CN209895409U - Turnover mechanism for swab extractor - Google Patents

Abstract

The utility model discloses a tilting mechanism for swab machine, it includes the mounting bracket, install in torque arm, the activity of mounting bracket are located support in the mounting bracket is held post, is fixed support the plectrum of holding the post, support and hold the post and extend to the mounting bracket outside, the plectrum is located the mounting bracket outside, tilting mechanism still has the cover and locates support the first spring of holding the post, first spring both ends support respectively hold in plectrum and mounting bracket, the plectrum with set up prying rod between the torque arm, prying rod pin joint in the mounting bracket. When this tilting mechanism needs the upset, need nevertheless set up drive structures such as motor to this tilting mechanism, when tilting mechanism seesaw, support and hold the post and receive the extrusion and can let the torque arm rotate around a bit to the material receiving box slope that the drive is located the torque arm, thereby realize falling the material.

Description

Turnover mechanism for swab extractor

Technical Field

The utility model relates to an automatic technical field, in particular to a tilting mechanism for drawing lots machine.

Background

The random number matching mode of drawing lots is often adopted in daily life or games, most of the existing drawing lots modes are that a lot of drawing lots are firstly made, and then drawn by everyone, so that the drawing lots are temporarily made every time, and if the number of participants is large, the drawing lots are very complicated, a large amount of time is occupied, and a lot of manpower is also occupied.

Some amusement places, people like the mode of drawing lots to see own fortune, and the tradition is that to sign in batches the fortune in a bucket, and the people who draws lots continuously rocks, jumps out a fortune and signs, signs through the fortune and sees and know future fortune. Thus, a bucket cannot be too large to hold many coupons at the same time, or else, one cannot shake the draw. In addition, the traditional mode of shaking the label is not strong in entertainment mode.

Need set up a tilting mechanism among the drawing machine, will install and incline in tilting mechanism's the box of receiving the bamboo slips, among the prior art, adopt motor drive's mode mostly, the intangible cost that has increased.

In view of the above, it is desirable to provide a turnover mechanism for a drawing machine, which overcomes the above-mentioned problems of the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, with low costs tilting mechanism for drawing lots machine.

In order to achieve the above object, the present invention adopts a technical solution as follows: the utility model provides a tilting mechanism for swab machine, its include the mounting bracket, install in torque arm, the activity of mounting bracket are located support in the mounting bracket hold the post, fix support the plectrum of holding the post, support and hold the post and extend to the mounting bracket outside, the plectrum is located the mounting bracket outside, tilting mechanism still has the cover and locates support the first spring of holding the post, first spring both ends support respectively hold in plectrum and mounting bracket, the plectrum with set up the prying rod between the torque arm, prying rod pin joint in the mounting bracket.

The mounting bracket is provided with a fixing part, a first support lug extending upwards from one side of the fixing part, and a second support lug extending upwards from the other side of the fixing part, the first support lug and the second support lug are respectively provided with a first through hole and a second through hole penetrating through the front surface and the rear surface of the first support lug and the second support lug, and the support column is movably accommodated in the first through hole and the second through hole and can move axially.

And an extrusion head is arranged at the end part of the abutting column.

The mounting bracket still has the support arm that upwards extends from the second journal stirrup, a fixed axle is fixed to the support arm upper end, the lever pin joint in the fixed axle, the torque arm pin joint in the fixed axle.

The lower extreme of prying pole is provided with the prying wheel, the plectrum surrounds the prying wheel, the upper end of prying pole is close to the torque arm.

The torsion arm is fixed with a baffle, the prying rod is located on one side of the baffle and pushes the lower end of the prying rod, the prying rod winds the fixed shaft to rotate, and the prying rod pushes the baffle to cause the torsion arm to wind the fixed shaft to rotate.

Compared with the prior art, the utility model is used for roll-out machine's tilting mechanism's beneficial effect: when this tilting mechanism need overturn, need nevertheless set up drive structures such as motor to this tilting mechanism, when tilting mechanism seesaw, support and hold the post and receive the extrusion and can let the torque arm rotate around a point to the material receiving box slope that the drive is located the torque arm, thereby realize falling the material (bamboo)

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a perspective assembly view of the drawing machine of the present invention;

fig. 2 is a perspective view of the mounting structure of the charging device, the feeding device, and the door access device in the drawing machine shown in fig. 1.

Fig. 3 is an assembled block diagram of the charging device of the drawing machine of fig. 2.

