CN115056837A - Mining raw material transfer cart - Google Patents

Abstract

The invention relates to the technical field of mineral transportation tools, and discloses a mining raw material transferring cart which comprises a transportation mechanism, wherein a limiting mechanism is installed on the right side of the transportation mechanism, the transportation mechanism comprises a cart main body, a main bearing wheel is installed at the bottom of the cart main body, a limiting block is fixedly connected to the left side inside the cart main body, and an anti-falling baffle is movably connected inside the cart main body. This shallow is transported to mining raw materials, through set up auxiliary stay frame and connect the connecting axle through auxiliary stay frame in the shallow main part, set up spacing gear shaft simultaneously on the connecting axle, and make the location hook overlap joint of spacing gear shaft and counterweight plate bottom, when thrust unit forward, spacing gear shaft can drive the counterweight plate upwards to rotate and make auxiliary roller normally rotate, when auxiliary roller takes place to backward slide, the location hook can with the inside draw-in groove joint of spacing gear shaft, thereby make auxiliary roller rotate motionless, the laborsaving effect of transportation on the ramp has been reached.

Description

Mining raw material transfer cart

Technical Field

The invention relates to the technical field of mineral transportation tools, in particular to a mining raw material transfer cart.

Background

When mineral collection is carried out in the mine site, large-scale machines are generally used for collecting minerals in a large range, and minerals in a small range or on the ground can cause large-scale transportation devices to be incapable of transporting the minerals, so that small-sized transfer trolleys can be used for transporting the minerals.

Because the mine site is generally located outdoors, and the surface of the mine site can have potholes or slopes, when the cart is manually pushed to be located on the slope and is pushed upwards, the cart can slide downwards due to the action of gravity, and therefore the transportation is difficult and very laborious.

It is thus clear that there is a need for a mining material transfer cart that solves the above-mentioned problems of difficulty and effort of pushing on slopes.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the mining raw material transfer cart, which has the advantages of labor saving in mine transportation and the like, and solves the problem of labor waste in mine transportation due to uneven height in the mine mentioned in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the mining raw material transferring cart comprises a conveying mechanism, wherein a limiting mechanism is arranged on the right side of the conveying mechanism;

the transportation mechanism comprises a trolley main body, main bearing wheels are mounted at the bottom of the trolley main body, a limiting block is fixedly connected to the left side inside the trolley main body, an anti-falling baffle is movably connected inside the trolley main body, and a magnetic part is fixedly connected to the right side of the trolley main body;

stop gear includes auxiliary stay frame and connecting block, the connecting axle has been run through to auxiliary stay frame's bottom, the equal fixedly connected with auxiliary roller in both ends of connecting axle, the outer fixed surface of connecting axle is connected with spacing gear shaft, the outer fixed surface of connecting axle is connected with the go-between, swing joint has the counterweight plate between the connecting block, the outer fixed surface of counterweight plate is connected with the permanent magnetism board, the bottom fixedly connected with location hook of counterweight plate.

The auxiliary support frame is arranged on the cart main body and connected with the connecting shaft through the auxiliary support frame, the limiting gear shaft is arranged on the connecting shaft, the limiting gear shaft is in lap joint with the positioning claw at the bottom of the counterweight plate, when the device is pushed forwards, the limiting gear shaft can drive the counterweight plate to rotate upwards to enable the auxiliary idler wheel to normally rotate, and when the auxiliary idler wheel slides backwards, the positioning claw can be in snap joint with a clamping groove in the limiting gear shaft, so that the auxiliary idler wheel is fixed to rotate, and the effect of saving labor in transportation on a ramp is achieved;

the magnetic part is arranged on the right side of the cart main body, the counterweight plate is movably connected through the connecting block, and the permanent magnetic plate matched with the magnetic part in position is arranged on the surface of the counterweight plate;

and the movable anti-falling baffle is supported by the limiting block arranged in the cart main body, when mineral raw materials are filled in the cart main body and are in a downhill state, the mineral can incline forwards, so that the anti-falling baffle is pushed to overturn and is higher than the top of the cart main body, the mineral raw materials are blocked, the mineral raw materials are prevented from being scattered from the front end of the cart main body, and the effect of preventing the mineral from being scattered from the front end of the cart main body when the mineral falls downhill is achieved.

