CN209140272U - The liner plate mounting structure of vertical double-rotor hammer powder machine - Google Patents

Abstract

The utility model relates to mounting technology fields, specifically disclose the liner plate mounting structure of vertical double-rotor hammer powder machine, including tappet head, are equipped with nut positioning chamber in tappet head；Positioning component includes the first positioning component and the second positioning component；First positioning component includes button and positioning protrusion, and tappet head is equipped with button cavities, sliding cavity and displacement chamber, and button is slidably connected in button cavities, and elastic component is equipped in button cavities；Positioning protrusion is slidably connected in sliding cavity, connecting rod is fixed between positioning protrusion and button, and connecting rod is located in displacement chamber, and the width of displacement chamber is greater than the width of connecting rod；Second positioning component includes screw rod positioning column and the spring part for the reset of screw rod positioning column, and screw rod positioning column is located in nut positioning chamber, and the cavity wall of nut positioning chamber is equipped with blind hole, and screw rod positioning column is slidably connected with blind hole.During this programme solves prior art installation liner plate, whole process needs two people to cooperate completion, problem very troublesome.

Description

The liner plate mounting structure of vertical double-rotor hammer powder machine

Technical field

The present invention relates to mounting technology fields, specifically disclose a kind of liner plate mounting structure of vertical double-rotor hammer powder machine.

Background technique

Brick is artificial small-sized bulk for building, and there are many brick classification, by material point: clay brick, shale brick, gangue Brick, flyash brick, Dinas brickes, concrete brick etc..Divide solid brick, porous brick and hollow brick by hole ratio.China is in period in Spring and Autumn and Warring States Period has formulated rectangular and elongated brick successively, and technology and production scale, the quality and pattern variety of Qin Han dynasty brickmaking have aobvious Development is write, be referred in the world " Qin brick and Han tile ".

There are many existing brick producing materials, is mainly selected according to the purposes of required brick and classification；Brickmaking is normal There is rock etc. with material, needs to be crushed using hammer powder machine before use.Existing hammer powder machine includes cabinet, case lid and crushing Chamber, the interior setting of crushing chamber crush hammer；The top of cabinet is provided with feed inlet；The surface of cabinet is provided with case lid, case lid by hinge It can be turned over, and case lid and cabinet are fastened by clamping screw；Shaft, the outer side of cabinet are equipped with by bearing on cabinet Shaft on be provided with belt pulley, the other side is provided with stabilizer；Shaft protrudes into cabinet, and shaft crushes hammer turn for driving It is dynamic, realize that the impact to rock crushes；Be provided with below crushing chamber adjustable gap without mesh screen plate, the lower section of no mesh screen plate For discharge port.In practical work process, the rubble generated in crushing chamber easily splashes, and is easy to hit crushing chamber cavity wall；Therefore, in order to Protection crushes cavity wall, crushes and is equipped with muti-piece liner plate by screw rod, nut on cavity wall, crushes cavity wall by rubble to reduce Collision.The detailed process of liner plate installation is as follows: clamping screw being opened, so that case lid and cabinet separate, is then adjacent to liner plate Crushing chamber cavity wall, and by liner plate mounting hole alignment crushing chamber cavity wall on mounting hole, then by stud out of crushing chamber to It wears outside, stud is pierced by the outer wall of hammer powder machine, a hand steered liner plate of staff, and screw is fixed, another staff It is screwed on stud and rotates from outside by nut, that realizes nut and stud tightens movement.

There are following technical problems for the prior art:

1, liner plate generally uses multiple groups nut, screw rod to cooperate and installs, and during installation, needs fixture nut or spiral shell One in bar, another is then rotated, and then realizes and tightens movement, whole process requires two people and cooperates completion, very fiber crops It is tired；

2, liner plate is mounted on cabinet wall, and when rubble hits liner plate, liner plate generates vibration, can be produced between liner plate and cabinet Raw friction is hit, and causes the external noise heard larger.

Summary of the invention

The purpose of the present invention is to provide the liner plate mounting structures of vertical double-rotor hammer powder machine, solve prior art installation During liner plate, whole process needs two people to cooperate completion, problem very troublesome.