Fig. 4 is an exploded view of the charging device of the drawing machine of fig. 3.

Fig. 5 is a structural view of a housing box of the charging device shown in fig. 4.

Fig. 6 is a schematic view of a portion of the charging device shown in fig. 3.

Fig. 7 is a structural diagram of a feeding device of the drawing machine shown in fig. 2.

Fig. 8 is another angle structure view of the feeding device shown in fig. 7.

Fig. 9 is a partial structural schematic view of the feeding device shown in fig. 7.

Fig. 10 is another angle structure view of the feeding device shown in fig. 9.

Fig. 11 is a block diagram of an access door assembly of the extractor of fig. 2.

Fig. 12 is another perspective view of the door access device of fig. 11.

Fig. 13 is a partial structural schematic view of the door access device of fig. 11.

Fig. 14 is a further perspective structural view of the door access device of fig. 11.

Detailed Description

The present invention will be described in detail below with reference to the drawings, but it should be emphasized that the following embodiments are merely illustrative and are not intended to limit the scope and application of the present invention.

Referring to fig. 1 to 14, the present invention relates to a swab machine, which includes a machine platform 1, a charging device 2 installed on the machine platform 1, a feeding device 3 installed on the machine platform 1, and an access door device 4 installed on the machine platform 1. The utility model relates to a sign not only is not restricted to regular shape structures such as cylinder type, ball-type, also can be other anomalous structure, can contain different content or the same content of part in each sign.

As shown in fig. 1 to 3, the sticks for drawing are placed in the charging device 2, and when the sticks are required to be drawn, the charging device 2 falls into the feeding device 3, and the feeding device 3 is conveyed to the individual through the door-entering device 4 for taking.

The machine table 1 is of a cuboid structure and comprises a frame structure, an upper panel arranged on the frame structure and used for sealing the charging device 2, the feeding device 3 and the door-out device 4. The panel may be a transparent acrylic panel material to facilitate viewing of the label transport process.

The machine table 1 has a substrate 10, and the substrate 10 is horizontally mounted on a frame mechanism. The frame mechanism includes a plurality of X brackets 11 extending in the X direction, Y brackets 12 extending perpendicular to the X brackets 11 and in the Y direction, and Z brackets 13 extending vertically.

As shown in fig. 3 to 6, the loading device 2 is directly or indirectly mounted on the machine table 1, specifically, may be mounted on the base plate 10, or may be fixed to the frame mechanism.

The charging device 2 includes a rectangular storage case 21 and a fixing bracket 22 fixed to the storage case 21. The storage box 21 has a panel 210 with four closed sides, a plurality of partitions 211 spaced from each other, and a storage compartment 222 between the partitions 211. The partition 211 is vertically arranged, and two sides of the partition 211 are provided with support lugs 212, and the support lugs 212 are used for being clamped in the panel 210. The partition 211 is wavy, the containing bins 222 are vertically arranged wavy structures, and the distance between the containing bins 222 is slightly larger than the diameter of the sticks and is equal to the diameter of the sticks. The fixed bracket 22 is fixed with the Z bracket 13. The upper ends of the partition boards 211 are flush, the lower ends of the partition boards 211 are not as long, the partition board 211 positioned in the middle is shortest, the partition board 211 close to the side edge gradually increases, and the end face of the lower end of the partition board 211 forms an arc-shaped accommodating space. The accommodating space accommodates the roller 27.

The charging device 2 comprises a support frame 20, a first motor (driving member) 23 mounted on the support frame 20, a coupling 24 connected to the first motor 23, a main shaft 25 fixed to the coupling 24, a pair of bearing seat assemblies 26 fixed to the support frame 23, and a roller 27 sleeved on the main shaft 25. The main shaft 25 is accommodated in the bearing housing assembly 26, and the first motor (driving member) 23 is a reduction motor, and its rotation speed is low. The main shaft 25 is driven to rotate by the first motor 23, the main shaft 25 drives the roller 27 to rotate, the bearing seat assembly 26 is in the prior art and comprises a bearing seat fixed on the support frame 23, a bearing and a flange fixed in the bearing seat, and the main shaft 25 is sleeved in the bearing; the supporting frame 23 may be fixed to the fixing bracket 22 or fixed to the machine table 1. The roller 27 has a substantially cylindrical structure having a plurality of receiving grooves 271 formed by being depressed inward from a circular arc surface thereof. A plurality of receiving grooves 271 are uniformly distributed on the arc surface of the roller 27 for receiving the sticks dropped from the receiving compartment 222. Since the accommodation chamber 222 has a plurality of pockets 271, a plurality of pockets 271 may be simultaneously provided for receiving the labels.