Preferably, the number of the limiting blocks is two, and the two limiting blocks are respectively positioned on two sides of the inner wall of the cart main body and correspond to each other in position.

Set up two stoppers and be in the both sides of shallow main part inner wall to what can overturn prevents weighing down the baffle and supports, avoids preventing weighing down the bottom of baffle and the inner wall laminating of shallow main part, when filling mineral, can make and prevent weighing down the baffle and be in mineral raw materials's top, can promote and overturn and stop mineral raw materials by mineral raw materials when the downhill path, avoid mineral raw materials to drop from the left side of shallow main part.

Preferably, the two ends of the anti-falling baffle are respectively provided with a shaft which is movably connected with the inside of the cart main body through the shaft, and the bottom of the anti-falling baffle is in lap joint with the top of the limiting block.

Set up the axle at the both ends of preventing weighing down the baffle to use the inside of axle and shallow main part to carry out swing joint, make prevent weighing down the baffle bottom and receive mineral raw materials and promote the time can overturn to the right side, and prevent weighing down the baffle upset back, prevent weighing down the left side of baffle and can with shallow main part left side inner wall overlap joint, support preventing weighing down the baffle through the left inside of shallow main part, make prevent weighing down the baffle and can vertically increase the left side of shallow main part, avoid mineral raw materials to drop.

Preferably, the auxiliary support frame is L-shaped, the bottom of the auxiliary support frame is provided with a bearing connecting hole, the number of the auxiliary support frames is two, and the two auxiliary support frames are respectively positioned on two sides of the right side of the cart main body.

Set up auxiliary stay frame and offer the bearing connecting hole in auxiliary stay frame's bottom for support and spacing the connecting axle, and in the time of parkking, the support that forms through auxiliary stay frame supports the afterbody of shallow main part, makes the shallow main part can keep steady, lets the inside mineral raw materials of shallow main part can not incline and drop.

Preferably, the central line of the connecting block is located on the central line on the right side of the cart main body, and the connecting block is located at the bottom of the magnetic part.

The connecting blocks are arranged, so that the weight plates movably connected between the connecting blocks can be kept balanced left and right when receiving the strength of the limiting gear shaft, the height of the connecting blocks is set, the length of the weight plates is reduced, the lever strength is reduced through reducing the length, and the stress strength of the weight plates is improved.

Preferably, the connecting shaft penetrates through the bottoms of the two auxiliary supporting frames, the outer surface of the connecting shaft is sleeved with the bearing, and the outer surface of the bearing is fixedly connected with the inner part of the bearing hole of the auxiliary supporting frame.

The bearing is sleeved on the outer surface of the connecting shaft and connected with the auxiliary supporting frame through the bearing, so that friction force between the connecting shaft and the auxiliary supporting frame can be reduced, the connecting shaft can rotate when the auxiliary supporting frame is pushed, and the auxiliary roller can be limited by limiting the connecting shaft.

Preferably, the number of the limiting gear shafts is two, the two limiting gear shafts are symmetrically distributed left and right along the axis line of the connecting shaft, and clamping grooves are further formed in tooth grooves of the limiting gear shafts and are matched with the bottoms of the positioning hooks.

Set up two spacing gear shafts, thereby can keep the equilibrium when making the connecting axle atress, and can make the dynamics that receives of location hook shared on two location hooks, thereby promote the stress intensity of location hook, and make the position between the spacing gear shaft can the erection joint ring, when the inconvenient promotion of special topography, can be connected with the haulage rope through the go-between and use the capstan winch to stimulate, the inside draw-in groove that sets up in the tooth's socket of spacing gear shaft, thereby when the connecting axle reverses, the draw-in groove can carry out the interlock with the couple on the location hook, thereby it is spacing to rotate of connecting axle.

Preferably, the connecting rings are located between the two limit gear shafts, the number of the connecting rings is multiple, and the connecting rings are equidistantly surrounded on the outer surface of the connecting shaft.

