CN111173265A - Pushing device for building creeping formwork template - Google Patents

Abstract

The invention relates to a pushing device for a building creeping formwork template, which belongs to the technical field of building creeping formworks and comprises: the framework is used for installing the wood board and comprises a cross rod and a vertical rod, a template is installed on one side of the cross rod, and the other side of the cross rod is connected with the vertical rod; the bottom of the vertical rod is hinged with a sliding block, and the sliding block is arranged on a guide rail for guiding; a supporting inclined rod is arranged between the vertical rod and the sliding block, the device also comprises a pushing assembly for driving the template to synchronously move in the same direction, the pushing assembly comprises a gear set, a fixing plate, a bottom plate and a driving unit for driving the sliding block to synchronously move in the same direction through the gear set, and a first rack is arranged on one side of the sliding block; the first rack is meshed with one side of the gear set, and the other side of the gear set is connected with the driving unit. The template pushing device can synchronously and stably push the template by a single person, reduces abrasion, and improves the service life of equipment and the climbing efficiency.

Description

Pushing device for building creeping formwork template

Technical Field

The invention relates to a pushing device for a building creeping formwork template, and belongs to the technical field of building creeping formworks.

Background

The climbing form is a short name of the climbing form and is also called as the jumping form abroad. The climbing device consists of three parts, namely a climbing template, a climbing frame (or the climbing template does not have the climbing frame) and climbing equipment, and is an effective tool in constructing high-rise structures such as a shear wall system, a cylinder system, a pier and the like. Because of the self-climbing capability, the hoisting of hoisting machinery is not needed, and the hoisting workload of the transportation machinery in construction is reduced. The scaffold is hung on the self-climbing formwork, so that an external scaffold in the construction process can be omitted. In conclusion, the climbing formwork can reduce the number of hoisting machines and accelerate the construction speed, so the climbing formwork has better economic benefit. And in the in-service use, the discovery is owing to need the template to break away from with the face of pouring before climbing, and current regulation mode is earlier inclined backward with the upper end regulation of template, then adjusts the template backward through the spanner respectively by two people again, and it is lower to adjust efficiency, and because two people adjust together, the synchronism is relatively poor for bear the frame of template and produce easily between the guide way and rock and wearing and tearing, reduced life, based on this demand, specially designed a building creeping formwork pushing mechanism.

Disclosure of Invention

In order to solve the problems, the invention provides the pushing device for the building creeping formwork template, the template is directly separated from a pouring surface without inclining the template, the movement between two groups of adjusting sliding long blocks and the guide slide ways can be completed by one person manually or electrically, the phenomenon that the whole template pushing mechanism is abraded and the service life is shortened due to the fact that the template shakes caused by asynchronism when the template is adjusted by two persons is avoided, the template can be rapidly separated from the pouring surface, and the creeping formwork efficiency is improved. The technical scheme of the invention is as follows:

a pushing device for a building formwork, comprising: frame for installing formwork: the framework comprises a cross rod and a vertical rod, a template is arranged on one side of the cross rod, and the other side of the cross rod is connected with the vertical rod; the bottom of montant articulates there is the slider, the slider is installed on the guide rail that is used for the direction, be provided with the support down tube between montant and the slider, its characterized in that still includes the promotion subassembly that is used for the synchronous equidirectional motion of drive template: the gear set driving device comprises a gear set, a fixing plate for fixing the gear set, a bottom plate for mounting the gear set, and a driving unit for driving a sliding block to synchronously move in the same direction through the gear set, wherein a first rack is arranged on the inner side of the sliding block and meshed with the gear set, and the gear set is connected with the driving unit.

Further, the gear train is all installed at the both ends of fixed plate and bottom plate, the gear train includes driving gear, driven gear, driving gear and driven gear's top is articulated with the fixed plate, driving gear and driven gear's bottom is articulated with the bottom plate, one side and the first rack toothing of driven gear, driven gear's opposite side and driving gear meshing, the driving gear is connected with drive unit.

Furthermore, the driving unit comprises two second racks meshed with the driving gear, and a second connecting rod used for pushing the second racks to synchronously move in the same direction is arranged on the second racks.

Furthermore, the driving unit comprises a servo motor for driving the driving gear and the driven gear to move and an induction switch component for inducing the movement of the sliding block, and a main shaft of the servo motor is connected with the driving gear.

