CN221650016U - Test block mold feeding device - Google Patents

Abstract

The utility model relates to the technical field of concrete test block inspection, in particular to a test block mold entering device which comprises a frame, a linear guide rail assembly, a hydraulic cylinder, a sliding plate, a limiting sleeve, a lifting seat and a sliding assembly, wherein the sliding assembly comprises two track plates, a sliding block, a connecting plate, a top plate, a screw rod, a driving motor and a supporting plate, a threaded hole is in threaded fit with the screw rod, one end of the connecting plate is fixedly connected with the sliding block, the other end of the connecting plate is fixedly connected with the sliding plate, the driving motor above the supporting plate is started to enable the screw rod to rotate, the screw rod rotates in the threaded hole to enable the sliding block to slide between the track plates due to the characteristic of the threads, the top plate can limit the moving distance of the sliding block, the situation that the sliding block is separated is reduced, the fatigue strength of test personnel is reduced, and the quality and the efficiency of a test are effectively improved.

Description

Test block mold feeding device

Technical Field

The utility model relates to the technical field of concrete test block inspection, in particular to a test block mold feeding device.

Background

The concrete test block, the concrete compressive strength test mold in China adopts the cylindrical test mold, because the 20 cm cylindrical test mold and the test block are too heavy, and the materials are wasted, the 15 cm cylindrical test mold and the test block are generally adopted, the compressive strength of the concrete test block is a key index for reflecting the construction quality of engineering concrete, whether the manufacturing method and the procedure of the test block are important or not, the concrete test block and the mould need to be manually carried below a jack, and because the test block and the mould are heavier, the carrying is time-consuming and labor-consuming, and the efficiency is low.

Among the prior art, patent (CN 219121857U) discloses a test block die-entering device for concrete test block inspection, which comprises a frame, linear guide rail assembly, hydraulic cylinder, the sliding plate, the stop collar and lifting seat, guide rail assembly sets up in the top of frame, sliding plate and linear guide rail assembly sliding connection, the sliding plate has the spacing hole, spacing hole and stop collar sliding fit, stop collar and lifting seat fixed connection, lifting seat and sliding plate contact, hydraulic cylinder and frame fixed connection, hydraulic cylinder's output and stop collar adaptation, place the concrete test block on the lifting seat, promote the sliding plate, make the sliding plate remove the below of hydraulic cylinder, start hydraulic cylinder, make hydraulic cylinder's output support the stop collar, raise the height of lifting seat, use manpower sparingly through such a mode, not only labour saving and time saving, moreover experimental efficient.

However, in the prior art, the concrete test block has heavy weight, is manually pushed to be more laborious, is easy to increase the fatigue strength of test personnel, and can influence the quality and efficiency of the test after multiple detection.

Disclosure of utility model

The utility model aims to provide a test block mold feeding device, and aims to solve the problems that in the prior art, a concrete test block is heavy in weight, manual pushing is more laborious, fatigue strength of a tester is easy to increase, and test quality and efficiency are affected after multiple detection.

In order to achieve the above purpose, the utility model provides a test block mold feeding device, which comprises a frame, a linear guide rail assembly, a hydraulic cylinder, a sliding plate, a limit sleeve, a lifting seat and a sliding assembly, wherein the sliding assembly comprises two track plates, a sliding block, a connecting plate, a top plate, a screw rod, a driving motor and a supporting plate, the linear guide rail assembly is arranged above the frame, the sliding plate is in sliding connection with the linear guide rail assembly and is positioned above the linear guide rail assembly, the sliding plate is provided with a limit hole, the limit hole is in sliding fit with the limit sleeve, the limit sleeve is fixedly connected with the lifting seat and is positioned below the lifting seat, the lifting seat is in contact with the sliding plate and is positioned above the sliding plate, the output end of the hydraulic cylinder is matched with the limit sleeve, the two track plates are fixedly connected with the frame and are respectively positioned above the frame, the sliding sleeve is provided with the sliding plate, the sliding plate is fixedly connected with the two guide rail plates and is fixedly connected with the threaded hole, the screw rod is fixedly connected with one end of the driving motor, the screw rod is fixedly arranged at one end of the threaded hole, the screw rod is fixedly connected with one end of the driving seat, the screw rod is fixedly connected with the top plate, and the sliding plate is positioned above the sliding block, and the other end of the connecting plate is fixedly connected with the sliding plate and positioned at one side of the sliding plate.