The connecting ring is arranged between the limiting gear shafts, so that when the connecting ring is connected with the traction rope, the stress point of the connecting shaft can be positioned at the center of the device, the traction rope can be positioned between the positioning hooks, and the traction rope is prevented from pulling the counterweight plate.

Preferably, the position of the permanent magnet plate after the counterweight plate is turned is matched with the position of the magnetic part, the positioning claw is in lap joint with the outer surface of the limiting gear shaft, and a hook is arranged at the bottom of the positioning claw.

The counterweight plate is movably arranged in a reversible mode, so that when the trolley main body needs to be reversely pushed, the counterweight plate can be fixed through mutual magnetic adsorption of the permanent magnet plate and the magnetic part, the hook at the bottom of the positioning claw is separated from limiting of the clamping groove in the limiting gear shaft, and the connecting shaft can be reversed.

Compared with the prior art, the invention provides a mining raw material transfer cart, which has the following beneficial effects:

1. this mining raw materials transports shallow, connect the connecting axle through set up auxiliary stay frame and through auxiliary stay frame in the shallow main part, set up spacing gear shaft simultaneously on the connecting axle, and make the location hook overlap joint of spacing gear shaft and weight plate bottom, in advancing thrust unit, spacing gear shaft can drive the weight plate upwards rotate and make supplementary gyro wheel normal rotation, when supplementary gyro wheel takes place to backward gliding, the location hook can with the inside draw-in groove joint of spacing gear shaft, thereby make supplementary gyro wheel rotate motionlessly, the laborsaving effect of transportation on the ramp has been reached.

2. This shallow is transported to mining raw materials, through the right side installation magnetic part at the shallow main part, and through connecting block swing joint counterweight plate, simultaneously at the permanent magnetic plate of the surface mounting of counterweight plate and magnetic part position looks adaptation, when whole device redirecting promotes, can make permanent magnetic plate and magnetic part magnetic adsorption together through the upset counterweight plate, thereby make location hook break away from the overlap joint state with spacing gear shaft, make supplementary gyro wheel can reverse rotation, reached the effect of convenient adjustment direction of thrust.

3. This shallow is transported to mining industry raw materials sets up the stopper through the inside at the shallow main part and supports the baffle that prevents weighing down of activity, when the inside of shallow main part is filled with mineral raw materials and is in the downhill path state, mineral can incline forward to promote to prevent weighing down the top that the baffle upset was higher than the shallow main part, block mineral raw materials, thereby avoid mineral raw materials to spill from the front end of shallow main part, thereby prevent the effect that mineral shallow main part front end scatters when having reached the downhill path.

Drawings

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

FIG. 2 is a schematic illustration of the deployment of the fall arrest stop of the present invention;

FIG. 3 is a right side view of the structure of the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 2;

FIG. 5 is a schematic view of a connecting shaft according to the present invention;

FIG. 6 is a sectional view of a limiting gear shaft structure of the present invention;

fig. 7 is a schematic view of the structure of the weight plate of the present invention.

Wherein: 1. a transport mechanism; 101. a cart body; 102. a main load-bearing wheel; 103. a limiting block; 104. an anti-falling baffle plate; 105. a magnetic member; 2. a limiting mechanism; 201. an auxiliary support frame; 202. connecting blocks; 203. a connecting shaft; 204. an auxiliary roller; 205. a limit gear shaft; 206. a connecting ring; 207. a weight plate; 208. a permanent magnet plate; 209. and positioning the hook claw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Detailed description of the invention

The embodiment is an embodiment of a mining raw material transfer cart.

