CN113417467A - Concrete pouring workbench for house construction - Google Patents

Abstract

The application discloses building concrete placement workstation, it includes the platform, it is provided with the ejection of compact seat that self tip can shift out the platform to slide on the platform, be provided with on the ejection of compact seat and be used for and pour union coupling's passage, be equipped with the ejection of compact inner chamber that is linked together with the passage inner chamber on the ejection of compact seat, just set up the discharge opening that is linked together with ejection of compact inner chamber on the diapire of ejection of compact seat, be connected with the moving mechanism who is used for moving platform on the platform, the sliding direction of the moving direction perpendicular to ejection of compact seat of platform. This application has the effect that reduces constructor's intensity of labour.

Description

Concrete pouring workbench for house construction

Technical Field

The application relates to the field of building construction equipment, in particular to a building concrete pouring workbench.

Background

A building is an entity that provides a user or investor with a life, production, work, or other activity at a planned design site. Concrete pouring refers to the process of pouring concrete into a mold until plasticization, and a room building concrete pouring workbench is used for assisting constructors in pouring concrete.

In the related art, when concrete is poured, a constructor needs to stand on a workbench to hold a pouring pipe to pour in a moving mode. Concrete placement is performed continuously to reduce construction joints, and is usually performed all at once. In order to complete concrete pouring at one time, constructors need to hold the pouring pipe for a long time, so that the labor intensity of the constructors is high, and improvement is needed.

Disclosure of Invention

In order to reduce constructor's intensity of labour, this application provides a room building concrete placement workstation.

The application provides a concrete placement workstation is built in room adopts following technical scheme:

the utility model provides a room building concrete placement workstation, includes the platform, it can shift out the play material seat of platform to slide to be provided with self tip on the platform, be provided with on the play material seat and be used for and pour the passage of union coupling, be equipped with the ejection of compact inner chamber that is linked together with the passage inner chamber on the ejection of compact seat, just set up the discharge opening that is linked together with ejection of compact inner chamber on the diapire of play material seat, be connected with the moving mechanism who is used for moving platform on the platform, the sliding direction of the moving direction perpendicular to ejection of compact seat of platform.

Through adopting above-mentioned technical scheme, when concreting, earlier pour the union coupling on the passage to make the concrete flow in ejection of compact inner chamber, then slide the play material seat in order to change the interval between discharge opening and the platform. The distance between the discharge hole and the platform is enlarged firstly, then the distance between the discharge hole and the platform is reduced, and the discharge seat is made to perform reciprocating motion to complete the concrete pouring of one area. And then the moving mechanism drives the platform and the discharging seat to move, so that the next area is poured through the discharging seat.

Compare in holding and removing through constructor and pour the pipe in order to carry out concrete placement, building concrete placement workstation through this application for constructor need not to hold and remove and pour the pipe, only need slide the play material seat can, reduced constructor's intensity of labour. And the discharging seat enlarges the construction range of constructors and is beneficial to the construction of the constructors.

Optionally, a driving mechanism for driving the discharging seat to move is arranged on the platform, the driving mechanism comprises a sliding block connected to the discharging seat, a driving rod rotatably connected to the platform, a first rocker with one end fixed to the driving rod, and a second rocker with one end hinged to the sliding block, the end of the first rocker far away from the driving rod is hinged to the end of the second rocker far away from the sliding block, and a guide groove for the discharging seat to slide is formed in the platform.

Through adopting above-mentioned technical scheme, when concreting, rotate the actuating lever and rotate in order to drive first rocker, first rocker drives the articulated end rotation of second rocker and first rocker. Because the ejection of compact seat slides and sets up in the guide way for the second rocker passes through the sliding block drive ejection of compact seat and follows guide way reciprocating motion. Through the structure, the discharging seat can move in a reciprocating mode by rotating the driving rod by constructors, and the constructors can move the discharging seat conveniently.

Optionally, the moving mechanism includes a guide rail for being disposed on the ground, a seat for being connected to the platform, and a plurality of wheels rotatably connected to the seat, and the wheels are slidably disposed on the guide rail.

