CN114108404B - Solid sulfur mortar crushing equipment for rail sleeper - Google Patents

Abstract

The invention relates to crushing equipment, in particular to solid sulfur mortar crushing equipment for rail sleepers. The invention aims to provide solid sulfur mortar crushing equipment for rail sleepers, which improves crushing efficiency, reduces waste and reduces potential safety hazards. The technical scheme of the invention is as follows: a solid sulfur mortar crushing apparatus for rail sleeper, comprising: a base; the fixing component is connected between one sides of the base; stamping components, base one side all is connected with stamping components. According to the invention, the purpose of fixing the equipment and facilitating accurate crushing of solid sulfur mortar is achieved through the cooperation of the connecting block and the first connecting rod.

Description

Solid sulfur mortar crushing equipment for rail sleeper

Technical Field

The invention relates to crushing equipment, in particular to solid sulfur mortar crushing equipment for rail sleepers.

Background

The sulfur mortar is a novel thermoplastic material formed by mixing quartz sand and quartz powder according to a certain proportion when sulfur is heated to a certain temperature, and the sulfur mortar grows fast with the strength, has extremely excellent frost resistance, fatigue resistance and repeated load bearing capacity, and is widely used in various fields of civil engineering.

In the prior art, the equipment for crushing solid sulfur mortar is a jaw crusher, and the equipment has the advantages of simpler structure and low cost, but has a plurality of defects: the one-time receivable sulfur amount is not large, and the crushing efficiency is not high; the processed sulfur is too thin and is easy to blow away in the process of being sent to the combustion furnace, so that waste is caused, and the too thick sulfur is easy to be blocked at a feeding port of the combustion furnace, so that production is influenced; in the processing process, two jaw plates of the jaw crusher are continuously worn in and separated, spark is easy to generate, and sulfur is inflammable, so that the potential safety hazard is high.

Disclosure of Invention

In order to overcome the defects of low crushing efficiency, serious waste and large potential safety hazard, the technical problem to be solved is that: the solid sulfur mortar crushing equipment for the rail sleeper improves crushing efficiency, reduces waste and potential safety hazard.

The technical proposal is as follows: a solid sulfur mortar crushing apparatus for rail sleeper, comprising:

a base;

The fixing component is connected between one sides of the base;

Stamping components, base one side all is connected with stamping components.

Optionally, the fixing assembly includes:

the connecting blocks are connected between the two sides of the base;

The connecting plate is connected with two sides of one part of the base;

the first connecting rod is connected between one sides of the connecting plates;

The second connecting rod is connected between one sides of the connecting plates;

And the third connecting rods are connected between the two sides of the connecting plate.

Optionally, the punching assembly comprises:

the support rods are connected to two sides of one part of the base;

One side of the support rod is connected with a rib plate;

the cross bars are connected to one side of the rib plate, and the cross bars are connected with the supporting plate;

the first fixing blocks are connected to two sides of the cross rod;

the first guide rods are connected in the cross rods in a sliding manner;

The first springs are connected between the first guide rods and the first fixed blocks;

the transmission rods are connected in the first guide rods in a sliding manner;

the impact blocks are connected to one side of the transmission rod and are contacted with the base;

the second springs are connected between one side of the second fixed block and one side of the first guide rod;

And the transmission rods are connected with the second fixing blocks.

Optionally, a power storage assembly is further included, the power storage assembly including:

The second guide rods are connected in the fixed plates in a sliding manner, and are connected with the first connecting rod;

The third springs are connected between the fixed block and the sliding hammer;

the sliding hammers are connected to the second guide rods in a sliding manner;

The fixed plate is connected to one side of the sliding block;

the connecting plates are connected with the sliding blocks in a sliding manner;

The pushing rods are connected to one side of the fixed block;

a handle is connected between one sides of the push rods.

Optionally, a locking assembly is further included, the locking assembly including:

The connecting plates are connected with the fourth connecting rods in a sliding mode;

The first clamping blocks are connected to one side of the fourth connecting rod;

The fourth spring is connected between the connecting plate and the second clamping block;

the second clamping blocks are connected to one side of the fourth connecting rod;

and one side of the sliding block is connected with a third clamping block.

Optionally, a protection component is further included, and the protection component includes:

And one side of the connecting block is connected with a protecting cover.