Referring to fig. 1-7, a mining raw material transfer cart comprises a transportation mechanism 1, wherein a limiting mechanism 2 is installed on the right side of the transportation mechanism 1;

the transportation mechanism 1 comprises a trolley main body 101, a main bearing wheel 102 is installed at the bottom of the trolley main body 101, a limiting block 103 is fixedly connected to the left side inside the trolley main body 101, an anti-falling baffle plate 104 is movably connected to the inside of the trolley main body 101, and a magnetic part 105 is fixedly connected to the right side of the trolley main body 101;

the limiting mechanism 2 comprises an auxiliary supporting frame 201 and a connecting block 202, a connecting shaft 203 penetrates through the bottom of the auxiliary supporting frame 201, auxiliary idler wheels 204 are fixedly connected to two ends of the connecting shaft 203, a limiting gear shaft 205 is fixedly connected to the outer surface of the connecting shaft 203, a connecting ring 206 is fixedly connected to the outer surface of the connecting shaft 203, a counterweight plate 207 is movably connected between the connecting blocks 202, a permanent magnet plate 208 is fixedly connected to the outer surface of the counterweight plate 207, and a positioning claw 209 is fixedly connected to the bottom of the counterweight plate 207.

Through the technical scheme, the auxiliary support frame 201 is arranged on the cart main body 101, the auxiliary support frame 201 is connected with the connecting shaft 203, the limiting gear shaft 205 is arranged on the connecting shaft 203, the limiting gear shaft 205 is in lap joint with the positioning claw 209 at the bottom of the counterweight plate 207, when the device is pushed forwards, the limiting gear shaft 205 can drive the counterweight plate 207 to rotate upwards so as to enable the auxiliary roller 204 to rotate normally, when the auxiliary roller 204 slides backwards, the positioning claw 209 can be in snap joint with a clamping groove in the limiting gear shaft 205, so that the auxiliary roller 204 is fixed to rotate, and the effect of saving labor in transportation on a ramp is achieved;

by installing the magnetic member 105 on the right side of the cart body 101, movably connecting the weight plate 207 through the connecting block 202, and installing the permanent magnetic plate 208 matched with the magnetic member 105 on the surface of the weight plate 207, when the whole device is pushed in a changed direction, the permanent magnetic plate 208 and the magnetic member 105 can be magnetically adsorbed together by turning over the weight plate 207, so that the positioning claw 209 and the limit gear shaft 205 are separated from a lapping state, the auxiliary roller 204 can reversely rotate, and the effect of conveniently adjusting the pushing direction is achieved;

the movable anti-falling baffle plate 104 is supported by the limiting block 103 arranged in the cart main body 101, when mineral raw materials are filled in the cart main body 101 and are in a downhill state, the minerals incline forwards, so that the anti-falling baffle plate 104 is pushed to turn over and be higher than the top of the cart main body 101 to block the mineral raw materials, the mineral raw materials are prevented from being scattered from the front end of the cart main body 101, and the effect of preventing the minerals from scattering from the front end of the cart main body 101 when the minerals fall down is achieved.

Specifically, the number of the limiting blocks 103 is two, and the two limiting blocks 103 are respectively located on two sides of the inner wall of the cart main body 101 and are corresponding in position.

Through the technical scheme, the two limiting blocks 103 are arranged on the two sides of the inner wall of the trolley main body 101, so that the anti-falling baffle 104 capable of being turned over is supported, the bottom of the anti-falling baffle 104 is prevented from being attached to the inner wall of the trolley main body 101, the anti-falling baffle 104 can be located above mineral raw materials when minerals are filled, the anti-falling baffle can be pushed by the mineral raw materials to be turned over and block the mineral raw materials when the minerals are loaded, and the mineral raw materials are prevented from falling off from the left side of the trolley main body 101.

Specifically, the two ends of the anti-falling baffle 104 are both provided with shafts, and the bottom of the anti-falling baffle 104 is in lap joint with the top of the limiting block 103 through the shafts and the inner movable connection of the cart main body 101.

Through the technical scheme, the two ends of the anti-falling baffle 104 are provided with the shafts, so that the shafts are movably connected with the inside of the trolley main body 101, the bottom of the anti-falling baffle 104 can be overturned towards the right side when being pushed by mineral raw materials, and after the anti-falling baffle 104 is overturned, the left side of the anti-falling baffle 104 can be lapped with the inner wall of the left side of the trolley main body 101, the anti-falling baffle 104 is supported through the left inside of the trolley main body 101, the anti-falling baffle 104 can vertically heighten the left side of the trolley main body 101, and the mineral raw materials are prevented from falling.