Through adopting above-mentioned technical scheme, when moving the platform, promote the saddle, the wheel rotates along the guide rail to drive the platform through the saddle and remove. Through the structure, construction of the mobile platform for constructors is facilitated.

Optionally, the vehicle seat comprises a linkage mechanism, the linkage mechanism comprises a linkage motor, a linkage rod fixed on an output shaft of the linkage motor, a linkage bevel gear fixed on the linkage rod and a transmission bevel gear meshed with the linkage bevel gear, the movement mechanism further comprises a driving rod and at least one wheel connected to the driving rod, a transmission mechanism used for driving the driving rod to rotate is arranged on the vehicle seat, and the transmission bevel gear is used for driving the transmission mechanism.

By adopting the technical scheme, when the platform is moved, the linkage motor is started to drive the linkage rod to rotate, the linkage rod drives the linkage bevel gear and the transmission bevel gear to rotate, the transmission bevel gear drives the driving rod to rotate through the transmission mechanism, so that the wheels connected with the driving rod are driven to rotate, and the vehicle seat and the platform are driven to move along the guide rail. Compared with the mode that the seat and the platform are pushed by the constructor, the linkage motor, the linkage rod, the linkage bevel gear, the transmission bevel gear and the transmission mechanism are used for facilitating the constructor to move the platform, and the labor intensity of the constructor is reduced.

Optionally, the transmission mechanism includes a transmission rod rotatably connected to the seat and two transmission gears, the two transmission gears are respectively connected to the transmission rod and the driving rod, and the two transmission gears are meshed with each other.

By adopting the technical scheme, the transmission bevel gear drives the transmission rod and the transmission gear connected to the transmission rod to rotate when rotating, so that the transmission gear connected to the driving rod and the driving rod are driven to rotate, and the wheel is driven to rotate. Compared with the mode that the transmission bevel gear is directly connected to the driving rod, the installation of the driving rod, the linkage bevel gear, the transmission bevel gear and the linkage motor is facilitated through the transmission mechanism.

Optionally, the linkage mechanism further comprises a linkage gear fixed on the linkage rod and a driving gear engaged with the linkage gear, and the driving gear is fixed on the driving rod.

Through adopting above-mentioned technical scheme, when concreting, start linkage motor and rotate with the drive gangbar, the gangbar drives linkage gear and rotates, and linkage gear drives the actuating lever through drive gear and rotates to make first rocker rotate, second rocker and sliding block linkage, with drive ejection of compact seat reciprocating motion. Compared with a manual driving rod rotated by constructors, the driving rod is rotated by the aid of the linkage motor, the linkage rod, the linkage gear and the driving gear, so that the constructors are facilitated to rotate the driving rod, and labor intensity of the constructors is reduced.

Optionally, the linkage gear includes first no tooth portion and is equipped with the first toothed portion of the teeth of a cogwheel, the teeth of a cogwheel quantity on the first toothed portion is unanimous with the teeth of a cogwheel quantity on the drive gear, the linkage bevel gear includes second no tooth portion and is equipped with the second toothed portion of the teeth of a cogwheel, the rotatory in-process of linkage motor drive gangbar, drive gear and the crisscross rotation of transmission bevel gear.

By adopting the technical scheme, when concrete is poured, the linkage motor is started to drive the linkage rod to rotate, and the linkage rod drives the linkage gear and the linkage bevel gear to rotate simultaneously. When the first toothed part is meshed with the driving gear, the second toothed part is staggered with the transmission bevel gear. The number of teeth on the first toothed part is consistent with that of the driving gears, so that after the linkage motor drives the linkage gear to rotate for a circle through the linkage rod, the driving gears rotate for a circle, and the discharging seat completes one-time reciprocating pouring. When the first toothed part is staggered with the transmission gear, the second toothed part is meshed with the transmission bevel gear, and the transmission bevel gear drives the wheels to rotate through the transmission rod, the two transmission gears and the driving rod, so that the saddle and the platform are driven to move along the guide rail.