In order to achieve the above objectives, base case of the invention is as follows:

Vertical double-rotor hammers the liner plate mounting structure of powder machine, including tappet head into shape, is equipped with nut positioning chamber in tappet head；It tightens Head is equipped with positioning component, and positioning component includes the first positioning component and the second positioning component；

First positioning component includes button and positioning protrusion, and tappet head is equipped with button cavities, sliding cavity is pressed with for being connected to The displacement chamber of button chamber and sliding cavity, button are slidably connected in button cavities, and the elasticity for push-button reset is equipped in button cavities Part；Positioning protrusion is slidably connected in sliding cavity, connecting rod is fixed between positioning protrusion and button, and connecting rod is located at displacement Intracavitary, the width of displacement chamber is greater than the width of connecting rod；

Second positioning component includes screw rod positioning column and the spring part for the reset of screw rod positioning column, and screw rod positioning column is located at In nut positioning chamber, the cavity wall of nut positioning chamber is equipped with the blind hole being connected to nut positioning chamber, and screw rod positioning column and blind hole are sliding Dynamic connection.

The beneficial effect of this programme is:

1, when being tightened using the tappet head in this programme to nut and stud, it is only necessary to two people's cooperations early period, it will Stud penetrates in mounting hole, then screws on stud from outside by nut, then tappet head is covered on nut, the first positioning component Tappet head is positioned；After tappet head realizes positioning, the nut in tappet head is also positioned, when staff unclamps stud, Situations such as nut teetertotters, is crooked will not occur, tighten movement convenient for subsequent；It is subsequent the movements such as to tighten and all do not need Other people participate in, and a people can complete, very convenient.

2, the setting of connecting rod, primarily to button is connected with positioning protrusion, so that when push button, positioning Protrusion can also move synchronously；And then guarantee under the control of button and spring part, positioning protrusion can slide in or out It rotates in chamber.

It further, further include baffle ring for being contacted with nut, baffle ring is fixed in nut positioning chamber.

When so that tappet head covers nut, baffle ring can push down nut, further prevent nut to shake or move, just It is not in crooked situation when subsequent tighten.

Further, blind hole is square column type, and screw rod positioning column is also the square column type with blind hole cooperation.

Simply realizing screw rod positioning column will not rotate in blind hole.

Further, blind hole includes bar shaped slideway and cylindrical hole ontology, and bar shaped slideway is arranged on the hole wall of blind hole； Screw rod positioning column includes the cylinder body of rod and slide protrusion, and slide protrusion is fixed on the side wall of the cylinder body of rod, and slide protrusion with Bar shaped slideway is slidably connected.

It is sliding along the inner wall of blind hole to ensure that entire screw rod positioning column is merely able to for the setting of bar shaped slideway and slide protrusion It is dynamic, without what is turned.

Further, there are otic placode in the two sides of tappet head respectively, and two otic placodes are along the center line symmetrical setting of tappet head.Just In manually tightening.

Further, the outer wall of tappet head is equipped with a ring annular groove, uniformly distributed tread plate in annular groove.When necessary, just It is clipped at annular groove in pliers and realizes tightening for tappet head.

It further, further include lining plate structure, lining plate structure includes liner plate ontology and rubber layer, and rubber layer is close to liner plate ontology One side be equipped with multiple conical cavities.

The setting of rubber layer, primarily to drop vibration and noise reduction；Multiple conical cavities are provided in rubber layer, primarily to Further enhance erasure effect.

Further, rubber layer is magnetic rubber layer.Liner plate is usually irony, and magnetic rubber is primarily to further Guarantee rubber layer can be attached on liner plate.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the liner plate mounting structure embodiment one of vertical double-rotor hammer powder machine of the present invention；

Fig. 2 is the enlarged drawing of A in Fig. 1；

Fig. 3 is the main view hammered circular trough on powder machine outer wall in embodiment one into shape, rotate chamber (rotation chamber is drawn using dotted line)；

Fig. 4 is the cross-sectional view of the liner plate mounting structure embodiment two of vertical double-rotor hammer powder machine of the present invention.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: tappet head 1, nut positioning chamber 11, Kong Benti 111, bar shaped slideway 112, annular groove 12, sliding cavity 13, displacement chamber 14, button cavities 15, elastic component 16, the first positioning component 2, button 21, convex Play 22, connecting rod 23, the second positioning component 3, screw rod positioning column 31, spring part 32, baffle ring 4, otic placode 5, liner plate ontology 6, glue-line 61, conical cavity 62, circular trough 7, rotation chamber 71, mounting hole 72, stud 8, nut 81.

Embodiment one

Embodiment one is basic as shown in attached drawing 1~3:

Mounting structure in the present embodiment when in use, needs cooperation to improve hammer powder machine outer wall, outside hammer powder machine A circular trough 7 as shown in Figure 3 is processed on wall, the cell wall bottom of circular trough 7 is communicated with the rotation chamber 71 of annular.In addition, spiral shell A location hole is arranged in the end of column 8, protrudes into convenient for screw rod positioning column 31, prevents stud 8 from rotating.

