CN213290702U - Core bar connecting structure of core bar drawing device of gypsum batten production host - Google Patents

Abstract

The utility model provides a gypsum slat production host computer takes out core bar device core bar connection structure, draw the frame including the core bar, be connected with the core bar connection position that is used for installing the core bar on the core bar draws the frame, the core bar draws the frame with the core bar and is connected one end and be equipped with the mounting hole, the core bar is installed on the core bar draws the frame through the pull rod that passes the mounting hole, the core bar inserts the slat mould and targets in place back pull rod and the mounting hole be close to slat mould side contact, the mounting hole is different at the ascending size of core bar moving direction, the core bar produces relative displacement with the gypsum slat in the mould not simultaneously when making the core bar draw the frame. Technical scheme in this application has realized the core bar and has taken out the beginning section of process, and the core bar is not pulled simultaneously, but divide several groups to pull respectively several times, has avoided the formation of maximum resistance, has reduced the pulling force of taking out the pole beginning stage, has reduced power equipment and has dropped into to it is that the operation of taking out futilely is more stable, the too big motionless condition of pulling of resistance can not appear.

Description

Core bar connecting structure of core bar drawing device of gypsum batten production host

Technical Field

The utility model relates to a building materials production facility technical field especially indicates a gypsum slat production host computer takes out core bar device core bar connection structure.

Background

The gypsum hollow lath is one kind of gypsum board, and is made up by using building gypsum as base material and adding inorganic light aggregate and inorganic fibre reinforced material, and is mainly used for non-bearing internal wall of building. The gypsum hollow lath is used as the inner partition wall of the building, and has the same advantages as the gypsum building block, lighter weight in unit area and higher construction efficiency. The self-weight of the building can be reduced, the foundation bearing is reduced, and the construction cost can be effectively reduced. The length of the lath is determined according to the storey height of the building, so that the construction efficiency is higher. The gypsum hollow lath has the advantages of light weight, high strength, heat insulation, sound insulation, water resistance and the like, and can be sawed, planed, drilled and simply constructed. The production of the gypsum hollow lath generally comprises the working procedures of slurry mixing, casting molding, core pulling, drying and the like, and the casting, core pulling and other operations are manually completed when the gypsum hollow lath is produced at present, so that the production efficiency is low. Therefore, the existing gypsum block production equipment is modified by the inventor, and the core-pulling device is newly designed by the inventor to realize the automatic operation of core-pulling operation. The pumping principle is that a core rod pulling frame capable of moving back and forth is connected with a core rod, so that the core rod can be automatically inserted and extracted. However, in the research and development process, the moment that the core rod is drawn after slurry is solidified is the moment of needing the maximum strength, the core rod is drawn together with the core rod, the resistance is very large, a core rod power mechanism with the large strength needs to be configured, and the resistance is reduced in the process of pulling the core rod outwards after the core rod is drawn, so that in order to solve the problem that the resistance of equipment is large when a plurality of core rods start to be drawn, a set of unique structure is designed by the company, and patent application is carried out at present for protection.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of above-mentioned prior art, provide a gypsum slat production host computer and take out core bar device core bar connection structure, the core bar is not stimulateeed simultaneously when can realizing taking out the core bar operation, resistance when reducing the core bar, improve equipment stability.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a gypsum lath production host computer takes out core bar device core bar connection structure, including the core bar and draw the frame, be connected with the core bar connection position that is used for installing the core bar on the core bar and draw the frame, the core bar is equipped with the mounting hole with core bar one end of drawing the frame connection, the core bar is installed on the core bar and draw the frame through the pull rod that passes the mounting hole, the core bar inserts the slat mould and targets in place back pull rod and the near slat mould side contact of mounting hole, the size of mounting hole on the core bar moving direction is different, the core bar produces relative displacement with the gypsum lath in the mould simultaneously when making the.

The end part of the core rod is provided with a connector, the mounting hole is arranged on the connector, and the connector is installed with the core rod pulling frame in a matching way through a pull rod which transversely penetrates through the core rod pulling frame and the mounting hole.

The core bar connecting positions are arranged on the core bar pulling frame in a matrix mode, all the mounting holes are flush close to one side of the slat die after the core bars are inserted into the slat die, the lengths of the mounting holes of the connectors on the same row are consistent, the mounting holes of the connectors on the same column are at least two in length, and the connectors of the mounting holes with the same size are symmetrical with the center of the column.

The connector is connected with the core rod by adopting a detachable structure.

The connector and the core rod are in threaded connection or inserted connection.

When the core rod pulling frame is used, the core rod with the shortest mounting hole is firstly pulled by the core rod pulling frame, and the core rod with the longer mounting hole is pulled, so that the core rods are not pulled at the same time, and the pulling resistance of the core rod pulling frame is reduced.

