CN108436792A - A kind of material driving mechanism for sand-blasting machine - Google Patents

Abstract

The present invention relates to sand-blasting machine technical fields, in particular disclose a kind of material driving mechanism for sand-blasting machine, including rack, are set to the bearing assembly and pressure holding component of rack；Bearing assembly includes the first axle body of rotation setting, is connected to the first resilient sleeve of the first axle body, and the first resilient sleeve is equipped with the first shrinkage pool；Pressure holding component includes the second actuator, the fagging being connect with the second actuator, the second axle body for being rotatably dispose in fagging, the second resilient sleeve for being connected to the second axle body, and the second resilient sleeve is equipped with the second shrinkage pool；One end of material is packed into the first shrinkage pool, second actuator drives the movement of the second resilient sleeve, until the other end of material protrudes into the second shrinkage pool, second resilient sleeve presses material in the first resilient sleeve, first actuator drives material rotation, the side surface sandblasting of the spray gun of sand-blasting machine to material to prevent material from being disengaged because of centrifugal force and bearing assembly, the end face of material is avoided to be grit blasted, the sandblasting yield of improving material.

Description

A kind of material driving mechanism for sand-blasting machine

Technical field

The present invention relates to sand-blasting machine technical fields, in particular disclose a kind of material driving mechanism for sand-blasting machine.

Background technology

In order to promote the service life of object, after object completes the production production, it is often necessary to be carried out in object surface Application is handled, and when carrying out painting operation to object, in order to increase the adhesion strength between coating and object surface, is needed to object Surface carry out sandblasting operation, in order to promote the sandblasting efficiency of object, occur in the prior art to object carry out automatic sand blasting Sand-blasting machine.

When carrying out sandblasting to object using sand-blasting machine, need that first object is placed in the loading mechanism of sand-blasting machine, so Loading mechanism driving object is utilized to rotate afterwards, sand-blasting gun carries out automatic sand blasting to the object of rotation；Due to loading in the prior art The tectonic sieving of mechanism is unreasonable, and object can be usually detached from due to centrifugal force with loading mechanism, cause object sandblasting bad, seriously Person can also damage sand-blasting machine；In addition, some objects only need the side surface sandblasting to object, need not to the end face sandblasting of object, The tectonic sieving of loading mechanism is unreasonable in the prior art, and the end face of object is often caused to be grit blasted, and causes the sandblasting of object Occur bad.

Invention content

In order to overcome shortcoming and defect existing in the prior art, the purpose of the present invention is to provide one kind being used for sand-blasting machine Material driving mechanism, the second resilient sleeve by material press in the first resilient sleeve, prevent material because of centrifugal force and bearing assembly It disengages, avoids the end face of material from being grit blasted, the sandblasting yield of improving material.

To achieve the above object, a kind of material driving mechanism for sand-blasting machine of the invention, including rack, are set to machine The bearing assembly and pressure holding component of frame, bearing assembly are used to carry extraneous material, and pressure holding component is used to hold material limit It carries on component；The bearing assembly include rotation setting the first axle body, for drive the first axle body rotate the first actuator, It is removably attachable to the first resilient sleeve of the first axle body, the first resilient sleeve is equipped with the first shrinkage pool for being installed with material one end； It includes the second actuator, the fagging being connect with the output end of the second actuator, the second axis for being rotatably dispose in fagging to press component Body, the second resilient sleeve for being removably attachable to the second axle body, the second resilient sleeve are equipped with second for being installed with the material other end Shrinkage pool, the second actuator is via the related second resilient sleeve movement of driving fagging and then by material pressure holding limit in the first resilient sleeve On.

Preferably, the bearing assembly further includes the supporting plate of activity setting, and the third for driving supporting plate to move back and forth is driven Moving part, the first axle body are rotatably dispose in supporting plate, and the first actuator is set to supporting plate, and third actuator is via driving supporting plate related the The material that one resilient sleeve is carried enters the sandblasting intracavitary of sand-blasting machine.

