CN211652369U - Detect with stone extrusion device - Google Patents

Abstract

The utility model relates to an extrusion device, more specifically the stone extrusion device is used in detection that says so, including trigger mechanism, chassis mechanism, floating frame mechanism, negative pressure fan mechanism, reciprocating drive mechanism, extrusion mechanism, the device can extrude the building stones, the device can switch the mode and realize discharging the rubble, the device can reduce the smoke and dust, trigger mechanism links to each other with chassis mechanism, chassis mechanism links to each other with floating frame mechanism, floating frame mechanism links to each other with trigger mechanism, negative pressure fan mechanism links to each other with reciprocating drive mechanism, reciprocating drive mechanism links to each other with extrusion mechanism, negative pressure fan mechanism links to each other with extrusion mechanism, chassis mechanism links to each other with extrusion mechanism.

Description

Detect with stone extrusion device

Technical Field

The utility model relates to an extrusion device, more specifically the stone extrusion device is used in detection that says so.

Background

In the test of building stones intensity, often can pressurize building stones, traditional extrusion device does not have the counter-measure to the not good problem of clearing up of building stones after crowded garrulous, and hits the raise dust that garrulous produced and also can't solve, so design a detection and use building stones extrusion device.

Disclosure of Invention

The utility model provides a detect and use stone material extrusion device, the beneficial effect is that the device can extrude the building stones, and the device can switch the mode and realize discharging the rubble, and the device can reduce the smoke and dust.

In order to solve the technical problem, the utility model relates to an extrusion device, more specifically the survey with stone extrusion device that says so, including trigger mechanism, chassis mechanism, floating frame mechanism, negative pressure fan mechanism, reciprocating drive mechanism, extrusion mechanism, the device can extrude building stones, and the device can switch the mode and realize discharging the rubble, and the device can reduce the smoke and dust.

The trigger mechanism comprises a pulley, a pulley support, a connecting seat, a sliding rod, a spring and a first stepped rod, wherein the pulley and the pulley support are connected in a bearing mode;

the chassis mechanism comprises supporting legs, a seat body, a stepped hole, a vertical hole, a grooved cam, a cam motor, an internal groove and a vibration sliding hole, wherein the supporting legs are connected with the seat body;

the floating frame mechanism comprises a step rod II, a perforated limiting head, a vibrating spring, a pressed seat, a matching groove and an outlet hole, the step rod II is connected with the pressed seat, the perforated limiting head is connected with the pressed seat, the vibrating spring is sleeved on the step rod II, the matching groove is formed in the pressed seat, the outlet hole is formed in the pressed seat, the step rod II is connected with a vibrating sliding hole in a sliding mode, the perforated limiting head is matched with the vertical hole, and the step rod I is matched with the perforated limiting head;

the negative pressure fan mechanism comprises a fan box, an air outlet, a fan motor belt pulley, a fan motor, a belt, a matching bump, a fan blade belt pulley, an impeller, an air inlet hole and a shaft, wherein the air outlet is formed in the fan box;

the reciprocating driving mechanism comprises an arc-shaped seat, an arc-shaped groove, a fixed seat, a driven gear, a threaded rod, a motor gear, a servo motor, a stepped groove I, a stepped seat I, a sleeve, a spring A and a wheel with a seat, wherein the arc-shaped groove is formed in the arc-shaped seat, the arc-shaped seat is connected with the fixed seat, the driven gear is connected with the threaded rod, the threaded rod is connected with the fixed seat in a bearing mode, the driven gear is connected with the motor gear, the motor gear is connected with the servo motor, the servo motor is connected with the fixed seat, the stepped groove I is formed in the fixed seat, the stepped seat I is in sliding connection with the stepped groove I, the stepped seat I is in threaded connection with the threaded rod, the stepped seat I is connected with the sleeve, the sleeve is connected with the spring A, the spring A is connected with the wheel with the seat, the wheel with;