The utility model has the advantages that: technical scheme in this application has realized the core bar and has taken out the beginning section of process, and the core bar is not pulled simultaneously, but divide several groups to pull respectively several times, has avoided the formation of maximum resistance, has reduced the pulling force of taking out the pole beginning stage, has reduced power equipment and has dropped into to it is that the operation of taking out futilely is more stable, the too big motionless condition of pulling of resistance can not appear.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the core bar insert strip mold of FIG. 1;

fig. 3 is a partially enlarged view of the mating structure of the connector and the mounting hole.

Shown in the figure: 1. the core bar drawing frame comprises a core bar drawing frame 2, a core bar 3, a connector 4, a mounting hole 5, a pull rod 6 and a batten die.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Fig. 1 to fig. 3 show a core rod connecting structure of a gypsum lath production host rod drawing device, which comprises a core rod drawing frame 1, the core rod drawing frame 1 is connected with a core rod connecting position for installing a core rod 2, one end of the core rod 2 connected with the core rod drawing frame 1 is provided with a connector 3, the connector 3 is provided with an installation hole 4, the core rod 3 is installed on the core rod drawing frame 1 through a pull rod 5 penetrating the installation hole 4, the pull rod 5 contacts with the side of the installation hole 4 close to a lath mold 6 after the core rod 2 is inserted into the lath mold to 6 positions, the installation hole 4 has different sizes in the moving direction of the core rod 2, and when the core rod drawing frame 1 draws a plurality of core rods 2, the core rod 2 does not generate relative displacement.

The connector 3 is connected with the core rod 2 through threads, and the threads are prevented from loosening in a glue pouring mode. Of course, the connector 3 can be detached conveniently by other structures, for example, by using a socket and a plug, by using a pin, etc.

The core bar connecting positions are rectangular holes which are arranged on the core bar pulling frame and can accommodate the connectors, the core bar connecting positions are arranged on the core bar pulling frame in a matrix mode, when the core bar 2 is pushed out and inserted into the batten die 6, all the mounting holes 4 are flush close to one side of the batten die 6, the lengths of the mounting holes 4 of the connectors 3 on the same row are the same, the mounting holes of the connectors 3 on the same column are at least two, and the connectors of the mounting holes 4 with the same size are symmetrical with the center of the column. This makes it possible to balance the forces on the mandrel holder 1. The mounting hole 4 is a long hole arranged along the length direction of the core rod 2.

As a preferred specific embodiment of this embodiment, the core bars 2 are connected with the core bar pulling frames 1 and arranged in a matrix, seven core bars 2 are arranged in each vertical row, a connector 3 is arranged at the end of each core bar 2, a mounting hole 4 is arranged on each connector 3, each connector 3 is installed in cooperation with the core bar pulling frame 1 through a pull rod 5 which transversely penetrates through the core bar pulling frames 1 and the corresponding mounting hole 4, all the mounting holes 4 are flush with one side of the slat mold 6 after the core bars 2 are inserted into the slat mold 6, the mounting holes 4 of the connectors 3 on the same row are identical in length, and the mounting holes 4 of the connectors 3 on the same column are three in length. The mounting holes 4 of the first, fourth and seventh core rods 2 from top to bottom are the same in length and the smallest in length and are pulled first; the second and the six core rod 2 mounting holes 4 have the same length and are in the middle length, and are pulled by a second wheel; the mounting holes 4 of the third and fifth core bars 2 are the same and longest in length, and the last round is pulled, after which the seven core bars 2 in the same row are pulled out of the lath die 6 together.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a gypsum lath production host computer core bar device core bar connection structure which characterized in that: the core bar pulling frame is connected with a core bar connecting position for installing a core bar, one end of the core bar, which is connected with the core bar pulling frame, is provided with a mounting hole, the core bar is installed on the core bar pulling frame through a pull rod penetrating through the mounting hole, the pull rod contacts with the side, close to the batten die, of the mounting hole after the core bar is inserted into the batten die in place, the size of the mounting hole in the moving direction of the core bar is different, and when the core bar pulling frame pulls a plurality of core bars, the core bar does not simultaneously generate relative displacement with gypsum battens in the die.

2. The core bar connecting structure of a core bar drawing device of a gypsum lath production host machine as claimed in claim 1, wherein: the end part of the core rod is provided with a connector, the mounting hole is arranged on the connector, and the connector is installed with the core rod pulling frame in a matching way through a pull rod which transversely penetrates through the core rod pulling frame and the mounting hole.

3. The gypsum lath production host rod drawing device core bar connecting structure of claim 1 or 2, wherein: the core bar connecting positions are arranged on the core bar pulling frame in a matrix mode, all the mounting holes are flush close to one side of the slat die after the core bars are inserted into the slat die, the lengths of the mounting holes of the connectors on the same row are consistent, the mounting holes of the connectors on the same column are at least two in length, and the connectors of the mounting holes with the same size are symmetrical with the center of the column.

4. The core bar connecting structure of a core bar drawing device of a gypsum lath production host machine as claimed in claim 2, wherein: the connector is connected with the core rod by adopting a detachable structure.

5. The core bar connecting structure of the core bar drawing device of the gypsum lath production host machine as claimed in claim 4, wherein: the connector and the core rod are in threaded connection or inserted connection.

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