CN205274277U - Storehouse is stored to dry mash - Google Patents

Abstract

The utility model provides a storehouse is stored to dry mash relates to powder storage technical field, including support frame, drum, an awl section of thick bamboo, a flexonics section of thick bamboo, supporting spring, vibrating motor, heat conduction post, crushed aggregates tooth and branch material piece, vertical setting is followed to the drum, and the outer wall and the support frame of drum are connected, the top of an awl section of thick bamboo is just held for the discharge gate and at the slot and is installed the bleeder valve for slot end, slot end in the bottom for the wide -mouth end, a flexonics section of thick bamboo is connected with a drum and an awl section of thick bamboo respectively along vertical setting, the top and the bottom of a flexonics section of thick bamboo, supporting spring's a top and an awl section of thick bamboo are connected just the bottom and are connected with the support frame, vibrating motor installs the outer wall at an awl section of thick bamboo, the heat conduction post is connected in the drum and with the drum along transversely setting up, the crushed aggregates tooth sets up the inner wall at an awl section of thick bamboo, divide the material piece to be toper and point portion up, divide the material to fix in the drum, divide to have the punishment in advance clearance between the inner wall of material piece and drum. Adopt the utility model discloses a storehouse is stored to dry mash stores the dry mash, the dry mash caking that is difficult for weing.

Description

A kind of dry mash storage warehouse

Technical field

The utility model relates to powder storing technology field, specifically, it relates to a kind of dry mash storage warehouse.

Background technology

Storage warehouse is the important equipment often used in the fields such as building concrete stirring station, it is a kind of enclosed tank body, can storing a large amount of dry mash, prior art, when sending into dry mash in storage warehouse, is all carried by a feed pipe extending into barrel top.

There is following defect in prior art: (1) existing most of dry mash easily makes moist when storing, goes bad; (2) dry mash also easily lumps after making moist in storage warehouse, and powder is difficult in storage warehouse after luming to discharge; (3), after powder lumps, storage warehouse cleaning difficulty is manually entered big.

Practical novel content

The purpose of this utility model is to provide a kind of dry mash storage warehouse, to improve above-mentioned problem.

The utility model is achieved in that

A kind of dry mash storage warehouse, comprising:

Bracing frame;

Cylinder, described cylinder is vertically arranged, and the outer wall of described cylinder is connected with bracing frame;

Cone cylinder, the top of described cone cylinder is wide mouth part and bottom is narrow mouth end, and described narrow mouth end is discharge port, is provided with bleeder valve at narrow mouth end;

Flexibly connect cylinder, described in flexibly connect cylinder and vertically arrange, described in flexibly connect cylinder top be connected with cylinder and cone cylinder respectively with bottom;

Support spring, the top of described support spring is connected with cone cylinder and bottom is connected with bracing frame;

Vibration motor, described vibration motor is arranged on the outer wall of cone cylinder;

Heating column, described heating column is along the radial direction arranged transversely of described circumference, and one end of described heating column is connected with the inwall of cylinder;

Particle tooth, described particle tooth have upward arrange and for disperse lump powder sharp portion, described particle tooth be arranged on cone cylinder inwall;

Point materials and parts, described point of materials and parts are tapered and tip upward, described point of materials and parts are fixed in cylinder by cross bar, and described point of materials and parts are near the bottom of cylinder, and described point has punishment in advance gap between materials and parts and the inwall of cylinder.

Planner of the present utility model is by long-term exploration and trial, and experiment repeatedly and effort, constantly reforms and innovates, have devised this kind of dry mash storage warehouse, this kind of dry mash storage warehouse, it is possible to is pulverized by the powder of caking and discharge from discharge port smoothly.

Storage warehouse is cylinder from top to bottom successively, flexibly connect cylinder and cone cylinder, adopts split-type structural, cylinder and flexibly connect between cylinder, flexibly connect cylinder and all adopt Flange joint between cone cylinder.