Through the structure, after the discharge seat completes one-time reciprocating motion pouring, the vehicle seat and the platform move for a certain distance to reciprocate. Make constructor only need start linkage motor, can carry out concrete placement through the room building concrete placement workstation of this application, construction operation is simple and convenient, has further reduced constructor's intensity of labour.

Optionally, the linkage rod is a telescopic rod, the linkage motor is fixed on the saddle, one end of the linkage rod is fixed on an output shaft of the linkage motor, the other end of the linkage rod is rotatably connected to the platform, and the saddle is provided with a lifting oil cylinder for driving the platform to lift.

By adopting the technical scheme, when the platform is lifted, the piston rod of the lifting oil cylinder extends out of the lifting platform, and the linkage rod extends, so that when the platform is adjusted to different heights, the linkage gear can still be meshed with the driving gear. Through the height of adjusting the lifting platform, help constructor to climb on the platform on the one hand, on the other hand has enlarged the suitability of this application concrete placement workstation, helps this application concrete placement workstation to pour the eminence.

Optionally, a guide sleeve is arranged on the saddle, and a guide pillar is arranged on the platform and is slidably arranged in the guide sleeve.

Through adopting above-mentioned technical scheme, the guide pillar slides and sets up in the guide pin bushing to play the guide effect to the lift of platform, improved the stability that the platform goes up and down.

In summary, the present application includes at least one of the following benefits:

1. after the linkage motor is started, the discharge seat completes one reciprocating motion to pour one block of driving and then the vehicle seat and the platform are driven to move by the wheels so as to drive the discharge seat to move to the next area, and therefore, the reciprocating motion is adopted, so that concrete pouring can be completed by starting the linkage motor by constructors, and the labor intensity of the constructors is reduced;

2. through lift cylinder, help constructor to board the platform on the one hand, on the other hand helps this application concrete placement platform to pour the eminence, has enlarged this application concrete placement platform's application range.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

FIG. 2 is a schematic structural view of the removal platform, the discharging base and two wheels in the embodiment of the present application.

FIG. 3 is a schematic cross-sectional view of a discharge cavity and a discharge hole highlighted in an embodiment of the present application.

FIG. 4 is an exploded view of a prominent linkage in an embodiment of the present application

Description of reference numerals:

1. a platform; 11. a guide post; 12. a guide groove; 13. a sliding groove; 2. a moving mechanism; 21. a vehicle seat; 211. a guide sleeve; 212. a lift cylinder; 22. a frame; 23. a driving lever; 24. a driven lever; 25. a wheel; 26. a guide rail; 3. a discharging seat; 31. a material guide pipe; 32. a discharging inner cavity; 33. a discharge hole; 4. a drive mechanism; 41. a drive rod; 42. a slider; 43. a first rocker; 44. a second rocker; 5. a linkage mechanism; 51. a linkage motor; 52. a linkage rod; 521. a main rod; 522. an auxiliary rod; 523. a telescopic groove; 524. a limiting block; 525. a limiting groove; 53. a linkage gear; 531. a first toothless part; 532. a first toothed portion; 54. linkage bevel gear; 541. a second toothless part; 542. a second toothed portion; 55. a drive gear; 56. a drive bevel gear; 6. a transmission mechanism; 61. a transmission seat; 62. a transmission rod; 63. a transmission gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses concrete placement workstation is built in room. Referring to fig. 1 and 2, the house building concrete pouring workbench comprises a platform 1, a moving mechanism 2 for moving the platform 1, a discharging seat 3 arranged on the platform 1 in a sliding manner, a driving mechanism 4 for driving the discharging seat 3 to move, a linkage mechanism 5 for driving the moving mechanism 2 and the driving mechanism 4, and a transmission mechanism 6 for linking the moving mechanism 2 and the linkage mechanism 5.

Referring to fig. 1 and 2, the moving mechanism 2 includes a seat 21, four frames 22 fixed on the seat 21, a driving rod 23 penetrating and rotatably connected to two of the frames 22, a driven rod 24 penetrating and rotatably connected to the other two frames 22, four wheels 25 connected to the driving rod 23 and the driven rod 24, and two guide rails 26 for fixing on the ground, wherein the driving rod 23 and the driven rod 24 have the same length direction. Two of the wheels 25 are fixed to both ends of the driving link 23, respectively, and the remaining two wheels 25 are fixed to both ends of the driven link 24, respectively. Two of the wheels 25 are slidably disposed on one rail 26, and the other two wheels 25 are slidably disposed on the other rail 26.