The charging device 2 further has a material guide chute 28, the material guide chute 28 is mounted to the fixed bracket 22, the material guide chute 28 includes an S-shaped plate 281, a material guide opening 283 is formed through front and rear surfaces of the S-shaped plate 281 at a middle position, and a sub-plate 282 is mounted on the S-shaped plate 281 at an edge of the material guide opening 283. The S-shaped plate 281 is fixed to the fixing bracket 22.

The lower end of the S-shaped plate 281 of the material guide chute 28 is aligned with the feeding device 3 below. When the collecting chute 271 with the pick rotates to the opening facing downward to the material guiding opening 283, the pick falls down into the material guiding opening 283, and the pick continues to fall down into the feeding device 3 along the S-shaped plate 281.

Referring to fig. 7 to 10, the feeding device 3 includes a conveying mechanism 31, a receiving mechanism 32, and a connecting mechanism 33 for fixedly connecting the conveying mechanism 31 and the receiving mechanism 32.

The machine table 1 further has a pallet 15 located below the substrate 10, the pallet 15 is spaced apart from the substrate 10, and the conveying mechanism 31 slides on the pallet 15 in the front-rear direction.

The conveying mechanism 31 includes a base plate 311 attached to the pallet 15, and a rack 312 attached to the base plate 311. The bottom plate 311 is irregular in shape of a bend, and has a first holding portion 3111 at one side thereof, a first supporting portion 3112 extending upward from the first holding portion 3111, a first rest portion 3113 extending laterally from the first supporting portion 3112, a second supporting portion 3114 extending downward from the first rest portion 3113, a second holding portion 3115 extending laterally from the second supporting portion 3114, and a second rest portion 3116 extending upward from the second holding portion 3115.

The first holding portion 3111 and the second holding portion 3115 are fixed to the support plate 15 on the same horizontal plane. The first rest portion 3113 is higher than the first holding portion 3111 and the second holding portion 3115, and is parallel to the first holding portion 3111 and the second holding portion 3115, and the second rest portion 3116 is parallel to the first holding portion 3111. The second rest portion 3116, the second holding portion 3115 and the second support portion 3114 are surrounded to form a placing space 3117. The rack 312 is mounted to a surface of the first rest portion 3113.

The conveying mechanism 31 further includes a second motor 313, a driving gear 314 sleeved on the second motor 313, and a motor sliding assembly 315 fixed to the periphery of the second motor 313. The drive gear 314 intermeshes with the gear rack 312.

The motor sliding assembly 315 includes a motor fixing frame 3151 fixed to the second motor 313, a sliding groove 3152 fixed to the second placement portion 3116, and a plurality of first sliding wheels 3153 fixed to the motor fixing frame 3151, the sliding groove 3152 is formed by bending a plate to form a groove, the plate for forming the sliding groove 3152 is fixed to the second placement portion 3116, the plurality of first sliding wheels 3153 are located in the sliding groove 3152, the sliding wheels 3153 are fixed to the motor fixing frame 3151 by a screw, and the sliding wheels 3153 can rotate around the screw. In addition, a plurality of second sliding wheels 31530 are fixed to the second motor 313 through a connecting member (connecting mechanism 33), and the second sliding wheels 31530 are located on the first rest portion 3113 so that the first sliding wheels 3153 roll in the sliding grooves 315 and on the first rest portion 3113 when the motor fixing frame 3151 is stressed. When the second motor 313 is driven, the second motor 313 drives the driving gear 314 to roll on the rack 312, so that the second motor 313 slides along the sliding groove 3152 along with the motor fixing frame 3151. The first pulley 3153 and the second pulley 31530 are fixed and can roll.

The second motor 313 is suspended above the placing space 3117 and supported by the first sliding wheel 3153 and the second sliding wheel 31530 through the gear 314. A plurality of motor position sensors 316 are disposed in the disposing space 3117, and the plurality of motor position sensors 316 are disposed at the front, middle, and rear ends of the disposing space 3116, respectively, so that when the motor position sensors 316 sense the position of the second motor 313, a control system (not shown) can start the naming of the next step.