the extrusion mechanism comprises a frame body, an extrusion seat, a T-shaped groove, a slide rod with a seat, a hinge joint, a hydraulic cylinder and a special-shaped frame, wherein the extrusion seat is connected with the slide rod with the seat, the slide rod with the seat is connected with the T-shaped groove in a sliding manner, the T-shaped groove is formed in the special-shaped frame, the special-shaped frame is connected with the frame body, the frame body is hinged with the fan box, the slide rod with the seat is hinged with the hinge joint, the hinge joint is hinged with the hydraulic cylinder, the hydraulic cylinder is hinged with the special-shaped frame, a fixed seat is connected;

the trigger mechanism is connected with the chassis mechanism, the chassis mechanism is connected with the floating frame mechanism, the floating frame mechanism is connected with the trigger mechanism, the negative pressure fan mechanism is connected with the reciprocating drive mechanism, the reciprocating drive mechanism is connected with the extrusion mechanism, the negative pressure fan mechanism is connected with the extrusion mechanism, and the chassis mechanism is connected with the extrusion mechanism.

As the further optimization of the technical scheme, the utility model relates to a detect with stone extrusion device the high manganese steel is chooseed for use to the material of pressurized seat, extrusion seat.

The utility model relates to a detect with stone extrusion device's beneficial effect does:

the utility model relates to a detect with stone extrusion device, the device can extrude building stones, and the device can switch the mode and realize discharging the rubble, and the device can reduce the smoke and dust.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the overall structure schematic diagram of the utility model relates to a survey and use aggregate extrusion device.

Fig. 2 is the utility model relates to a detect with stone material extrusion device's trigger mechanism 1's schematic structure.

Fig. 3 is a schematic structural diagram of the chassis mechanism 2 of the device for extruding aggregate for detection.

Fig. 4 is a schematic structural diagram of grooved cams 2-5 of the extruding device for detecting stone of the present invention.

Fig. 5 is a schematic structural diagram of the floating frame mechanism 3 of the extruding device for detecting stone of the present invention.

Fig. 6 is a schematic structural diagram of the negative pressure fan mechanism 4 of the extruding device for detecting stone of the present invention.

Fig. 7 is a schematic structural diagram of the reciprocating driving mechanism 5 of the device for extruding aggregate for detection according to the present invention.

Fig. 8 is a schematic structural diagram of the extruding mechanism 6 of the stone extruding device for detection.

In the figure: a trigger mechanism 1; 1-1 of a pulley; 1-2 of a pulley support; connecting seats 1-3; 1-4 slide bars; 1-5 of a spring; 1-6 of a stair rod I; an underframe mechanism 2; 2-1 of supporting legs; 2-2 of a seat body; 2-3 of a stepped hole; 2-4 of vertical holes; grooved cams 2-5; 2-6 parts of a cam motor; inner tanks 2-7; 2-8 of a vibration slide hole; a floating frame mechanism 3; a second stair rod 3-1; a limiting head with a hole 3-2; 3-3 of a vibration spring; 3-4 parts of a pressure seat; 3-5 of a matching groove; an outlet 3-6; a negative pressure fan mechanism 4; a fan case 4-1; an air outlet 4-2; 4-3 of a fan motor belt pulley; 4-4 of a fan motor; 4-5 of a belt; 4-6 of a matching lug; fan blade belt pulleys 4-7; 4-8 parts of an impeller; 4-9 of air inlet holes; 4-10 of a shaft; a reciprocating drive mechanism 5; 5-1 of an arc seat; 5-2 of an arc-shaped groove; 5-3 of a fixed seat; 5-4 parts of driven gear; 5-5 parts of a threaded rod; 5-6 parts of a motor gear; 5-7 of a servo motor; a stepped groove I5-8; a step seat I5-9; 5-10 parts of a sleeve; spring A5-11; 5-12 parts of a belt seat wheel; an extrusion mechanism 6; a frame body 6-1; 6-2 of an extrusion seat; t-shaped grooves 6-3; 6-4 of a slide bar with a seat; a hinge joint 6-5; 6-6 of a hydraulic cylinder; and a special-shaped frame 6-7.

