CN213645948U - Drilling clamp of air cover cap - Google Patents

Abstract

The utility model discloses a boring grab of gas shroud, including anchor clamps seat subassembly, activity right angle anchor clamps subassembly, top movable assembly, power component, liftout subassembly, material pressure subassembly and drive assembly, activity right angle anchor clamps subassembly movable mounting the upper surface of anchor clamps seat subassembly, top movable assembly movable mounting be in the upper surface one end of anchor clamps seat subassembly, power component fixed mounting be in outside one side of anchor clamps seat subassembly, the liftout subassembly activity is established inside the opposite side of anchor clamps seat subassembly, material pressure subassembly activity sets up the inside of anchor clamps seat subassembly, material pressure subassembly activity sets up the both sides of activity right angle anchor clamps subassembly, the drive assembly activity sets up the inside of anchor clamps seat subassembly. The utility model discloses the device is simple, and the operating personnel of being convenient for places fast and treats the processing part, and processing technology is simple, and the cost is low to part auto-eject after will processing saves the time of dismantling.

Description

Drilling clamp of air cover cap

The technical field is as follows:

the utility model relates to an auto parts production facility technical field specifically is a boring grab of gas shroud.

Background art:

the gas cover (cylinder cover) is used for sealing the cylinder, forms a combustion space together with the piston and bears the action of high-temperature and high-pressure gas, the cylinder cover bears the gas force and mechanical load caused by fastening of a cylinder bolt, and simultaneously bears high thermal load due to contact with the high-temperature gas, in order to ensure good sealing of the cylinder, the cylinder cover can not be damaged or deformed, and therefore the cylinder cover has enough strength and rigidity;

however, the existing air hood clamp has the following defects:

(1) because the air cover is roughly in a rectangular cubic structure, in order to effectively fix the part, the existing air cover furniture simultaneously fixes four sides of the air cover, so that the structure inside the clamp is very complex, the clamp processing technology is high, and the manufacturing cost is high;

(2) the existing air hood cover does not provide a device for automatically separating parts after machining, so that the parts need to be manually removed by operators, certain time is consumed to waste the work of disassembling and assembling the parts, and the work efficiency and the product output efficiency are influenced.

The utility model has the following contents:

an object of the utility model is to provide a boring grab of gas shroud to solve the problem that proposes among the above-mentioned background art.

The utility model discloses by following technical scheme implement: a drilling clamp of an air hood cover comprises a clamp seat assembly, a movable right-angle clamp assembly, a jacking assembly, a power assembly, a jacking assembly, a material pressing assembly and a transmission assembly;

the movable right-angle clamp assembly is movably arranged on the upper surface of the clamp seat assembly, the jacking assembly is movably arranged at one end of the upper surface of the clamp seat assembly, the power assembly is fixedly arranged on one side of the outer part of the clamp seat assembly, the jacking assembly is movably arranged in the other side of the clamp seat assembly, the material pressing assembly is movably arranged in the clamp seat assembly, the material pressing assembly is movably arranged on two sides of the movable right-angle clamp assembly, and the transmission assembly is movably arranged in the clamp seat assembly;

the power component works to enable the jacking component to rotate and jack the movable right-angle clamp component, the jacking component is subjected to the pressure of the movable right-angle clamp component and is used for driving the material pressing component to lift, and the material pressing component is used for ejecting the gas hood cover part after the drilling work is finished.

As preferred, the inside anchor clamps pedestal that still includes of anchor clamps seat subassembly, the inside fixed the offering in anchor clamps pedestal one side runs through the waste material mouth of anchor clamps pedestal, anchor clamps pedestal upper surface both sides are all fixed to have seted up and are inhaled the silo, the anchor clamps pedestal is close to the fixed side-shifting groove and the guide way of having seted up of power component one side outer wall, anchor clamps pedestal upper surface is located liftout subassembly outside fixed mounting has the lateral wall fixed pin, anchor clamps pedestal upper surface is located activity right angle anchor clamps subassembly both sides fixed mounting has the anchor clamps locating pin, the anchor clamps pedestal is inside to be located two inhale the equal fixed mounting in silo below and inhale the magnet.

Preferably, the movable right-angle clamp assembly further comprises a right-angle clamp body, an inner distance limiting groove penetrating through the right-angle clamp body is fixedly formed in the right-angle clamp body, a distance limiting pin is movably inserted into the inner distance limiting groove and fixedly installed on the upper surface of the clamp base body, side linkage blocks are fixedly welded on the outer walls of two sides of the right-angle clamp body, and a return pin is fixedly installed at one end of the upper surface of the right-angle clamp body.

