CN212825337U - Rack for metal ingot mold - Google Patents

Abstract

The utility model relates to a rack for metal ingot mould belongs to the technical field of rack, and it includes the bottom plate, be provided with first crossbeam and the second crossbeam that is parallel to each other on the bottom plate, the vertical pin that upwards sets up of both ends difference fixedly connected with of first crossbeam and second crossbeam, the interval of first crossbeam and second crossbeam can be adjusted. This application has the effect of depositing not unidimensional mould.

Description

Rack for metal ingot mold

Technical Field

The application relates to the field of placing frames, in particular to a placing frame for metal ingot molds.

Background

The ingot is a massive semi-finished product obtained by pouring liquid metal or alloy into a mold (usually a metal mold), cooling and solidifying, and most of the existing molds are circular and tubular.

As shown in figure 1, the mold is usually placed on a placing rack when the mold is stored at present, the placing rack comprises a rectangular base 1, and a stop lever 3 which is vertically and upwards arranged is welded at four corner positions of the base 1 respectively. When the mould is stored, it is placed on the base 1 at a position between the bars 3.

In the related art, the inventor believes that the molds have different sizes, and when the molds with smaller sizes are stored, the molds may fall off along the gap between two adjacent stop levers 3.

SUMMERY OF THE UTILITY MODEL

In order to realize depositing not unidimensional mould, this application provides a rack for metal ingot mould.

The application provides a rack for metal ingot mould adopts following technical scheme: the utility model provides a rack for metal ingot mould, includes the bottom plate, be provided with first crossbeam and the second crossbeam that is parallel to each other on the bottom plate, the both ends of first crossbeam and second crossbeam are the vertical pin that upwards sets up of fixedly connected with respectively, the interval of first crossbeam and second crossbeam can be adjusted.

Through adopting above-mentioned technical scheme, when needing to deposit the mould, overlap joint respectively on first crossbeam and second crossbeam with the both ends of mould, when the length of mould is less than the interval between first crossbeam and the second crossbeam, adjust the relative position of first crossbeam and second crossbeam to guarantee that the both ends of mould overlap joint respectively on first crossbeam and second crossbeam, and then can realize depositing not unidimensional mould.

Optionally, the first cross beam is fixedly connected with the bottom plate, and the second cross beam is connected with the bottom plate in a sliding manner along a connecting line direction of the first cross beam and the second cross beam.

Through adopting above-mentioned technical scheme, when the interval between first crossbeam and the second crossbeam needs to be adjusted, remove the second crossbeam and remove towards first crossbeam to the realization is adjusted the interval between first crossbeam and the second crossbeam.

Optionally, a driving motor is fixedly connected to the bottom plate, a lead screw sequentially penetrates through the first cross beam and the second cross beam and is rotatably connected with the first cross beam, and the lead screw is in threaded connection with the second cross beam.

Through adopting above-mentioned technical scheme, when needs drive the second crossbeam and remove, start driving motor and drive the lead screw and rotate, the lead screw rotates and can drive the second crossbeam and remove towards first crossbeam to can make things convenient for quick adjust the second crossbeam.

Optionally, a guide assembly for moving the second beam along a connecting line direction of the first beam and the second beam is arranged between the first beam and the second beam.

Through adopting above-mentioned technical scheme, set up the direction subassembly and can make the second crossbeam remove more stable.

Optionally, the guide assembly includes a pair of guide rods fixedly connected to the side wall of the first cross beam and slidably inserted into the second cross beam.

Through adopting above-mentioned technical scheme, when the second crossbeam moved towards first crossbeam, the second crossbeam can remove along the guide bar to can make the second crossbeam remove more stable.

Optionally, the stop lever includes a sleeve fixedly connected to two ends of the first beam and the second beam and an insertion rod disposed above the sleeve, and the sleeve and the insertion rod are slidably inserted and locked.

Through adopting above-mentioned technical scheme, when the mould of depositing on the rack was more, adjust the relative position of peg graft pole and telescopic and lock to can adjust the vertical height of pin.