The sliding assembly further comprises a controller, a reinforcing rib and a sealing bin, one end of the reinforcing rib is fixedly connected with the sliding block and located above the sliding block, the other end of the reinforcing rib is fixedly connected with the connecting plate and located on one side of the connecting plate, the controller is fixedly connected with the frame and located above the frame, the controller is electrically connected with the driving motor and the hydraulic oil cylinder, and the sealing bin is fixedly connected with the supporting plate and located above the supporting plate.

The test block molding device further comprises a limiting assembly, and the limiting assembly is arranged above the frame.

The limiting assembly comprises two supporting rods, a cross beam and limiting columns, wherein the two supporting rods are fixedly connected with the frame and are respectively located above the frame, the cross beam is fixedly connected with the two supporting rods and located above the two supporting rods, and the limiting columns are fixedly connected with the cross beam and located below the cross beam.

The test block molding device further comprises a buffer assembly, and the buffer assembly is arranged above the sliding plate.

The buffer component comprises a reinforcing plate and a soft cushion, wherein the reinforcing plate is fixedly connected with the sliding plate and is positioned above the sliding plate, the soft cushion is fixedly connected with the reinforcing plate and is positioned above the reinforcing plate, and the soft cushion is propped against the lifting seat.

According to the test block mold feeding device, the driving motor above the supporting plate is started to enable the screw rod to rotate, and due to the characteristic of threads, the screw rod rotates in the threaded hole, so that the sliding block slides between the track plates, the connecting plate pushes the sliding plate to move, the top plate can limit the moving distance of the sliding block, the situation that the sliding block is separated is reduced, the fatigue strength of test personnel is reduced, and the quality and efficiency of a test are effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an overall front view of the first embodiment of the present utility model.

Fig. 3 is a cross-sectional view taken along line A-A of fig. 2 in accordance with the present utility model.

Fig. 4 is a schematic overall structure of a second embodiment of the present utility model.

101-Frame, 102-linear guide assembly, 103-hydraulic cylinder, 104-slide plate, 105-stop collar, 106-lifting seat, 107-slide assembly, 108-stop assembly, 109-track plate, 110-slide block, 111-connecting plate, 112-top plate, 113-screw, 114-driving motor, 115-support plate, 116-controller, 117-reinforcing rib, 118-sealed cabin, 119-support bar, 120-crossbeam, 121-stop post, 122-stop hole, 123-screw hole, 201-buffer assembly, 202-reinforcing plate, 203-cushion.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

First embodiment:

Referring to fig. 1 to 3, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, fig. 2 is a front overall view of the first embodiment of the present utility model, and fig. 3 is a cross-sectional view taken along line A-A of fig. 2.

The utility model provides a test block mold feeding device, which comprises a frame 101, a linear guide rail assembly 102, a hydraulic cylinder 103, a sliding plate 104, a limit sleeve 105, a lifting seat 106, a sliding assembly 107 and a limit assembly 108, wherein the sliding assembly 107 comprises two track plates 109, a sliding block 110, a connecting plate 111, a top plate 112, a screw rod 113, a driving motor 114, a supporting plate 115, a controller 116, reinforcing ribs 117 and a seal cabin 118, the limit assembly 108 comprises two supporting rods 119, a cross beam 120 and a limit column 121, the sliding plate 104 is provided with a limit hole 122, and the sliding block 110 is provided with a threaded hole 123.

For this embodiment, the linear guide assembly 102 is disposed above the frame 101, the sliding plate 104 is slidably connected with the linear guide assembly 102 and is located above the linear guide assembly 102, the sliding plate 104 has a limiting hole 122, the limiting hole 122 is slidably matched with the limiting sleeve 105, the limiting sleeve 105 is fixedly connected with the lifting seat 106 and is located below the lifting seat 106, the lifting seat 106 is in contact with the sliding plate 104 and is located above the sliding plate 104, the hydraulic cylinder 103 is fixedly connected with the frame 101 and is located above the frame 101, the output end of the hydraulic cylinder 103 is matched with the limiting sleeve 105, a concrete test block is placed on the lifting seat 106, the sliding plate 104 is pushed, the sliding plate 104 is moved below the hydraulic cylinder 103, the output end of the hydraulic cylinder 103 is abutted against the limiting sleeve 105, the lifting seat 106 is lifted in a height manner, and the labor and time are saved, and the efficiency of loading and unloading of the test block is improved.