Preferably, the bearing assembly further includes the first support for being set to rack, and supporting plate is slideably positioned in first support, Third actuator is set to rack or/and first support, supporting plate be connected be obliquely installed lead sand plate, material sandblasting is post-job Remaining sand slides into sandblasting intracavitary along leading sand plate under the effect of gravity.

Preferably, the quantity of the first axle body is multiple, and each the first axle body is all connected with there are one the first resilient sleeve, often One the first axle body is installed there are one gear, and the gear of a first axle body engages the gear of the first axle body adjacent thereto, the One actuator is used to drive the gear rotation of a first axle body；Supporting plate is installed with covering plate, and covering plate is for covering sandblasting chamber Opening.

Preferably, the bearing assembly further includes sealing shroud, and sealing shroud is sheathed on the outside of the first axle body, and sealing shroud is used for The gap between supporting plate and the first axle body is sealed, sealing shroud is equipped with the perforation through sealing shroud, and the first axle body is via perforation projection Go out sealing shroud, perforation is interference fit with the first axle body, and the first resilient sleeve is removably attachable to the first axle body and stretches out sealing One end of set.

Preferably, the sealing shroud is taper surface close to the end face of resilient sleeve one end, and the first resilient sleeve, which has, protrudes into the The fixation disk of multiple fins in one shrinkage pool and the multiple fins of connection, fin are connect with the side wall of the first shrinkage pool, fixation disk and the Drop-hole is formed between the side wall of one shrinkage pool, fixed disk is equipped with the fixation for being installed with one end that the first axle body stretches out the first sealing shroud Hole, mounting hole are interference fit with the first axle body, into the remaining sand in the first shrinkage pool under the effect of gravity via drop-hole along cone Shape face, which drops down onto, leads sand plate.

Preferably, the pressure holding component further includes first bearing and elastic component, and first bearing is installed in fagging, first bearing It is sheathed on the outside of the second axle body, the second axle body is slideably positioned in first bearing, and elastic component is for driving opposite first bearing to slide The second axle body after dynamic resets.

Preferably, the pressure holding component further includes fixed cylinder, and fixed cylinder is connected to fagging, fixed cylinder, the second resilient sleeve point Not Wei Yu fagging both sides, fixed cylinder is equipped with slide opening, and one end of the second axle body is slideably positioned in slide opening, and elastic component is located at slide opening Interior, the both ends of elastic component contradict one end of the second axle body and the bottom wall of slide opening respectively.

Preferably, the slide opening content is equipped with second bearing, and the second axle body is equipped with baffle ring, appearance of the baffle ring from the second axle body Face projects, and second bearing is sheathed on the outside of the second axle body, and the second axle body is slideably positioned in second bearing, and elastic component is bullet Spring, elastic component are sheathed on the outside of the second axle body, and the both ends of elastic component contradict second bearing and baffle ring respectively.

Preferably, the pressure holding component further includes sealing ring, and sealing ring is installed in fagging, and first bearing is installed in sealing Circle, the second axle body run through sealing ring, and sealing ring is used to seal the gap between first bearing and fagging.

Beneficial effects of the present invention：In actual use, one end of the extraneous material for waiting for sandblasting is packed into the of the first resilient sleeve In one shrinkage pool, the second actuator is moved via driving related second resilient sleeve of fagging towards close to the direction of material, until material The other end protrudes into the second shrinkage pool of the second resilient sleeve, using the second resilient sleeve by material pressure holding limit in the first resilient sleeve On, the related material rotation of then the first actuator driving the first axle body, the spray gun of sand-blasting machine carries out sandblasting to the side surface of material Operation prevents material from being disengaged with bearing assembly due to centrifugal force in rotation process, while the end face of material being prevented to be grit blasted, and carries Rise the sandblasting yield of material.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention；

