CN113263603B - Gypsum building material is surely chased after and is cut processing application apparatus and control system - Google Patents

Abstract

The invention discloses a gypsum building material cutting, chasing and shearing processing application device and a control system, which comprise a conveying roller way and side frames, wherein the side frames are respectively arranged at two sides of the conveying roller way through a longitudinal moving mechanism, a transverse moving mechanism is arranged between the side frames at the two sides through a height self-adaptive adjusting mechanism, a cutting part driven to move along the width direction of the conveying roller way is arranged on the transverse moving mechanism, the height self-adaptive adjusting mechanism is jacked up by a film-coated plate conveyed on the conveying roller way and supported on the film-coated plate conveyed on the conveying roller way, and the height self-adaptive adjusting mechanism drives the transverse moving mechanism and the cutting part to synchronously ascend so that the initial height of the cutting part relative to the conveying roller way is adapted to the thickness of the film-coated plate conveyed on the conveying roller way.

Description

Gypsum building material is surely chased after and is cut processing application apparatus and control system

Technical Field

The invention relates to the technical field of gypsum building material processing, in particular to a gypsum building material cutting, chasing, shearing and processing application device and a control system.

Background

The gypsum building material film is made of a gypsum board film as an example, the film-coated gypsum board is made of a specially-made high-strength paper-faced gypsum board as a base plate, and a special process is adopted, so that a high-quality film is bonded and pressed on the surface of the film-coated gypsum board, the surface of the film-coated gypsum board has various textures, the visual effect is unique, and the individualized decoration requirement can be fully met. And has the characteristics of health, environmental protection, durability, no dust fall, moisture prevention, mildew prevention, sinking prevention, easy cleaning, convenient maintenance and the like.

A plurality of gypsum boards loop through the tectorial membrane device in spaced under rollgang's the transport and carry out the tectorial membrane, afterwards, cut off the film in the clearance department by a plurality of gypsum boards of thin-film connection through chasing after the device to form a plurality of independent tectorial membrane gypsum boards, afterwards, the tectorial membrane gypsum board cuts the unnecessary film of four edges through four corners cutting machine, in order to form tectorial membrane gypsum board finished product.

Because the coated gypsum boards with different specifications need to be produced, the chasing and shearing device needs to meet the requirements of cutting the coated gypsum boards with different widths and thicknesses, and the height of a cutting part for cutting the film is adjusted according to the thickness of the obtained gypsum board after the thickness of the gypsum board is detected or a thickness parameter is input by the conventional chasing and shearing device, so that the process is complex, the requirements on the intellectualization and the precision of the system are high, and the equipment cost is increased.

Disclosure of Invention

The invention aims to provide a gypsum building material cutting, chasing and shearing application device and a control system, and aims to solve the technical problem that in the prior art, equipment cost is increased due to the fact that a chasing and shearing device performs chasing and shearing on coated gypsum boards with different thicknesses, and the requirement on the intellectualization and the precision of the system is high.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a gypsum building material cutting, chasing and shearing application device and a control system comprise a conveying roller way and side frames, wherein the side frames are arranged on two sides of the conveying roller way through longitudinal moving mechanisms, a transverse moving mechanism is arranged between the side frames on the two sides through a height self-adaptive adjusting mechanism, and a cutting part driven to move along the width direction of the conveying roller way is arranged on the transverse moving mechanism;

the height self-adaptive adjusting mechanism is jacked up by the film-coated plate conveyed on the conveying roller way and supported on the film-coated plate conveyed by the conveying roller way, and drives the transverse moving mechanism and the cutting part to synchronously ascend so that the initial height of the cutting part relative to the conveying roller way is adaptive to the thickness of the film-coated plate conveyed on the conveying roller way.

As a preferable scheme of the invention, the height adaptive adjustment mechanism comprises a guide rod, an inclined guide plate and a linkage cross beam, the guide rod is vertically slidably mounted on the side frame, the inclined guide plate is mounted on the guide rod towards the bottom of the conveying roller way, the transverse moving mechanism is supported and mounted on the top of the guide rod through the linkage cross beam, the inclined guide plate and the dividing part are sequentially arranged in the conveying direction of the conveying roller way, the front end of the inclined guide plate towards the input direction of the conveying roller way is obliquely arranged towards the upper part far away from the conveying roller way, and an auxiliary lifting assembly for reducing the lifting resistance of the inclined guide plate is mounted on the side frame.