The beneficial effects are that: 1. through the cooperation of connecting block connecting plate and head rod to reach the purpose of fixed this equipment be convenient for accurate crushing solid sulphur mortar.

2. The purpose of completely crushing the solid sulfur mortar is achieved through the cooperation of the supporting rod, the cross rod, the first guide rod and the impact block.

3. The second guide rod, the sliding hammer, the fixed plate and the sliding block are matched to achieve the purpose of providing power for crushing the solid sulfur mortar.

4. The first clamping block, the fourth connecting rod, the fourth spring and the second clamping block are matched, so that the purpose of locking the sliding hammer to stop moving downwards is achieved.

5. Through the cooperation of protection casing and connecting block to reach the purpose that locks this equipment and makes to stop crushing solid sulphur mortar.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic structural view of the fixing assembly of the present invention.

Fig. 3 is a schematic structural view of the punching assembly of the present invention.

FIG. 4 is a schematic diagram of a power storage assembly according to the present invention.

FIG. 5 is a schematic view of the locking assembly of the present invention.

FIG. 6 is a schematic view of a part of the components of the present invention.

Fig. 7 is a schematic structural view of the protection component of the present invention.

Reference numerals: 1_base, 2_fixing assembly, 21_connecting block, 22_connecting plate, 23_first connecting rod, 24_second connecting rod, 25_third connecting rod, 3_punching assembly, 31_supporting rod, 32_rib, 33_cross rod, 34_first fixing block, 35_first spring, 36_first rod, 37_driving rod, 38_strike block, 39_second spring, 310_second fixing block, 4_power storage assembly, 41_second guiding rod, 42_third spring, 43_sliding hammer, 44_fixing plate, 45_slider, 46_pushing rod, 47_handle, 5_locking assembly, 51_first clamping block, 52_fourth connecting rod, 53_fourth spring, 54_second clamping block, 55_third clamping block, 6_protection assembly, 61_protection cover.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Example 1

The utility model provides a solid sulphur mortar crushing apparatus for rail sleeper, as shown in figure 1, including base 1, fixed subassembly 2 and punching press subassembly 3, be connected with fixed subassembly 2 between the base 1 inboard, base 1 upside all is connected with punching press subassembly 3.

When the equipment is required to be used, a user can place the equipment on a rail sleeper, so that solid sulfur mortar is located on the inner sides of the base 1 and the fixing component 2, the purpose of fixing the equipment and facilitating accurate crushing of the solid sulfur mortar is achieved, then the stamping component 3 is manually operated, the stamping component 3 is enabled to strike the solid sulfur mortar, the repeated motion is carried out, the purpose of completely crushing the solid sulfur mortar is achieved, after the operation is finished, the impact component is enabled to stop working, then the equipment is moved away, and when the equipment is used again, the repeated operation can be achieved.

As shown in fig. 2, the fixing assembly 2 includes a connecting block 21, a connecting plate 22, a first connecting rod 23, a second connecting rod 24 and a third connecting rod 25, wherein the connecting block 21 is connected between the front side and the rear side of the base 1, the connecting plates 22 are connected on the left side and the right side of the upper portion of the base 1, the first connecting rod 23 is connected between the inner sides of the connecting plates 22, the second connecting rod 24 is connected between the rear sides of the connecting plates 22, and the third connecting rod 25 is connected between the front side and the rear side of the connecting plates 22.

When the equipment is required to be used, a user can place the equipment on a rail sleeper, so that the solid sulfur mortar is positioned on the inner sides of the base 1 and the connecting block 21, the purpose of fixing the equipment and facilitating accurate crushing of the solid sulfur mortar is achieved, the follow-up operation is continued, when the solid sulfur mortar is completely crushed, the equipment is manually moved away, and when the equipment is reused, the operation is repeated.