The two rail plates 109 are fixedly connected with the frame 101 and are respectively located above the frame 101, the sliding block 110 is in sliding connection with the two rail plates 109 and is located between the two rail plates 109, the top plate 112 is fixedly connected with the two rail plates 109 and is located at one ends of the two rail plates 109, the supporting plate 115 is fixedly connected with the frame 101 and is located at one side of the frame 101, the driving motor 114 is fixedly connected with the supporting plate 115 and is located above the supporting plate 115, one end of the screw rod 113 is in rotating connection with the top plate 112 and is located at one side of the top plate 112, the other end of the screw rod 113 is in fixed connection with the driving motor 114 and is located at the output end of the driving motor 114, the sliding block 110 is provided with a threaded hole 123, one end of the connecting plate 111 is fixedly connected with the sliding block 110 and is located above the sliding block 110, the other end of the connecting plate 111 is located at one side of the connecting plate 104, the sliding plate 104 is fixedly connected with the sliding plate 104, and the sliding plate 104 is separated from the sliding plate 104, and the sliding plate 113 is effectively prevented from moving in the sliding plate 110, and the sliding plate 104 is prevented from moving in the sliding plate 110, and the sliding plate is prevented from moving in the sliding plate 110.

Secondly, one end of strengthening rib 117 with slider 110 fixed connection, and be located slider 110's top, the other end of strengthening rib 117 with connecting plate 111 fixed connection, and be located one side of connecting plate 111, controller 116 with frame 101 fixed connection, and be located frame 101's top, controller 116 all with driving motor 114 with hydraulic cylinder 103 electric connection, seal storehouse 118 with backup pad 115 fixed connection, and be located backup pad 115's top, strengthening rib 117 can improve slider 110 with connecting plate 111's connectivity, extension connecting plate 111's life, controller 116 is convenient for test personnel control driving motor 114 with hydraulic cylinder 103 reduces test personnel's work load, and seal storehouse 118 can protect driving motor 114 is not damaged, reduces later maintenance's cost.

Meanwhile, the limiting component 108 is arranged above the frame 101, two supporting rods 119 are fixedly connected with the frame 101 and are respectively located above the frame 101, the cross beam 120 is fixedly connected with the two supporting rods 119 and is located above the two supporting rods 119, the limiting column 121 is fixedly connected with the cross beam 120 and is located below the cross beam 120, the supporting rods 119 support the cross beam 120, and the limiting column 121 can limit the moving height of the lifting seat 106, so that the life safety of test personnel is guaranteed, and the practicability of the device is improved.

When the test block mold feeding device is used, the driving motor 114 above the supporting plate 115 is started to rotate the screw rod 113, the screw rod 113 rotates in the threaded hole 123 due to the characteristic of threads, so that the sliding block 110 slides between the track plates 109, the connecting plate 111 pushes the sliding plate 104 to move, the top plate 112 can limit the moving distance of the sliding block 110, the situation that the sliding block 110 is separated is reduced, the connection between the sliding block 110 and the connecting plate 111 can be improved by the reinforcing ribs 117, the service life of the connecting plate 111 is prolonged, the driving motor 114 and the hydraulic cylinder 103 are controlled by the controller 116 conveniently, the workload of the test personnel is reduced, the sealing bin 118 can protect the driving motor 114 from being damaged, the cost of later maintenance is reduced, the supporting rod 119 supports the cross beam 120, the moving height of the lifting seat 106 can be limited, the life safety of the test personnel is ensured, the practicability of the device is improved, the fatigue strength of the test personnel is reduced, and the fatigue quality is improved by the test personnel in such a manner.

Second embodiment:

Referring to fig. 4 on the basis of the first embodiment, fig. 4 is a schematic overall structure of a second embodiment of the present utility model.

The utility model provides a test block molding device, which further comprises a buffer assembly 201, wherein the buffer assembly 201 comprises a reinforcing plate 202 and a soft cushion 203.

