CN221021814U - Stable adjusting structure of vertical graphite saw machine tool - Google Patents

Abstract

The utility model provides a stable adjustment structure of a vertical graphite saw machine tool, which comprises a base for installing a track and a workbench, and a transmission box arranged on one side of the base, wherein the transmission box comprises a transmission wheel, a saw blade is installed on the transmission wheel, the saw blade is arranged in an annular shape, the base comprises a main supporting box body and an auxiliary supporting box body, the auxiliary supporting box body is arranged in an annular space formed by the saw blade, a gap for the saw blade to pass through is formed between the auxiliary supporting box body and the main supporting box body, one side of the main supporting box body is provided with a supporting plate, the supporting plate is positioned below the outer end of the auxiliary supporting box body, and the outer end of the auxiliary supporting box body is supported by a plurality of mechanical jacks arranged on the supporting plate. The sawing machine has the advantages of good structural stability, difficult deformation and convenient saw blade replacement.

Description

Stable adjusting structure of vertical graphite saw machine tool

Technical Field

The utility model mainly relates to the technical field related to sawing machines, in particular to a stable adjusting structure of a vertical graphite saw machine tool.

Background

The vertical graphite saw is used for sawing workpieces and generally comprises a base, a workbench arranged on the base, an annular saw blade and a driving structure, wherein the driving structure drives the saw blade to rotate so as to cut the workpieces, a corresponding sliding rail structure is arranged between the workbench and the base, and the workpieces are placed on the workbench and are adjusted along with the workbench.

In the prior art, the base is required to be arranged into two parts due to the structure of the vertical graphite saw and the replacement requirement of saw blades and the like, a gap for the saw blades to pass through is required to be arranged between the two parts, and the saw blades are taken out or installed from the gap in the process of replacing the saw blades. In the prior art, in order to make things convenient for the change of saw blade, because of keeping the clearance that needs the change saw blade between two parts bases, so can not the lug connection, if adopt the unsettled mode of one of them base one end, although can make things convenient for the change of saw blade, but because of unsettled structural design leads to this part base to take place to warp crooked easily, produce error and saw the scheduling problem of inclining when making its saw cut, and if set up alone and support, when changing the saw blade, need demolish corresponding bearing structure, the process is loaded down with trivial details, waste time and energy.

Disclosure of utility model

In order to solve the defects of the prior art, the utility model combines the prior art, and provides a stable adjusting structure of a vertical graphite saw machine tool from practical application, which has the advantages of good structural stability, difficult deformation and convenient saw blade replacement.

The technical scheme of the utility model is as follows:

The utility model provides a firm adjustment structure of vertical graphite saw lathe, includes the base that is used for installing track and workstation, sets up in the transmission case of base one side, the transmission case includes the drive wheel, install the saw blade on the drive wheel, the saw blade is annular setting, the base includes main supporting box body and vice supporting box body, vice supporting box body sets up in the annular space that the saw blade formed, is provided with the space that supplies the saw blade to pass through between vice supporting box body and main supporting box body, and main supporting box body one side is provided with the backup pad, and the backup pad is located vice supporting box body outer end below, and vice supporting box body outer end is supported through a plurality of mechanical jack that sets up in the backup pad.

Further, the lower surface of the mechanical jack is supported on the supporting plate, the top of the mechanical jack is propped against the lower surface of the auxiliary supporting box body to support the auxiliary supporting box body, and the top of the mechanical jack is not directly connected with the auxiliary supporting box body.

Further, the mechanical jack comprises a fixed seat, a floating seat and a mandrel, wherein mutually matched inclined planes are arranged between the fixed seat and the floating seat, the floating seat is fixedly connected with the upper part of the mandrel, and the lower part of the mandrel is in sliding fit with the fixed seat.

Further, a handle rocker is arranged on the floating seat.

Further, a tightening handle for locking the mandrel is arranged on the fixing seat.

Further, the mandrel and the floating seat are both provided with pin shaft holes, the upper part of the mandrel is inserted into the floating seat, and the mandrel and the floating seat are fixedly connected through the pin shaft arranged in the pin shaft holes.

Further, the top of the floating seat is provided with a hexagon head bolt, the lower part of the hexagon head bolt is in threaded fit with the floating seat, the top of the hexagon head bolt is used for propping against the lower surface of the auxiliary supporting box body, and a threaded fit nut is arranged on the hexagon head bolt.

Further, the number of the mechanical jacks is two, and the two mechanical jacks are arranged in parallel.

Further, the upper surface of the supporting plate is provided with two through holes, and the through holes are used for the mandrel of the mechanical jack to pass through.

Further, the whole supporting plate is triangular.