Referring to fig. 1 and 2, four guide sleeves 211 are fixed to the top wall of the seat 21, and the four guide sleeves 211 are respectively located at four corners of the seat 21. Four guide posts 11 are fixed on the bottom wall of the platform 1, the guide posts 11 are respectively positioned at four corners of the platform 1, and each guide post 11 is respectively arranged in different guide sleeves 211 in a sliding manner. A lifting oil cylinder 212 is fixed on the seat 21, a piston rod of the lifting oil cylinder 212 extends and retracts along the vertical direction, and the end part of the piston rod of the lifting oil cylinder 212 is fixedly connected with the bottom wall of the platform 1.

Referring to fig. 1 and 3, a guide groove 12 is formed in the top wall of the platform 1, the extending direction of the guide groove 12 is perpendicular to the extending direction of the guide rail 26, and the discharging base 3 is slidably disposed in the guide groove 12 and moves along the extending direction of the guide groove 12. The discharging seat 3 is provided with a discharging inner cavity 32, the top wall of the discharging seat 3 is fixed with a material guide pipe 31 connected with a pouring pipe, and the inner cavity of the material guide pipe 31 is communicated with the discharging inner cavity 32. Discharge hole 33 communicated with discharge inner cavity 32 is formed in the bottom wall of discharge seat 3, one end of discharge seat 3 is located outside guide groove 12, and discharge hole 33 is formed in the end portion of discharge seat 3 outside guide groove 12.

Referring to fig. 2 and 3, the driving mechanism 4 includes a driving rod 41 rotatably connected to the platform 1, a sliding block 42 fixed on the bottom wall of the discharging seat 3, a first rocking bar 43 having one end fixed on the driving rod 41, and a second rocking bar 44 having one end hinged on the sliding block 42, wherein the end of the first rocking bar 43 far away from the driving rod 41 is hinged with the end of the second rocking bar 44 far away from the sliding block 42, and the length of the second rocking bar 44 is greater than that of the first rocking bar 43. The bottom wall of the guide groove 12 is penetrated with a slide groove 13 extending in the same direction as the guide groove 12, and the slide block 42 is slidably disposed in the slide groove 13.

Referring to fig. 2 and 3, the linkage mechanism 5 includes a linkage motor 51 fixed to the seat 21, a linkage rod 52 connected to the linkage motor 51, a linkage gear 53 and a linkage bevel gear 54 connected to the linkage rod 52, a drive gear 55 engaged with the linkage gear 53, and a transmission bevel gear 56 engaged with the linkage bevel gear 54.

Referring to fig. 3 and 4, the linkage rod 52 is a telescopic rod, the linkage rod 52 includes a main rod 521 and an auxiliary rod 522, a telescopic slot 523 for the auxiliary rod 522 to slide is formed in the main rod 521, and the telescopic slot 523 extends in a vertical direction. A limiting block 524 is fixed on the side wall of the auxiliary rod 522, a limiting groove 525 for the limiting block 524 to slide is formed in the groove wall of the telescopic groove 523, and the limiting groove 525 extends in the vertical direction. The limiting block 524 is slidably disposed in the limiting groove 525, so that the main rod 521 and the sub-rod 522 are limited from rotating relatively. The end of the main rod 521 is fixedly connected with the output shaft of the linkage motor 51, and the end of the auxiliary rod 522 is rotatably connected with the platform 1.

Referring to fig. 2 and 4, the interlocking gear 53 is fixed to the sub-lever 522, and the interlocking gear 53 is an incomplete gear. The interlocking gear 53 includes a first non-toothed portion 531 and a first toothed portion 532 provided with gear teeth, the drive gear 55 is fixed to the drive lever 41, the first toothed portion 532 is configured to mesh with the drive gear 55, and the number of gear teeth on the first toothed portion 532 is the same as the number of gear teeth of the drive gear 55.