As shown in fig. 3, the stamping assembly 3 includes a supporting rod 31, a rib plate 32, a cross rod 33, a first fixing block 34, a first spring 35, a first guide rod 36, a transmission rod 37, a striking block 38, a second spring 39 and a second fixing block 310, wherein the left side and the right side of the upper portion of the base 1 are respectively connected with the supporting rod 31, the inner side of the supporting rod 31 is respectively connected with the rib plate 32, the upper side of the rib plate 32 is respectively connected with the cross rod 33, the cross rod 33 is connected with the supporting plate, the front side and the rear side of the cross rod 33 are respectively connected with the first fixing block 34, the first guide rod 36 is respectively connected with the first spring 35 in the cross rod 33, the transmission rod 37 is respectively connected with the second fixing block 310 in the first guide rod 36, the second spring 39 is respectively connected between the upper side of the second fixing block 310 and the lower side of the first guide rod 36, the lower side of the transmission rod 37 is respectively connected with the striking block 38, and the striking block 38 is contacted with the base 1.

When the solid sulfur mortar is located inside the base 1 and the connecting block 21, a user presses the transmission rod 37 downwards, so that the transmission rod 37 moves downwards in the first guide rod 36, the second spring 39 is stretched, the transmission rod 37 moves inwards to drive the first guide rod 36 to slide inwards in the cross rod 33, the first spring 35 is stretched, the transmission rod 37 moves inwards to drive the impact block 38 to contact with the solid sulfur mortar, the transmission rod 37 is released, the transmission rod 37 moves upwards under the reset action of the first spring 35, the transmission rod 37 moves outwards to be in place under the reset action of the second spring 39, and the transmission rod 37 is repeatedly moved, so that the aim of completely crushing the solid sulfur mortar is fulfilled, and after the operation is finished, the transmission rod 37 is stopped being pressed.

As shown in fig. 4, the power storage device further comprises a power storage component 4, the power storage component 4 comprises a second guide rod 41, a third spring 42, a sliding hammer 43, a fixing plate 44, a sliding block 45, a pushing rod 46 and a handle 47, wherein the sliding blocks 45 are connected to the connecting plate 22 in a sliding manner, the fixing plate 44 is connected to the inner side of the sliding block 45 in a sliding manner, the second guide rod 41 is connected to the first connecting rod 23 in a sliding manner, the sliding hammer 43 is connected to the second guide rod 41 in a sliding manner, the third spring 42 is connected between the fixing block and the sliding hammer 43, the pushing rod 46 is connected to the upper side of the fixing block, and the handle 47 is connected to the upper side of the pushing rod 46.

When the solid sulfur mortar is located inside the base 1 and the connecting block 21, a user presses the handle 47 downwards, so that the handle moves downwards, the handle moves downwards to drive the push rod 46 to move downwards, the push rod 46 moves downwards to drive the fixing plate 44 to slide downwards on the second guide rod 41, at this time, the third spring 42 is compressed, the fixing plate 44 slides downwards to drive the sliding block 45 to slide downwards on the connecting plate 22, then the sliding hammer 43 moves downwards on the second guide rod 41 to contact with the transmission rod 37, the purpose of providing power for crushing the solid sulfur mortar is achieved, after the operation is finished, the handle is loosened, and under the reset action of the third spring 42, the fixing block moves upwards to the original position.

As shown in fig. 5 and 6, the locking assembly 5 further comprises a locking assembly 5, wherein the locking assembly 5 comprises a first clamping block 51, a fourth connecting rod 52, a fourth spring 53, a second clamping block 54 and a third clamping block 55, the fourth connecting rod 52 is connected in the connecting plate 22 in a sliding manner, the outer side of the fourth connecting rod 52 is connected with the first clamping block 51, the inner side of the fourth connecting rod 52 is connected with the second clamping block 54, the fourth spring 53 is connected between the connecting plate 22 and the second clamping block 54, and the outer side of the sliding block 45 is connected with the third clamping block 55.

When the fixed block slides downwards on the second guide rod 41, the sliding block 45 is driven to slide downwards on the connecting plate 22, the sliding block 45 slides downwards to drive the third clamping block 55 to move downwards, when the third clamping block 55 moves downwards to be in contact with the first clamping block 51, the fourth connecting rod 52 slides outwards in the connecting rod, the fourth spring 53 is compressed at the moment, the fourth connecting rod 52 slides outwards to drive the second clamping block 54 to move outwards, at the moment, the sliding hammer 43 can move downwards, the subsequent operation is continued, under the reset action of the third spring 42, the sliding hammer 43 slides upwards in the second guide rod 41, the fixed plate 44 slides upwards to drive the sliding block 45 to slide upwards on the connecting rod, then the third clamping block 55 is driven to move upwards, when the third clamping block 55 moves upwards to be out of contact with the first clamping block 51, the fourth connecting rod 52 moves inwards in the connecting rod under the reset action of the fourth spring 53, then the second clamping block 54 moves inwards, the gravity force is driven to move downwards, then the sliding hammer 43 moves downwards to stop sliding the second clamping block 54 from moving downwards under the reset action of the sliding spring 42, and the sliding block is locked to stop the movement of the second clamping block is enabled to contact with the solid mortar.