Fig. 2 is the dimensional structure diagram of the bearing assembly of the present invention；

Fig. 3 is the decomposition texture schematic diagram of the bearing assembly of the present invention；

Fig. 4 is the dimensional structure diagram of the first resilient sleeve of the present invention；

Fig. 5 is the dimensional structure diagram of the pressure holding component of the present invention；

Fig. 6 is that the part of the present invention presses the decomposition texture schematic diagram of component；

Fig. 7 is the dimensional structure diagram of the second resilient sleeve of the present invention；

Fig. 8 is the dimensional structure diagram of the sealing shroud of the present invention；

Fig. 9 is the dimensional structure diagram at another visual angle of the first resilient sleeve of the present invention.

Reference numeral includes：

1-2-bearing assembly of rack, 3-pressure holding component

4-the first axle body the 6-the first shrinkage pools of the 5-the first resilient sleeve

7-the second actuator 8-fagging, 9-the second axle body

11-the second resilient sleeve 13-guide hole of the 12-the second shrinkage pool

14-15-first supports of supporting plate 16-lead sand plate

17-18-sealing shroud of gear, 19-perforation

21-22-fin of taper surface, 23-fixation disks

24-drop-hole 25-mounting hole, 26-second supports

27-guide post 28-first bearing, 29-elastic components

31-fixed cylinder 32-slide opening, 33-second bearings

34-baffle ring 35-sealing ring, 36-accommodating holes.

Specific implementation mode

For the ease of the understanding of those skilled in the art, the present invention is made further with reference to embodiment and attached drawing Bright, the content that embodiment refers to not is limitation of the invention.

It please refers to Fig.1 to shown in Fig. 7, a kind of material driving mechanism for sand-blasting machine of the invention, including rack 1, if Bearing assembly 2 and pressure holding component 3 in rack 1 are set, bearing assembly 2 is used to carry extraneous material, and pressure holding component 3 is used for will Material limits on bearing assembly 2；The bearing assembly 2 includes the first axle body 4 of rotation setting, for driving the first axle body 4 Rotation the first actuator (non-label in figure), the first resilient sleeve 5 for being detachably connected on the first axle body 4, the first elasticity The first shrinkage pool 6 for being installed with material one end is provided on set 5, the end face of the first shrinkage pool 6 from 5 free end of the first resilient sleeve is recessed It forms；Pressure holding component 3 include the second actuator 7, connect with the output end of the second actuator 7 fagging 8, be rotatably arranged on fagging The second axle body 9 on 8, the second resilient sleeve 11 being detachably connected on the second axle body 9, the second resilient sleeve 11 are equipped with for holding If the second shrinkage pool 12 of the material other end, the first resilient sleeve 5, the second resilient sleeve 11 are all made of flexible material and are made, such as silica gel, Preferably, the first shrinkage pool 6, the second shrinkage pool 12 are non-circular hole, prevent material from being sent out with respect to the first resilient sleeve 5 and the second resilient sleeve 11 Raw rotation, the second actuator 7 is via the movement of driving 8 related second resilient sleeve 11 of fagging and then by material pressure holding limit in the first bullet Property set 5 on.

In actual use, one end of the extraneous material for waiting for sandblasting is packed into the first shrinkage pool 6 of the first resilient sleeve 5, and second drives Moving part 7 is moved via driving 8 related second resilient sleeve 11 of fagging towards close to the direction of material, until the other end of material protrudes into In second shrinkage pool 12 of the second resilient sleeve 11, material pressure holding is limited in the first resilient sleeve 5 using the second resilient sleeve 11, then First actuator drives the rotation of 4 related material of the first axle body, the spray gun of sand-blasting machine to carry out sandblasting operation to the side surface of material, prevent Only material disengages due to centrifugal force with bearing assembly 2 in rotation process, while the end face of material being prevented to be grit blasted, improving material Sandblasting yield.