The utility model has the beneficial effects that:

1. In the vertical graphite sawing machine structure provided by the utility model, the base is divided into the main supporting box body and the auxiliary supporting box body, in the two-part structure, the main supporting box body can be directly fixed on the ground, one end of the auxiliary supporting box body is connected to the main supporting box body, the other end of the auxiliary supporting box body is supported by the jack, a suspended structure is not adopted, the auxiliary supporting box body is not easy to deform, a gap for the saw blade to pass through is arranged between the two box bodies, and when the saw blade needs to be replaced, the jack is only required to be fallen down, so that a space for the saw blade to come out is formed below the auxiliary supporting box body, and the accessory replacement is convenient and quick.

2. In the structure of the vertical graphite sawing machine provided by the utility model, the mechanical jack can be adjusted to a certain extent when the auxiliary supporting box body is deformed under the special condition, so that the occurrence of errors, sawing and the like during sawing is avoided.

3. The mechanical jack provided by the utility model has the advantages that the structure is simple, the adjustment is convenient, the formation of enough space below the auxiliary supporting box body is ensured through the large-scale adjustment of the floating seat for taking out the saw blade, the fine adjustment is realized through the hexagon head bolt at the top, and the enough supporting force can be provided for the auxiliary supporting box body.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic side view of the present utility model.

Fig. 3 is a schematic view of the structure of the base part of the present utility model.

Fig. 4 is a schematic view of the structure of the support plate of the present utility model.

Fig. 5 is a schematic diagram of a jack according to the present utility model.

Fig. 6 is a schematic diagram of a jack according to the present utility model.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that these examples are illustrative of the present utility model and are not intended to limit the scope of the present utility model. Further, it will be understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the utility model, and equivalents thereof fall within the scope of the utility model as defined by the claims.

Referring to fig. 1 to 6, schematic diagrams related to a stable adjustment structure of a vertical graphite saw machine tool according to this embodiment are shown.

Referring to fig. 1, 2 and 3, in this embodiment, the stabilizing adjustment structure of the vertical graphite saw machine tool mainly includes a base for installing a track and a workbench, and a transmission case disposed on one side of the base, where the transmission case includes an upper driving wheel 3 and a lower driving wheel 3, on which saw blades 4 are installed, and the saw blades 4 are disposed in a ring shape. The base mainly comprises a main supporting box body 1 and an auxiliary supporting box body 2, wherein rails and a workbench can be arranged on the main supporting box body 1 and the auxiliary supporting box body 2, and after a workpiece is placed in the workbench, the workpiece can move in position through a rail structure so as to be sawn by a saw blade 4. Referring to fig. 1 and 2, the sub-support case 2 is disposed in an annular space formed by the saw blade 4, and a space 7 through which the saw blade 4 passes is provided between the sub-support case 2 and the main support case 1, and the space 7 is used when the saw blade 4 is attached and detached.

One side of the main supporting box body 1 is fixedly provided with a supporting plate 6, the supporting plate 6 is positioned below the outer end of the auxiliary supporting box body 2, the inner end of the auxiliary supporting box body 2 is fixed on a transmission box (the transmission box and the main supporting box body 1 can be in an integrated structure), and the outer end of the auxiliary supporting box body 2 is supported by a plurality of mechanical jacks 5 arranged on the supporting plate 6. Thus, the main supporting box body 1 is fixed on the ground, and both ends of the auxiliary supporting box body 2 are supported and fixed, so that the deformation of the auxiliary supporting box body 2 is not easy to cause.

In one embodiment provided in this embodiment, the lower surface of the mechanical jack 5 is supported on the support plate 6, and the top portion abuts against the lower surface of the secondary support box 2 and is not directly connected, so that the support of the secondary support box 2 is achieved, and the distance between the top portion of the mechanical jack 5 and the lower surface of the end portion of the secondary support box 2 can be controlled by adjusting the height of the mechanical jack 5.

The main principle of the above structure of this embodiment is as follows: in the normal use process of the machine tool, the height of the mechanical jack 5 is adjusted to enable the mechanical jack to lean against the lower end of the auxiliary supporting box body 2 to support the auxiliary supporting box body 2, and deformation cannot occur in the machining process. When the saw blade 4 needs to be replaced, the height of the mechanical jack 5 is firstly adjusted to enable the top surface of the mechanical jack 5 and the bottom surface of the auxiliary supporting box body 2 to form a space, at the moment, the saw blade 4 can be detached from the driving wheel 3 and then move outwards along the gap 7, when the saw blade moves to the end part of the auxiliary supporting box body 2, the bottom of the saw blade 4 which is annularly arranged is taken out of the space between the mechanical jack 5 and the auxiliary supporting box body 2, and then after the saw blade which needs to be replaced is installed in the same method, the height of the mechanical jack 5 is adjusted again to complete the supporting of the auxiliary supporting box body 2.

In a specific implementation manner provided in this embodiment, two mechanical jacks 5 are arranged in parallel, so as to ensure the stability of the support.