As shown in fig. 7, the protection component 6 is further included, the protection component 6 includes a protection cover 61, and the protection cover 61 is connected to the upper sides of the connection blocks 21.

When the impact block 38 moves inwards for a plurality of times, the solid sulfur mortar is completely crushed, then under the protection effect of the protective cover 61, the purpose of preventing the sulfur mortar from splashing is achieved, after the operation is finished, a user moves away the device to intensively clean the sulfur mortar, and when the device is used again, the operation is repeated.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (2)

1. A solid sulfur mortar crushing apparatus for rail sleeper, comprising:

a base (1);

the fixing assembly (2) is connected between one sides of the base (1);

The stamping assembly (3) is connected to one side of the base (1);

the fixing assembly (2) comprises:

the connecting blocks (21) are connected between the two sides of the base (1);

The connecting plate (22) is connected with the two sides of one part of the base (1);

a first connecting rod (23), wherein the first connecting rod (23) is connected between one sides of the connecting plates (22);

the second connecting rod (24) is connected between one sides of the connecting plates (22), and the second connecting rod (24) is connected between one sides of the connecting plates;

The third connecting rod (25) is connected between the two sides of the connecting plate (22);

The punching assembly (3) comprises:

A support rod (31), wherein both sides of one part of the base (1) are connected with the support rod (31);

the rib plates (32) are connected with one side of the supporting rod (31);

the cross rods (33) are connected to one side of the rib plates (32), and the cross rods (33) are connected with the supporting plate;

the first fixing blocks (34) are connected with the two sides of the cross rod (33);

the first guide rods (36) are connected with the first guide rods (36) in a sliding mode in the cross rods (33);

The first springs (35), the first springs (35) are connected between the first guide rods (36) and the first fixed blocks (34);

The transmission rods (37) are connected with the transmission rods (37) in a sliding mode in the first guide rods (36);

The impact blocks (38), one side of the transmission rod (37) is connected with the impact blocks (38), and the impact blocks (38) are contacted with the base (1);

the second springs (39) are connected between one side of the second fixed block (310) and one side of the first guide rod (36);

the second fixed blocks (310) are connected with the transmission rods (37);

The device also comprises a force storage component (4), wherein the force storage component (4) comprises:

The second guide rods (41) are connected in the fixed plates (44) in a sliding mode, and the second guide rods (41) are connected with the first connecting rods (23);

the third springs (42), are connected with the third springs (42) between the fixed block and the sliding hammer (43);

The sliding hammers (43) are connected with the second guide rods (41) in a sliding manner, and the sliding hammers (43) are connected with the second guide rods (41) in a sliding manner;

a fixed plate (44), one side of the sliding block (45) is connected with the fixed plate (44);

the sliding blocks (45) are connected with the connecting plates (22) in a sliding manner;

a pushing rod (46), wherein one side of the fixed block is connected with the pushing rod (46);

a handle (47), wherein the handle (47) is connected between one sides of the pushing rods (46);

also including locking subassembly (5), locking subassembly (5) include:

the fourth connecting rods (52) are connected in the connecting plates (22) in a sliding mode, and the fourth connecting rods (52) are connected in a sliding mode;

the first clamping blocks (51) are connected to one side of the fourth connecting rod (52);

a fourth spring (53), wherein the fourth spring (53) is connected between the connecting plate (22) and the second clamping block (54);

the second clamping blocks (54) are connected to one side of the fourth connecting rod (52);

and one side of the sliding block (45) is connected with a third clamping block (55).

2. A solid sulphur mortar crushing plant for rail sleepers, according to claim 1, characterized in that it further comprises a protective assembly (6), the protective assembly (6) comprising:

And the protection covers (61) are connected to one sides of the connecting blocks (21).