Second resilient sleeve 11 is provided with the guide hole 13 being connected to the second shrinkage pool 12, and guide hole 13 is from the second resilient sleeve The end face of 11 free end is recessed to be formed, and the bottom wall of 12 self-conductance pilot hole 13 of the second shrinkage pool is recessed to be formed, and guide hole 13 is tapered, this In embodiment, guide hole 13 is more than guide hole in cone, guide hole 13 close to the aperture of 11 outer surface one end of the second resilient sleeve 13 close to 12 one end of the second shrinkage pool aperture.Aperture of the guide hole 13 close to the aperture and the second shrinkage pool 12 of 12 one end of the second shrinkage pool Equal, guide hole 13 is more than the outer diameter of material close to the aperture of 11 outer surface one end of the second resilient sleeve, and guide hole 13 is close to second The aperture of 12 one end of shrinkage pool and the aperture of the second shrinkage pool 12 are less than the outer diameter of material, are arranged by the special tectonic of guide hole 13, Ensure that material is easily inserted into the second shrinkage pool 12, promotes the packaging efficiency of the second resilient sleeve 11 and material.

The bearing assembly 2 further includes the supporting plate 14 of activity setting, the third driving for driving supporting plate 14 to move back and forth Part (non-label in figure), the first axle body 4 is rotatably arranged on supporting plate 14, and 4 outer sheath of the first axle body is equipped with rolling bearing (in figure not Show), rolling bearing is mounted on supporting plate 14, and the first actuator is arranged on supporting plate 14, and third actuator is via driving supporting plate The material that 14 related first resilient sleeves 5 are carried enters the sandblasting intracavitary of sand-blasting machine.

In actual use, one end of material is inserted into the first shrinkage pool 6 of the first resilient sleeve 5 by extraneous manipulator etc., so Third actuator driving supporting plate 14 moves afterwards, and the material that mobile 14 related first resilient sleeve 5 of supporting plate is carried moves together, will Material inputs the sandblasting intracavitary of sand-blasting machine, and then the second actuator 7 drives the second resilient sleeve 11 to be moved towards close to the direction of material, Material pressure holding is limited in the first resilient sleeve 5 using the second resilient sleeve 11.

The bearing assembly 2 further includes the first support 15 being arranged in rack 1, and supporting plate 14 is slidably arranged in first support On 15, third actuator be arranged in rack 1 or/and in first support 15, third actuator drive 14 related material of supporting plate into Go out sandblasting chamber, be connected on supporting plate 14 be obliquely installed lead sand plate 16, the post-job remaining sand of material sandblasting edge under the effect of gravity It leads sand plate 16 and slides the automatic cycle reflux for realizing remaining sand when material sandblasting operation into sandblasting intracavitary, remaining sand is avoided to splash everywhere.

The quantity of the first axle body 4 is multiple, and each the first axle body 4 is all connected with there are one the first resilient sleeve 5, each First resilient sleeve 5 is used to one material of carrying, each the first axle body 4 install there are one gear 17, the first axle body 4 Gear 17 engages the gear 17 of the first axle body 4 adjacent thereto, and the first actuator is used to drive the tooth of one of the first axle body 4 17 rotation of wheel, the first actuator is motor, and then realizes the synchronous rotation of multiple the first axle bodies 4, in this way, bearing assembly 2 is primary Multiple materials, the sandblasting efficiency of service hoisting material can be carried；Supporting plate 14 is installed with covering plate (non-label in figure), covering plate Opening for covering sandblasting chamber, prevent remaining sand when material sandblasting operation via the opening of sandblasting chamber be splashed to sandblasting chamber it Outside.

