CN211164540U

CN211164540U - Servo mud strip slitter structure

Info

Publication number: CN211164540U
Application number: CN201921857392.8U
Authority: CN
Inventors: 鲁久仕
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-08-04
Anticipated expiration: 2029-10-31

Abstract

The utility model discloses a servo mud strip slitter structure, which relates to the technical field of mud strip cutting, and comprises a transmission mechanism for conveying mud strips, a cutting mechanism for cutting mud strips, an encoder for detecting the extrusion speed of mud strips, and a translation mechanism for driving the cutting mechanism to transversely move, wherein the cutting mechanism comprises a pull-down steel wire walking module which is driven by a driving mechanism and is orthogonal to the conveying direction of mud strips; the utility model discloses the encoder that well set up detects mud strip extrusion speed for servo drive motor A drive ball screw module is unanimous to the removal of removing the frame and the right conveying speed of mud strip, and the mechanism that cuts that sets up removes under actuating mechanism's drive action, realizes the high-efficient cutting effect to the mud strip, has effectively promoted the slitting efficiency in the adobe course of working.

Description

Servo mud strip slitter structure

Technical Field

The utility model relates to a cubical switchboard technical field specifically is a servo mud strip slitter structure.

Background

In the prior preparation process of the sintered heat-preservation hollow building blocks used on a large scale, the raw materials are generally extruded into continuous mud strips by an extrusion forming machine, then the continuous mud strips are cut into strips with fixed length by a strip cutting machine and are conveyed to a blank cutting machine, and finally the strips are cut into building block blanks with fixed length by the blank cutting machine.

The patent with the publication number of CN 103522398B discloses a green brick strip cutting conveyor, which is characterized in that a green brick strip conveying speed regulating motor is arranged at the left lower end of a frame, a sliding roller is arranged at the upper end of the frame, a conveying roller is arranged at the upper end of the conveying speed regulating motor, a conveying belt is arranged on the conveying roller and the sliding roller, the conveying roller is arranged on the frame at the upper end of the conveying speed regulating motor through a roller shaft, a transmission belt pulley is arranged at the outer end of the conveying roller shaft, and the middle part of the frame

The automatic mud strip cutting machine is provided with a cutting motor, a belt pulley of the cutting motor is arranged at the inner end of the cutting motor, a cutter support is arranged on a rack at the upper end of the cutting motor, a cutter rest is arranged at the upper end of the cutter support and consists of a left cutter rod, a right cutter rod and a cutter, the cutters are arranged at the upper end and the lower end of the cutter rods, during operation, the belt pulley of the conveying speed regulating motor drives the conveying roller and the conveying belt to run, mud blank strips produced in the previous process are conveyed backwards, the cutter shafts drive the cutters at the two ends of the cutter rods to cut the mud strips in sequence, the automatic mud strip cutting machine is used for cutting green bricks, the cutting effect of the mud strips is not ideal, the cutting effect is poor, and therefore, a servo mud strip.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a servo mud strip slitter structure to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a servo mud strip slitter structure, includes the transport mechanism that is used for carrying the mud strip, is used for carrying out the mechanism of cutting that cuts and is used for detecting mud strip extrusion speed's encoder to the mud strip, still including being used for the drive to cut the translation mechanism of mechanism lateral shifting, cut the mechanism and include by actuating mechanism driven and mud strip direction of delivery quadrature's drop-down steel wire walking module.

As an improved scheme of the utility model: the cutting mechanism comprises a servo motor B, a planetary reducer B is connected to the servo motor B in a transmission mode, the output end of the planetary reducer B is connected with a driving shaft through a coupling B, and the driving shaft is connected with a driving mechanism in a transmission mode.

As an improved scheme of the utility model: the driving mechanism comprises a driven shaft which is arranged in a rotating mode, synchronizing wheels are coaxially fixed on a driving shaft and the driven shaft, synchronizing belts are connected to the synchronizing wheels, and a pull-down steel wire walking module and an air cylinder module are fixed on the synchronizing belts.

As an improved scheme of the utility model: the translation mechanism comprises a servo driving motor A, a planetary reducer A is connected to the servo driving motor A in a transmission mode, an output shaft of the planetary reducer A is connected with a ball screw module through a line coupler A, a moving frame is connected to the ball screw module, and the moving frame is connected with a cutting mechanism.

As an improved scheme of the utility model: translation mechanism still includes optical axis support group, rotates to install on the optical axis support group and supports the optical axis, supports the optical axis and passes through sharp ball bearing and remove the frame and be connected.

