CN220741735U - Double-sided slotting equipment for heat-insulating building blocks - Google Patents

Abstract

The utility model relates to a double-sided slotting device for heat-insulating building blocks, which comprises a longitudinal conveyor driving the building blocks to be conveyed and drilling mechanisms positioned at two sides of the longitudinal conveyor, wherein the drilling mechanisms comprise a frame, a sliding table slidingly connected on the frame and a working mechanism driving the sliding table to move towards the longitudinal conveyor, a transmission box is fixedly connected on the sliding table, one side of the transmission box, which is close to the sliding table, is provided with a plurality of drill bit groups which are arranged up and down, the drill bit groups comprise a plurality of drill bits which are arranged along the conveying direction of the longitudinal conveyor, and the transmission box is provided with a rotary power mechanism driving the drill bits to rotate.

Description

Double-sided slotting equipment for heat-insulating building blocks

Technical Field

The utility model relates to the technical field of block processing, in particular to a double-sided grooving device for a heat-insulating block.

Background

The existing building blocks are usually cement blocks or light blocks, the heat insulation effect of a wall built by the existing building blocks is poor, a plurality of sinking grooves are formed in the top surface of each building block for improving the heat insulation performance of the wall, the heat insulation effect is achieved through the hollow structure of each sinking groove, but the grooving of the existing building blocks is achieved by cutting from the top by a circular saw blade, and therefore the bottoms of the sinking grooves are arc-shaped corresponding to the saw blade, and accordingly the areas of the sinking grooves cannot achieve good heat insulation.

The utility model with the publication number of CN217580789U discloses a multi-row-hole heat-insulating energy-saving building block, a drill bit is vertically inserted into the building block body, and then grooving operation is realized by moving along the length direction, so that the bottom surface of a sinking groove is a plane, but because the depth of the sinking groove is large, the whole drill bit is required to be transversely moved when being inserted into a counter bore in the structure, the drill bit is easy to bend and even break, and the processing is difficult.

Therefore, the sinking grooves can be formed in the upper end face and the lower end face of the building block, the depth of the sinking grooves is reduced, the required slotting effect is achieved, and matched slotting equipment is lacking at present.

Disclosure of Invention

The utility model provides a double-sided slotting device for a heat-insulating building block, aiming at the defects of the prior art.

The utility model provides a double-sided slotting device for heat-insulating building blocks, which comprises a longitudinal conveyor for driving the building blocks to be conveyed and drilling mechanisms positioned at two sides of the longitudinal conveyor, wherein the drilling mechanisms comprise a frame, a sliding table slidingly connected to the frame and a working mechanism for driving the sliding table to move towards the longitudinal conveyor, a transmission box is fixedly connected to the sliding table, one side, close to the sliding table, of the transmission box is provided with a plurality of drill bit groups which are arranged up and down, each drill bit group comprises a plurality of drill bits which are arranged along the conveying direction of the longitudinal conveyor, and a rotary power mechanism for driving the drill bits to rotate is arranged on the transmission box.

According to the technical scheme, the longitudinal conveyor drives the building block to move forwards, the rotary power mechanism drives all the drill bits to rotate together, the sliding table in the drilling mechanism drives the drill bits on the transmission box to move towards the direction of the building block, so that the drill bits are enabled to process a plurality of circular counter bores on the building block, then the drill bits are withdrawn, the longitudinal conveyor moves forwards for a certain distance, the distance is smaller than the diameter of the drill bits, the drilling operation is continued, a plurality of circular counter bores connected with the previous counter bores are processed, the steps are repeated, the drill bits in each drill bit group drill holes for a plurality of times to form a strip-shaped countersink on the building block, and a plurality of drill bit groups are respectively processed into a plurality of countersinks on two sides of the building block.

As optimization, the rotary power mechanism comprises a plurality of drill bit installation shafts and a plurality of intermediate shafts which are connected in a transmission box in a shaft mode, wherein the drill bits are installed at the end parts of the drill bit installation shafts, drill bit gears are fixedly connected on the drill bit installation shafts, intermediate gears are fixedly connected on the intermediate shafts, the drill bit gears of adjacent drill bits in the drill bit groups are meshed with each other, the intermediate gears are meshed with any two drill bit gears in the adjacent drill bit groups, and the rotary power mechanism further comprises a rotary motor for driving any intermediate shaft or drill bit installation shaft to rotate. In the scheme, the bit gears of the adjacent bits in the bit groups are meshed with each other, and the adjacent bit groups are meshed through the intermediate gears, so that transmission connection of all bits is realized, and the rotating motor drives any intermediate shaft or bit installation shaft to rotate, so that rotation of all bits is realized.

Preferably, the drill bit group comprises 3-8 drill bits.

