CN220056179U - Building block bracket collecting machine - Google Patents

Abstract

The utility model relates to the field of mechanical equipment, in particular to a block bracket collecting machine capable of saving human resources and reducing working strength of staff, which comprises a frame, a transmission shaft rotatably arranged at the upper end of the frame, a driving device arranged on the frame and used for driving the transmission shaft to rotate, a lifting frame capable of sliding up and down and arranged on the frame, linear actuating devices symmetrically arranged at two ends of the transmission shaft and used for driving the lifting frame to slide up and down, and a plurality of support blocks which are arranged in front of the linear actuating devices and allow the block brackets arranged on the lifting frame to ascend in the movable range of the lifting frame and can block and support the block brackets to descend along with the lifting frame.

Description

Building block bracket collecting machine

Technical Field

The utility model relates to the field of mechanical equipment, in particular to a block bracket collecting machine.

Background

In the brick making industry, the brick building blocks are usually formed by whole plates, a plurality of brick building block laminated plates formed by whole plates are required to be placed on one building block bracket, then the brick building blocks are transported to the entrance of a conveyor of a brick collecting production line to be separated from the laminated blocks, and conventionally, the separated building block brackets are collected and piled one by one in a manual mode, but the mode not only wastes human resources, but also increases the working intensity of staff clearly due to frequent collection and piling.

Disclosure of Invention

The utility model aims to solve the problems and provides the block bracket collecting machine which can save human resources and reduce the working intensity of staff.

In order to achieve the above purpose, the utility model discloses a block bracket collecting machine, which comprises a frame, a rotatable transmission shaft arranged at the upper end of the frame, a driving device arranged on the frame and used for driving the transmission shaft to rotate, a lifting frame which is arranged on the frame and can slide up and down, and linear actuating devices symmetrically arranged at two ends of the transmission shaft and used for driving the lifting frame to slide up and down, wherein a plurality of supporting blocks which are arranged in front of the linear actuating devices and allow the block brackets arranged on the lifting frame to ascend in the movable range of the lifting frame and can block and support the block brackets to descend along with the lifting frame are arranged on the frame in a unidirectional upward rotating manner.

The further improvement is that: the upper left corner of the supporting block is of an arc-shaped structure, the lower left corner of the supporting block is of a right-angle structure, the supporting block is movably connected with the frame through a through hole arranged on the supporting block, and the left end of the supporting block is movably connected with the end face of the frame.

The further improvement is that: the four support blocks together form a support surface for supporting the block bracket.

The further improvement is that: the lifting frame is provided with a plurality of fork frames for lifting the block brackets.

The further improvement is that: the frame is also provided with a plurality of cutting grooves for accommodating the fork frame when the fork frame of the lifting frame slides to the bottommost end.

The further improvement is that: the left end and the right end of the lifting frame are symmetrically provided with a plurality of idler wheels which can rotate relative to the lifting frame and can provide guiding function for the lifting frame to slide up and down.

The further improvement is that: the linear actuating device comprises a first sprocket wheel symmetrically arranged at two ends of the transmission shaft and positioned at the upper end of the frame, a second sprocket wheel symmetrically arranged at the lower end of the frame, and a first transmission chain arranged on the first sprocket wheel and the second sprocket wheel and respectively engaged with the first sprocket wheel and the second sprocket wheel for transmission, wherein connection points at two ends of the first transmission chain are connected with the lifting frame.

The further improvement is that: the driving device is a driving motor arranged at the upper end of the frame.

The further improvement is that: the driving motor drives the transmission shaft to rotate through the transmission device.

The further improvement is that: the transmission device comprises a driving sprocket arranged on an output shaft of the driving motor in a transmission connection manner, a driven sprocket arranged on the transmission shaft in a transmission connection manner and a second transmission chain arranged on the driving sprocket and the driven sprocket and respectively engaged with the driving sprocket and the driven sprocket for transmission.

After the technical scheme is adopted, the utility model has the following beneficial effects: the automatic collection and stacking of the building block brackets can be realized through the equipment without adopting a manual mode, so that the labor resources are saved and the working intensity of staff is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Figure 1 is an isometric view of the overall structure of the present utility model.

Figure 2 is a side view of a support block of the present utility model.

Fig. 3 is a schematic view of the block holder structure according to the present utility model.