It please refers to Fig.1 to shown in Fig. 8, the bearing assembly 2 further includes sealing shroud 18, and sealing shroud 18 uses flexible material system At, such as silica gel, sealing shroud 18 is set in the outside of the first axle body 4, sealing shroud 18 for seal supporting plate 14 and the first axle body 4 it Between gap, prevent in the gap that remaining sand enters between supporting plate 14 and the first axle body 4 and influence the normal rotation of the first axle body 4； Sealing shroud 18 is equipped with the perforation 19 through sealing shroud 18, and the first axle body 4 stretches out sealing shroud 18 via perforation 19, perforation 19 and the One axis body 4 is interference fit, and the first resilient sleeve 5 is detachably connected to the first axle body 4 and stretches out on one end of sealing shroud 18.

It please refers to Fig.1 to shown in Fig. 9, the sealing shroud 18 is taper surface 21, this implementation close to the end face of resilient sleeve one end In example, taper surface 21 is circular conical surface, and the first resilient sleeve 5 has the multiple fins 22 protruded into the first shrinkage pool 6 and connects multiple The fixation disk 23 of fin 22, fin 22 are connect with the side wall of the first shrinkage pool 6, shape between the side wall of 23 and first shrinkage pool 6 of fixed disk At drop-hole 24, fixed disk 23 is provided with the mounting hole 25 for being installed with one end that the first axle body 4 stretches out the first sealing shroud 18, fixed Hole 25 is interference fit with the first axle body 4, into the remaining sand in mounting hole 25 under the effect of gravity via drop-hole 24 along taper Face 21, which drops down onto, leads sand plate 16.In actual use, the one end for the first axle body 4 being stretched out to sealing shroud 18 is inserted into mounting hole 25 The connection for completing the first axle body 4 and the first resilient sleeve 5, when needing to various sizes of material sandblasting, replacement meets size and wants The first resilient sleeve 5 asked.

Multiple fins 22 surround the central axis circular array of the first resilient sleeve 5, and the outer diameter of fixed disk 23 is less than The aperture of first shrinkage pool 6, fixed disk 23 are located in the first shrinkage pool 6, it is ensured that the construction of the first resilient sleeve 5 is symmetrical about central axis Setting so that 5 own wt of the first resilient sleeve is substantially evenly distributed, and when 4 related first resilient sleeve 5 of the first axle body rotates, is prevented Only the first resilient sleeve 5 influences the sandblasting quality of material because beat occurs.

It please referring to Fig.1 with shown in Fig. 5, the pressure holding component 3 further includes the second support 26 being arranged in rack 1, and second Actuator 7 is mounted in second support 26, and second support 26 is equipped with guide post 27, and fagging 8 is slideably positioned in guide post 27,8 sets of fagging It is located at the outside of guide post 27.Second actuator 7 is cylinder, and the piston rod of the second actuator 7 utilizes second for connecting fagging 8 The flexible realization fagging 8 of the piston rod of actuator 7 moves back and forth, can related second resilient sleeve 11 when fagging 8 moves back and forth Close to material or far from material.

It please refers to Fig.1, shown in Fig. 5 and Fig. 6, the pressure holding component 3 further includes first bearing 28 and elastic component 29, first axle It holds 28 to be installed on fagging 8, first bearing 28 is set in the outside of the second axle body 9, and the second axle body 9 is slidably arranged in first bearing In 28, the second axle body 9 is pierced by first bearing 28, and elastic component 29 is used to drive the second axle body 9 after the opposite sliding of first bearing 28 It resets.When the second actuator 7 drives 8 related second resilient sleeve 11 of fagging close to material, until the material other end is inserted into second It in shrinkage pool 12 and contradicts in the second resilient sleeve 11, when material contradicts the second resilient sleeve 11, elastic component 29 is compressed, and bullet is utilized Property part 29 absorb the impact force between material and the second resilient sleeve 11, prevent material to be bruised, while opposite using the second axle body 9 The deviation of the sliding buffering height of materials of first bearing 28 (or opposite fagging 8), it is ensured that pressure holding component 3 can be by a variety of height Material limits on bearing assembly 2, promotes the performance of pressure holding component 3.