As an optimization, a plurality of drill bit groups are staggered along the conveying direction of the longitudinal conveyor. The drill bit groups in the scheme are staggered along the conveying direction of the longitudinal conveyor, so that the processed sinking grooves are staggered.

As optimization, the working mechanism comprises a screw and a working motor for driving the screw to rotate, and a screw nut of the screw is connected with the sliding table. The worker in this scheme advances the motor and drives the slip table through the lead screw and remove.

As optimization, the feeding robot is positioned at the feeding end of the longitudinal conveyor, and the discharging robot is positioned at the discharging end of the longitudinal conveyor. The feeding robot in this scheme carries the block that does not process on the loading platform to on the longitudinal conveyor, and the unloading robot carries the block after accomplishing processing to on the unloading platform.

Preferably, the drilling device further comprises a protective cover covering the drilling mechanism. The protection casing in this scheme prevents granule and dust in the course of working out diffusion.

The beneficial effects of the utility model are as follows: the double-sided slotting equipment for the heat-insulating building blocks can realize double-sided slotting operation of the building blocks, the drill bit does not need to move transversely, the drill bit is prevented from bending and breaking, the service life of the equipment is prolonged, and the building blocks are driven to move forwards by the longitudinal conveyor, so that automatic slotting of the building blocks is realized, and the labor cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a schematic view of the interior of the transmission case of the present utility model;

FIG. 4 is a schematic view of the drill bit arrangement of the present utility model;

FIG. 5 is a schematic view of the structure of the block of the present utility model;

the figure shows:

1. the device comprises building blocks, 2, a longitudinal conveyor, 3, a frame, 4, a sliding table, 5, a lead screw, 6, an industrial motor, 7, a transmission box, 8, a drill bit, 9, a drill bit installation shaft, 10, a rotating motor, 11, an intermediate shaft, 12, an intermediate gear, 13, a drill bit gear, 14, a protective cover, 15, a pneumatic ejector rod, 16, a feeding robot, 17, a feeding platform, 18, a discharging robot, 19 and a discharging platform.

Detailed Description

In order to clearly illustrate the technical characteristics of the scheme, the scheme is explained below through a specific embodiment.

As shown in fig. 1 to 5, the double-sided slotting equipment for the heat insulation building blocks comprises a longitudinal conveyor 2 for driving the building blocks 1 to be conveyed, drilling mechanisms positioned on two sides of the longitudinal conveyor 2, a feeding robot 16 positioned at a feeding end of the longitudinal conveyor 2 and a discharging robot 18 positioned at a discharging end of the longitudinal conveyor 2, wherein the structures of the feeding robot 16 and the discharging robot 18 are not limited, and only the feeding and the discharging can be realized.

The two sides of the longitudinal conveyor 2 can be provided with a plurality of drilling mechanisms so as to realize synchronous slotting of a plurality of building blocks, and the drilling mechanisms on the two sides are symmetrically arranged so as to slotting the two sides of the building blocks.

The drilling mechanism comprises a frame 3, a sliding table 4 sliding on the frame 3 and a working mechanism driving the sliding table 4 to move towards the longitudinal conveyor 2, as shown in fig. 2, the sliding table 4 moves left and right, the lower part of the sliding table 4 is in sliding connection with a sliding rail through a sliding block, the working mechanism comprises a screw rod 5 and a working motor 6 driving the screw rod 5 to rotate, a screw nut of the screw rod 5 is connected with the sliding table 4, and accordingly the sliding table 4 is driven to move left and right through rotation of the working motor 6, and working of a drill bit is achieved.

The novel vertical drill bit is characterized in that a transmission box 7 is fixedly connected to the sliding table 4, the transmission box 7 is a hollow metal box body and fixedly connected to the upper end face of the sliding table 4, which is close to one end of the building block, a plurality of drill bit groups which are arranged up and down are arranged on one side of the transmission box 7, which is close to the sliding table 4, each drill bit group comprises a plurality of drill bits 8 which are arranged along the conveying direction of the longitudinal conveyor 2, and each drill bit group comprises 3-8 drill bits 8.

The drill bit groups are staggered along the conveying direction of the longitudinal conveyor 2. As shown in fig. 4, in this embodiment, each transmission case 7 is provided with 5 drill bit groups arranged up and down, each drill bit group includes 4 drill bits 8, and the distance between adjacent drill bits 8 is 4-10 times the diameter of the drill bit.

The transmission case 7 is provided with a rotary power mechanism for driving the drill bit to rotate. The rotary power mechanism comprises a plurality of drill bit mounting shafts 9 and a plurality of intermediate shafts 11 which are connected in the transmission case 7 in a shaft mode, the number of the drill bit mounting shafts 9 is the same as that of the drill bits in the vertical direction, and the drill bits 8 are mounted at the end portions of the drill bit mounting shafts 9.