In a preferred embodiment of the present invention, the inclined guide plate is mounted on the guide rod through a flat portion, a bottom of the flat portion facing the roller conveyor is a plane parallel to a conveying surface of the roller conveyor, a tail end of the inclined guide plate is fixedly mounted on a front end of the flat portion facing an input direction of the roller conveyor, and the flat portion and the inclined guide plate are transitionally connected through an arc surface.

As a preferable scheme of the present invention, a plurality of rolling long shafts protruding from the bottom of the flat portion are rotatably mounted on the flat portion, the rolling long shafts are arranged at intervals along the conveying direction of the conveying roller way, the plurality of rolling long shafts are densely arranged on the flat portion, a shallow groove for embedding and mounting the plurality of rolling long shafts is formed in the bottom of the flat portion, and both ends of the plurality of long roller wheels are rotatably mounted on both side groove walls corresponding to the shallow groove.

As a preferable scheme of the invention, the guide rods on two sides and the flat parts on two sides are correspondingly connected into a whole.

As a preferable scheme of the invention, the auxiliary lifting assembly comprises a hydraulic support rod and a support platform, wherein the side walls, close to each other, of the side frames and the guide rods on the same side are provided with limiting guide grooves penetrating through the tops of the side frames and the guide rods, the side frames and the guide rods on the same side are in fit and sliding fit, the two limiting guide grooves on the same side are arranged in a positive-opposite manner, the hydraulic support rod is positioned in the two limiting guide grooves on the same side, one end of the hydraulic support rod is fixedly installed on the side frames, and the guide rods are supported and installed at the other ends of the hydraulic support rod through the linkage cross beam.

As a preferable aspect of the present invention, one side of the support platform close to the lateral moving mechanism and the other side of the support platform far from the lateral moving mechanism are both supported on the guide rod through diagonal braces.

In a preferred embodiment of the present invention, an electric push rod supported on the support platform for adjusting the initial heights of the inclined guide plate and the dividing part is installed on the linkage cross beam, and a mounting hole for installing the electric push rod is opened in a bottom of the linkage cross beam facing the support platform.

As a preferable scheme of the present invention, a pressure sensor and a logic control module are installed on the supporting platform, the pressure sensor and the electric push rod are both electrically connected to the logic control module, and the supporting platform supports the electric push rod through the pressure sensor.

In order to solve the technical problems, the invention further provides the following technical scheme:

the logic control module calculates the total weight of the guide rod and the weight supported by the guide rod according to data fed back by the pressure sensor, displays the calculated total weight through an external display device in communication connection with the logic control module, and provides data support for selecting the hydraulic support rod with proper parameters.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the height self-adaptive adjusting mechanism is driven by the film-coated plate conveyed by the conveying roller way to be supported on the film-coated plate, and the height self-adaptive adjusting mechanism drives the beam moving mechanism and the dividing part to synchronously ascend, so that the dividing part is driven by the height self-adaptive adjusting mechanism to adapt to film-coated plates with different thicknesses to adjust the initial position.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a side view of the embodiment of FIG. 1;

FIG. 3 is a schematic diagram of a tilted guide plate structure according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a flat portion according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-a conveying roller way; 2-side frame; 3-a longitudinal moving mechanism; 4-height self-adaptive adjusting mechanism; 5-a transverse moving mechanism; 6-a dividing section; 7-rolling the long shaft; 8-limiting guide grooves; 9-diagonal brace rods; 10-electric push rod; 11-a pressure sensor; 12-a logic control module;

401-a pilot lever; 402-inclined guide plate; 403-linkage beam; 404-an auxiliary lift assembly; 405-flat;

4031-mounting holes; 4041-hydraulic support bar; 4042-a support platform; 4051 shallow trough.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the invention provides a gypsum building material cutting, chasing and shearing application device, which comprises a conveying roller way 1 and side frames 2, wherein the side frames 2 are respectively installed at two sides of the conveying roller way 1 through a longitudinal moving mechanism 3, a transverse moving mechanism 5 is installed between the side frames 2 at two sides through a height adaptive adjusting mechanism 4, and a dividing part 6 which is driven to move along the width direction of the conveying roller way 1 is installed on the transverse moving mechanism 5.

