CN219996538U - Concrete test piece sampling and manufacturing integrated trolley - Google Patents

Abstract

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which comprises a transport vehicle, wherein a vertical rod assembly is fixed on the transport vehicle; the manufacturing mechanism comprises a vibration platform and a lifting assembly used for vertically and adjustably connecting the vibration platform to the upright rod assembly, and the placing frame comprises a plurality of layers of placing plates detachably connected to the upright rod assembly; the translation assembly is used for translating the concrete test piece from the vibration platform to the corresponding layer placing plate, and the translation assembly is connected to the vibration platform. According to the utility model, the concrete test piece is manufactured by the manufacturing mechanism, a plurality of concrete test pieces are placed by the placing frame, and finally the concrete test pieces are transported to the target position by the transport vehicle, so that the technical problem that in the manufacturing process of the concrete test piece in the prior art, the quality of the concrete test piece is affected due to the fact that the concrete test piece is manufactured by sampling at the pouring position and then being pulled to the manufacturing point for too long time is solved.

Description

Concrete test piece sampling and manufacturing integrated trolley

Technical Field

The utility model relates to the field of building tests, in particular to an integrated trolley for sampling and manufacturing a concrete test piece.

Background

Building design specifications require that concrete required for concrete test piece fabrication be sampled at the casting site and fabricated within a certain time. Often in actual construction, the environment of a pouring point is complex, sampling is carried out for too long until a manufacturing point is formed, the quality of a concrete test piece is affected, the test result is inaccurate, repeated test operation is needed for a plurality of times, the test efficiency is affected, and the test cost is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model provides an integrated trolley for sampling and manufacturing a concrete test piece, which solves the technical problem that in the manufacturing process of the concrete test piece in the prior art, sampling is performed at a pouring position and then the sample is drawn to a manufacturing point for too long to manufacture the sample, so that the quality of the concrete test piece is affected.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which comprises the following components: the transport vehicle is fixedly provided with a vertical rod assembly; the manufacturing mechanism comprises a vibration platform and a lifting assembly used for vertically and adjustably connecting the vibration platform to the upright rod assembly, and the placing frame comprises a plurality of layers of placing plates detachably connected to the upright rod assembly; the translation assembly is used for translating the concrete test piece from the vibration platform to the corresponding layer placing plate, and the translation assembly is connected to the vibration platform.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that the lifting assembly comprises a guide rail fixed along the vertical rod assembly, and a moving piece which is in sliding fit with the guide rail is arranged on the vibration platform.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that the vertical rod assembly comprises at least two vertical rods which are fixed at intervals, the guide rail comprises at least two racks which are fixed on the at least two vertical rods in a one-to-one correspondence manner, the moving part comprises at least two gears which are matched with the at least two racks in a one-to-one manner, all the gears are rotatably arranged on a vibration platform, and the placing plate is detachably connected between the at least two vertical rods.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that the translation assembly comprises a plurality of first rolling shafts, the length direction of each first rolling shaft is perpendicular to the moving direction of the concrete test piece, and the plurality of first rolling shafts are rotatably arranged on a vibration platform side by side.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that the placing frame further comprises at least two vertical rods vertically fixed on the transport vehicle relative to the vertical rod assembly, a plurality of layers of placing plates can be connected to the at least two vertical rods through an upturning shaft, and the placing plates are connected with the vertical rod assembly when being upturned to a horizontal state.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that one side of a vertical rod, which is close to a placing plate, is in a ladder shape, the width of the ladder is the same as the thickness of the placing plate, and each placing plate can be connected to each ladder position of the vertical rod through an upturning shaft.

The integrated trolley for sampling and manufacturing the concrete test piece is further improved in that a plurality of second rolling shafts are rotatably arranged on the placing plate side by side, and the length direction of each second rolling shaft is perpendicular to the moving direction of the concrete test piece.