Referring to fig. 2 and 3, when the linkage motor 51 is started, the linkage rod 52 rotates to drive the linkage gear 53 to rotate. When the linkage gear 53 rotates to the first toothed portion 532 to engage with the driving gear 55 and then rotates to the first toothed portion 532 to be staggered with the driving gear 55, the number of gear teeth on the first toothed portion 532 is the same as that of the driving gear 55, so that the driving gear 55 rotates exactly one revolution during the movement. The driving gear 55 drives the driving rod 41 and the first rocking bar 43 to rotate for a circle, so as to drive the second rocking bar 44 and the hinged end of the first rocking bar 43 to rotate, and further drive the discharging seat 3 to move through the sliding block 42. The end part of the discharging seat 3 provided with the discharging hole 33 moves towards the direction far away from the platform 1 and then moves towards the direction close to the platform 1 to reset.

Referring to fig. 2, the driving mechanism 6 includes two driving seats 61 fixed on the saddle 21, a driving rod 62 penetrating and rotatably connected to the two driving seats 61, and two driving gears 63 engaged with each other, and a length direction of the driving rod 62 is identical to that of the driving rod 23. One of the transmission gears 63 is fixed at one end of the transmission rod 62, the other transmission gear 63 is fixed on the driving rod 23, and the transmission bevel gear 56 is fixed at one end of the transmission rod 62 far away from the transmission gear 63.

Referring to fig. 2 and 4, the bevel gear 54 is an incomplete gear, and the bevel gear 54 includes a second non-toothed portion 541 and a second toothed portion 542 provided with gear teeth, and the second toothed portion 542 is engaged with the bevel gear 56. The linkage motor 51 is started, and the transmission bevel gear 56 is driven to rotate through the second toothed portion 542, so that the transmission rod 62 and the transmission gear 63 on the transmission rod 62 are driven to rotate, and the transmission gear 63 on the driving rod 23 and the driving rod 23 are driven to rotate. Through the structure, the linkage motor 51 can drive the two wheels 25 connected to the active rod 23 to rotate, so that the saddle 21 and the platform 1 move.

Referring to fig. 2 and 4, when the first toothed portion 532 is engaged with the drive gear 55, the second toothed portion 542 is misaligned with the transmission bevel gear 56; when the first toothed portion 532 is offset from the drive gear 55, the second toothed portion 542 meshes with the drive bevel gear 56. Through the structure, in the process that the linkage motor 51 drives the linkage rod 52 to rotate, the driving gear 55 and the transmission bevel gear 56 rotate in a staggered mode.

The implementation principle of the concrete pouring workbench for building in the embodiment of the application is as follows: when concrete is poured, the pouring pipe is firstly connected with the material guiding pipe 31, so that the concrete enters the discharging inner cavity 32 through the material guiding pipe 31 and flows out of the discharging hole 33. Then, the linkage motor 51 is started to drive the linkage rod 52 to rotate, and the linkage rod 52 drives the linkage gear 53 and the linkage bevel gear 54 to rotate simultaneously. The first toothed portion 532 rotates to mesh with the driving gear 55 and then rotates to be staggered with the driving gear 55, so that the driving mechanism 4 drives the discharging base 3 to reciprocate to complete one area casting. After the first toothed portion 532 is staggered from the driving gear 55, as the linkage motor 51 continues to drive the linkage rod 52 to rotate, the second toothed portion 542 is engaged with the transmission bevel gear 56, so that the driving rod 23 is driven to rotate through the transmission mechanism 6, the two wheels 25 connected to the driving rod 23 are rotated, and further the saddle 21 and the platform 1 are driven to advance, so that the discharging seat 3 moves to the next area. The concrete pouring can be completed by the reciprocating way.

Compared with the construction method that the construction personnel manually hold and move the pouring pipe, the construction personnel only need to start the linkage motor 51, and the labor intensity of the construction personnel is reduced.

