CN219726635U - Vibrating device for producing precast beam plates - Google Patents

Abstract

The utility model relates to the technical field of vibrating devices, and discloses a vibrating device for producing precast beam boards, which comprises two guide frames, two support frames and a movable plate, wherein two ends of the bottom of each support frame are respectively and slidably connected in the two guide frames, the movable plate is positioned in the support frame, a plurality of vibrators are fixedly arranged at the bottom end of each movable plate side by side, sliding grooves are formed in two inner side walls of each support frame, and connecting plates movably penetrate through the inner parts of the two sliding grooves. According to the scheme, the power shafts of the two first motors drive the two first threaded rods to rotate in the same direction, the two first threaded rods apply a threaded thrust to the two connecting plates, so that the two connecting plates drive the movable plate to descend, a plurality of vibrators at the bottom end of the movable plate are caused to be inserted into the concrete poured in the precast beam plate template at the bottom of the movable plate, and then a plurality of parts of the concrete can be vibrated once.

Description

Vibrating device for producing precast beam plates

Technical Field

The utility model relates to the technical field of vibrating devices, in particular to a vibrating device for producing precast beam plates.

Background

The precast beam slab is a precast component which is integrally formed by beams and slabs and is stressed and deformed mutually, when the precast beam slab is produced and manufactured, a reinforcement cage is bound in a formwork of the precast beam slab, then concrete is injected into the formwork, the precast beam slab can be formed after the concrete is solidified, in order to avoid the concrete being more filled after the concrete is poured, the concrete is vibrated at the moment, so that bubbles in the concrete are removed, the concrete and the reinforcement cage are fully mixed together, but when the precast beam slab concrete is vibrated, a vibrator is manually held, and is inserted into the concrete for vibrating, the vibrating area of the precast beam slab is large, the existing local vibration leakage phenomenon is easy to occur, and the concrete and the reinforcement cage in the vibration leakage area cannot be fully mixed together, so that the quality of the produced precast beam slab cannot meet the specified standard requirements, and the manual vibrator is required to be used for vibrating the precast beam slab concrete, and the production efficiency of the precast beam slab is reduced due to the fact that the manual vibrator is required to be held for a long time.

Disclosure of Invention

In order to solve the problems, the utility model provides a vibrating device for producing a precast beam slab.

The utility model provides a vibrating device for producing precast beam plates, which adopts the following technical scheme:

the utility model provides a vibrating device for precast beam board production, includes guide frame, carriage and fly leaf, the guide frame has two, carriage bottom both ends sliding connection is in the inside of two guide frames respectively, the fly leaf is located the inside of carriage, the bottom of fly leaf is fixed side by side and is equipped with a plurality of vibrator;

the two inner side walls of the supporting frame are provided with sliding grooves, connecting plates are movably penetrated in the two sliding grooves, one ends of the two connecting plates are respectively welded with two ends of the movable plate, the top ends and the middle parts of two sides of the supporting frame are welded with fixed plates, the top ends of the fixed plates welded at the top ends of two sides of the supporting frame are welded with a first motor, the two first motor power shafts respectively rotate to penetrate through fixing plates welded at the top ends of two sides of the supporting frame, the two middle parts of the top ends of the connecting plates are respectively threaded to penetrate through first threaded rods, one ends of the two first threaded rods are respectively welded with the end parts of the two first motor power shafts, and the other ends of the two first threaded rods are respectively rotationally inserted into the middle parts of the top ends of the fixing plates welded at the middle parts of two sides of the supporting frame.

Preferably, the four corners at two ends of the bottom of the supporting frame are respectively provided with rollers, and the four rollers at two ends of the bottom of the supporting frame are respectively connected in a rolling manner inside the two guide frames.

Preferably, two one sides of the guide frames are welded with second motors, the power shafts of the two second motors respectively rotate to penetrate through the middle parts of one sides of the two guide frames, the bottom ends of the other two sides of the support frame are respectively threaded to penetrate through second threaded rods, one ends of the second threaded rods are respectively welded with the end parts of the power shafts of the two second motors, and the other ends of the second threaded rods are respectively rotationally inserted into the middle parts of one inner side wall of the two guide frames.