Specifically, the auxiliary support frames 201 are L-shaped, the bottom of the auxiliary support frames 201 is provided with bearing connection holes, the number of the auxiliary support frames 201 is two, and the two auxiliary support frames 201 are respectively located on two sides of the right side of the cart main body 101.

Through the technical scheme, the auxiliary supporting frame 201 is arranged, the bearing connecting hole is formed in the bottom of the auxiliary supporting frame 201, the connecting shaft 203 is supported and limited, the tail of the trolley main body 101 is supported through the support formed by the auxiliary supporting frame 201 when the trolley is parked, the trolley main body 101 can be kept stable, and mineral raw materials inside the trolley main body 101 cannot be inclined and fall off.

Specifically, the center line of the connection block 202 is located on the center line of the right side of the cart body 101, and the connection block 202 is located at the bottom of the magnetic member 105.

Through above-mentioned technical scheme, set up the position of connecting block 202 to make swing joint's between the connecting block 202 weight plate 207 can keep controlling balanced when receiving spacing gear shaft 205 dynamics, and set up the height of connecting block 202 for reduce the length of weight plate 207, reduce the lever dynamics through reducing length, with the atress intensity that promotes weight plate 207.

Specifically, the connecting shaft 203 penetrates through the bottoms of the two auxiliary supporting frames 201, the outer surface of the connecting shaft 203 is sleeved with a bearing, and the outer surface of the bearing is fixedly connected with the inner part of a bearing hole of the auxiliary supporting frame 201.

Through the technical scheme, the bearing is sleeved on the outer surface of the connecting shaft 203 and is connected with the auxiliary supporting frame 201 through the bearing, so that the friction force between the connecting shaft 203 and the auxiliary supporting frame 201 can be reduced, and the connecting shaft 203 can rotate when pushed, so that the movement of the auxiliary roller 204 can be limited by limiting the connecting shaft 203.

Specifically, the number of the limit gear shafts 205 is two, the two limit gear shafts 205 are symmetrically distributed left and right around the axis line of the connecting shaft 203, and a clamping groove is further formed in the tooth space of the limit gear shaft 205 and is matched with the bottom of the positioning claw 209.

Through the technical scheme, set up two limiting gear shafts 205, thereby can keep the equilibrium when making connecting axle 203 atress, and can make the dynamics that receives of location hook 209 shared on two location hook 209, thereby promote the stress intensity of location hook 209, and make position between the limiting gear shaft 205 can install go-between 206, when the inconvenient promotion of special topography, can be connected with the haulage rope through go-between 206 and use the capstan winch to stimulate, the inside draw-in groove that sets up of tooth's socket at limiting gear shaft 205, thereby when connecting axle 203 reverses, the draw-in groove can carry out the interlock with the couple on the location hook 209, thereby it is spacing to the rotation of connecting axle 203.

Specifically, the connecting rings 206 are located between the two limit gear shafts 205, the number of the connecting rings 206 is multiple, and the connecting rings 206 surround the outer surface of the connecting shaft 203 at equal intervals.

Through above-mentioned technical scheme, set up go-between 206 between limit gear axle 205 to when go-between 206 is connected the haulage rope, the centre that the stress point of connecting axle 203 can the position device, and the haulage rope can be in between the location hook 209, avoids haulage rope pulling counterweight plate 207.

Specifically, the position of the permanent magnet plate 208 after the counterweight plate 207 is turned over is matched with the position of the magnetic part 105, the positioning claw 209 is overlapped with the outer surface of the limit gear shaft 205, and a hook is arranged at the bottom of the positioning claw 209.

Through the technical scheme, the counterweight plate 207 is movably and reversibly arranged, so that when the cart main body 101 needs to be reversely pushed, the counterweight plate 207 can be fixed through mutual magnetic adsorption of the permanent magnet plate 208 and the magnetic part 105, a hook at the bottom of the positioning claw 209 is separated from limiting of a clamping groove in the limiting gear shaft 205, and the connecting shaft 203 can be reversely rotated.