For this embodiment, the buffer assembly 201 is disposed above the sliding plate 104, and the pressure of the concrete test block above the lifting seat 106 on the sliding plate 104 can be reduced by adding the buffer assembly 201, so that the service life of the sliding plate 104 is prolonged, and the later maintenance cost is reduced.

Wherein, reinforcing plate 202 with sliding plate 104 fixed connection, and be located sliding plate 104's top, cushion 203 with reinforcing plate 202 fixed connection, and be located reinforcing plate 202's top, just cushion 203 with lifting seat 106 supports, reinforcing plate 202 with cushion 203 can reduce the pressure that lifting seat 106 top concrete test block caused to sliding plate 104, extension sliding plate 104 life reduces later maintenance cost, and the device simple structure is convenient for learn and operate moreover.

When the test block molding device is used, the reinforcing plate 202 and the soft cushion 203 can reduce the pressure of the concrete test block above the lifting seat 106 on the sliding plate 104, prolong the service life of the sliding plate 104, reduce the later maintenance cost, and have simple structure and convenient learning and operation.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the application.

Claims (6)

1. The utility model provides a test block mold feeding device, includes frame, linear guide subassembly, hydraulic cylinder, sliding plate, stop collar and elevating platform, linear guide subassembly set up in the top of frame, the sliding plate with linear guide subassembly sliding connection is located linear guide subassembly top, the sliding plate has the spacing hole, the spacing hole with stop collar sliding fit, the stop collar with elevating platform fixed connection is located the below of elevating platform, the elevating platform with the sliding plate contact, and be located the top of sliding plate, hydraulic cylinder with frame fixed connection is located the top of frame, hydraulic cylinder's output with the stop collar adaptation, its characterized in that,

The sliding assembly is also included;

The sliding assembly comprises two track plates, a sliding block, a connecting plate, a top plate, a screw rod, a driving motor and a supporting plate, wherein the two track plates are fixedly connected with the frame and are respectively positioned above the frame, the sliding block is slidably connected with the two track plates and is positioned between the two track plates, the top plate is fixedly connected with the two track plates and is positioned at one end of the two track plates, the supporting plate is fixedly connected with the frame and is positioned at one side of the frame, the driving motor is fixedly connected with the supporting plate and is positioned above the supporting plate, one end of the screw rod is rotatably connected with the top plate and is positioned at one side of the top plate, the other end of the screw rod is fixedly connected with the driving motor and is positioned at the output end of the driving motor, the sliding block is provided with a threaded hole, one end of the connecting plate is fixedly connected with the sliding block and is positioned above the sliding block, and the other end of the connecting plate is fixedly connected with the sliding plate and is positioned at one side of the sliding plate.

2. The test block molding device of claim 1, wherein,

The sliding assembly further comprises a controller, reinforcing ribs and a sealing bin, one end of each reinforcing rib is fixedly connected with the sliding block and located above the sliding block, the other end of each reinforcing rib is fixedly connected with the connecting plate and located on one side of the connecting plate, the controller is fixedly connected with the frame and located above the frame, the controller is electrically connected with the driving motor and the hydraulic oil cylinder, and the sealing bin is fixedly connected with the supporting plate and located above the supporting plate.

3. The test block molding device of claim 2, wherein,

The test block mold feeding device further comprises a limiting assembly, and the limiting assembly is arranged above the frame.

4. The test block molding device of claim 3, wherein,

The limiting assembly comprises two supporting rods, a cross beam and limiting columns, wherein the two supporting rods are fixedly connected with the frame and are respectively located above the frame, the cross beam is fixedly connected with the two supporting rods and located above the two supporting rods, and the limiting columns are fixedly connected with the cross beam and located below the cross beam.

5. The test block molding device of claim 4, wherein,

The test block molding device further comprises a buffer assembly, and the buffer assembly is arranged above the sliding plate.

6. The test block molding device of claim 5, wherein,

The buffer component comprises a reinforcing plate and a soft cushion, wherein the reinforcing plate is fixedly connected with the sliding plate and is positioned above the sliding plate, the soft cushion is fixedly connected with the reinforcing plate and is positioned above the reinforcing plate, and the soft cushion is propped against the lifting seat.