Preferably, the bottom ends of the two guide frames are welded with bottom plates, and the two ends of the top of the bottom plates are movably penetrated with inserted bars.

In summary, the utility model has the following beneficial technical effects:

through being equipped with the carriage, all welded the fixed plate in the top and the middle part of carriage wherein both sides, the carriage wherein both sides top welded fixed plate's top all welds first motor, drives two first threaded rods syntropy rotations through the power shaft of two first motors, and two first threaded rods apply a screw thread thrust to two connecting plates for two connecting plates drive the fly leaf and descend, make the inside of the concrete of pouring in the precast beam board template of fly leaf bottom of a plurality of vibrator insertion to the fly leaf bottom, and then can vibrate a plurality of positions of concrete once, effectively promoted the production efficiency to precast beam board.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the application embodiment.

Fig. 2 is a schematic view of a partial cross-sectional structure of an embodiment of the application.

Fig. 3 is an enlarged structural schematic diagram at a in fig. 2 of the application embodiment.

Fig. 4 is a schematic view showing a combined structure of a movable plate, a vibrator and a connection plate in the application embodiment.

Reference numerals illustrate: 1. a support frame; 201. a movable plate; 202. a vibrator; 301. a connecting plate; 302. a fixing plate; 303. a first motor; 304. a first threaded rod; 4. a guide frame; 5. a roller; 601. a second motor; 602. a second threaded rod; 701. a bottom plate; 702. and a plunger.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses a vibrating device for producing precast beam slabs, which comprises two guide frames 4, a support frame 1 and a movable plate 201, wherein the two guide frames 4 are respectively connected with the two ends of the bottom of the support frame 1 in a sliding manner in the two guide frames 4, the two guide frames 4 cooperate to support the support frame 1, the movable plate 201 is positioned in the support frame 1, a plurality of vibrators 202 are fixedly arranged at the bottom end of the movable plate 201 side by side, and the movable plate 201 can be used for hanging and fixing the plurality of vibrators 202;

referring to fig. 1 and 2, the two inner side walls of the supporting frame 1 are provided with sliding grooves, connecting plates 301 are movably penetrated in the two sliding grooves, one ends of the two connecting plates 301 are welded with two ends of the movable plate 201 respectively, so that the movable plate 201 can vertically lift only in the supporting frame 1, the top ends and the middle parts of two sides of the supporting frame 1 are welded with fixed plates 302, the top ends of the fixed plates 302 welded at two sides of the supporting frame 1 are welded with first motors 303, power shafts of the two first motors 303 respectively rotate to penetrate through the fixed plates 302 welded at two sides of the supporting frame 1, middle parts of the top ends of the two connecting plates 301 are respectively threaded to penetrate through first threaded rods 304, the threads of the two first threaded rods 304 are provided with the same direction, one ends of the two first threaded rods 304 are respectively welded with the ends of the power shafts of the two first motors 303, the other ends of the two first threaded rods 304 are respectively and rotatably inserted into the middle parts of the top ends of the two first threaded rods 302, the power shafts of the two first motors 303 drive the two first threaded rods 304 to rotate in the same direction, the two first threaded rods 304 drive the power shafts of the two first threaded rods 304 to rotate in the same direction, the two first threaded rods 301 drive the two first threaded rods 301 to move down the bottom plates 201 to be inserted into the prefabricated connecting plates 201, and then the two vibrating plates 201 are driven by the two threaded rods 201 to be inserted into the prefabricated connecting plates.

Referring to fig. 2 and 3, four corners at both ends of the bottom of the supporting frame 1 are provided with rollers 5, and the four rollers 5 at both ends of the bottom of the supporting frame 1 are respectively connected with the inside of the two guide frames 4 in a rolling manner, and the four rollers 5 at both ends of the bottom of the supporting frame 1 are mutually matched, so that the supporting frame 1 can be conveniently moved.