The longitudinal moving mechanism 3 is used for driving the height self-adaptive adjusting mechanism 4, the transverse moving mechanism 5 and the transverse chasing and shearing mechanism to reciprocate in the conveying direction of the conveying roller way 1, so that the transverse chasing and shearing mechanism tracks the coated plates conveyed by the conveying roller way 1 and resets the transverse chasing and shearing mechanism after chasing and shearing are completed. The transverse moving mechanism 5 is used for driving the transverse chasing and shearing mechanism to reciprocate along the width direction of the conveying roller way 1, so that the transverse chasing and shearing mechanism can divide the coated plate conveyed by the conveying roller way 1. The longitudinal moving mechanism 3 and the transverse moving mechanism 5 are generally electric sliding rails with high precision, rodless cylinders and other devices with equivalent functions, while the transverse chasing mechanism generally comprises a blade or an electric saw and a lifting cylinder provided with the blade or the electric saw, and the lifting cylinder drives the blade or the electric saw to descend to realize the division of the coated sheet when the blade or the electric saw is moved to the position right above the to-be-divided position of the coated sheet by the longitudinal moving mechanism 3.

The height self-adaptive adjusting mechanism 4 adaptively adjusts the height of the transverse moving mechanism 5 and the transverse chasing and shearing mechanism according to the thickness of the coated sheet conveyed on the conveying roller way 1, so that the height-adjusted transverse chasing and shearing mechanism can be used for cutting the coated sheet below all the time by the shortest invalid lifting stroke, the height detection and height adjustment mode is not needed for adjusting the transverse chasing and shearing mechanism to adapt to the cutting of the coated sheets with different thicknesses, the structure and the working mode of the chasing and shearing device are simplified, the device cost is saved, the operation mode is simplified, the defect that more invalid lifting strokes are reserved due to the fact that the coated sheet collides with the side face of the transverse chasing and shearing mechanism due to the fact that errors exist in height detection and height adjustment is avoided, the energy consumption is saved, and the upper limit of the efficiency of the transverse chasing and shearing mechanism is improved.

The height adaptive adjustment mechanism 4 is specifically described as follows:

the height self-adaptive adjusting mechanism 4 comprises a guide rod 401, an inclined guide plate 402 and a linkage cross beam 403, the guide rod 401 is vertically installed on the side frame 2 in a sliding mode, the inclined guide plate 402 is installed on the bottom, facing the conveying roller way 1, of the guide rod 401, the transverse moving mechanism 5 is installed on the top of the guide rod 401 through the linkage cross beam 403 in a supporting mode, the inclined guide plate 402 and the cutting portion 6 are sequentially arranged in the conveying direction of the conveying roller way 1, and the inclined guide plate 402 is obliquely arranged towards the upper portion, far away from the conveying roller way 1, of the front end, facing the input direction of the conveying roller way 1, of the inclined guide plate 402.

Specifically, the obliquely arranged guide plate 402 is lifted along the inclined plane of the obliquely arranged guide plate 402 by the film-coated plate conveyed on the rollgang 1, and the obliquely arranged guide plate 402 sequentially passes through the guide rod 401, the linkage cross beam 403 and the transverse moving mechanism 5 to lift the dividing part 6, so that the initial height of the dividing part 6 relative to the rollgang 1 is adapted to the thickness of the film-coated plate conveyed on the rollgang 1, and the side frame 2 is provided with an auxiliary lifting assembly 404 for reducing the lifting resistance of the obliquely arranged guide plate 402, that is, the resistance of the obliquely arranged guide plate 402 to the film-coated plate conveyed by the rollgang 1 is reduced, thereby facilitating the smooth and stable implementation of the chasing and shearing link.