Furthermore, the inductive switch component comprises limit switch groups arranged at two ends of the fixed plate and limit blocks arranged on the upper end surface of the sliding block;

the limiting block comprises a baffle positioned in the vertical direction, the baffle is vertically arranged on the upper end face of the sliding block, and the rear end face of the limiting block is coplanar with the rear end face of the first rack;

the limit switch group comprises a first limit switch with an induction end facing the direction of the template and a second limit switch with the induction end opposite to the direction of the induction end of the first limit switch, and the first limit switch and the second limit switch are both located between the vertical rod and the baffle.

Furthermore, the number of teeth of the driving gear is smaller than that of the driven gear, and the modulus of the driving gear is smaller than that of the driven gear.

Furthermore, through holes for installing limit pins are formed in the middle of the sliding block and the guide rail.

Furthermore, montant, slider and guide rail are two, be provided with the head rod between the guide rail, the both ends of bottom plate are connected with the inboard of guide rail.

Further, the slider includes that the cross section is the rectangular block structure of I-shaped structure, the guide rail is with the fixed cover of slider assorted upper end open-ended I-shaped structure, in the slider embedding guide rail, slider and guide rail sliding connection.

Furthermore, the top end of the supporting diagonal rod is hinged to the middle of the vertical rod, and the tail end of the supporting diagonal rod is hinged to the upper end face of the rear end of the sliding block.

The invention has the beneficial effects that:

according to the template adjusting device, the template adjusting mechanism of the existing climbing formwork device is improved, the problem that two persons need to adjust templates through a wrench respectively in the prior art is solved, the handle rod can be pulled backwards manually to drive the transmission gear to rotate, and the two sliding blocks synchronously move backwards relative to the guide rail; also can be through servo motor synchronous drive gear train, the rotation of gear train converts the synchronous backward movement of two relative guide rails of slider into, and motion-sensing switch part has realized that two servo motor's synchronous opening and close and just reverse rotation for alone can accomplish the template through remote switch and break away from fast and pour the face and laminate fast and to waiting to pour the face. The invention avoids the phenomenon that the service life of the whole template pushing mechanism is reduced due to abrasion of the whole template pushing mechanism caused by template shaking caused by asynchronism when two persons adjust the template, and can ensure that the template is quickly separated from a pouring surface, thereby improving the efficiency of climbing the template.

Drawings

FIG. 1 is a schematic view of an urging arrangement for a building template;

fig. 2 is a schematic view of the pushing device for the building creeping formwork.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It is to be understood that the term: the terms "bottom," "middle," "top," "one end," "another end," "upper," "one side," "another side," "front end," "rear end," "top," "inner," "front," "center," "two ends," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the invention.

Furthermore, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby a feature defined as "first", "second" may explicitly or implicitly include at least one such feature.

A pushing device for a building creeping formwork as shown in fig. 1, comprising: template 1, frame 2 for installing the template, support down tube 4, slider 5 and guide rail 15, frame 2 includes horizontal pole 21 and montant 22, a side-mounting template of horizontal pole 21, the opposite side and the montant 22 of horizontal pole 21 are connected, and the frame 2 shown in figure 1 is provided with two montants 22, and the inboard of two montants 22 sets up three horizontal pole 21, wherein the bottom of montant 22 is articulated with the front end of slider 5, the top of supporting down tube 4 is articulated with the middle part of montant 22, the end of supporting down tube 4 is articulated with the up end of slider 5 rear end, guide rail 15 is the slide of parallel extension, slider 5 and guide rail 15 sliding connection, wherein slider 5 is the rectangular block structure of personally submitting I-shaped structure in the cross section, and guide rail 15 is the fixed cover with slider 5 assorted upper end open-ended I-shaped structure, the embedding of slider 5 lower part is used for the guide in the guide rail 15 of direction and the upper end of slider 5 exposes, the two guide rails 15 are arranged, a first connecting rod 14 is arranged between the guide rails 15 to enhance the stability of the guide rails 15 when the sliding long block 5 slides, a first rack 6 for driving the sliding block 5 to move is arranged on the inner side of the front end of the sliding block 5, the pushing device shown in fig. 1 is provided with two groups of sliding blocks 5 and guide rails 15, a pushing assembly for driving the templates to synchronously move in the same direction is meshed between the first racks 6 on the inner sides of the two sliding blocks 5, the pushing assembly can synchronously and simultaneously drive the two sliding blocks 5 to respectively move back and forth along the guide rails 15, through holes penetrating through the sliding blocks 5 and the guide rails 15 which are nested together at the same side are used for installing limit pins 9, and the limit pins 9 fasten the sliding long block 5 and the guide slide ways together under the condition that the synchronous and unidirectional driving components do not work.