Preferably, the jacking assembly further comprises a jacking convex block, a rotating pin is movably sleeved in the jacking convex block, the rotating pin is fixedly installed on the upper surface of the clamp base body, the top end of the rotating pin is fixedly connected with a return spring, the other end of the return spring is fixedly connected to the top end of the return pin, and a deflection rod is fixedly inserted into the other end of the jacking convex block.

Preferably, the power assembly further comprises a rotating motor, the output end of the rotating motor is fixedly connected with a stud through a coupler, a movable threaded sleeve is sleeved on the outer surface of the stud in a movable threaded manner, one side of the movable threaded sleeve is movably installed inside the guide groove, a linkage notch rod is fixedly welded at the top end of the movable threaded sleeve, one end of the linkage notch rod is movably installed inside the side moving groove, the bottom end of the deflection rod is movably inserted into the linkage notch rod, a bearing body is fixedly arranged at the other end of the linkage notch rod, and the bearing body is fixedly installed on the outer wall of the clamp base.

Preferably, the ejection assembly further comprises an ejection body, a driven block is fixedly welded to the lower surface of the ejection body, an offset inclined groove is fixedly formed in the driven block, an ejection spring is fixedly connected to the lower surface of the driven block, a material pressing block is further arranged in the material pressing assembly, a driving block is fixedly welded to the lower surface of the material pressing block, and inclined guide grooves are fixedly formed in two side walls in the driving block.

Preferably, the transmission assembly further comprises a transmission rod, wherein the two sides of one end of the transmission rod are fixedly welded with bumps, the other end of the transmission rod is fixedly welded with an oblique block, the two bumps are movably embedded into the oblique guide groove, and the oblique block is movably embedded into the oblique groove.

The utility model has the advantages that:

1. the utility model discloses the rotating electrical machines work makes the top move the lug and uses the commentaries on classics round pin as the centre of a circle rotation, the top is moved the lug and then can be pushed up and is moved the right angle and press from both sides specific moving direction and distance with the cooperation in interior gauge length groove, the right angle presss from both sides the other end that the part was processed in the top specifically, the outer wall of the fixed gas shroud of cooperation lateral wall fixed pin, accomplish fixed part's effect at last, pin and return pin are drawn through return spring, consequently can drive and reset after the right angle presss from both sides the specific removal, the fixed effect of above-mentioned mode is firm, and the device is simple, the operating personnel of being convenient for place fast and wait to process the part, save the time of artifical calibration transposition, each subassembly processing technology of.

2. The utility model discloses extrude material briquetting behind the right angle clamp body removal, the material briquetting drives the initiative piece downstream, the lug is at the inside relative slant removal of slant guide slot, realize driving transfer line lateral shifting's effect, meanwhile, the slant piece is at the inside removal in skew inclined plane groove, reach the effect that drives the follower piece downstream at last, finally realize at the in-process of the right angle clamp body fixed part, the liftout body is at the effect of automatic decline, can not obstruct the fixed work who treats the processing part, on the contrary, at the in-process that the right angle clamp body resets, the liftout spring makes the liftout body ejecting processing part that moves upwards, and make the material briquetting reset simultaneously, after realizing processing, the effect that the part popped out after will processing automatically, be convenient for operating personnel's the part of taking off, save the time of dismantling.

3. The utility model discloses the waste material of processing gathers the inside of inhaling the silo fast owing to the attraction of magnet, and the operating personnel of being convenient for cleans this anchor clamps fast, reduces the degree of difficulty of cleaning.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, 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 according to these drawings without creative efforts.

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

FIG. 2 is a schematic perspective view of the clamp seat assembly of the present invention;

fig. 3 is a schematic view of an assembly structure of the material ejecting assembly, the material pressing assembly and the transmission assembly of the present invention;

fig. 4 is a schematic view of the assembled three-dimensional structure of the movable right-angle clamp assembly and the pushing assembly of the present invention.