According to the invention, the height self-adaptive adjusting mechanism 4 is driven to be supported on the film-coated plate by the film-coated plate conveyed by the conveying roller way 1, and the height self-adaptive adjusting mechanism 4 drives the beam moving mechanism 5 and the dividing part 6 to synchronously ascend, so that the dividing part 6 is adapted to film-coated plates with different thicknesses to adjust the initial position under the drive of the height self-adaptive adjusting mechanism 4.

In the embodiment, it is further optimized that the inclined guide plate 402 is mounted on the guide rod 401 through the flat portion 405, the bottom of the flat portion 405 facing the conveying roller way 1 is a plane parallel to the conveying surface of the conveying roller way 1, the tail end of the inclined guide plate 402 is fixedly mounted at the front end of the flat portion 405 facing the input direction of the conveying roller way 1, that is, after the coated sheet is conveyed by the conveying roller way 1 and the inclined guide plate 402 is lifted along the bottom of the inclined guide plate 402, the inclined guide plate 402 is supported on the coated sheet through the flat portion 405 with the flat bottom, and the flat portion 405 reduces the pressure received by the coated sheet per unit area from the inclined guide plate 402, avoids damaging the surface of the coated sheet, and is beneficial to keeping the surface of the coated sheet flat and beautiful.

Moreover, the flat part 405 and the inclined guide plate 402 are in transition connection through an arc surface, so that the coated sheet material is prevented from being scratched when passing through the connection part of the inclined guide plate 402 and the flat part 405.

In addition, in order to further reduce the negative influence on the conveying and surface of the coated plate, the flat part 405 is rotatably provided with a plurality of rolling long shafts 7 protruding out of the bottom of the flat part, the rolling long shafts 7 are arranged at intervals along the conveying direction of the conveying roller way 1, the plurality of rolling long shafts 7 are densely distributed and arranged on the flat part 405, the bottom of the flat part 405 is provided with a shallow groove 4051 for embedding and installing the plurality of rolling long shafts 7, and two ends of each of the plurality of long roller wheels are rotatably arranged on two corresponding side groove walls of the shallow groove 4051.

The bottom of the flat part 405 is in contact with the film-coated plate through a plurality of rolling long shafts 7 which are closely arranged and rotatably arranged, so that the friction force between the film-coated plate and the flat part 405 is greatly reduced, and the flat part 405 is prevented from scratching the surface of the film-coated plate. The rolling long shafts 7 are embedded in the shallow grooves 4051 and rotatably arranged, so that the rolling long shafts 7 are enabled to protrude out of the bottom of the flat part 405, the height of the rolling long shafts 7 protruding out of the bottom of the flat part 405 is reduced, and smooth transition of the coated sheet material from the inclined guide plate 402 to the rolling long shafts 7 or from the flat part 405 to the rolling long shafts 7 is facilitated.

In order to further reduce the pressure of the flat part 405 and the inclined guide plate 402 on the film-coated plate, the two side guide rods 401 and the two side flat parts 405 are connected into a whole in a one-to-one correspondence manner, namely, the pressure of the inclined guide plate 402 and the flat parts 405 on the film-coated plate is reduced by increasing the contact area of the inclined guide plate 402 and the flat parts 405 on the film-coated plate, so that the risk of damaging the surface of the film-coated plate is further reduced.

The auxiliary lifting assembly 404 comprises a hydraulic support rod 4041 and a support platform 4042, the side walls, close to each other, of the side frame 2 and the guide rod 401 on the same side are provided with limiting guide grooves 8 penetrating through the tops of the side frame 2 and the guide rod 401 on the same side, the side frame 2 and the guide rod 401 on the same side are attached and in sliding fit, the two limiting guide grooves 8 on the same side are arranged in a positive phase and opposite to each other, the hydraulic support rod 4041 is located in the two limiting guide grooves 8 on the same side, one end of the hydraulic support rod 4041 is fixedly mounted on the side frame 2, and the guide rod 401 is supported and mounted at the other end of the hydraulic support rod 4041 through a linkage cross beam 403.

Vertical guiding and limiting in the front-back direction are achieved through the matching of the side frames 2 and the guide rods through the limiting guide grooves 8 on the two sides and the hydraulic support rods 4041, and the supporting platform 4042 is arranged to enable the linkage beam 403 to be supported on the hydraulic support rods 4041 more stably.