Further, the pushing assembly comprises a gear set, a fixing plate 8 for fixing the gear set, a bottom plate 10 for mounting the gear set, and a driving unit 3 for driving the sliding block 5 to synchronously move in the same direction through the gear set, the driving unit 3 comprises two second racks 12, the gear sets are mounted at two ends of the fixing plate 8 and the bottom plate 10, each gear set comprises a driving gear 11 and a driven gear 7, the top ends of the driving gear 11 and the driven gear 7 are hinged to the fixing plate 8, the bottom ends of the driving gear 11 and the driven gear 7 are hinged to the bottom plate 10, the left end and the right end of the bottom plate 10 are respectively fixedly connected with the inner sides of two guide rails 15, the opposite sides of the two first racks 6 are meshed with the driven gear 7, the opposite sides of the two driven gears 7 are meshed with the driving gear 11, the opposite sides of the two driving gears 11 are meshed with the second racks 12, and the rear ends of the opposite sides of the two Connecting rod 13, through manual pulling second connecting rod 13 drive driven gear 7 rotation backward, driven gear 7 drives first rack 6 and removes, and then makes two slider 5 relative guide rail 15 synchronous backward movements, smoothly transmits slider 5 for guaranteeing the power of second rack 12, the number of teeth of driving gear 11 is less than drive gear 7's the number of teeth, and the modulus of driving gear 11 is less than drive gear 7's modulus.

During the use, if need template 1 break away from to pour the face or template 1 laminating to waiting to pour the face, do the anticipatory action for the climbing formwork device shifts up, single extracts two spacer pins 9 respectively for there are two gears in the transmission process of second rack 12 and first rack 6, make second rack 12 and first rack 6 can the syntropy remove. When an operator pulls the second connecting rod 13 backwards, the second rack 12 drives the first rack 6 to move backwards, and then the sliding block 5 moves backwards relative to the guide rail 15; promote second connecting rod 13 forward as operating personnel, second rack 12 drives first rack 6 forward movement, then slider 5 relative guide rail forward movement to can accomplish the separation from and the laminating of template 1 and the face of pouring through single once adjusting, effectively reduced the wearing and tearing that asynchronous arouses between two sets of slip long blocks 5 and the direction slide.

A pushing device for a construction creeping formwork, as shown in fig. 2, comprising: template 1, frame 2 that is used for installing the template, support down tube 4, slider 5 and guide rail 15, frame 2 includes horizontal pole 21 and montant 22, a side-mounting template of horizontal pole 21, the opposite side and the montant 22 of horizontal pole 21 are connected, and the frame 2 shown in figure 2 is provided with two montants 22, and the inboard of two montants 22 sets up three horizontal pole 21, wherein the bottom of montant 22 is articulated with the front end of slider 5, the top of supporting down tube 4 is articulated with the middle part of montant 22, the end of supporting down tube 4 is articulated with the up end of slider 5 rear end, guide rail 15 is the slide of parallel extension, slider 5 and guide rail 15 sliding connection, wherein slider 5 is the rectangular block structure of personally submitting I-shaped structure for the cross section, and guide rail 15 is the fixed cover with slider 5 assorted upper end open-ended I-shaped structure, the embedding of slider 5 lower part is used for the guide in the guide rail 15 of direction and the slider 5 upper end exposes, the two guide rails 15 are arranged, a first connecting rod 14 is arranged between the guide rails 15 to enhance the stability of the guide rails 15 when the sliding long block 5 slides, a first rack 6 for driving the sliding block 5 to move is arranged on the inner side of the front end of the sliding block 5, the pushing device shown in fig. 2 is provided with two groups of sliding blocks 5 and guide rails 15, a pushing assembly for driving the templates to synchronously move in the same direction is meshed between the first racks 6 on the inner sides of the two sliding blocks 5, the pushing assembly can synchronously and synchronously drive the two sliding blocks 5 to respectively move back and forth along the guide rails 15, through holes penetrating through the middle parts of the sliding blocks 5 and the guide rails 15 which are nested together at the same side are used for installing limit pins 9, and the limit pins 9 fasten the sliding long block 5 and the guide slide ways together under the condition that the synchronous and equidirectional.

