63) is fixedly connected with the rotating shaft (62), the eccentric roller (64) is connected with the rotating shaft (62) in a sliding mode, and the eccentric roller (64) is abutted to the vibrating table (2).

3. The form removing machine for concrete engineering according to claim 2, characterized in that: and a linkage assembly (66) for enabling the two rotating shafts (62) to synchronously rotate is arranged between the rotating shafts (62) in the two vibrating mechanisms (6).

4. The form removing machine for concrete engineering according to claim 3, characterized in that: the linkage assembly (66) comprises two synchronous wheels (661) respectively sleeved on the two rotating shafts (62) and a synchronous belt (662) simultaneously meshed with the two synchronous wheels (661); the synchronizing wheel (661) is fixedly connected with the rotating shaft (62).

5. The form removing machine for concrete engineering according to claim 2, characterized in that: the rotating shaft (62) is fixedly provided with a plurality of splines (65), the splines (65) are distributed along the circumferential direction of the rotating shaft (62), the eccentric roller (64) is provided with a spline groove (641), and the splines (65) on the rotating shaft (62) are inserted into the spline groove (641).

6. The form removing machine for concrete engineering according to claim 5, characterized in that: the spline (65) is integrally formed with the rotary shaft (62).

7. A form stripper for concrete works according to any one of claims 1 to 6, characterized in that: the guide assembly (7) comprises a guide rod (71) fixedly arranged on the rack (1) and a guide shaft (72) fixedly arranged on one side of the vibration table (2) close to the guide rod (71);

a guide groove (711) is formed in the guide rod (71), and the guide shaft (72) is located in the guide groove (711) in a sliding mode.

8. The form removing machine for concrete engineering according to claim 7, characterized in that: and a plurality of guide assemblies (7) positioned on the same side of the vibration table (2) are uniformly distributed at intervals along the circumferential direction of the vibration table (2).

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