Fig. 4 is a schematic structural view of the linear actuator of the present utility model.

Fig. 5 is a schematic structural view of the transmission device of the present utility model.

Detailed Description

The utility model will now be further described with reference to the drawings and specific examples. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and are not intended to limit the scope of the present utility model.

Referring to fig. 1 to 5, the technical scheme adopted in this embodiment is as follows:

the utility model provides a frame machine is received to building block bracket, includes frame 1, rotatable locate transmission shaft 2 of frame 1 upper end, locate be used for the drive on the frame 1 transmission shaft 2 pivoted drive arrangement 10, locate drive arrangement 10 one end just is located be used for transmission power transmission 9 between drive arrangement 10 and the transmission shaft 2, can slide from top to bottom and locate crane 4 on the frame 1, the symmetry is located transmission shaft 2 both ends are used for the drive crane 4 slides from top to bottom linear actuator 3 on the frame 1 can be rotated upwards in one way be equipped with a plurality of and be located linear actuator 3 the supporting shoe 5 in the place ahead, this supporting shoe 5 unidirectional upwards rotates, can realize placing in the building block bracket on crane 4 rises, blocks and supports simultaneously the building block bracket descends along with crane 4, the upper left corner portion of supporting shoe 5 is arc structure 14, and its lower left corner portion is right angle structure 15, supporting shoe 5 is articulated with frame 1 through the through-hole 13 that locates on it, the left end of supporting shoe 5 with 1 is connected with four supporting shoe 5 support face jointly form the supporting shoe 5.

The lifting frame 4 includes a plurality of fork frames 41 that are used for the lifting the block bracket, still be equipped with on the frame 1 and work as the fork frame 41 of lifting frame 4 slides to the bottom time be used for holding a plurality of cutting groove 6 of fork frame 41, in this embodiment the cutting groove 6 has four, the left and right sides both ends of lifting frame 4 still symmetry respectively be equipped with a plurality of can relative lifting frame 4 pivoted and can provide the gyro wheel 7 of guide function for lifting frame 4 slides from top to bottom, the quantity of gyro wheel 7 has four, four gyro wheels 7 all with locate the channel-section steel 8 cooperation connection of the left and right sides terminal surface of frame 1, four gyro wheels 7 and lifting frame 4 can prevent the phenomenon that takes place left and right sides skew when lifting frame 4 slides from top to bottom, because four gyro wheels 7 all can rotate relative lifting frame 4, when lifting frame 4 slides from top to bottom, if there is gyro wheel 7 with the channel-section steel 8 takes place contact, this gyro wheel 7 will prevent when the lifting frame 4 rotates greatly.

The linear actuating device 3 includes a first sprocket 31 symmetrically disposed at two ends of the transmission shaft 2 and disposed at an upper end of the frame 1, a second sprocket 32 symmetrically disposed at a lower end of the frame 1, and a first transmission chain 33 disposed on the first sprocket 31 and the second sprocket 32 and respectively engaged with the first sprocket 31 and the second sprocket 32 for transmission, wherein connection points at two ends of the first transmission chain 33 are connected with the lifting frame 4 through chain connection bolts, in this embodiment, the first sprocket 31 and the second sprocket 32 are single-row sprockets, and the first transmission chain 33 is a single-row chain.

The driving device 10 comprises a driving motor arranged at the upper end of the frame, the transmission device 9 comprises a driving sprocket 91 arranged on an output shaft of the driving motor in a transmission connection manner, a driven sprocket 92 arranged on the transmission shaft 2 in a transmission connection manner, and a second transmission chain 93 arranged on the driving sprocket 91 and the driven sprocket 92 and respectively engaged with the driving sprocket 91 and the driven sprocket 92 for transmission, in the embodiment, the driving sprocket 91 and the driven sprocket 92 are double-row sprockets, and the second transmission chain 93 adopts double-row chains, so that the torque requirement of the driving motor required to be transmitted by the lifting block bracket of the lifting frame 4 can be met by the transmission device 9.

The block bracket comprises a left supporting beam 11, a right supporting beam 11 and a second supporting beam 12, wherein the left supporting beam and the right supporting beam are horizontally arranged at intervals, the second supporting beam 12 is arranged on the upper end surface of the first supporting beam 11, is in a horizontal state and is perpendicular to the first supporting beam 11, and the second supporting beam is arranged at intervals.