Detailed Description

The first embodiment is as follows:

the following description of the present embodiment is provided with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the present invention relates to an extrusion device, and more specifically to a detection stone extrusion device, which comprises a trigger mechanism 1, an underframe mechanism 2, a floating frame mechanism 3, a negative pressure fan mechanism 4, a reciprocating drive mechanism 5, and an extrusion mechanism 6, wherein the device can extrude stone, and can switch modes to discharge stone, and reduce smoke and dust.

The trigger mechanism 1 comprises a pulley 1-1, a pulley support 1-2, a connecting seat 1-3, a sliding rod 1-4, a spring 1-5 and a step rod 1-6, the pulley 1-1 and the pulley support 1-2 are connected in a bearing mode, the pulley support 1-2 is connected with the connecting seat 1-3, the connecting seat 1-3 is connected with the sliding rod 1-4, the sliding rod 1-4 is connected with the step rod 1-6, and the spring 1-5 is sleeved on the sliding rod 1-4;

the chassis mechanism 2 comprises supporting legs 2-1, a seat body 2-2, a stepped hole 2-3, a vertical hole 2-4, a grooved cam 2-5, a cam motor 2-6, an internal groove 2-7 and a vibration slide hole 2-8, wherein the supporting legs 2-1 are connected with the seat body 2-2, the stepped hole 2-3 is formed in the seat body 2-2, the vertical hole 2-4 is formed in the seat body 2-2, the grooved cam 2-5 is connected with the seat body 2-2 in a bearing manner, the grooved cam 2-5 is connected with the cam motor 2-6, the cam motor 2-6 is arranged in the internal groove 2-7, the internal groove 2-7 is formed in the seat body 2-2, a spring 1-5 is arranged in the stepped hole 2-3, and a step rod 1-6 is connected with the stepped hole 2-3 in a sliding manner, the vibration sliding hole 2-8 is arranged on the seat body 2-2;

the floating frame mechanism 3 comprises a step rod II 3-1, a limiting head with a hole 3-2, a vibration spring 3-3, a pressed seat 3-4, a matching groove 3-5 and an outlet hole 3-6, wherein the step rod II 3-1 is connected with the pressed seat 3-4, the limiting head with the hole 3-2 is connected with the pressed seat 3-4, the vibration spring 3-3 is sleeved on the step rod II 3-1, the matching groove 3-5 is arranged on the pressed seat 3-4, the outlet hole 3-6 is arranged on the pressed seat 3-4, the step rod II 3-1 is in sliding connection with a vibration slide hole 2-8, the limiting head with the hole 3-2 is matched with a vertical hole 2-4, the step rod I1-6 is matched with the limiting head with the hole 3-2, a cam with the groove 2-5 is driven to rotate for 90 degrees by the operation of a cam motor 2-6, the grooved cam 2-5 rotates 90 degrees to drive the pulley 1-1 to move towards two sides, the pulley 1-1 moves towards two sides to drive the pulley support 1-2 to move towards two sides, the pulley support 1-2 moves towards two sides to drive the step rod 1-6 to move towards two sides, so that the step rod 1-6 is separated from the hole limiting head 3-2 to be separated from the matching, the vibration spring 3-3 rebounds upwards, the pressed seat 3-4 vibrates, small broken stones crushed under the vibration can leak from the outlet hole 3-6, the broken stones can be conveniently cleaned, after the cleaning is finished, hydraulic oil is injected into the hydraulic cylinder 6-6 to drive the extrusion seat 6-2 to move downwards, the extrusion seat 6-2 can drive the pressed seat 3-4 to reset, then the cam motor 2-6 is operated to drive the grooved cam 2-5 to continue to rotate 90 degrees, thus, under the resilience action of the spring 1-5, the first step rod 1-6 can be reinserted into the hole of the limiting head 3-2 with the hole;