When the auxiliary trolley is used, the auxiliary support frame 201 is arranged on the trolley main body 101, the auxiliary support frame 201 is connected with the connecting shaft 203, the limit gear shaft 205 is arranged on the connecting shaft 203, the limit gear shaft 205 is in lap joint with the positioning claw 209 at the bottom of the counterweight plate 207, when the auxiliary trolley is pushed forwards, the limit gear shaft 205 can drive the counterweight plate 207 to rotate upwards to enable the auxiliary trolley 204 to normally rotate, when the auxiliary trolley 204 slides backwards, the positioning claw 209 can be in snap joint with a clamping groove in the limit gear shaft 205, so that the auxiliary trolley 204 can not rotate, and the effect of saving labor in transportation on a ramp is achieved;

by installing the magnetic member 105 on the right side of the cart body 101, movably connecting the weight plate 207 through the connecting block 202, and installing the permanent magnetic plate 208 matched with the magnetic member 105 on the surface of the weight plate 207, when the whole device is pushed in a changed direction, the permanent magnetic plate 208 and the magnetic member 105 can be magnetically adsorbed together by turning over the weight plate 207, so that the positioning claw 209 and the limit gear shaft 205 are separated from a lapping state, the auxiliary roller 204 can reversely rotate, and the effect of conveniently adjusting the pushing direction is achieved;

the movable anti-falling baffle plate 104 is supported by the limiting block 103 arranged in the cart main body 101, when mineral raw materials are filled in the cart main body 101 and are in a downhill state, the minerals incline forwards, so that the anti-falling baffle plate 104 is pushed to turn over and be higher than the top of the cart main body 101 to block the mineral raw materials, the mineral raw materials are prevented from being scattered from the front end of the cart main body 101, and the effect of preventing the minerals from scattering from the front end of the cart main body 101 when the minerals fall down is achieved.

Detailed description of the invention

The embodiment is an embodiment of a transportation mechanism of a mining raw material transfer cart.

The utility model provides a transport mechanism of mining raw materials transportation shallow, includes shallow main part 101, and main bearing wheel 102 is installed to the bottom of shallow main part 101, and the inside left side fixedly connected with stopper 103 of shallow main part 101, the inside swing joint of shallow main part 101 prevent weighing down baffle 104, and the right side fixedly connected with magnetic part 105 of shallow main part 101.

Through the technical scheme, when the mineral raw material anti-falling trolley is used, the mineral raw material is contained in the trolley main body 101, the trolley main body 101 is matched with the main bearing wheel 102 through the handle on the trolley main body 101, the trolley main body 101 can be moved to achieve a transportation function, the limiting block 103 is used for supporting the rotatable anti-falling baffle 104, when the trolley main body 101 is located on a downhill road surface, the mineral raw material in the trolley main body 101 can be displaced to the left side of the trolley main body 101 under the action of gravity, the bottom of the anti-falling baffle 104 is pushed, the anti-falling baffle 104 rotates to the left side, the anti-falling baffle 104 after rotating can be higher than the left side of the trolley main body 101, the mineral raw material is blocked, and the mineral raw material is prevented from being largely scattered from the left side of the trolley main body 101.

Detailed description of the invention

The embodiment is an embodiment of a limiting mechanism of a mining raw material transfer cart.

The utility model provides a stop gear of shallow is transported to mining raw materials, including auxiliary stay frame 201 and connecting block 202, connecting axle 203 has been run through to the bottom of auxiliary stay frame 201, the equal fixedly connected with auxiliary roller 204 in both ends of connecting axle 203, the outer fixed surface of connecting axle 203 is connected with spacing gear shaft 205, the outer fixed surface of connecting axle 203 is connected with go-between 206, swing joint has counterweight plate 207 between the connecting block 202, the outer fixed surface of counterweight plate 207 is connected with permanent magnetism board 208, the bottom fixedly connected with location hook 209 of counterweight plate 207.