In order to prevent the side of the linkage beam 403 on which the lateral movement mechanism 5 and the lateral trimming mechanism are mounted from being deflected downward by gravity, the side of the linkage beam 403 close to the lateral movement mechanism 5 and the other side of the linkage beam 403 far from the lateral movement mechanism 5 are supported on the guide rod (401) by diagonal braces 9.

Through the support of the inclined stay bar 9 close to one side of the transverse moving mechanism 5 and the traction of the inclined stay bar 9 at the other side, the situation that the linkage beam 403 descends at one side due to the influence of gravity is prevented, the height adjusting function of the height self-adaptive adjusting mechanism 4 can be ensured to accurately act on the transverse chasing and shearing mechanism, and the structural strength, the stability and the precision of the height self-adaptive adjusting mechanism 4 are improved.

Further, the electric push rod 10 for adjusting the initial height of the inclined guide plate 402 and the dividing portion 6 supported on the support platform 4042 is attached to the linkage beam 403, and the linkage beam 403 has an attachment hole 4031 for attaching the electric push rod 10 to the bottom of the support platform 4042.

For example, when the thickness of the new coated sheet material to be processed is increased or decreased, the electric push rod 10 is used to adjust the initial heights of the inclined guide plate 402 and the dividing part 6 accordingly, so as to ensure and facilitate the coated sheet material to jack up the inclined guide plate 402. The installation hole 4031 saves installation space, avoids the increase of the height and weight of the structures such as the guide rod 401 and the side frame 2 caused by the arrangement of the electric push rod 10, and is beneficial to the attractive appearance of the device and the jacking of the inclined guide plate 402.

The height of the bottom of the dividing part 6 relative to the roller conveyor 1 is greater than the height of the bottom of the flat part 405 relative to the roller conveyor 1, that is, when the flat part 405 is supported on the coated sheet material and the saw blade or the blade of the dividing part 6 does not reach the position to be divided by the coated sheet material, the saw blade or the blade of the dividing part 6 is positioned above the coated sheet material to avoid scratching the coated sheet material.

It is further optimized in the above embodiment that the pressure sensor 11 is mounted on the supporting platform 4042, and the supporting platform 4042 supports the electric putter 10 through the pressure sensor 11. The supporting force required to be provided by the auxiliary supporting mechanism is analyzed and calculated through the detection data obtained by the cooperation of the electric push rod 10 and the pressure sensor 11.

In addition, a buffer rubber pad is installed at the end part of the electric push rod 10 opposite to the pressure sensor 11, so that negative effects on the stability and the service life of the pressure sensor 11 due to multiple collisions between the electric push rod 10 and the pressure sensor 11 are avoided.

The invention also provides a control system of the gypsum building material cutting, chasing and shearing application device, which comprises the following components: the logic control module 12 calculates the total weight of the guide rod 401 and the weight supported by the guide rod 401 through the data fed back by the pressure sensor 11, and the logic control module 12 displays the calculated total weight through an external display device in communication connection with the logic control module, so as to provide data support for selecting the hydraulic support rod 4041 with proper parameters.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (7)

1. The gypsum building material cutting, chasing and shearing application device is characterized by comprising a conveying roller way (1) and side frames (2), wherein the side frames (2) are installed on two sides of the conveying roller way (1) through longitudinal moving mechanisms (3), a transverse moving mechanism (5) is installed between the side frames (2) on the two sides through a height self-adaptive adjusting mechanism (4), and a dividing part (6) driven to move along the width direction of the conveying roller way (1) is installed on the transverse moving mechanism (5);

the height self-adaptive adjusting mechanism (4) is jacked up by the film-coated plate conveyed on the conveying roller way (1) and supported on the film-coated plate conveyed on the conveying roller way (1), and the height self-adaptive adjusting mechanism (4) drives the transverse moving mechanism (5) and the dividing part (6) to synchronously ascend so that the initial height of the dividing part (6) relative to the conveying roller way (1) is adapted to the thickness of the film-coated plate conveyed on the conveying roller way (1);