The utility model relates to an integrated trolley for sampling and manufacturing a concrete test piece, which is further improved in that,

compared with the prior art, the utility model has positive and obvious effects. According to the utility model, the concrete test piece is manufactured by the manufacturing mechanism, a plurality of concrete test pieces are placed by the placing frame, and finally the concrete test pieces are transported to the target position by the transport vehicle, so that the technical problem that in the manufacturing process of the concrete test piece in the prior art, the quality of the concrete test piece is affected due to the fact that the concrete test piece is manufactured by sampling at the pouring position and then being pulled to the manufacturing point for too long time is solved. The utility model can simultaneously sample, manufacture and store the concrete pouring part, avoid overlong time between sampling and manufacture, ensure the quality of a concrete test piece and the accuracy of a test result, avoid repeated test operation for a plurality of times, improve the test efficiency and reduce the test cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a side view of an integrated trolley for sampling and making concrete test pieces of the present utility model.

Fig. 2 is a front view of an integrated trolley for sampling and manufacturing a concrete test piece according to the present utility model.

Fig. 3 is a side view of a fabrication mechanism of the integrated trolley for sampling and fabricating concrete test pieces according to the present utility model.

Fig. 4 is a front view of a manufacturing mechanism of the integrated trolley for sampling and manufacturing a concrete sample according to the present utility model.

Fig. 5 shows a first step of using the integrated trolley for sampling and manufacturing a concrete sample according to the present utility model.

FIG. 6 shows a second step of using the integrated trolley for sampling and manufacturing a concrete sample according to the present utility model.

Fig. 7 shows a third step of using the integrated trolley for sampling and manufacturing a concrete sample according to the present utility model.

Fig. 8 shows a fourth step of using the integrated trolley for sampling and manufacturing a concrete sample according to the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, the present utility model provides an integrated trolley for sampling and manufacturing a concrete sample 1, comprising: the transport vehicle is fixedly provided with a vertical rod assembly; the manufacturing mechanism comprises a vibration platform 9 and a lifting assembly used for vertically and adjustably connecting the vibration platform 9 to the upright rod assembly, and the placing frame comprises a plurality of layers of placing plates 3 which are detachably connected to the upright rod assembly; and the translation component is used for translating the concrete test piece 1 from the vibration platform 9 to the corresponding layer placing plate, and is connected to the vibration platform. The lifting assembly can adopt a lifting structure of an elevator in the prior art, and the lifting component can also be arranged as a plurality of electric telescopic rods arranged at the bottom of the platform, and the embodiment adopts a structure form that the rack 11 is matched with the gear 12, so the utility model is not limited to the structure. This vibrations platform 9 adopts among the prior art vibrations platform 9 structural style, often comprises a plurality of vibrating motor, drive plate, and the electromagnetic shaker takes timing function, avoids concrete test piece 1 to vibrate excessively, and vibrations platform 9 is called the plain bumper again, and the jolt ramming of mainly used material reduces the air and the gap in the material, owing to directly place concrete test piece 1 after taking a sample on vibrations platform 9 to make concrete test piece 1 can jolt, reduce the air in the concrete test piece 1, guarantee the quality of concrete test piece 1. The lower part of the transport vehicle is provided with a chassis 5, wheels of the transport vehicle are arranged at the position of the chassis 5, and lifting hooks 8 are relatively arranged at the edge positions on the chassis 5 and are used for moving the positions where the tires cannot run in a lifting mode.

Preferably, the lifting assembly comprises a guide rail fixed along the upright assembly 2, and the vibration platform 9 is provided with a moving member in sliding fit with the guide rail. The guide rail can be lifted and stopped by adopting the cooperation of the slide rail and the slide block with the brake piece. Realize vibrations platform 9 and multilayer and put board 3 and carry out cooperation and accomodate concrete test piece 1

Preferably, as shown in fig. 3 and 4, the upright assembly 2 comprises at least two upright rods fixed at intervals, the guide rail comprises at least two racks 11 fixed on at least two upright rods in a one-to-one correspondence manner, the moving member comprises at least two gears 12 in one-to-one fit with the at least two racks 11, all the gears 12 are rotatably mounted on the vibration platform 9, and the placing plate 3 is detachably connected between the at least two upright rods. In this embodiment, the number of the vertical rods in the vertical rod assembly 2 is at least four, and at least four vertical rods are distributed in four corners. The number of the racks 11 is at least four, and the racks 11 are fixed in one-to-one correspondence with the vertical rods. When the rack 11 is installed, two opposite sets should be ensured, the gear 12 is installed on two sides of the vibration platform 9 relatively, and the gear 12 and the vibration platform 9 are installed in a shaft connection mode. The gear 12 and the rack 11 are combined to realize the lifting function of the vibration platform 9, and the function of stopping can be realized without installing a brake. The handles 7 are fixed on the upper parts of at least four upright posts, so that operators can push the transport vehicle conveniently.