It please refers to Fig.1, shown in Fig. 5, Fig. 6 and Fig. 7, the pressure holding component 3 further includes fixed cylinder 31, and fixed cylinder 31 is connected to On fagging 8, fixed cylinder 31, the second resilient sleeve 11 are located at the both sides up and down of fagging 8, and fixed cylinder 31 is equipped with slide opening 32, slide opening 32 self-retaining cylinders 31 close to the side of fagging 8 outer surface it is recessed form, slide opening 32 do not run through fixed cylinder 31, the second axle body 9 One end is slidably arranged in slide opening 32, and elastic component 29 is located in slide opening 32, and the both ends of elastic component 29 are contradicted respectively in the second axle body 9 One end on and the bottom wall of slide opening 32 on.After material completes sandblasting, the second actuator 7 drives 8 related second elasticity of fagging Set 11 is moved towards the direction far from material, and elastic component 29 drives the second resilient sleeve 11 to reset in the presence of a tensile force, for next time Material on pressure holding bearing assembly 2 is ready.

32 content of the slide opening is equipped with second bearing 33, and the second axle body 9 is equipped with baffle ring 34, and baffle ring 34 is from the second axle body 9 Outer surface projects, it is preferable that in a ring, baffle ring 34 is arranged baffle ring 34 around the second axle body 9, and second bearing 33 is arranged In the outside of the second axle body 9, the second axle body 9 is slidably arranged in second bearing 33, and elastic component 29 is spring, and elastic component 29 is arranged In the outside of the second axle body 9, the both ends of elastic component 29 are contradicted respectively in second bearing 33 and on baffle ring 34.Pass through setting second Bearing 33 prevents from generating abrasion between the second axle body 9 and the madial wall of slide opening 32 of rotation, extends fixed cylinder 31 and the second axle body 9 service life.

The pressure holding component 3 further includes sealing ring 35, and sealing ring 35 is installed on fagging 8, and in the present embodiment, fagging 8 is set There are accommodating hole 36, sealing ring 35 to be installed in accommodating hole 36, it is preferable that accommodating hole 36 is stepped hole, and sealing ring 35 is cascade ring Shape, shape and the accommodating hole 36 of sealing ring 35 coincide, and contradict sealing ring 35 using the step of accommodating hole 36, prevent 35 mistake of sealing ring Degree is fitted into accommodating hole 36；First bearing 28 is installed on sealing ring 35, and the second axle body 9 runs through sealing ring 35, and sealing ring 35 is used Gap between sealing first bearing 28 and fagging 8 prevents the post-job remaining sand of material sandblasting via first bearing 28 and support Gap between plate 8 enters in fixed cylinder 31, and the remaining sand avoided enter into fixed cylinder 31 influences the normal rotation of the second axle body 9.

The above content is only presently preferred embodiments of the present invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to the present invention Limitation.

Claims (10)

1. a kind of material driving mechanism for sand-blasting machine, including rack are set to the bearing assembly and pressure holding component of rack, hold It carries component and is used to carry extraneous material, pressure holding component is used to limit material in bearing assembly；It is characterized in that：It is described to hold Component is carried to include the first axle body for rotating setting, the first actuator for driving the first axle body rotation, be removably attachable to First resilient sleeve of the first axle body, the first resilient sleeve are equipped with the first shrinkage pool for being installed with material one end；It includes the to press component It is two actuators, the fagging being connect with the output end of the second actuator, the second axle body for being rotatably dispose in fagging, detachably connected In the second resilient sleeve of the second axle body, the second resilient sleeve is equipped with the second shrinkage pool for being installed with the material other end, the second actuator Via the related second resilient sleeve movement of driving fagging and then by material pressure holding limit in the first resilient sleeve.

2. the material driving mechanism according to claim 1 for sand-blasting machine, it is characterised in that：The bearing assembly also wraps The supporting plate for including activity setting, the third actuator for driving supporting plate to move back and forth, the first axle body are rotatably dispose in supporting plate, and first Actuator is set to supporting plate, and third actuator enters sand-blasting machine via the material that driving related first resilient sleeve of supporting plate is carried Sandblasting intracavitary.