Further, the pushing assembly comprises a gear set, a fixing plate 8 for fixing the gear set, a bottom plate 10 for mounting the gear set, and a driving unit 3 for driving the sliding block 5 to synchronously move in the same direction through the gear set, the driving unit 3 comprises two servo motors 16, the gear sets are mounted at two ends of the fixing plate 8 and the bottom plate 10, each gear set comprises a driving gear 11 and a driven gear 7, the top ends of the driving gear 11 and the driven gear 7 are hinged to the fixing plate 8, the bottom ends of the driving gear 11 and the driven gear 7 are hinged to the bottom plate 10, the left end and the right end of the bottom plate 10 are respectively fixedly connected with the inner sides of two guide rails 15, the opposite sides of the two first racks 6 are meshed with the driven gear 7, the opposite sides of the two driven gears 7 are meshed with the driving gears 11, the two driving gears 11 are connected with the main shafts of the servo motors 16, and the two, so that the two sliders 5 synchronously and synchronously move along the guide rail 15 in the same direction, and in order to ensure that the power of the servo motor 16 is smoothly transmitted to the sliders 5, the number of teeth of the driving gear 11 is less than that of the transmission gear 7, and the modulus of the driving gear 11 is less than that of the transmission gear 7.

Further, the driving unit 3 further comprises an inductive switch component for inducing the movement of the sliding block 5, wherein the inductive switch component comprises a limit switch group 17 installed at two ends of the fixed plate 8 and a limit block 18 installed at the upper end surface of the sliding block 5;

the limiting block 18 comprises a baffle 181 positioned in the vertical direction, the baffle 181 is vertically installed on the upper end face of the sliding block 5, and the rear end face of the limiting block 18 is coplanar with the rear end face of the first rack 6;

both ends all pass through connecting piece installation limit switch group 17 about fixed plate 8, limit switch group 17 includes two limit switch, and wherein first limit switch 171's response end is towards the template direction, and second limit switch 172's response end is opposite and towards stopper 18 with first limit switch 171's response end direction, first limit switch 171 and second limit switch 172 all are in between montant 22 and the baffle 181, and two response ends are respectively towards two directions in front and back of limit switch group 17, and along with two synchronous syntropy ground along the direction slide back-and-forth movement of slip rectangular block 5, limit switch group 17 can touch montant 22 and baffle 181 respectively and control servo motor 16, and then realizes the control of slider 5 back-and-forth movement range.

Further, a remote-controlled PLC controller is arranged in the middle of the bottom plate 10 and is electrically connected with the first limit switch, the second limit switch and the servo motor 16 respectively.

When the formwork climbing device is used, if the formwork 1 is required to be separated from a pouring surface, a first-stage action is carried out for the climbing device to move upwards, a single person respectively extracts the two limiting pins 9, a control signal is sent to the PLC controller through a handheld remote switch with a front direction button and a rear direction button, when the backward moving direction button is pressed, the two servo motors 16 are synchronously electrified and rotate in different directions, the driving gear 11 and the driven gear 7 drive the sliding block 5 to move backwards relative to the guide rail 15, after the limiting switch with a forward induction end (namely the limiting switch with the induction end facing the vertical rod 22) touches the vertical rod 22, the PLC controller automatically controls the servo motors 16 to be powered off, and meanwhile, the module 5 stops moving, so that the backward moving stroke, namely the separation stroke, of the formwork 1 is completed; when a forward moving direction key is pressed, the two servo motors 16 are synchronously electrified and rotate in different directions, the rotating direction of the servo motors 16 is opposite to the rotating direction in the backward moving stroke of the former template 1, the slide block 5 is driven to move forward relative to the guide rail 15 through the driving gear 11 and the driven gear 7, after a limit switch with a backward sensing end (namely the limit switch with the sensing end facing the limit block 18) touches the limit block 18, the PLC controller automatically controls the servo motors 16 to be powered off, and meanwhile, the slide block 5 stops moving, so that the forward moving stroke, namely the attaching stroke, of the template 1 is completed.