Preferably, the translation assembly comprises a plurality of first rollers 10, the length direction of the first rollers 10 is perpendicular to the moving direction of the concrete sample 1, and the plurality of first rollers 10 are rotatably mounted on the vibration platform 9 side by side. The first roller 10 rotates in the same direction, so that after the concrete sample 1 is jolt, the first roller translates to the placing plate 3, and the function of automatically storing the concrete sample 1 is realized.

Preferably, as shown in fig. 6, the placing rack further includes at least two vertical rods 4 vertically fixed on the transport vehicle relative to the vertical rod assembly 2, the multi-layer placing plate 3 can be connected to at least two vertical rods 4 through an upturning shaft, and the placing plate 3 is connected to the vertical rod assembly 2 when being turned down to a horizontal state. This montant 4 sets up with pole setting subassembly 2 relatively, and this pole setting subassembly 2 can adopt the lock joint installation with put board 3, when needs place concrete test piece 1, turns over down and put board 3, makes the opposite side lock joint of putting board 3 on pole setting subassembly 2, and the structural style of lock joint can adopt the structure of stopping the knot that is used commonly in the prior art, bullet knot structure etc. can select according to actual need. The placing plate 3 adopts a upturning mode, so that the concrete test piece 1 is enabled to touch the placing plate 3 on the upper layer in the translation process, and the situation that translation cannot be performed is caused.

Preferably, as shown in fig. 1, the side of the vertical rod 4 near the placing plate 3 is in a step shape, the width of the step is the same as the thickness of the placing plate 3, and each placing plate 3 can be connected to each step of the vertical rod 4 by an upturning shaft. Further, the height of the step should be not less than the sum of the heights of the placing plate 3 and the mold of the concrete test piece 1, so as to satisfy the storage and placement of the concrete test piece 1. The structure that this putting board 3 can turn up sets up very big convenience follow-up take out concrete test piece 1 in every layer, can accelerate the speed of taking out.

Preferably, as shown in fig. 5 and 6, a plurality of second rollers 13 are rotatably installed on the placing plate 3 side by side, and the length direction of the second rollers 13 is perpendicular to the moving direction of the concrete sample 1. The second roller 13 can continuously translate the concrete test piece 1 translated in the vibration platform 9 to the side close to the vertical rod 4, so that a plurality of concrete test pieces 1 can be placed side by side. The top layer placing plate 3 can be set as a scattered material stacking area such as a mould of the concrete test piece 1 and used for placing scattered devices such as a test mould, a slump barrel and the like according to the requirement, and the second rolling shaft 13 can not be arranged on the top layer placing plate 3.

Preferably, as shown in fig. 1, the vehicle is provided with a controller 6 and a battery, and the controller 6 and the battery are connected to the manufacturing mechanism, the placement frame, and wheels of the vehicle. The controller 6 can be connected with the manufacturing mechanism, the placing frame and the wheels of the transport vehicle by wires or signals, so as to control the work among all the components, and the battery is connected with the manufacturing mechanism, the placing frame and the wheels of the transport vehicle by wires, so that the power supply for all the components is realized. The controller 6 is fixed at the position of the handle 7, so that the operator can conveniently adjust and control.