In the figure: 1. a clamp seat assembly; 101. a clamp seat body; 102. a waste material port; 103. a material suction groove; 104. a side shift groove; 105. a guide groove; 2. a sidewall fixing pin; 3. a movable right angle clamp assembly; 301. a right-angle clamp body; 302. a distance limiting pin; 303. a side linkage block; 304. an inner distance limiting groove; 305. returning the pin; 4. a clamp positioning pin; 5. a jacking assembly; 501. pushing the bump; 502. rotating the pin; 503. a return spring; 504. a deflection bar; 6. a power assembly; 601. a rotating electric machine; 602. a stud; 603. moving the screw sleeve; 604. a linkage notch lever; 605. a bearing body; 7. a material ejecting component; 701. a top body; 702. a driven block; 703. offsetting the inclined plane groove; 704. a material ejecting spring; 8. a material pressing component; 801. pressing the materials into blocks; 802. an active block; 803. an oblique guide groove; 9. a transmission assembly; 901. a transmission rod; 902. a bump; 903. and (5) an oblique block.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to FIGS. 1-4: a drilling clamp of an air hood comprises a clamp seat component 1, and further comprises a movable right-angle clamp component 3, a jacking component 5, a power component 6, a jacking component 7, a material pressing component 8 and a transmission component 9, wherein the movable right-angle clamp component 3 is movably arranged on the upper surface of the clamp seat component 1, the jacking component 5 is movably arranged at one end of the upper surface of the clamp seat component 1, the power component 6 is fixedly arranged on one side of the outer part of the clamp seat component 1, the jacking component 7 is movably arranged inside the other side of the clamp seat component 1, the material pressing component 8 is movably arranged inside the clamp seat component 1, the material pressing components 8 are movably arranged on two sides of the movable right-angle clamp component 3, the transmission component 9 is movably arranged inside the clamp seat component 1, the power component 6 works to enable the jacking component 5 to rotate and jack the movable right-angle clamp component 3, the material ejecting component 7 is used for driving the material pressing component 8 to lift under the action of the pressure of the movable right-angle clamp component 3, and the material pressing component 8 is used for ejecting the gas hood part after the drilling operation is finished.

The fixture seat assembly 1 further comprises a fixture seat body 101, a waste material port 102 penetrating through the fixture seat body 101 is fixedly formed in one side of the fixture seat body 101, suction material grooves 103 are fixedly formed in two sides of the upper surface of the fixture seat body 101, a side moving groove 104 and a guide groove 105 are fixedly formed in the outer wall of one side of the fixture seat body 101, which is close to the power assembly 6, a side wall fixing pin 2 is fixedly mounted on the outer side of the material ejecting assembly 7, the side wall fixing pin 2 is used for fixing the outer walls of the two sides of the air hood cover, fixture positioning pins 4 are fixedly mounted on the upper surface of the fixture seat body 101, which are located on the two sides of the movable right-angle fixture assembly 3, the fixture positioning pins 4 are used for limiting the position of the movable right-angle fixture assembly 3, magnet stones are fixedly mounted below the two suction material grooves 103 in the fixture seat body 101, and suck waste materials generated by drilling, so as to facilitate subsequent cleaning work.

The inside right angle of still including the right angle anchor clamps body 301 that presss from both sides of activity right angle anchor clamps subassembly 3, the inside fixed interior range limiting groove 304 that runs through the right angle of the body 301 of right angle clamp of having seted up of the right angle clamp of body 301, the inside activity of interior range limiting groove 304 is pegged graft and is had range limiting pin 302, range limiting pin 302 fixed mounting be in the upper surface of anchor clamps pedestal 101, the fixed welding of the outer wall in the two sides of the body 301 of right angle clamp has side linkage block 303, the body 301 upper surface one end fixed mounting of right angle clamp has return pin 305, and the body 301 of right angle clamp is moved after being pushed up, and range limiting pin 302 is used for injecing the moving direction and the distance of the body 301.

The pushing assembly 5 further comprises a pushing convex block 501, a rotating pin 502 is movably sleeved inside the pushing convex block 501, the rotating pin 502 is fixedly installed on the upper surface of the clamp base body 101, a return spring 503 is fixedly connected to the top end of the rotating pin 502, the other end of the return spring 503 is fixedly connected to the top end of the return pin 305, a deflection rod 504 is fixedly inserted into the other end of the pushing convex block 501, the pushing convex block 501 can push the right-angle clamp body 301 to move after rotating around the rotating pin 502, the rotating pin 502 and the return pin 305 are pulled through the return spring 503, and therefore the right-angle clamp body 301 is driven to reset after moving, and the right-angle clamp body 301 is enabled to be attached to the pushing convex block 501 at any time.

The power assembly 6 further comprises a rotating motor 601, an output end of the rotating motor 601 is fixedly connected with a stud 602 through a coupler, a movable screw sleeve 603 is sleeved on the outer surface of the stud 602 through movable threads, one side of the movable screw sleeve 603 is movably installed inside the guide groove 105, a linkage notch rod 604 is fixedly welded at the top end of the movable screw sleeve 603, one end of the linkage notch rod 604 is movably installed inside the side moving groove 104, the bottom end of the deflection rod 504 is movably inserted inside the linkage notch rod 604, the other end of the linkage notch rod 604 is fixedly provided with a bearing body 605, the bearing body 605 is fixedly installed on the outer wall of the clamp seat body 101, the rotating motor 601 works to drive the stud 602 to rotate, so that the movable screw sleeve 603 moves straightly along the rotation of the threads to drive the linkage notch rod 604 to move together, and finally drive the deflection rod 504 inserted inside the linkage notch rod 604 to move together, the effect of rotating the knock projection 501 is achieved while the deflection rod 504 can move relatively inside the linkage notch rod 604.