Optionally, the top of the sleeve is provided with a positioning hole which penetrates through the sleeve in the transverse direction, the side wall of the insertion rod is longitudinally provided with a plurality of insertion holes which correspond to the positioning hole at equal intervals, and the locking bolt is arranged by penetrating through the positioning hole and the insertion holes in sequence.

By adopting the technical scheme, when the height of the stop lever needs to be adjusted, the relative position of the sleeve and the insertion rod is adjusted, and the locking bolt is inserted into the positioning hole and the corresponding insertion hole, so that the sleeve and the insertion rod are locked.

Optionally, the top of the insertion rod is fixedly connected with a limiting block with a diameter larger than that of the sleeve.

Through adopting above-mentioned technical scheme, can prevent through setting up the stopper that the pole of pegging graft from getting into completely among the sleeve, can conveniently remove the pole of pegging graft simultaneously.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the molds are stored, the distance between the first cross beam and the second cross beam is adjusted according to the lengths of the molds, so that the molds with different lengths can be stored;

2. the guide rod is arranged between the first cross beam and the second cross beam, so that the second cross beam can move more stably;

3. the number of the die deposits can be changed by adjusting the longitudinal height of the stop lever.

Drawings

Fig. 1 is a schematic structural diagram of a rack in the background art.

Fig. 2 is a schematic structural view of the rack in this embodiment.

Fig. 3 is a schematic structural view of the embodying lever in the present embodiment.

Description of reference numerals: 1. a base; 2. a base plate; 21. a first cross member; 22. a second cross member; 23. a drive motor; 24. a lead screw; 25. a guide assembly; 251. a guide bar; 26. a bearing seat; 3. a stop lever; 31. a sleeve; 311. positioning holes; 32. a plug rod; 321. inserting holes; 33. locking the bolt; 34. and a limiting block.

Detailed Description

The present application is described in further detail below with reference to figures 2-3.

The embodiment of the application discloses a metal ingot is rack for mould. As shown in fig. 2, the placing rack includes a bottom plate 2 placed on the ground, a first beam 21 and a second beam 22 parallel to each other are disposed on the bottom plate 2, the first beam 21 is fixedly connected to the bottom plate 2, and the second beam 22 is slidably connected to the bottom plate 2. The bottom plate 2 is fixedly connected with a driving motor 23, a motor shaft of the driving motor 23 is fixedly connected with a lead screw 24 which sequentially penetrates through the first cross beam 21 and the second cross beam 22, the lead screw 24 is rotatably connected with the first cross beam 21, and the lead screw 24 is in threaded connection with the second cross beam 22. The stop lever 3 is fixedly connected to the ends of the first cross beam 21 and the second cross beam 22, and is vertically arranged upwards.

When the mold needs to be stored, the two ends of the mold are respectively overlapped on the first cross beam 21 and the second cross beam 22, when the length of the mold is smaller than the distance between the first cross beam 21 and the second cross beam 22, the driving motor 23 is started to drive the lead screw 24 to rotate, and the lead screw 24 can drive the second cross beam 22 to move towards the direction of the first cross beam 21 when rotating, so that the mold can be ensured to be overlapped on the first cross beam 21 and the second cross beam 22.

A guide assembly 25 is arranged between the first beam 21 and the second beam 22, the guide assembly 25 includes guide rods 251 fixedly connected to the side walls of the first beam 21 at two sides of the screw 24, and the guide rods 251 are slidably connected to the second beam 22. When the driving motor 23 drives the second beam 22 to move, the guide rod 251 can play a role in guiding, so that the second beam 22 can move more stably. The guide rod 251 and the end of the screw rod 24 far from the first beam 21 are rotatably connected with a bearing seat 26 fixed with the base plate 2, the screw rod 24 can be supported by the bearing seat 26, and the second beam 22 can move more stably.

As shown in fig. 2 and 3, the stop lever 3 includes a sleeve 31 and an insertion rod 32, the sleeve 31 is fixedly connected to the ends of the first beam 21 and the second beam 22, the insertion rod 32 is slidably inserted into the upper side of the sleeve 31, a positioning hole 311 is formed in the top of the sleeve 31 and transversely penetrates through the sleeve 31, a plurality of insertion holes 321 transversely penetrating through the insertion rod 32 are longitudinally formed in the side wall of the insertion rod 32 at equal intervals, and a locking bolt 33 is disposed through the positioning hole 311 and the insertion hole 321 in sequence, so that the sleeve 31 and the insertion rod 32 can be locked.