As an improved scheme of the utility model: the transmission mechanism comprises a conveying driving roller and a conveying driven roller which are in transmission connection through a chain wheel, and a plurality of supporting rollers are arranged between the conveying driving roller and the conveying driven roller.

As an improved scheme of the utility model: the cutting mechanism is provided with a servo motor C below, a planetary reducer C is in transmission connection with the servo motor C, a one-way bearing chain wheel set is arranged on the planetary reducer C, and a belt wheel mechanism is in transmission connection with the one-way bearing chain wheel set.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses the encoder that well set up detects mud strip extrusion speed for servo drive motor A drive ball screw module is unanimous to the removal of removing the frame and the right conveying speed of mud strip, the mechanism that cuts that sets up removes under actuating mechanism's drive action, realize the high-efficient cutting effect to the mud strip, the slitting efficiency in the adobe course of working has effectively been promoted, servo cutting vertical accuracy and size precision height have still improved the quality of mud strip, especially at cutting thin wall hollow brick, the advantage is obvious, the condition of extravagant stub bar does not have.

Drawings

Fig. 1 is a schematic top view of the structure of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

fig. 3 is a schematic side view of the structure of the present invention.

In the figure: 1-a servo driving motor A, 2-a planetary reducer A, 3-a coupling A, 4-a ball screw module, 5-a supporting optical axis, 6-a linear ball bearing, 7-an optical axis support group, 8-a conveying driven roller, 9-a conveying driving roller, 10-a servo motor B, 11-a planetary reducer B, 12-a coupling B and 13-a synchronous wheel, 14-a pull-down steel wire walking module, 15-a chain wheel, 16-a support roller, 17-a driven shaft, 18-a linear track sliding block module, 19-a synchronous belt, 20-a servo motor C, 21-a planetary reducer C, 22-a one-way bearing chain wheel set, 23-a cylinder module, 24-an encoder, 25-a driving shaft and 26-a moving frame.

Detailed Description

The technical scheme of the patent is further described in detail by combining the following specific embodiments:

example 1

Referring to fig. 1-3, a servo mud strip cutting machine structure comprises a transmission mechanism for conveying mud strips, a cutting mechanism for cutting mud strips, an encoder 24 for detecting extrusion speed of mud strips, and a translation mechanism for driving the cutting mechanism to move transversely, wherein the cutting mechanism comprises a pull-down steel wire walking module 14 which is driven by a driving mechanism and is orthogonal to the conveying direction of mud strips.

This device carries the mud strip right through the transport mechanism who sets up, and the translation mechanism drive that sets up cuts the mechanism and also carries out the lateral position and remove, guarantees that it is the same with the conveying speed of mud strip, and the mechanism that cuts that sets up realizes the cutting effect to the mud strip at drive linear movement under actuating mechanism's drive.

Specifically, the mechanism of cutting includes servo motor B10, servo motor B10 transmission is connected with planetary reducer B11, planetary reducer B11 output is connected with the driving shaft 25 through shaft coupling B12, the driving shaft 25 is connected with the actuating mechanism transmission, actuating mechanism is including rotating the driven shaft 17 that sets up, all coaxial being fixed with synchronizing wheel 13 on driving shaft 25 and the driven shaft 17, be connected with hold-in range 19 on the synchronizing wheel 13, be fixed with pull-down wire walking module 14 on the hold-in range 19.

The start servo motor B10 drives the driving shaft 25 to rotate through the planetary reducer B11 and the coupling B12, the driving shaft 25 drives the synchronous belt 19 on the driving shaft to linearly move through the synchronous wheel 13, the synchronous belt 19 drives the pull-down steel wire walking module 14 and the air cylinder module 23 to move at the moment, and the pull-down steel wire walking module 14 is connected with a steel wire to realize the cutting action on mud strips.

Wherein, the translation mechanism of this device includes servo driving motor A1, and servo driving motor A1 transmission is connected with planetary reducer A2, and planetary reducer A2 output shaft is connected with ball screw module 4 through shaft joint A3, is connected with on the ball screw module 4 to remove frame 26, removes frame 26 and cuts the mechanism connection.

The encoder 24 detects the extrusion speed of the mud strips, detects the actual length of the mud strips through a system algorithm, feeds back the actual length of the mud strips to the system, sends out instructions to the servo drive motor A1 and the servo motor B10, and the servo drive motor A1 drives the planetary reducer A2 and the ball screw module 4 to realize the speed synchronization of the moving frame 26 and the mud strips.

Example 2

On embodiment 1's basis, in addition, translation mechanism still includes optical axis support group 7, rotates on optical axis support group 7 and installs and support optical axis 5, supports optical axis 5 and is connected with removal frame 26 through linear ball bearing 6, sets up to support optical axis 5 and is connected with removal frame 26 through linear ball bearing 6, has guaranteed the even movement who removes frame 26.