As depicted in figs. 1 and 2, the liner plate mounting structure of vertical double-rotor hammer powder machine, including tappet head 1 and be used for and nut The metal baffle ring 4 of 81 contacts, tappet head 1 is interior to be equipped with nut positioning chamber 11；The shape of nut positioning chamber 11 is subject to nut 81, example Such as six rib nuts 81, then the shape of nut positioning chamber 11 is six prismatics；The outer wall of baffle ring 4 and the inner wall of nut positioning chamber 11 weld It connects.

Tappet head 1 is equipped with positioning component, and positioning component includes the first positioning component 2 and the second positioning component 3；First is fixed Hyte part 2 is two, is separately positioned on the two sides of tappet head 1, and two positioning components are along the axial line of tappet head 1 in Fig. 1 It is symmetrical arranged.As shown in Fig. 2, the first positioning component 2 include button 21 and positioning protrusion 22, tappet head 1 be equipped with button cavities 15, Sliding cavity 13 is slidably connected in button cavities 15 with the displacement chamber 14 for being connected to button cavities 15 and sliding cavity 13, button 21, and The elastic component 16 resetted for button 21 is equipped in button cavities 15, which is pressure spring, the bottom end of pressure spring and button cavities 15 Bottom wall fix, the upper end of pressure spring and button 21 are fixed.Positioning protrusion 22 is slidably connected in sliding cavity 13, positioning protrusion 22 with Connecting rod 23 is fixed between button 21, and connecting rod 23 is located in displacement chamber 14, the width of displacement chamber 14 is greater than connecting rod 23 Width, moved up and down in displacement chamber 14 convenient for the connecting rod 23 in Fig. 2.

As shown in Figure 1, the second positioning component 3 includes screw rod positioning column 31 and the spring part for the reset of screw rod positioning column 31 32, which is also pressure spring；Screw rod positioning column 31 is located in nut positioning chamber 11, and the cavity wall of nut positioning chamber 11 is equipped with The blind hole being connected to nut positioning chamber 11, screw rod positioning column 31 are slidably connected with blind hole.Blind hole in the present embodiment includes bar shaped Slideway 112 and cylindrical hole ontology 111, and bar shaped slideway 112 is arranged on the hole wall of blind hole；Screw rod positioning column 31 includes circle Mast body and slide protrusion, slide protrusion are fixed on the side wall of the cylinder body of rod, and slide protrusion and the sliding of bar shaped slideway 112 connect It connects.

As shown in Figure 1, there are otic placode 5 in the two sides of tappet head 1 respectively, and two otic placodes 5 are symmetrical along the axial line of tappet head 1 Setting when manually tightening, exerts a force convenient for hand.When necessary, it may need to use pliers to further tighten, for the ease of Pliers clamping, the outer wall of tappet head 1 are equipped with a ring annular groove 12, are evenly arranged tread plate in annular groove 12, which is Metal strip, and there are gaps between adjacent tread plate.

Embodiment two

The difference between this embodiment and the first embodiment lies in the present embodiment further includes lining plate structure, lining plate structure includes such as Fig. 4 Shown in rubber layer 61 and liner plate ontology 6 made of iron, rubber layer 61 close to the face of liner plate ontology 6 be equipped with multiple conical cavities 62. In addition, the surface of rubber layer 61 is fixed with magnetic rubber, convenient for being adjacent to liner plate ontology 6 and hammer powder chamber cavity wall；There is conical cavity 62 Magnetic rubber on face is provided with quantity hole identical with conical cavity 62, is primarily to facilitate and exposes conical cavity 62.The magnetic rubber by Raw rubber, magnetic powder (magnetic fillers) and other auxiliary agents are formulated；It can directly be selected and purchased to manufacturer.

Embodiment three

The difference between this embodiment and the first embodiment lies in the blind hole in the present embodiment is specially square column type, screw rod positioning column 31 be also the square column type cooperated with blind hole, and simply realizing screw rod positioning column 31 will not rotate in blind hole.

Specific implementation process is as follows:

When tightening using the tappet head 1 in this programme to nut 81 and stud 8, rubber layer 61 is attached to liner plate ontology Lining plate structure is formed on 6, an employee is by the mounting hole 72 in the mounting hole alignment crushing chamber cavity wall on lining plate structure, by stud 8 penetrate in mounting hole 72, another employee screws in nut 81 on stud 8 from outside, guarantee that nut 81 will not fall from stud 8 It falls；Tappet head 1 is covered on nut 81 again, push button 21, button 21 squeezes elastic component 16 and towards in button cavities 15 The lower part of tappet head 1 also towards moving in sliding cavity 13, is inserted into circular trough 7 by portion's movement, at the same time, positioning protrusion 22 It is interior, until the lower end of tappet head 1 is contacted with the bottom surface of circular trough 7, then release button 21, elastic component 16 make button 21 towards Direction far from button cavities 15 moves, while positioning protrusion 22 is then inserted into rotation chamber 71, and the realization of the first positioning component 2 will twist Tight head 1 is located on the outer wall of hammer powder machine.After tappet head 1 realizes positioning, the baffle ring 4 in tappet head 1 can be contacted with nut 81, spiral shell Mother 81 is also positioned in nut positioning chamber 11, when staff unclamps stud 8, nut 81 will not be occurred and be teetertottered, is askew Situations such as oblique.