When a plurality of molds are stored on the placing frame, the longitudinal height of the stop lever 3 needs to be adjusted, the height of the stop lever 3 is increased by adjusting the relative position of the insertion rod 32 and the sleeve 31, and the insertion rod 32 and the sleeve 31 are locked and fixed by the locking bolt 33. The number of the molds to be stored can be increased at this time.

Still fixedly connected with diameter is greater than the stopper 34 of sleeve 31 at the top of slide bar, can prevent through setting up stopper 34 that peg graft pole 32 from getting into sleeve 31 completely among, can conveniently remove peg graft pole 32 simultaneously.

The implementation principle of the placing frame for the metal ingot mold is as follows: when the mold is stored, two ends of the mold are respectively overlapped on the first cross beam 21 and the second cross beam 22, so that the mold is stored. When the length of the mold is smaller than the distance between the first cross beam 21 and the second cross beam 22, the driving motor 23 is started to drive the screw rod 24 to rotate, and the screw rod 24 rotates to drive the second cross beam 22 to move towards the first cross beam 21, so that the mold can be lapped on the first cross beam 21 and the second cross beam 22.

When the number of the molds stored on the placing frame is large, the relative positions of the inserting rod 32 and the sleeve 31 are adjusted, the locking bolt 33 is used for locking, the longitudinal height of the stop lever 3 can be adjusted at the moment, and therefore more molds can be stored.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a metal ingot is rack for mould which characterized in that: including bottom plate (2), be provided with first crossbeam (21) and second crossbeam (22) that are parallel to each other on bottom plate (2), the vertical pin (3) that upwards sets up of both ends difference fixedly connected with of first crossbeam (21) and second crossbeam (22), the interval of first crossbeam (21) and second crossbeam (22) can be adjusted.

2. A rack for metal ingot molds according to claim 1, characterized in that: the first cross beam (21) is fixedly connected with the bottom plate (2), and the second cross beam (22) is connected with the bottom plate (2) in a sliding mode along the connecting line direction of the first cross beam (21) and the second cross beam (22).

3. A rack for metal ingot molds according to claim 2, characterized in that: fixedly connected with driving motor (23) on bottom plate (2), fixedly connected with passes lead screw (24) of first crossbeam (21) and second crossbeam (22) in proper order on driving motor (23), lead screw (24) rotate with first crossbeam (21) and are connected, lead screw (24) and second crossbeam (22) threaded connection.

4. A rack for metal ingot molds according to claim 3, characterized in that: and a guide assembly (25) which enables the second cross beam (22) to move along the connecting line direction of the first cross beam (21) and the second cross beam (22) is arranged between the first cross beam (21) and the second cross beam (22).

5. A rack for metal ingot molds according to claim 4, characterized in that: the guide assembly (25) comprises a pair of guide rods (251) fixedly connected to the side wall of the first cross beam (21) and slidably inserted into the second cross beam (22).

6. A rack for metal ingot molds according to any one of claims 1 to 5, characterized in that: the stop lever (3) comprises a sleeve (31) fixedly connected to two ends of the first cross beam (21) and the second cross beam (22) and an insertion rod (32) arranged above the sleeve (31), and the sleeve (31) and the insertion rod (32) are slidably inserted and locked.

7. A rack for metal ingot molds according to claim 6, characterized in that: the top of the sleeve (31) is provided with a positioning hole (311) which penetrates through the sleeve in the transverse direction, the side wall of the insertion rod (32) is longitudinally provided with a plurality of insertion holes (321) which correspond to the positioning hole (311) at equal intervals, and the locking bolt (33) is arranged by penetrating through the positioning hole (311) and the insertion holes (321) in sequence.

8. A rack for metal ingot molds according to claim 6, characterized in that: the top of the insertion rod (32) is fixedly connected with a limiting block (34) with the diameter larger than that of the sleeve (31).

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