the negative pressure fan mechanism 4 comprises a fan case 4-1, an air outlet 4-2, a fan motor belt pulley 4-3, a fan motor 4-4, a belt 4-5, a matching bump 4-6, a fan blade belt pulley 4-7, an impeller 4-8, an air inlet 4-9 and a shaft 4-10, wherein the air outlet 4-2 is arranged on the fan case 4-1, the fan motor belt pulley 4-3 is connected with the fan motor 4-4, the fan motor 4-4 is connected with the fan case 4-1, the fan motor belt pulley 4-3 is flexibly connected with the belt 4-5, the belt 4-5 is flexibly connected with the fan blade belt pulley 4-7, the fan blade belt pulley 4-7 is connected with the shaft 4-10, the shaft 4-10 is connected with the fan case 4-1 by a bearing, the shaft 4-10 is connected with the impeller 4-8, and the matching lug 4-6 is connected with the fan case 4-1;

the reciprocating driving mechanism 5 comprises an arc-shaped seat 5-1, an arc-shaped groove 5-2, a fixed seat 5-3, a driven gear 5-4, a threaded rod 5-5, a motor gear 5-6, a servo motor 5-7, a step groove I5-8, a step seat I5-9, a sleeve 5-10, a spring A5-11 and a wheel with a seat 5-12, wherein the arc-shaped groove 5-2 is arranged on the arc-shaped seat 5-1, the arc-shaped seat 5-1 is connected with the fixed seat 5-3, the driven gear 5-4 is connected with the threaded rod 5-5, the threaded rod 5-5 is connected with the fixed seat 5-3 through a bearing, the driven gear 5-4 is connected with the motor gear 5-6, the motor gear 5-6 is connected with the servo motor 5-7, the servo motor 5-7 is connected with the fixed seat 5-3, the step groove I5-8 is arranged on the fixed seat 5-3, the step seat I5-9 is connected with the step groove I5-8 in a sliding way, the step seat I5-9 is connected with the threaded rod 5-5 through threads, the step seat I5-9 is connected with the sleeve 5-10, the sleeve 5-10 is connected with the spring A5-11, the spring A5-11 is connected with the wheel with seat 5-12, the wheel with seat 5-12 is connected with the sleeve 5-10 in a sliding way, the matching lug 4-6 is connected with the arc groove 5-2 in a sliding way, the wheel with seat 5-12 is matched with the fan box 4-1 in a contact way, the fan motor pulley 4-3 is driven to rotate through the operation of the fan motor 4-4, the fan motor pulley 4-3 drives the fan blade 4-7 to rotate through the belt 4-5, the blade belt pulley 4-7 rotates to drive the impeller 4-8 to rotate, the impeller 4-8 rotates to form negative pressure, raised dust generated by crushed stone is sucked from the air inlet 4-9 under the drive of the negative pressure, clean air is discharged from the air outlet 4-2, the servo motor 5-7 is repeatedly operated in the forward direction and the reverse direction in the process, the servo motor 5-7 drives the motor gear 5-6 to repeatedly rotate in the forward direction and the reverse direction, the motor gear 5-6 drives the driven gear 5-4 to repeatedly rotate in the forward direction and the reverse direction, the driven gear 5-4 drives the threaded rod 5-5 to repeatedly rotate in the forward direction and the reverse direction, the threaded rod 5-5 to repeatedly rotate in the forward direction and the reverse direction drives the stepped seat I5-9 to reciprocate in the stepped groove I5-8, and the stepped seat I5-9 drives the wheel with the seat 5-12 to reciprocate in the linear motion, when the wheel with seat 5-12 moves towards the edge of the fan box 4-1, the spring A5-11 can be gradually released to press the fan box 4-1, and when the wheel with seat 5-12 moves towards the middle of the fan box 4-1, the spring A5-11 can be gradually compressed, so that the fan box 4-1 can swing under the driving of the spring A5-11, thereby realizing the change of the wind direction and further expanding the purification range;