In addition, screw rod positioning column 31 can be inserted into the location hole on stud 8 when tappet head 1 is navigated on hammer powder machine outer wall It is interior, when guaranteeing rotating nut 81, what stud 8 will not turn.

Then two people cooperate again complete its elsewhere lining plate structure installation, due to these installation do not need nut 81 is complete It tightens entirely, it is very short to install the time.It is subsequent tighten movement and all do not need other people participate in, people rotates tappet head 1, Nut 81 can be driven to rotate, and stud 8 will not also rotate, can only be moved towards the direction of blind hole, guarantee to realize spiral shell Mother 81 and stud 8 tighten movement.

To sum up, tappet head 1 is fixed on the outer wall of hammer powder machine by this programme using the first positioning component 2, while also being realized Positioning to nut 81；Second positioning component 3 can position stud 8, when guaranteeing rotation tappet head 1, nut 81 Rotation and stud 8 can be moved away from the direction of hammer powder machine outer wall, until the nut of stud 8 compresses liner plate.And we Tappet head 1 in case can not also be taken off from hammer powder machine, convenient for subsequent maintenance (turn tappet head 1 be just able to know that nut, Whether stud loosens).

The above are merely the embodiment of the present invention, the common sense such as well known specific structure and characteristic are not made excessively herein in scheme Description.It should be pointed out that for those skilled in the art, without departing from the structure of the invention, can also make Several modifications and improvements, these also should be considered as protection scope of the present invention, these all will not influence the effect that the present invention is implemented And patent practicability.The scope of protection required by this application should be based on the content of the claims, specific in specification The records such as embodiment can be used for explaining the content of claim.

Claims (8)

1. vertical double-rotor hammers the liner plate mounting structure of powder machine, including tappet head into shape, nut positioning chamber is equipped in tappet head；Its feature It is, the tappet head is equipped with positioning component, and the positioning component includes the first positioning component and the second positioning component；

First positioning component includes button and positioning protrusion, and tappet head is equipped with button cavities, sliding cavity is pressed with for being connected to The displacement chamber of button chamber and sliding cavity, the button are slidably connected in button cavities, and are equipped in button cavities for push-button reset Elastic component；The positioning protrusion is slidably connected in sliding cavity, and connecting rod, and connecting rod are fixed between positioning protrusion and button In displacement chamber, the width of displacement chamber is greater than the width of connecting rod；

Second positioning component includes screw rod positioning column and the spring part for the reset of screw rod positioning column, the screw rod positioning column In nut positioning chamber, the cavity wall of nut positioning chamber is equipped with the blind hole being connected to nut positioning chamber, the screw rod positioning column It is slidably connected with blind hole.

2. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 1, it is characterised in that: further include being used for The baffle ring contacted with nut, the baffle ring are fixed in nut positioning chamber.

3. the liner plate mounting structure of vertical double-rotor according to claim 2 hammer powder machine, it is characterised in that: the blind hole is Square column type, the screw rod positioning column are also the square column type with blind hole cooperation.

4. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 2, it is characterised in that: the blind hole packet Bar shaped slideway and cylindrical hole ontology are included, and bar shaped slideway is arranged on the hole wall of blind hole；The screw rod positioning column includes circle Mast body and slide protrusion, the slide protrusion are fixed on the side wall of the cylinder body of rod, and slide protrusion and bar shaped slideway slide Connection.

5. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 3 or 4, it is characterised in that: described to twist There are otic placode in the two sides of tight head respectively, and two otic placodes are along the center line symmetrical setting of tappet head.

6. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 5, it is characterised in that: the tappet head Outer wall be equipped with a ring annular groove, uniformly distributed tread plate in annular groove.

7. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 1, it is characterised in that: further include liner plate Structure, the lining plate structure include liner plate ontology and rubber layer, and the rubber layer is equipped with multiple close to the one side of liner plate ontology Conical cavity.

8. the liner plate mounting structure of vertical double-rotor hammer powder machine according to claim 7, it is characterised in that: the rubber layer For magnetic rubber layer.