The inside material body 701 that still includes of liftout subassembly 7, the fixed welding of material body 701 lower surface has driven piece 702, the inside skew inclined plane groove 703 of having seted up of driven piece 702, the fixed surface liftout spring 704 of driven piece 702 lower surface, the inside material briquetting 801 that still includes of material pressure subassembly 8, the fixed welding of material briquetting 801 lower surface has initiative piece 802, the inside both sides wall of initiative piece 802 is fixed and has been seted up slant guide slot 803, and the material briquetting 801 is extruded after the right angle anchor clamps body 301 removes, extrudees material briquetting 801 downwards along the inclined plane.

The transmission assembly 9 further comprises a transmission rod 901, both sides of one end of the transmission rod 901 are fixedly welded with a bump 902, an inclined block 903 is fixedly welded at the other end of the transmission rod 901, two protrusions 902 are movably embedded in the inclined guide groove 803, the inclined block 903 is movably embedded in the offset inclined plane groove 703, and the material pressing block 801 drives the driving block 802 to move downwards, so that the convex block 902 relatively moves obliquely in the inclined guide groove 803, thereby driving the transmission rod 901 to move transversely, and at the same time, the inclined block 903 at the other end of the transmission rod 901 moves inside the offset inclined plane groove 703, depending on the direction of the bevel, the driven block 702 is eventually driven to move downward, and conversely, during the resetting of the right-angle clamp body 301, the ejector spring 704 enables the ejector body 701 to move upwards to eject the machined part, and meanwhile, enables the material pressing block 801 to reset.

When the utility model is used, the utility model,

firstly: the part to be processed is placed on the upper surface of the clamp seat body 101, a plurality of side wall fixing pins 2 are used for fixing the outer walls of two sides of the air cap cover, at the moment, the rotary motor 601 works to drive the stud 602 to rotate, so that the movable screw sleeve 603 moves in a straight line along the rotation of the screw thread, the linkage notch rod 604 is driven to move together, and finally the deflection rod 504 inserted in the linkage notch rod 604 is driven to move together, so that the effect of rotating the ejecting lug 501 is realized, meanwhile, the deflection rod 504 can move relatively in the linkage notch rod 604, after the ejecting lug 501 rotates by taking the rotary pin 502 as a circle center, the ejecting lug 501 can eject the right-angle clamp body 301 to move, the return spring 503 pulls the rotary pin 502 and the return pin 305, so that the right-angle clamp body 301 can be driven to reset after moving, so that the right-angle clamp body 301 is attached to the ejecting lug 501 at any time, the right-angle clamp body 301 is ejected and then moves, and the distance limiting pin 302 and the inner distance, the right-angle clamp body 301 jacks the other end of the machined part, and the part is finally fixed, so that the fixation is stable, the device is simple, and the machining process is simple;

and finally: after the right-angle clamp body 301 moves, the material pressing block 801 is extruded downwards along the inclined plane, the material pressing block 801 drives the driving block 802 to move downwards, so that the lug 902 moves obliquely relatively inside the oblique guide groove 803, and the effect of driving the transmission rod 901 to move transversely is further driven, meanwhile, the oblique block 903 at the other end of the transmission rod 901 moves inside the offset inclined plane groove 703, and finally the effect of driving the driven block 702 to move downwards is achieved according to the direction of the inclined plane, and finally, in the process of fixing parts by the right-angle clamp body 301, the material ejecting body 701 automatically descends, on the contrary, in the process of resetting the right-angle clamp body 301, the material ejecting spring 704 enables the material ejecting body 701 to move upwards to eject out machined parts, meanwhile, the material pressing block 801 resets, and after machining is finished, the effect of automatically ejecting the parts is achieved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a boring grab of gas shroud, includes anchor clamps seat subassembly (1), its characterized in that: the device also comprises a movable right-angle clamp assembly (3), a jacking assembly (5), a power assembly (6), a jacking assembly (7), a material pressing assembly (8) and a transmission assembly (9);