3. the material driving mechanism according to claim 2 for sand-blasting machine, it is characterised in that：The bearing assembly also wraps The first support for being set to rack is included, supporting plate is slideably positioned in first support, and third actuator is set to rack or/and first Frame, supporting plate be connected be obliquely installed lead sand plate, the post-job remaining sand of material sandblasting under the effect of gravity along lead sand plate slide into Sandblasting intracavitary.

4. the material driving mechanism according to claim 2 for sand-blasting machine, it is characterised in that：The number of the first axle body Amount is multiple, and each the first axle body is all connected with there are one the first resilient sleeve, each the first axle body install there are one gear, one The gear of the first axle body engages the gear of the first axle body adjacent thereto, and the first actuator is used to drive the tooth of a first axle body Wheel rotation；Supporting plate is installed with covering plate, and covering plate is used to cover the opening of sandblasting chamber.

5. the material driving mechanism according to claim 2 for sand-blasting machine, it is characterised in that：The bearing assembly also wraps Sealing shroud is included, sealing shroud is sheathed on the outside of the first axle body, and sealing shroud is used to seal the gap between supporting plate and the first axle body, close Big envelope is equipped with the perforation through sealing shroud, and the first axle body stretches out sealing shroud via perforation, and perforation is matched with the first axle body for interference It closes, the first resilient sleeve is removably attachable to one end that the first axle body stretches out sealing shroud.

6. the material driving mechanism according to claim 5 for sand-blasting machine, it is characterised in that：The sealing shroud leans on short round Property to cover the end face of one end be taper surface, the first resilient sleeve, which has, protrudes into multiple fins in the first shrinkage pool and the multiple fins of connection Fixation disk, fin connect with the side wall of the first shrinkage pool, and drop-hole, fixed disk are formed between fixed disk and the side wall of the first shrinkage pool Equipped with the mounting hole for being installed with the first axle body and stretching out one end of the first sealing shroud, mounting hole is interference fit with the first axle body, into Enter the remaining sand in the first shrinkage pool and drop down onto along taper surface via drop-hole under the effect of gravity to lead sand plate.

7. the material driving mechanism according to claim 1 for sand-blasting machine, it is characterised in that：The pressure holding component also wraps First bearing and elastic component are included, first bearing is installed in fagging, and first bearing is sheathed on the outside of the second axle body, and the second axle body is slided Dynamic to be set to first bearing, elastic component is used to drive the second axle body after opposite first bearing sliding to reset.

8. the material driving mechanism according to claim 7 for sand-blasting machine, it is characterised in that：The pressure holding component also wraps Fixed cylinder is included, fixed cylinder is connected to fagging, and fixed cylinder, the second resilient sleeve are located at the both sides of fagging, and fixed cylinder is equipped with slide opening, One end of the second axle body is slideably positioned in slide opening, and elastic component is located in slide opening, and the both ends of elastic component contradict the second axle body respectively One end and slide opening bottom wall.

9. the material driving mechanism according to claim 8 for sand-blasting machine, it is characterised in that：The slide opening content is equipped with Second bearing, the second axle body are equipped with baffle ring, and baffle ring is projected from the outer surface of the second axle body, and second bearing is sheathed on the second axis The outside of body, the second axle body are slideably positioned in second bearing, and elastic component is spring, and elastic component is sheathed on the outside of the second axle body, The both ends of elastic component contradict second bearing and baffle ring respectively.

10. the material driving mechanism according to claim 9 for sand-blasting machine, it is characterised in that：The pressure holding component is also Including sealing ring, sealing ring is installed in fagging, and first bearing is installed in sealing ring, and the second axle body runs through sealing ring, and sealing ring is used Gap between sealing first bearing and fagging.