Further, the transmission device of this device includes the transport driving roll 9 and carries passive cylinder 8 of connecting through the 15 transmissions of sprocket, carries and is provided with a plurality of between driving roll 9 and the transport passive cylinder 8 and holds in the palm the cylinder 16, carries driving roll 9 and carries passive cylinder 8 and leads to can not rotate and carry out the right side to the mud strip, and a plurality of holds in the palm cylinder 16 and the contact of mud strip, plays direction and supporting effect.

In addition, a servo motor C20 is arranged below the cutting mechanism, a planetary reducer C21 is in transmission connection with the servo motor C20, a one-way bearing chain wheel set 22 is arranged on the planetary reducer C21, a belt pulley mechanism is in transmission connection with the one-way bearing chain wheel set 22, the servo motor C20 drives the one-way bearing chain wheel set 22 through the planetary reducer C21, and the one-way bearing chain wheel set 22 drives the belt pulley mechanism to convey the cut mud strips to the next process.

To sum up, the utility model discloses in encoder 24 that sets up detect mud strip extrusion speed for servo drive motor A1 drive ball screw module 4 is unanimous to the removal of removing frame 26 and the right conveying speed of mud strip, and the mechanism that cuts that sets up removes under actuating mechanism's drive action, realizes the high-efficient cutting effect to the mud strip, has effectively promoted the slitting efficiency in the adobe course of working.

It should be noted that, although the present specification describes embodiments, each embodiment does not include only a single technical solution, and such description of the specification is only for clarity, and those skilled in the art should take the specification as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art, and the above-mentioned embodiments only express the preferred embodiments of the technical solutions, and the description thereof is more specific and detailed, but should not be construed as limiting the scope of the claims of the technical solutions. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications, improvements and substitutions can be made, which all fall within the protection scope of the present technical solution. The protection scope of this technical solution patent should be subject to the appended claims.

Claims

1. The utility model provides a servo mud strip slitter structure, includes the transport mechanism that is used for carrying the mud strip, is used for carrying out the mechanism of cutting that cuts and be used for detecting mud strip extrusion speed's encoder (24), its characterized in that still includes and is used for the drive to cut the translation mechanism of mechanism lateral shifting, cut the mechanism and include by actuating mechanism driven with mud strip direction of delivery quadrature drop-down steel wire walking module (14).

2. The servo mud strip cutter structure according to claim 1, wherein the cutting mechanism comprises a servo motor B (10), the servo motor B (10) is in transmission connection with a planetary reducer B (11), the output end of the planetary reducer B (11) is connected with a driving shaft (25) through a coupling B (12), and the driving shaft (25) is in transmission connection with a driving mechanism.

3. The servo mud strip cutter structure as claimed in claim 2, wherein the driving mechanism comprises a driven shaft (17) which is rotatably arranged, synchronizing wheels (13) are coaxially fixed on the driving shaft (25) and the driven shaft (17), a synchronous belt (19) is connected to the synchronizing wheels (13), and a pull-down steel wire walking module (14) and an air cylinder module (23) are fixed on the synchronous belt (19).

4. The servo mud strip cutter structure according to claim 1, characterized in that the translation mechanism comprises a servo drive motor A (1), the servo drive motor A (1) is in transmission connection with a planetary reducer A (2), an output shaft of the planetary reducer A (2) is connected with a ball screw module (4) through a coupling A (3), the ball screw module (4) is connected with a moving frame (26), and the moving frame (26) is connected with the cutting mechanism.

5. The servo mud-strip slitter structure according to claim 4, wherein the translation mechanism further comprises an optical axis support set (7), a support optical axis (5) is rotatably mounted on the optical axis support set (7), and the support optical axis (5) is connected with the moving frame (26) through a linear ball bearing (6).

6. The servo loaf slitter structure according to claim 1, wherein the conveying mechanism comprises a conveying driving roller (9) and a conveying driven roller (8) which are in driving connection by a chain wheel (15), and a plurality of supporting rollers (16) are arranged between the conveying driving roller (9) and the conveying driven roller (8).

7. The servo mud strip slitter structure according to claim 1, wherein a servo motor C (20) is arranged below the cutting mechanism, a planetary reducer C (21) is connected to the servo motor C (20) in a transmission manner, a one-way bearing chain wheel set (22) is arranged on the planetary reducer C (21), and a belt wheel mechanism is connected to the one-way bearing chain wheel set (22) in a transmission manner.