the movable right-angle clamp assembly (3) is movably mounted on the upper surface of the clamp seat assembly (1), the jacking assembly (5) is movably mounted at one end of the upper surface of the clamp seat assembly (1), the power assembly (6) is fixedly mounted on one side of the outside of the clamp seat assembly (1), the jacking assembly (7) is movably arranged inside the other side of the clamp seat assembly (1), the material pressing assembly (8) is movably arranged inside the clamp seat assembly (1), the material pressing assembly (8) is movably arranged on two sides of the movable right-angle clamp assembly (3), and the transmission assembly (9) is movably arranged inside the clamp seat assembly (1);

the power assembly (6) works to enable the jacking assembly (5) to rotate and jack the action of the movable right-angle clamp assembly (3), the jacking assembly (7) is used for driving the pressure of the movable right-angle clamp assembly (3) to lift, and the material pressing assembly (8) is used for ejecting the gas hood part after the drilling work is finished.

2. The gas hood drilling jig of claim 1, wherein: the utility model discloses a clamp for the iron ore removal, including anchor clamps seat subassembly (1), anchor clamps seat subassembly (1) is inside still includes anchor clamps pedestal (101), the inside fixed setup in anchor clamps pedestal (101) one side runs through waste material mouth (102) of anchor clamps pedestal (101), anchor clamps pedestal (101) upper surface both sides have all fixedly seted up and have inhaled silo (103), anchor clamps pedestal (101) are close to power component (6) one side outer wall is fixed and has seted up side shift groove (104) and guide way (105), anchor clamps pedestal (101) upper surface is located liftout subassembly (7) outside fixed mounting has lateral wall fixed pin (2), anchor clamps pedestal (101) upper surface is located activity right angle anchor clamps subassembly (3) both sides fixed mounting has anchor clamps locating pin (4), anchor clamps pedestal (101) inside is located two inhale the equal fixed mounting in silo (103) below and inhale the magnet.

3. The gas hood drilling jig of claim 2, wherein: the movable right-angle clamp assembly (3) is characterized by further comprising a right-angle clamp body (301), an inner distance limiting groove (304) penetrating through the right-angle clamp body (301) is fixedly formed in the right-angle clamp body (301), a distance limiting pin (302) is movably inserted in the inner distance limiting groove (304), the distance limiting pin (302) is fixedly installed on the upper surface of the clamp base body (101), side linkage blocks (303) are fixedly welded on the outer walls of two sides of the right-angle clamp body (301), and a return pin (305) is fixedly installed at one end of the upper surface of the right-angle clamp body (301).

4. The gas hood drilling jig of claim 3, wherein: the inside top of the top moving assembly (5) further comprises a top moving convex block (501), a rotating pin (502) is movably sleeved inside the top moving convex block (501), the rotating pin (502) is fixedly installed on the upper surface of the clamp base body (101), the top end of the rotating pin (502) is fixedly connected with a return spring (503), the other end of the return spring (503) is fixedly connected to the top end of the return pin (305), and a deflection rod (504) is fixedly inserted inside the other end of the top moving convex block (501).

5. The gas hood drilling jig of claim 4, wherein: the power assembly (6) is internally provided with a rotating motor (601), the output end of the rotating motor (601) is fixedly connected with a stud (602) through a coupler, a movable thread sleeve (603) is sleeved on the outer surface of the stud (602), one side of the movable thread sleeve (603) is movably installed in the guide groove (105), a linkage notch rod (604) is fixedly welded at the top end of the movable thread sleeve (603), one end of the linkage notch rod (604) is movably installed in the side moving groove (104), the bottom end of a deflection rod (504) is movably inserted in the linkage notch rod (604), the other end of the linkage notch rod (604) is fixedly provided with a bearing body (605), and the bearing body (605) is fixedly installed on the outer wall of the clamp base body (101).

6. The gas hood drilling jig of claim 1, wherein: the ejection assembly (7) is characterized by further comprising an ejection body (701), a driven block (702) is welded on the lower surface of the ejection body (701) in a fixed mode, an offset inclined plane groove (703) is formed in the driven block (702) in a fixed mode, an ejection spring (704) is connected on the lower surface of the driven block (702) in a fixed mode, a material pressing block (801) is further arranged inside the material pressing assembly (8), an active block (802) is welded on the lower surface of the material pressing block (801) in a fixed mode, and oblique guide grooves (803) are formed in two inner side walls of the active block (802) in a fixed mode.

7. The gas hood drilling jig of claim 6, wherein: the transmission assembly (9) further comprises a transmission rod (901), two sides of one end of the transmission rod (901) are fixedly welded with bumps (902), the other end of the transmission rod (901) is fixedly welded with an oblique block (903), the two bumps (902) are movably embedded into the oblique guide groove (803), and the oblique block (903) is movably embedded into the offset oblique groove (703).

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