In the embodiment, the type of the servo motor is Mitsubishi HG-KN13J-S100, the type of the limit switch is ohm Long D4MC-5000, the type of the PLC is Mitsubishi FX3U, and the type of the remote control switch is Pucai P12-10S/16D/25S.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A pushing device for a building formwork, comprising: the framework (2) is used for installing templates, the framework (2) comprises a cross rod (21) and a vertical rod (22), the templates are installed on one side of the cross rod (21), and the other side of the cross rod (21) is connected with the vertical rod (22); the bottom of montant (22) articulates there is slider (5), slider (5) are installed on guide rail (15) that are used for the direction, be provided with between montant (22) and slider (5) and support down tube (4), its characterized in that still includes the promotion subassembly that is used for the synchronous equidirectional motion of drive template: the gear set driving device comprises a gear set, a fixing plate (8) used for fixing the gear set, a bottom plate (10) used for installing the gear set, and a driving unit (3) which synchronously moves in the same direction through a gear set driving sliding block (5), wherein a first rack (6) is arranged on the inner side of the sliding block (5), the first rack (6) is meshed with the gear set, and the gear set is connected with the driving unit (3).

2. The pushing device for the building creeping formwork as claimed in claim 1, wherein two ends of the fixed plate (8) and the bottom plate (10) are respectively provided with a gear set, the gear sets comprise a driving gear (11) and a driven gear (7), the top ends of the driving gear (11) and the driven gear (7) are hinged with the fixed plate (8), the bottom ends of the driving gear (11) and the driven gear (7) are hinged with the bottom plate (10), one side of the driven gear (7) is engaged with the first rack (6), the other side of the driven gear (7) is engaged with the driving gear (11), and the driving gear (11) is connected with the driving unit (3).

3. The pushing device for building templates of creeping formwork according to claim 2, wherein the driving unit (3) comprises two second racks (12) engaged with the driving gear (11), and the second racks (12) are provided with second connecting rods (13) for pushing the second racks (12) to move synchronously and in the same direction.

4. The pushing device for building templates of claim 2, wherein the driving unit (3) comprises a servo motor (16) for driving the driving gear (11) and the driven gear (7) to move, and an inductive switch unit for inducing the movement of the slider (5), and the main shaft of the servo motor (33) is connected with the driving gear (11).

5. The pushing device for the building creeping formwork as claimed in claim 4, wherein the inductive switch component comprises limit switch groups (17) mounted at both ends of the fixed plate (8) and limit blocks (18) mounted at the upper end surface of the sliding block (5);

the limiting block (18) comprises a baffle (181) positioned in the vertical direction, the baffle (181) is vertically arranged on the upper end face of the sliding block (5), and the rear end face of the limiting block (18) is coplanar with the rear end face of the first rack (6);

the limit switch group (17) comprises a first limit switch (171) with an induction end facing the direction of the template and a second limit switch (172) with the induction end of the first limit switch (171) in the opposite direction, and the first limit switch (171) and the second limit switch (172) are both positioned between the vertical rod (22) and the baffle (181).

6. An urging arrangement for a building template according to claim 2 wherein the number of teeth of the driving gear (11) is less than the number of teeth of the driven gear (7), the module of the driving gear (11) being less than the module of the driven gear (7).

7. The pushing device for building creeping formwork as claimed in claim 1, wherein the middle parts of the sliding block (5) and the guide rail (15) are provided with through holes for installing the limit pins (9).

8. The pushing device for building creeping formwork as claimed in claim 1, wherein there are two vertical rods (22), two sliding blocks (5) and two guide rails (15), wherein a first connecting rod (14) is arranged between the guide rails (15), and two ends of the base plate (10) are connected with the inner sides of the guide rails (15).

9. The pushing device for building creeping formwork as claimed in claim 1, wherein the sliding block (5) comprises an elongated block structure with an i-shaped cross section, the guiding rail (15) is a fixed sleeve with an i-shaped structure matched with the sliding block (5), the upper end of the fixed sleeve is open, the sliding block (5) is embedded in the guiding rail (15), and the sliding block (5) is slidably connected with the guiding rail (15).

10. The pushing device for building creeping formwork as claimed in claim 1, wherein the top end of the supporting diagonal rod (4) is hinged to the middle of the vertical rod (22), and the end of the supporting diagonal rod (4) is hinged to the upper end face of the rear end of the sliding block (5).

Images