The connecting mechanism 33 comprises a fixing plate 331 fixed on the second motor 313 and a placing plate 332 extending perpendicularly from the fixing plate 331, the fixing plate 331 extends perpendicularly and is fixed on the second motor 313, the placing plate 332 is parallel to the supporting plate 15, and the placing plate 332 is used for installing the receiving mechanism 32. The motor position sensing sensor 316 confirms the position of the second motor 313 by sensing a specific point of the fixing plate 331.

The receiving mechanism 32 includes a third motor 321 fixed on the fixing plate 331, a connecting assembly 322 connected to the third motor 321, and a receiving box 323 fixed on the connecting assembly 322. The substrate 10 has a through slot 101, and the connecting element 322 extends from the lower portion of the substrate 10 to the upper portion of the substrate 10 through the through slot 101.

The third motor 321 drives the connecting assembly 322 to rotate, so as to drive the material receiving box 323 to rotate. The magazine 323 is adapted to receive the sticks falling from the charging device 2.

The receiving mechanism 32 further includes a plurality of magazine position sensors 324 located at the periphery of the connecting assembly 322, and the magazine position sensors 324 confirm the rotation direction position of the receiving magazine 323, so as to confirm the implementation of the next control action.

The connecting assembly 322 comprises a rotating shaft 3221 connected to the third motor 321, a rotating disc 3222 fixed to the rotating shaft 3221, and a turnover mechanism fixed to the rotating disc 3222, wherein the turnover mechanism is used for turning over the material receiving box 323 to pour out the sticks in the material receiving box 323.

The turnover mechanism comprises an installation frame 3223 fixed on the rotating disc 3222 and a torque arm 3225 installed on the installation frame 3224, and the material receiving box 323 is installed on the torque arm 3225. By driving the third motor 321, the rotating shaft 3221 is rotated, and the material receiving box 323 is rotated.

The mounting frame 3223 includes a fixing portion 32231 fixed to the rotation plate 3222, a first supporting lug 32232 extending upward from one side of the fixing portion 32231, a second supporting lug 32233 extending upward from the other side of the fixing portion, and a supporting arm 32234 extending upward from the second supporting lug 32233, wherein the torsion arm 3235 is connected to the supporting arm 32234. The first supporting lug 32232 and the second supporting lug 32233 respectively have a first through hole 32235 and a second through hole 32236 penetrating through the front and rear surfaces thereof, the turnover mechanism further includes a supporting column 3226 accommodated in the first through hole 32235 and the second through hole 32236, the supporting column 3226 can move back and forth in the axial direction between the first through hole 32235 and the second through hole 32236, the supporting column 3226 continues to extend from the first supporting lug 32232, the end portion of the supporting column 3226 is provided with a pressing head 3227, the turnover mechanism further has a pick 3228 installed on the supporting column 3226, the pick 3228 extends upward from the supporting column 3226, a first spring 3229 is sleeved between the pick 3228 and the first supporting lug 32232, and the first spring 3229 is sleeved on the supporting column 3226. When the squeezing head 3227 receives squeezing, the holding rod 3226 moves backward, the holding rod 3226 drives the pick 3228 to move backward at the same time, the first spring 3229 is compressed, and when the squeezing force is released, the first spring 3229 pushes the pick 3228 to move forward, thereby ensuring that the pick 3228 and the holding rod 3226 return to the initial position.

When the holding rod 3226 is pushed, the pulling piece 3228 moves backwards, the upper end of the pulling piece 3228 drives the torsion arm 3225 to rotate around one point of the mounting rack 3224, and the material receiving box 323 inclines, so that the sticks in the material receiving box 323 can be poured out.

A prying rod 3220 is arranged between the pulling piece 3228 and the twisting arm 3225, a fixed shaft 32201 is fixed at the upper end of a supporting arm 32234 of the mounting rack 3224, the prying rod 3220 is pivoted to the fixed shaft 32201, and the twisting arm 3225 is pivoted to the fixed shaft 32201; the lower end of the prying rod 3220 is close to the pick 3228, the lower end of the prying rod 3220 is provided with a prying wheel 32202, the pick 3228 surrounds the prying wheel 32202, and the upper end of the prying rod 3220 is close to the torsion arm 3225. When the prying wheel 3220 at the lower end of the prying rod 3220 is pushed, the prying rod 3220 is driven to rotate around the fixed shaft 32201, and the upper end of the prying rod 3220 pushes the torsion arm 3225 to rotate around the fixed shaft 32201. Specifically, a stopping plate 32206 is fixed on the torsion arm 3225, and the stopping plate 32206 is pushed by a prying rod 3220 to rotate the torsion arm 3225 around the fixing shaft 32201.