Through the technical scheme, when the trolley is normally pushed forwards, the tooth sockets in the limiting gear shaft 205 rotate along with the rotation of the connecting shaft 203, so that the positioning hook claw 209 is pushed to float up and down under the pushing of the inclined plane, the connecting shaft 203 and the auxiliary roller 204 can normally rotate to transfer mineral raw materials, and the trolley is in an uphill state, because of the action of gravity, the whole trolley has backward power to cause the connecting shaft 203 to reverse, so that the force of a person needing to be pushed is increased, and when the trolley reverses, the clamping grooves in the limiting gear shaft 205 are mutually meshed with the hooks at the bottom of the positioning hook claw 209, so that the connecting shaft 203 is prevented from reversing, the power of the person needing to resist the backward movement of the trolley when the trolley is in a downhill is reduced, the output of manpower is reduced, when the trolley needs to be pushed backwards, the counterweight plate 207 is turned over, and the counterweight plate 207 is fixed through the matching of the permanent magnet plate 208 and the magnetic piece 105, so that the positioning claw 209 and the limit gear shaft 205 are disengaged, the connecting shaft 203 is limited, and the reverse pulling of the cart is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a shallow is transported to mining industry raw materials, includes transport mechanism (1), its characterized in that: a limiting mechanism (2) is arranged on the right side of the conveying mechanism (1);

the conveying mechanism (1) comprises a trolley main body (101), a main bearing wheel (102) is installed at the bottom of the trolley main body (101), the left side inside the trolley main body (101) is fixedly connected with a limiting block (103), the inside of the trolley main body (101) is movably connected with an anti-falling baffle (104), and the right side of the trolley main body (101) is fixedly connected with a magnetic part (105);

stop gear (2) are including auxiliary stay frame (201) and connecting block (202), connecting axle (203) has been run through to the bottom of auxiliary stay frame (201), the equal fixedly connected with auxiliary roller (204) in both ends of connecting axle (203), the outer fixed surface of connecting axle (203) is connected with spacing gear shaft (205), the outer fixed surface of connecting axle (203) is connected with go-between (206), swing joint has counterweight plate (207) between connecting block (202), the outer fixed surface of counterweight plate (207) is connected with permanent magnetism board (208), the bottom fixedly connected with location hook claw (209) of counterweight plate (207).

2. The mining material transfer cart of claim 1, wherein: the number of the limiting blocks (103) is two, and the two limiting blocks (103) are respectively located on two sides of the inner wall of the trolley main body (101) and are corresponding in position.

3. The mining material transfer cart of claim 1, wherein: the two ends of the anti-falling baffle (104) are respectively provided with a shaft, the shafts are movably connected with the inside of the cart main body (101), and the bottom of the anti-falling baffle (104) is in lap joint with the top of the limiting block (103).

4. The mining material transfer cart of claim 1, wherein: the utility model discloses a shallow car body, including shallow main part (101), auxiliary stay frame (201) is L shape, the bottom of auxiliary stay frame (201) is provided with the bearing connecting hole, the quantity of auxiliary stay frame (201) is two, two auxiliary stay frame (201) are located the both sides on shallow main part (101) right side respectively.

5. The mining material transfer cart of claim 1, wherein: the center line of the connecting block (202) is positioned on the center line of the right side of the cart body (101), and the connecting block (202) is positioned at the bottom of the magnetic part (105).

6. The mining material transfer cart of claim 1, wherein: the connecting shaft (203) penetrates through the bottoms of the two auxiliary supporting frames (201), a bearing is sleeved on the outer surface of the connecting shaft (203), and the outer surface of the bearing is fixedly connected with the inner part of a bearing hole of each auxiliary supporting frame (201).

7. The mining material transfer cart of claim 1, wherein: the number of the limiting gear shafts (205) is two, the two limiting gear shafts (205) are symmetrically distributed left and right by the axis line of the connecting shaft (203), and clamping grooves are further formed in the tooth grooves of the limiting gear shafts (205) and are matched with the bottoms of the positioning hooks (209).

8. The mining material transfer cart of claim 1, wherein: the connecting rings (206) are located between the two limit gear shafts (205), the number of the connecting rings (206) is multiple, and the connecting rings (206) are equidistantly surrounded on the outer surface of the connecting shaft (203).

9. The mining material transfer cart of claim 1, wherein: the position of permanent magnet board (208) and the position looks adaptation of magnetic part (105) behind counterweight plate (207) upset, location hook claw (209) and the outer surface overlap joint of spacing gear shaft (205), the bottom of location hook claw (209) is provided with the couple.

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