The drill bit installation shaft 9 is fixedly connected with a drill bit gear 13, the intermediate shaft 11 is fixedly connected with an intermediate gear 12, the drill bit gears 13 of adjacent drill bits 8 in the drill bit group are meshed with each other, the intermediate gear 12 is meshed with any two drill bit gears 13 in the adjacent drill bit group, and the drill bit installation shaft 9 further comprises a rotary motor 10 for driving any intermediate shaft 11 or drill bit installation shaft 9 to rotate. The rotary motor 10 is fixed outside the side of the transmission case 7 away from the block, and the rotary shaft of the rotary motor 10 is connected with a bit mounting shaft 9 in the intermediate bit group in this embodiment.

And also includes a shield 14 that covers the drilling mechanism. A fixed rectangular tube is arranged above the longitudinal conveyor 2, the upper end of the protective cover 14 is hinged on the rectangular tube, and a pneumatic ejector rod 15 is arranged in the protective cover 14.

The application method of the utility model comprises the following steps:

the feeding robot 16 carries unprocessed building blocks on the feeding platform 17 to the longitudinal conveyor 2, and the longitudinal conveyor 2 drives the building blocks to move forward between two drilling mechanisms.

The rotary motor 10 drives all the drill bits to rotate together, the sliding table 4 in the drilling mechanism drives the drill bits on the transmission case 7 to move towards the direction of the block, so that the drill bits are processed into a plurality of circular counter bores on the block, then the drill bits are withdrawn, the longitudinal conveyor 2 moves forwards for a certain distance, the distance is smaller than the diameter of the drill bits, the drilling operation is continued, so that a plurality of circular counter bores connected with the previous counter bores are processed, the steps are repeated, the drill bits in each drill bit group drill for a plurality of times, so that a strip-shaped sinking groove is formed on the block, and a plurality of sinking grooves are respectively processed on two sides of the block by the drill bit groups, as shown in fig. 5.

After grooving is completed, the longitudinal conveyor 2 drives the building blocks to move forward, and the blanking robot 18 carries the processed building blocks to the blanking platform 19.

Of course, the above description is not limited to the above examples, and the technical features of the present utility model that are not described may be implemented by or by using the prior art, which is not described herein again; the above examples and drawings are only for illustrating the technical scheme of the present utility model and not for limiting the same, and the present utility model has been described in detail with reference to the preferred embodiments, and it should be understood by those skilled in the art that changes, modifications, additions or substitutions made by those skilled in the art without departing from the spirit of the present utility model and the scope of the appended claims.

Claims (7)

1. The utility model provides a two-sided fluting equipment of insulation block which characterized in that: including driving vertical conveyer (2) and the drilling mechanism that is located vertical conveyer (2) both sides that building block (1) carried, drilling mechanism includes frame (3), slip table (4) and drive slip table (4) on frame (3) to the worker's advance mechanism of vertical conveyer (2) direction removal, the rigid coupling has transmission case (7) on slip table (4), transmission case (7) are close to one side of slip table (4) and are equipped with a plurality of drill bit groups of arranging from top to bottom, drill bit group includes a plurality of drill bits (8) of arranging along vertical conveyer (2) direction of delivery, is equipped with the rotatory rotary power mechanism of drive drill bit on transmission case (7).

2. The insulation block double-sided slotting device of claim 1, wherein: the rotary power mechanism comprises a plurality of drill bit installation shafts (9) and a plurality of intermediate shafts (11) which are connected in the transmission case (7) in a shaft mode, the drill bit (8) is installed at the end portion of the drill bit installation shafts (9), drill bit gears (13) are fixedly connected to the drill bit installation shafts (9), intermediate gears (12) are fixedly connected to the intermediate shafts (11), the drill bit gears (13) of adjacent drill bits (8) in the drill bit group are meshed with each other, the intermediate gears (12) are meshed with any two drill bit gears (13) in the adjacent drill bit group, and the rotary power mechanism further comprises a rotary motor (10) for driving any intermediate shaft (11) or the drill bit installation shafts (9) to rotate.

3. The insulation block double-sided slotting device of claim 1, wherein: the drill bit set comprises 3-8 drill bits (8).

4. The insulation block double-sided slotting device of claim 1, wherein: the drill bit groups are staggered along the conveying direction of the longitudinal conveyor (2).

5. The insulation block double-sided slotting device of claim 1, wherein: the feed mechanism comprises a screw (5) and a feed motor (6) for driving the screw (5) to rotate, and a screw nut of the screw (5) is connected with the sliding table (4).

6. The insulation block double-sided slotting device of claim 1, wherein: the feeding robot (16) is positioned at the feeding end of the longitudinal conveyor (2), and the discharging robot (18) is positioned at the discharging end of the longitudinal conveyor (2).

7. The insulation block double-sided slotting device of claim 1, wherein: also comprises a protective cover (14) covering the drilling mechanism.