A label leaking box 5 is fixed on a frame structure of the machine table 1, and the label leaking box 5 is located in front of the feeding device 3.

During operation, the initial position of the material receiving box 323 is located below the sliding groove 3152, when a stick falls into the material receiving box 323, the third motor 321 is started, the material receiving box 323 rotates by 90 degrees, the second motor 313 is started, the second motor 313 causes the connecting mechanism 33, the material receiving mechanism 32 and the second motor 313 to move from back to front, when the material receiving mechanism 32 moves to the forefront, the extrusion head 3227 of the turnover mechanism of the connecting assembly 322 touches the stick leaking box 5 or the machine table 1 (in this embodiment, touches the rear of the stick leaking box 5), the holding column 3226 and the pick 3228 are extruded, the torsion arm 3225 rotates around the fixing shaft 32201, and the material receiving box 323 with the stick pours the stick into the stick leaking box 5. People can take out the drawn sticks from the stick-leaking box. The second motor 313 and the third motor 321 drive the material receiving box 323 to return to the initial position to receive the drawing signal of the next person.

The gate access device 4 shown in fig. 11 to 14 is located above the through groove 101 of the substrate 10. The door access device 4 includes a door frame 41 having an inverted U-shaped structure, and the door frame 41 includes a pair of door posts 411 erected on both sides of the through-slot 101, and a door frame 412 connecting the door posts 411. The gate posts 411 are respectively provided at their lateral sides with gates 42 respectively rotated around the gate frames 412.

The door access device 4 further includes a support plate 43 mounted above the door frame 412, a mounting plate 44 mounted above the support plate, and a fourth motor 45 fixed to the mounting plate 44, the support plate 43 is U-shaped, and includes a mounting portion 421 fixed to the surface of the door frame 412 and a pair of support portions 4302 extending upward from the mounting portion 4301, and the mounting plate 44 is fixed above the support portions 4302. An output shaft of the fourth motor 45 penetrates through the mounting plate 44 downwards, a rotating assembly 46 is fixed on the output shaft of the fourth motor 45, the rotating assembly 46 is also provided with a toggle mechanism 47 matched with the rotating assembly 46, and the toggle mechanism 47 toggles the gate 42 to rotate.

The supporting portion 4302 of the supporting plate 43 has a pair of third through holes 431 and a pair of fourth through holes 432, respectively, the toggle mechanism 47 includes a pair of polish rods 471 installed in the third through holes 431 and the fourth through holes 432, a sliding seat 472 movably sleeved on the polish rods 471, a winding post 474 fixed on the gantry 412, a toggle member 473 fixed on the winding post 474 and rotatable around the winding post 474, and a toggle arm 475 fixed below the sliding seat 472 and close to the toggle member 473, the sliding seat 472 has a toggle groove 4721, and the rotating assembly 46 is accommodated in the toggle groove 4721.

The rotation unit 46 includes a rotary block 461 fixed to the output shaft of the fourth motor 45, and a dial 462 fixed to the rotary block 461. The rotating block 461 is a rectangular parallelepiped structure, the shifting block 462 is a cylindrical structure, and the axis of the output shaft of the fourth motor 45 is not collinear with the axis of the shifting block 462. Therefore, when the output shaft of the fourth motor 45 rotates, the dial 462 rotates about the output shaft of the fourth motor 45. The toggle block 462 extends into the toggle groove 4721 of the sliding seat 472, and when the output shaft of the fourth motor 45 rotates, the toggle block 462 will toggle the sliding seat 472 to slide along the extending direction of the polish rod 471. The slide holder 472 applies a force to one end of the dial 473 via the dial arm 475, and the dial 473 rotates around the post 474.

The gate 42 comprises a gate body 421 and corner codes 422 respectively mounted above the gate body 421, the corner codes 422 are in a right-angle shape, one edge of the corner codes 422 is fixed on the gate body 421, the other edge of the corner codes 422 is pivoted to the gate frame 412 and is provided with a convex column 4221 extending upwards, the gate frame 412 is provided with an orbiting groove 4121 penetrating through the upper surface and the lower surface of the gate frame 412, the convex column 4221 penetrates through the orbiting groove 4121 to be exposed out of the surface of the gate frame 41, and a stirring piece 473 is matched with the convex column 4221. The orbiting groove 4121 is a circular arc groove.