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 (9)

1. The utility model provides a room building concrete placement workstation, includes platform (1), its characterized in that: the utility model discloses a platform for concrete pouring, including platform (1), platform (1) go up the slip and be provided with the play material seat (3) that self tip can shift out platform (1), be provided with on play material seat (3) and be used for and pour union coupling's passage (31), be equipped with ejection of compact inner chamber (32) that are linked together with passage (31) inner chamber on play material seat (3), just set up discharge opening (33) that are linked together with ejection of compact inner chamber (32) on the diapire of play material seat (3), be connected with moving mechanism (2) that are used for moving platform (1) on platform (1), the moving direction perpendicular to ejection of compact seat (3)'s of moving direction of platform (1) slip direction.

2. A concrete casting work bench for building construction according to claim 1, wherein: be provided with on platform (1) and be used for driving actuating mechanism (4) that ejection of compact seat (3) removed, actuating mechanism (4) articulate second rocker (44) on sliding block (42) including connecting sliding block (42) on ejection of compact seat (3), rotation connection actuating lever (41) on platform (1), first rocker (43) and one end on actuating lever (41) are fixed, the tip that actuating lever (41) were kept away from in first rocker (43) is articulated with the tip that sliding block (42) were kept away from in second rocker (44), set up guide way (12) that supply ejection of compact seat (3) to slide and set up on platform (1).

3. A concrete casting work bench for building construction according to claim 1, wherein: the moving mechanism (2) comprises a guide rail (26) arranged on the ground, a seat (21) connected with the platform (1) and a plurality of wheels (25) rotatably connected to the seat (21), wherein the wheels (25) are arranged on the guide rail (26) in a sliding mode.

4. A concrete casting work bench for building construction according to claim 3, wherein: the bicycle driving mechanism comprises a linkage mechanism (5), wherein the linkage mechanism (5) comprises a linkage motor (51), a linkage rod (52) fixed on an output shaft of the linkage motor (51), a linkage bevel gear (54) fixed on the linkage rod (52) and a transmission bevel gear (56) meshed with the linkage bevel gear (54), the moving mechanism (2) further comprises a driving rod (23), at least one wheel (25) is connected to the driving rod (23), a transmission mechanism (6) used for driving the driving rod (23) to rotate is arranged on a saddle (21), and the transmission bevel gear (56) is used for driving the transmission mechanism (6).

5. A concrete casting working platform for building construction according to claim 4, characterized in that: the transmission mechanism (6) comprises a transmission rod (62) and two transmission gears (63) which are rotatably connected to the saddle (21), the two transmission gears (63) are respectively connected to the transmission rod (62) and the driving rod (23), and the two transmission gears (63) are meshed with each other.

6. A concrete casting working platform for building construction according to claim 4, characterized in that: the linkage mechanism (5) further comprises a linkage gear (53) fixed on the linkage rod (52) and a driving gear (55) meshed with the linkage gear (53), and the driving gear (55) is fixed on the driving rod (41).

7. A concrete casting working platform for building construction according to claim 6, characterized in that: the linkage gear (53) comprises a first non-toothed part (531) and a first toothed part (532) provided with gear teeth, the number of the gear teeth on the first toothed part (532) is consistent with that of the gear teeth on the driving gear (55), the linkage bevel gear (54) comprises a second non-toothed part (541) and a second toothed part (542) provided with the gear teeth, and the driving gear (55) and the transmission bevel gear (56) rotate in a staggered mode in the process that the linkage motor (51) drives the linkage rod (52) to rotate.

8. A concrete casting working platform for building construction according to claim 4, characterized in that: the linkage rod (52) is a telescopic rod, the linkage motor (51) is fixed on the saddle (21), one end of the linkage rod (52) is fixed on an output shaft of the linkage motor (51), the other end of the linkage rod (52) is rotatably connected to the platform (1), and the saddle (21) is provided with a lifting oil cylinder (212) used for driving the platform (1) to lift.

9. A concrete casting work bench for building construction according to claim 3, wherein: the automobile seat is characterized in that a guide sleeve (211) is arranged on the automobile seat (21), a guide post (11) is arranged on the platform (1), and the guide post (11) is arranged in the guide sleeve (211) in a sliding mode.

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