the extrusion mechanism 6 comprises a frame body 6-1, an extrusion seat 6-2, a T-shaped groove 6-3, a slide bar with a seat 6-4, a hinge joint 6-5, a hydraulic cylinder 6-6 and a special-shaped frame 6-7, wherein the extrusion seat 6-2 is connected with the slide bar with a seat 6-4, the slide bar with a seat 6-4 is connected with the T-shaped groove 6-3 in a sliding way, the T-shaped groove 6-3 is arranged on the special-shaped frame 6-7, the special-shaped frame 6-7 is connected with the frame body 6-1, the frame body 6-1 is hinged with a fan box 4-1, the slide bar with a seat 6-4 is hinged with the hinge joint 6-5, the hinge joint 6-5 is hinged with the hydraulic cylinder 6-6, the hydraulic cylinder 6-6 is hinged with the special-shaped frame 6-7, and a fixed seat 5, the support legs 2-1 are connected with the frame body 6-1, stone is placed on the matching grooves 3-5, then hydraulic oil is injected into the hydraulic cylinders 6-6, the hinged joints 6-5 can move under the driving of the oil pressure, the hinged joints 6-5 can drive the slide bars with seats 6-4 to move downwards when moving, the slide bars with seats 6-4 can drive the extrusion seats 6-2 to move downwards when moving downwards, the extrusion seats 6-2 can drive the stone on the matching grooves 3-5 to be extruded when moving downwards, and the hydraulic oil is reversely injected into the hydraulic cylinders 6-6 after extrusion is finished to drive the extrusion seats 6-2 to reset;

the trigger mechanism 1 is connected with the chassis mechanism 2, the chassis mechanism 2 is connected with the floating frame mechanism 3, the floating frame mechanism 3 is connected with the trigger mechanism 1, the negative pressure fan mechanism 4 is connected with the reciprocating driving mechanism 5, the reciprocating driving mechanism 5 is connected with the extrusion mechanism 6, the negative pressure fan mechanism 4 is connected with the extrusion mechanism 6, and the chassis mechanism 2 is connected with the extrusion mechanism 6.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 8, and the present embodiment further describes the first embodiment, and the material of the pressure seat 3-4 and the extrusion seat 6-2 is high manganese steel.

The utility model discloses a theory of operation is: the device can extrude stone, the stone is placed on a matching groove 3-5, then hydraulic oil is injected into a hydraulic cylinder 6-6, a hinged joint 6-5 can move under the driving of the oil pressure, the hinged joint 6-5 can drive a slide rod 6-4 with a seat to move downwards, the slide rod 6-4 with the seat can drive an extrusion seat 6-2 to move downwards, the extrusion seat 6-2 can drive the stone on the matching groove 3-5 to be extruded when moving downwards, and the hydraulic oil is reversely injected into the hydraulic cylinder 6-6 after extrusion is finished to drive the extrusion seat 6-2 to reset; the device can realize the discharge of the crushed stones by switching modes, the cam motor 2-6 is operated to drive the grooved cam 2-5 to rotate 90 degrees, the grooved cam 2-5 rotates 90 degrees to drive the pulley 1-1 to move towards two sides, the pulley 1-1 moves towards two sides to drive the pulley support 1-2 to move towards two sides, the pulley support 1-2 moves towards two sides to drive the step rod 1-6 to move towards two sides, so that the step rod 1-6 is separated from the hole limiting head 3-2 to be separated from the matching, so that the vibration spring 3-3 rebounds upwards, the pressed seat 3-4 vibrates, small crushed stones are leaked from the outlet hole 3-6 under the vibration, the crushed stones are convenient to be cleaned, after the cleaning is finished, hydraulic oil is injected into the hydraulic cylinder 6-6 to drive the extrusion seat 6-2 to move downwards, the extrusion seat 6-2 can drive the compression seat 3-4 to reset, then the cam motor 2-6 is operated to drive the grooved cam 2-5 to continue to rotate for 90 degrees, so that the first step rod 1-6 can be reinserted into the hole of the hole limiting head 3-2 under the resilience action of the spring 1-5; the device can reduce smoke dust, the fan motor belt pulley 4-3 is driven to rotate by the operation of the fan motor 4-4, the fan motor belt pulley 4-3 rotates to drive the fan blade belt pulley 4-7 to rotate by the belt 4-5, the fan blade belt pulley 4-7 rotates to drive the impeller 4-8 to rotate, the impeller 4-8 rotates to form negative pressure, raised dust generated by crushed stone materials is sucked from the air inlet 4-9 under the drive of the negative pressure, clean air is discharged from the air outlet 4-2, the servo motor 5-7 is repeatedly operated in the forward direction and the reverse direction in the process, the servo motor 5-7 drives the motor gear 5-6 to repeatedly rotate in the forward direction and the reverse direction, the motor gear 5-6 drives the driven gear 5-4 to repeatedly rotate in the forward direction and the reverse direction, And when the driven gear 5-4 rotates reversely, the driven gear 5-4 drives the threaded rod 5-5 to rotate forwards and reversely repeatedly, the threaded rod 5-5 rotates forwards and reversely repeatedly to drive the stepped seat I5-9 to do reciprocating linear motion in the stepped groove I5-8, the stepped seat I5-9 drives the wheel with the seat 5-12 to do reciprocating linear motion, when the wheel with the seat 5-12 moves towards the edge of the fan box 4-1, the spring A5-11 gradually releases to press the fan box 4-1, and when the wheel with the seat 5-12 moves towards the middle of the fan box 4-1, the spring A5-11 is gradually compressed, so that the fan box 4-1 swings under the driving of the spring A5-11, the wind direction is changed, and the purification range can be enlarged.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (2)