The door access device 4 further includes a pair of second springs 46 for normally closing the two door bodies 421, the door frame 412 includes a connecting column 4122 at the rear thereof, and the second springs 46 connect the connecting column 4122 and the corner bracket 422, respectively. When in the free state, the second spring 46 applies a pulling force to the door 421 backward, so that the two door 421 are just closed. The door bodies 421 are further provided with limit posts 4211 for limiting the door bodies 421 from excessive backward rotation, and when the two door bodies 421 are closed in parallel, the limit posts 4211 are attached to the post door frame 412. When the door needs to be opened, the fourth motor 45 is activated, and the toggle block 462 toggles the sliding seat 472 to slide along the extending direction of the polish rod 471. The sliding seat 472 rotates the toggle member 473 around the post 474, the toggle member 473 toggles the boss 4221, the boss 4221 moves in the orbiting slot 4121, the boss 4221 rotates around the door frame 412 to drive the door to rotate, and at this time, the door 421 is opened. The receiving mechanism 32 can move back and forth, when the receiving mechanism 32 passes through the large door, the fourth motor 45 drives the shifting block 462 to be far away from the shifting piece 473, the second spring pulls the door 421 to rotate, and the convex column 4221 drives the shifting piece 473 to return to the initial position. The two door bodies 421 are closed.

The drawing machine is also provided with baffle plates 6 which are arranged on two sides and above the door access device 4, the baffle plates 6 are fixed on the machine table 10, and the baffle plates 6 are used for blocking the working condition of receiving sticks of the receiving mechanism 32.

The utility model discloses the swab machine is through setting up charging devices, material feeding unit, business turn over door gear, can put into the hourglass through material feeding unit with the bamboo slips of putting into charging devices at will and sign box 5, and people can follow and leak the bamboo slips of taking out the swab in signing box 5. The feeding device ensures that only one swab leaks to the feeding device when the swab is pulled once when the swab is started, and the feeding device is reasonable in structure and ensures that the swab can be smoothly conveyed to the swab leaking box. The door access device has simple structure and controls the opening and closing of the door through one motor.

Of course, those skilled in the art should realize that the above-mentioned embodiments are only used for illustrating the present invention, and not for limiting the present invention, and that the changes and modifications to the above-mentioned embodiments are all within the scope of the appended claims as long as they are within the true spirit of the present invention.

Claims (6)

1. A tilting mechanism for drawing machine which characterized in that: it includes mounting bracket, movable mounting in torque arm, the activity of mounting bracket are located support in the mounting bracket hold the post, fix support the plectrum of holding the post, support and hold the post and extend to the mounting bracket outside, the plectrum is located the mounting bracket outside, tilting mechanism still has the cover and locates support the first spring of holding the post, first spring both ends support respectively hold in plectrum and mounting bracket, the plectrum with set up the prying rod between the torque arm, the prying rod pin joint in the mounting bracket.

2. The canting mechanism for a drawer as recited in claim 1, wherein: the mounting bracket is provided with a fixing part, a first support lug extending upwards from one side of the fixing part, and a second support lug extending upwards from the other side of the fixing part, the first support lug and the second support lug are respectively provided with a first through hole and a second through hole penetrating through the front surface and the rear surface of the first support lug and the second support lug, and the support column is movably accommodated in the first through hole and the second through hole and can move axially.

3. The canting mechanism for a drawer as recited in claim 2, wherein: and an extrusion head is arranged at the end part of the abutting column.

4. The canting mechanism for a drawer as recited in claim 2, wherein: the mounting bracket still has the support arm that upwards extends from the second journal stirrup, a fixed axle is fixed to the support arm upper end, the lever pin joint in the fixed axle, the torque arm pin joint in the fixed axle.

5. The canting mechanism for a drawer as recited in claim 4, wherein: the lower extreme of prying pole is provided with the prying wheel, the plectrum surrounds the prying wheel, the upper end of prying pole is close to the torque arm.

6. The canting mechanism for a drawer as recited in claim 5, wherein: the torsion arm is fixed with a baffle, the prying rod is located on one side of the baffle and pushes the lower end of the prying rod, the prying rod winds the fixed shaft to rotate, and the prying rod pushes the baffle to cause the torsion arm to wind the fixed shaft to rotate.

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