Referring to fig. 2 and 3, a second motor 601 is welded at one side of two guide frames 4, power shafts of the two second motors 601 respectively rotate to penetrate through the middle of one side of the two guide frames 4, bottom threads at two other sides of the support frame 1 penetrate through second threaded rods 602, the threads of the two second threaded rods 602 are provided in the same direction, one ends of the two second threaded rods 602 are respectively welded with the power shaft ends of the two second motors 601, the other ends of the two second threaded rods 602 are respectively rotationally inserted into the middle of one inner side wall of the two guide frames 4, and in the process that the power shafts of the two second motors 601 drive the two second threaded rods 602 to synchronously rotate, the two second threaded rods 602 can apply a spiral thrust for the support frame 1, and then the position of the support frame 1 can be adjusted and moved.

Referring to fig. 1 and 2, the bottom ends of the two guide frames 4 are welded with a bottom plate 701, the two bottom plates 701 can support the two guide frames 4, two ends of the top of the two bottom plates 701 movably penetrate through inserted bars 702, the four inserted bars 702 are embedded into the ground, and the two bottom plates 701 can be fixed on the ground.

The implementation principle of the vibrating device for producing the precast beam slab is as follows: when the movable plate is used, the two first motors 303 are started, the power shafts of the two first motors 303 drive the two first threaded rods 304 to rotate in the same direction, the two first threaded rods 304 apply a threaded thrust to the two connecting plates 301, so that the two connecting plates 301 drive the movable plate 201 to descend, a plurality of vibrators 202 at the bottom end of the movable plate 201 are driven to be inserted into concrete poured in a precast beam plate template at the bottom of the movable plate 201, and then concrete is vibrated, if the position of the supporting frame 1 needs to be changed, the two second motors 601 are started, the power shafts of the two second motors 601 drive the two second threaded rods 602 to synchronously rotate, the two second threaded rods 602 can apply a spiral thrust to the supporting frame 1, and then the position of the supporting frame 1 can be adjusted and moved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a vibrating device for precast beam board production, includes guide frame (4), braced frame (1) and fly leaf (201), its characterized in that, guide frame (4) have two, braced frame (1) bottom both ends sliding connection respectively is in the inside of two guide frames (4), fly leaf (201) are located the inside of braced frame (1), the bottom of fly leaf (201) is fixed and is equipped with a plurality of vibrator (202) side by side;

the utility model discloses a power shaft of a support frame, including supporting frame (1), connecting plate (301), fixed plate (302) have all been seted up to two inside walls of supporting frame (1), two the inside of spout has all been run through actively connecting plate (301), two the one end of connecting plate (301) respectively with the both ends welding of fly leaf (201), the top and the middle part of supporting frame (1) both sides wherein have all welded fixed plate (302), supporting frame (1) wherein both sides top welded fixed plate (302) the top all welded first motor (303), two first motor (303) power shaft is rotatory respectively run through supporting frame (1) both sides top welded fixed plate (302), two the middle part of connecting plate (301) top all screw thread has run through first threaded rod (304), two the one end of first threaded rod (304) respectively with two first motor (303) power shaft tip welding, two the other end of first threaded rod (304) are rotatory grafting respectively in the middle part of supporting frame (1) wherein both sides middle part welding fixed plate (302) top.

2. The vibrating device for producing precast beam slabs according to claim 1, wherein: the four corners at two ends of the bottom of the supporting frame (1) are respectively provided with a roller (5), and the four rollers (5) at two ends of the bottom of the supporting frame (1) are respectively connected in a rolling mode inside the two guide frames (4).

3. The vibrating device for producing precast beam slabs according to claim 1, wherein: two the equal welding of one side of guide frame (4) has second motor (601), two the power shaft of second motor (601) is rotatory respectively to run through the middle part of two guide frame (4) one side, the equal screw thread in bottom of the other both sides of carriage (1) is run through there is second threaded rod (602), two the one end of second threaded rod (602) respectively with two second motor (601) power shaft tip welding, two the other end of second threaded rod (602) is rotatory grafting respectively at one of them inside wall middle part of two guide frame (4).

4. The vibrating device for producing precast beam slabs according to claim 1, wherein: bottom plates (701) are welded at the bottom ends of the two guide frames (4), and inserted bars (702) are movably penetrated at the two ends of the tops of the two bottom plates (701).