1. The utility model provides a detect with stone extrusion device, includes trigger mechanism (1), chassis mechanism (2), float frame mechanism (3), negative pressure fan mechanism (4), reciprocating drive mechanism (5), extrusion mechanism (6), its characterized in that: the trigger mechanism (1) comprises a pulley (1-1), a pulley support (1-2), a connecting seat (1-3), a sliding rod (1-4), a spring (1-5) and a step rod I (1-6), the pulley (1-1) and the pulley support (1-2) are connected in a bearing mode, the pulley support (1-2) is connected with the connecting seat (1-3), the connecting seat (1-3) is connected with the sliding rod (1-4), the sliding rod (1-4) is connected with the step rod I (1-6), and the spring (1-5) is sleeved on the sliding rod (1-4);

the chassis mechanism (2) comprises supporting legs (2-1), a seat body (2-2), stepped holes (2-3), vertical holes (2-4), grooved cams (2-5), cam motors (2-6), internal grooves (2-7) and vibration sliding holes (2-8), wherein the supporting legs (2-1) are connected with the seat body (2-2), the stepped holes (2-3) are formed in the seat body (2-2), the vertical holes (2-4) are formed in the seat body (2-2), the grooved cams (2-5) and the seat body (2-2) are connected in a bearing mode, the grooved cams (2-5) are connected with the cam motors (2-6), the cam motors (2-6) are arranged in the internal grooves (2-7), the internal grooves (2-7) are formed in the seat body (2-2), the springs (1-5) are arranged in the stepped holes (2-3), the stepped rods (1-6) are connected with the stepped holes (2-3) in a sliding mode, and the vibration sliding holes (2-8) are formed in the seat body (2-2);

the floating frame mechanism (3) comprises a step rod II (3-1), a perforated limiting head (3-2), a vibration spring (3-3), a pressed seat (3-4), a matching groove (3-5) and an outlet hole (3-6), the step rod II (3-1) is connected with the pressed seat (3-4), the perforated limiting head (3-2) is connected with the pressed seat (3-4), the vibration spring (3-3) is sleeved on the step rod II (3-1), the matching groove (3-5) is arranged on the pressed seat (3-4), the outlet hole (3-6) is arranged on the pressed seat (3-4), the step rod II (3-1) is slidably connected with the vibration sliding hole (2-8), the perforated limiting head (3-2) is matched with a vertical hole (2-4), the step rod I (1-6) is matched with the limiting head (3-2) with the hole;