When in use, as shown in fig. 5, the device runs or is lifted to a concrete pouring point, and a test piece mould on the topmost layer placing plate 3 is taken down; as shown in fig. 6, the specimen placing platform is turned up, a concrete specimen 1 is sampled and manufactured, a specimen filled with concrete is placed in a specimen manufacturing mechanism, vibration is started, concrete raw materials are added according to the situation, and the specimen is pushed to the right to a placing plate 3 after the specimen placing mechanism is completed; as shown in fig. 7, the second layer placing plate 3 is turned down, and the manufacturing is continued according to the method described above; as shown in fig. 8, after the manufacturing is completed, pushing or transferring to a test piece placing area to complete the subsequent placing and lettering work; the trolley is cleaned in time after being used up, and the oil is brushed for the next use.

According to the utility model, the concrete test piece is manufactured by the manufacturing mechanism, a plurality of concrete test pieces are placed by the placing frame, and finally the concrete test pieces are transported to the target position by the transport vehicle, so that the technical problem that in the manufacturing process of the concrete test piece in the prior art, the quality of the concrete test piece is affected due to the fact that the concrete test piece is manufactured by sampling at the pouring position and then being pulled to the manufacturing point for too long time is solved. The utility model can simultaneously sample, manufacture and store the concrete pouring part, avoid overlong time between sampling and manufacture, ensure the quality of a concrete test piece and the accuracy of a test result, avoid repeated test operation for a plurality of times, improve the test efficiency and reduce the test cost.

None of the utility models are related to the same or are capable of being practiced in the prior art. The present utility model is not limited to the above-mentioned embodiments, but is not limited to the above-mentioned embodiments, and any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical matters of the present utility model can be made by those skilled in the art without departing from the scope of the present utility model.

Claims (8)

1. The utility model provides a concrete test sample and integration platform truck of preparation which characterized in that includes:

the transport vehicle is fixedly provided with a vertical rod assembly;

the manufacturing mechanism comprises a vibration platform and a lifting assembly used for vertically and adjustably connecting the vibration platform to the upright rod assembly, and the placing frame comprises a plurality of layers of placing plates detachably connected to the upright rod assembly;

the translation assembly is used for translating the concrete test piece from the vibration platform to the corresponding layer placing plate, and the translation assembly is connected to the vibration platform.

2. The integrated concrete specimen sampling and manufacturing trolley according to claim 1, wherein the lifting assembly comprises a guide rail fixed along the upright assembly, and the vibration platform is provided with a moving member in sliding fit with the guide rail.

3. The integrated trolley for sampling and manufacturing a concrete sample according to claim 2, wherein the upright component comprises at least two upright rods fixed at intervals, the guide rail comprises at least two racks fixed on the at least two upright rods in a one-to-one correspondence manner, the moving part comprises at least two gears in one-to-one fit with the at least two racks, all the gears are rotatably mounted on the vibration platform, and the placing plate is detachably connected between the at least two upright rods.

4. The integrated trolley for sampling and manufacturing a concrete sample according to claim 1, wherein the translation assembly comprises a plurality of first rollers, the length direction of the first rollers is perpendicular to the moving direction of the concrete sample, and the plurality of first rollers are rotatably mounted on the vibration platform side by side.

5. The integrated trolley for sampling and manufacturing a concrete sample according to claim 1, wherein the placing rack further comprises at least two vertical rods vertically fixed on the transport trolley relative to the vertical rod assembly, the placing plate is connected to the at least two vertical rods through a multi-layer upturning shaft, and the placing plate is connected to the vertical rod assembly when being turned down to a horizontal state.

6. The integrated trolley for sampling and manufacturing a concrete sample according to claim 5, wherein the side of the vertical rod, which is close to the placing plate, is in a step shape, the width of the step is the same as the thickness of the placing plate, and each placing plate can be connected to each step of the vertical rod through an upturning shaft.

7. The integrated trolley for sampling and manufacturing the concrete test piece according to claim 1, wherein a plurality of second rolling shafts are rotatably installed on the placing plate side by side, and the length direction of the second rolling shafts is perpendicular to the moving direction of the concrete test piece.

8. The integrated concrete specimen sampling and manufacturing trolley according to claim 1, wherein a controller and a battery are arranged on the transport trolley, and the controller and the battery are connected to the manufacturing mechanism, the placing frame and wheels of the transport trolley.