the height self-adaptive adjusting mechanism (4) comprises a guide rod (401), an inclined guide plate (402) and a linkage beam (403), the guide rod (401) is vertically and slidably arranged on the side frame (2), the inclined guide plate (402) is arranged at the bottom of the guide rod (401) facing the conveying roller way (1), the transverse moving mechanism (5) is supported and installed on the top of the guide rod (401) through a linkage cross beam (403), the inclined guide plate (402) and the dividing part (6) are arranged in sequence in the conveying direction of the conveying roller way (1), the front end of the inclined guide plate (402) facing the input direction of the conveying roller way (1) is inclined towards the upper part far away from the conveying roller way (1), an auxiliary lifting assembly (404) for reducing the resistance of the inclined guide plate (402) to be lifted is arranged on the side frame (2);

the inclined guide plate (402) is arranged on the guide rod (401) through a flat part (405), the bottom of the flat part (405) facing the conveying roller way (1) is a plane parallel to the conveying surface of the conveying roller way (1), the tail end of the inclined guide plate (402) is fixedly arranged at the front end of the flat part (405) facing the input direction of the conveying roller way (1), and the flat part (405) is in transition connection with the inclined guide plate (402) through a cambered surface;

the flat part (405) is rotatably provided with a plurality of rolling long shafts (7) protruding out of the bottom of the flat part, the rolling long shafts (7) are arranged at intervals along the conveying direction of the conveying roller way (1), the rolling long shafts (7) are densely arranged on the flat part (405), the bottom of the flat part (405) is provided with shallow grooves (4051) used for embedding and installing the rolling long shafts (7), and two ends of the rolling long shafts (7) are rotatably arranged on two corresponding side groove walls of the shallow grooves (4051).

2. The gypsum building material cutting, chasing, processing and application device as claimed in claim 1, wherein the guide rods (401) on both sides and the flat portions (405) on both sides are connected in a one-to-one correspondence manner to form a whole.

3. The gypsum building material cutting and chasing application device of claim 1, wherein the auxiliary lifting assembly (404) comprises a hydraulic support rod (4041) and a support platform (4042), the side frames (2) and the guide rods (401) on the same side are provided with limiting guide grooves (8) penetrating through the tops of the side frames (2) and the guide rods (401) on the same side, the side frames (2) and the guide rods (401) on the same side are attached and matched in a sliding mode, the two limiting guide grooves (8) on the same side are arranged oppositely, the hydraulic support rod (4041) is located on the same side, the two limiting guide grooves (8) on the same side are arranged in a positive mode, one end of the hydraulic support rod (4041) is fixedly installed on the side frame (2), and the guide rods (401) are installed at the other end of the hydraulic support rod (4041) through the linkage beam (403).

4. A gypsum building material cutting, chasing, processing and application device according to claim 3, wherein one side of the linkage beam (403) close to the lateral movement mechanism (5) and the other side of the linkage beam far from the lateral movement mechanism (5) are supported on the guide rod (401) through inclined support rods (9).

5. The gypsum building material cutting, chasing and shearing application device as claimed in claim 3, wherein an electric push rod (10) supported on the support platform (4042) and used for adjusting the initial height of the inclined guide plate (402) and the dividing portion (6) is mounted on the linkage beam (403), and a mounting hole (4031) used for mounting the electric push rod (10) is formed in the bottom of the linkage beam (403) facing the support platform (4042).

6. The gypsum building material cutting, chasing, shearing and processing application device is characterized in that a pressure sensor (11) and a logic control module (12) are mounted on the supporting platform (4042), the pressure sensor (11) and the electric push rod (10) are electrically connected with the logic control module (12), and the supporting platform (4042) supports the electric push rod (10) through the pressure sensor (11).

7. The gypsum building material cutting and chasing processing application device is characterized in that the logic control module (12) calculates the total weight of the guide rod (401) and the weight supported by the guide rod (401) through data fed back by the pressure sensor (11), and the logic control module (12) displays the calculated total weight through an external display device in communication connection with the logic control module to provide data support for selecting the hydraulic support rod (4041) with proper parameters.

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