the negative pressure fan mechanism (4) comprises a fan box (4-1), an air outlet (4-2), a fan motor belt pulley (4-3), a fan motor (4-4), a belt (4-5), a matching bump (4-6), a fan blade belt pulley (4-7), an impeller (4-8), an air inlet (4-9) and a shaft (4-10), wherein the air outlet (4-2) is formed in the fan box (4-1), the fan motor belt pulley (4-3) is connected with the fan motor (4-4), the fan motor (4-4) is connected with the fan box (4-1), the fan motor belt pulley (4-3) is flexibly connected with the belt (4-5), and the belt (4-5) is flexibly connected with the fan blade belt pulley (4-7), the fan blade belt pulley (4-7) is connected with the shaft (4-10), the shaft (4-10) is connected with the fan box (4-1) in a bearing mode, the shaft (4-10) is connected with the impeller (4-8), and the matching bump (4-6) is connected with the fan box (4-1);

the reciprocating driving mechanism (5) comprises an arc-shaped seat (5-1), an arc-shaped groove (5-2), a fixed seat (5-3), a driven gear (5-4), a threaded rod (5-5), a motor gear (5-6), a servo motor (5-7), a step groove I (5-8), a step seat I (5-9), a sleeve (5-10), a spring A (5-11) and a wheel with a seat (5-12), wherein the arc-shaped groove (5-2) is arranged on the arc-shaped seat (5-1), the arc-shaped seat (5-1) is connected with the fixed seat (5-3), the driven gear (5-4) is connected with the threaded rod (5-5), the threaded rod (5-5) is connected with the fixed seat (5-3) in a bearing manner, the driven gear (5-4) is connected with the motor gear (5-6), the motor gear (5-6) is connected with the servo motor (5-7), the servo motor (5-7) is connected with the fixed seat (5-3), the stepped groove I (5-8) is formed in the fixed seat (5-3), the stepped seat I (5-9) is in sliding connection with the stepped groove I (5-8), the stepped seat I (5-9) is in threaded connection with the threaded rod (5-5), the stepped seat I (5-9) is connected with the sleeve (5-10), the sleeve (5-10) is connected with the spring A (5-11), the spring A (5-11) is connected with the wheel with the seat (5-12), the wheel with the seat (5-12) is in sliding connection with the sleeve (5-10), the matching bump (4-6) is in sliding connection with the arc-shaped groove (5-2), and the wheel with the seat (5-12) is in contact matching with the fan box (4-1);

the extrusion mechanism (6) comprises a frame body (6-1), an extrusion seat (6-2), a T-shaped groove (6-3), a slide rod with a seat (6-4), a hinge joint (6-5), a hydraulic cylinder (6-6) and a special-shaped frame (6-7), the extrusion seat (6-2) is connected with the slide rod with a seat (6-4), the slide rod with a seat (6-4) is connected with the T-shaped groove (6-3) in a sliding manner, the T-shaped groove (6-3) is arranged on the special-shaped frame (6-7), the special-shaped frame (6-7) is connected with the frame body (6-1), the frame body (6-1) is hinged with a fan box (4-1), the slide rod with a seat (6-4) is hinged with the hinge joint (6-5), the hinge joint (6-5) is hinged with the hydraulic cylinder (6-6), the hydraulic cylinder (6-6) is hinged with the special-shaped frame (6-7), the fixed seat (5-3) is connected with the frame body (6-1), and the supporting leg (2-1) is connected with the frame body (6-1);

trigger mechanism (1) links to each other with chassis mechanism (2), and chassis mechanism (2) link to each other with floating frame mechanism (3), and floating frame mechanism (3) link to each other with trigger mechanism (1), and negative pressure fan mechanism (4) link to each other with reciprocating drive mechanism (5), and reciprocating drive mechanism (5) link to each other with extrusion mechanism (6), and negative pressure fan mechanism (4) link to each other with extrusion mechanism (6), and chassis mechanism (2) link to each other with extrusion mechanism (6).

2. The apparatus for pressing a testing stone as set forth in claim 1, wherein: the compression seat (3-4) and the extrusion seat (6-2) are made of high manganese steel.

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