Basic principle: when the block bracket is slowly fed onto the lifting frame 4 from the right side of the lifting frame 4, a driving motor of the driving device 10 is started, power drives the lifting frame 4 to lift the block bracket through the transmission device 9 and the linear actuating device 3, when the block bracket is in contact with the lower end face of the supporting block 5, the supporting block 5 rotates upwards, when the block bracket is completely lifted above the supporting block 5, the supporting block 5 automatically rotates downwards until the end face of a right-angle structure 15 at the left lower corner of the supporting block 5 is in abutting contact with the end face of the frame 1, at the moment, the driving motor is controlled to reversely put down the lifting frame 4, the block bracket can be erected on a supporting surface formed by the four supporting blocks 5, and the fact that when the next block bracket is lifted, the upper second supporting beam 12 of the next block bracket is in abutting contact with the lower first supporting beam 11 of the upper block bracket, when the block bracket is completely lifted above the supporting block bracket, the lower supporting block bracket is lifted from the upper end face of the supporting block 5, and when the upper block bracket is lifted, the upper block bracket is further lifted, and the upper block bracket is lifted, and the two blocks are continuously lifted, and the upper supporting blocks are not in abutting contact with the upper supporting block bracket and the upper supporting block bracket is further, and the upper supporting block bracket is lifted.

While the basic principles and main features of the present utility model and advantages thereof have been shown and described, it will be understood by those skilled in the art that the present utility model is not limited by the foregoing embodiments, which are described merely by way of illustration of the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a frame machine is received to building block bracket, includes frame, rotatable locate the transmission shaft of frame upper end, locate be used for the drive in the frame transmission shaft pivoted drive arrangement, slidable from top to bottom locate crane in the frame, the symmetry is located the transmission shaft both ends are used for the drive crane gliding linear actuator from top to bottom, its characterized in that: the frame is provided with a plurality of supporting blocks which are positioned in front of the linear actuating device and allow the block brackets arranged on the lifting frame to ascend in the movable range of the lifting frame, but can block and support the block brackets to descend along with the lifting frame.

2. The block carrier take-up machine of claim 1, wherein: the upper left corner of the supporting block is of an arc-shaped structure, the lower left corner of the supporting block is of a right-angle structure, the supporting block is movably connected with the frame through a through hole arranged on the supporting block, and the left end of the supporting block is movably connected with the end face of the frame.

3. The block carrier take-up machine of claim 2, wherein: the four support blocks together form a support surface for supporting the block bracket.

4. The block carrier take-up machine of claim 1, wherein: the lifting frame is provided with a plurality of fork frames for lifting the block brackets.

5. The block carrier retraction machine according to claim 4 wherein: the frame is also provided with a plurality of cutting grooves for accommodating the fork frame when the fork frame of the lifting frame slides to the bottommost end.

6. The block carrier take-up machine of claim 5, wherein: the left end and the right end of the lifting frame are symmetrically provided with a plurality of idler wheels which can rotate relative to the lifting frame and can provide guiding function for the lifting frame to slide up and down.

7. The block carrier take-up machine of claim 1, wherein: the linear actuating device comprises a first sprocket wheel symmetrically arranged at two ends of the transmission shaft and positioned at the upper end of the frame, a second sprocket wheel symmetrically arranged at the lower end of the frame, and a first transmission chain arranged on the first sprocket wheel and the second sprocket wheel and respectively engaged with the first sprocket wheel and the second sprocket wheel for transmission, wherein connection points at two ends of the first transmission chain are connected with the lifting frame.

8. The block carrier take-up machine of claim 1, wherein: the driving device is a driving motor arranged at the upper end of the frame.

9. The block carrier take-up machine of claim 8, wherein: the driving motor drives the transmission shaft to rotate through the transmission device.

10. The block carrier take-up machine of claim 9, wherein: the transmission device comprises a driving sprocket arranged on an output shaft of the driving motor in a transmission connection manner, a driven sprocket arranged on the transmission shaft in a transmission connection manner and a second transmission chain arranged on the driving sprocket and the driven sprocket and respectively engaged with the driving sprocket and the driven sprocket for transmission.