The specific structure of the mechanical jack 5 is shown with reference to fig. 5 and 6, and comprises a fixed seat 9, a floating seat 11 and a mandrel 10, wherein mutually matched inclined planes are arranged between the fixed seat 9 and the floating seat 11, a cavity is arranged in the floating seat 11, the mandrel 10 and the floating seat 11 are both provided with pin holes 16, the upper part of the mandrel 10 is inserted into the cavity of the floating seat 11, the pin holes 16 of the mandrel 10 and the floating seat 11 are aligned, and then a pin shaft is arranged to enable the mandrel 10 and the floating seat 11 to be fixed into a whole, and at the moment, the floating seat 11 and the mandrel 10 synchronously move. The lower part of the mandrel 10 is in sliding fit with the fixed seat 9. When the height of the mechanical jack 5 is adjusted, the handle rocker 12 on the floating seat 11 is rotated, so that the floating seat 11 rotates, the floating seat 11 falls down to reduce the height of the mechanical jack 5 due to the structural design of an inclined plane, otherwise, the floating seat 11 rises to increase the height of the mechanical jack 5, and after the adjustment is completed, the mandrel 10 can be locked by tightening the handle 13, so that the stability of the mechanical jack 5 is ensured.

Preferably, in this embodiment, a hexagon head bolt 14 is further disposed on the top of the floating seat 11, the lower portion of the hexagon head bolt 14 is in threaded fit with the floating seat 11, when the mechanical jack 5 is required to support the auxiliary supporting box 2, the floating seat 11 of the mechanical jack 5 is adjusted to be the highest, then the hexagon head bolt 14 is rotated to tightly prop against the lower surface of the auxiliary supporting box 2, and the auxiliary supporting box 2 is locked by the nut 15, so that firm support of the auxiliary supporting box 2 is ensured.

In this embodiment, the support plate 6 is triangular as a whole, so as to ensure the stability of the structure, and two through holes 8 are formed in the upper surface of the support plate, so that the mandrel 10 can pass through conveniently when the floating seat 11 is adjusted, and the flexibility of adjustment is ensured.

Claims (10)

1. The utility model provides a firm adjustment structure of vertical graphite saw lathe, includes the base that is used for installing track and workstation, sets up in the transmission case of base one side, the transmission case includes the drive wheel, install the saw blade on the drive wheel, the saw blade is annular setting, its characterized in that, the base includes main supporting box body and vice supporting box body, vice supporting box body sets up in the annular space that the saw blade formed, is provided with the space that supplies the saw blade to pass through between vice supporting box body and main supporting box body, and main supporting box body one side is provided with the backup pad, and the backup pad is located vice supporting box body outer end below, and vice supporting box body outer end is supported through a plurality of mechanical jack that sets up in the backup pad.

2. The stable adjustment structure of the vertical graphite sawing machine according to claim 1 wherein the lower surface of the mechanical jack is supported on the supporting plate, the top of the mechanical jack is abutted against the lower surface of the auxiliary supporting box body to support the auxiliary supporting box body, and the top of the mechanical jack is not directly connected with the auxiliary supporting box body.

3. The stable adjustment structure of the vertical graphite sawing machine according to claim 2, wherein the mechanical jack comprises a fixed seat, a floating seat and a mandrel, mutually matched inclined planes are arranged between the fixed seat and the floating seat, the floating seat is fixedly connected with the upper part of the mandrel, and the lower part of the mandrel is in sliding fit with the fixed seat.

4. A vertical graphite sawing machine stabilizing adjustment structure according to claim 3, wherein a handle rocker is provided on the floating base.

5. The stable adjustment structure of a vertical graphite sawing machine according to claim 3 wherein a tightening handle for locking the mandrel is provided on the fixing base.

6. The stable adjustment structure of a vertical graphite sawing machine according to claim 3, wherein the mandrel and the floating seat are respectively provided with a pin shaft hole, the upper part of the mandrel is inserted into the floating seat, and the mandrel is fixedly connected with the floating seat through a pin shaft arranged in the pin shaft holes.

7. The stable adjustment structure of a vertical graphite sawing machine according to claim 3 wherein the floating base top is provided with a hexagon head bolt, the hexagon head bolt lower portion is in threaded engagement with the floating base, the hexagon head bolt top is used for abutting against the lower surface of the auxiliary supporting box body, and a threaded engagement nut is arranged on the hexagon head bolt.

8. The stabilizing adjustment structure of vertical graphite sawing machine according to any one of claims 3 to 7 wherein there are two mechanical jacks arranged in parallel.

9. The stabilizing and adjusting structure of a vertical graphite sawing machine according to claim 8 wherein the upper surface of the support plate is provided with two through holes for the passage of the spindles of the mechanical jacks.

10. The stabilizing adjustment structure of vertical graphite sawing machine according to claim 9 wherein said support plate is generally triangular in shape.