Cone cylinder is connected with erecting frame by support spring, and vibration motor is arranged on the outer wall of cone cylinder and cone cylinder is vibrated, and is conducive to powder to glide. Owing to cone cylinder is connected by support spring with erecting frame, and by flexibly connecting, cylinder is connected with cylinder to bore cylinder, and the vibration that cone cylinder is subject to can not pass to erecting frame and cylinder, so the stability of whole storage warehouse is protected.

Heating column is arranged in cylinder for transmitting heat, both the heat of powder in cylinder can be passed to cylinder, it is also possible to the heat of cylinder is passed to powder.

Sometimes temperature is higher just to have added the powder in cylinder, and is deposited in cylinder heat and is difficult to distribute, and is particularly positioned at the powder in the middle part of cylinder. The powder that storage warehouse stores is sometimes pure substance, also may be sometimes mixture, and powder temperature is too high may cause powder go bad or between different powder, chemical reaction occur. When powder temperature is too high, powder transfers heat to cylinder by heating column, is distributed by unnecessary heat by cylinder.

Powder long storage time, in storage warehouse, runs into rainy weather, and when air is moist, the powder in storage warehouse easily makes moist. , it is possible to by external heat source to cylinder heating, in this case and transfer heat to powder by heating column. After heating column transfers heat to powder, powder is heated and is gone out by moisture evaporation.

After opening discharge port, powder can move downward under gravity, and through cylinder, cylinder moves in cone cylinder with flexibly connecting successively from top to bottom.

Here special instruction point materials and parts are needed, the matching relationship of particle part and vibration motor, although being provided with heating column in cylinder, powder can be dried, but the situation that part powder is not dried also may occur, powder just is difficult to discharge from out mouth after caking, but also easily block discharge port, the utility model is provided with point materials and parts of taper in the position near cylinder bottom, the motion route of the powder in cylinder is changed by point materials and parts of taper, the inwall towards cylinder is made in cylinder when the powder of cylinder axial line moves downward to move, fall the inwall of cone cylinder from the punishment in advance gap point between materials and parts and the inwall of cylinder in last cylinder, and the inwall boring cylinder is provided with particle tooth, the powder fallen in cylinder drops to particle tooth, if powder lumps, the powder then lumpd directly is hit broken by particle, certainly the powder of caking is it is also possible to occur being stuck between particle tooth and be difficult to situation about moving downward, so being also provided with vibration motor, by vibrating the high-frequency vibration of motor, the powder in cone cylinder is moved smoothly towards discharge port, vibration motor also has the auxiliary effect pulverizing conglomeration powder simultaneously.

As preferably, the outer wall of described cylinder is provided with heat exchange jacket, the bottom of described heat exchange jacket is connected with liquid-inlet pipe, and the top of described heat exchange jacket is connected with drain pipe.

In this preferred version, outer wall at cylinder arranges heat exchange jacket two big benefits, on the one hand, the temperature of the heat exchange medium in heat exchange jacket only need to be controlled when adopting heat exchange jacket to heat, temperature-controllable, such as adopting hot water as heat exchange medium, top temperature can not more than 200 ��, it does not have dangerous; On the other hand, sometimes need by the heat conduction of powder in cylinder out, adopt cold water as heat exchange medium, the heat of powder can be absorbed, prevent the powder temperature in tank body too high.

As preferably, the projection in the horizontal plane of described discharge port is positioned at the projection in the horizontal plane of point materials and parts.

The object arranging point materials and parts makes to prevent the powder direct motion of the caking in tank body to discharge port, otherwise discharge port can be plugged. Discharge port projection in the horizontal plane is positioned at the projection in the horizontal plane of point materials and parts, is conducive to by the powder lot dispersing of caking to the position near cone cylinder inwall, and the powder of caking is at the inwall through cone cylinder, and the powder of caking can be pulverized by particle tooth.

As preferably, described particle tooth is triangular pyramid, the bottom surface of described particle tooth is fixed with the inwall boring cylinder.

The particle dental transition of triangular pyramid is the broken powder lumpd easily.

As preferably, described heating column is cylindrical, and described heating column is made up of thermally conductive material.

Owing to the powder flowing in cylinder is had certain obstruction by heating column, if heating column is square column, then the stop of powder is bigger, and cylindrical heating column is set, due to heating column smooth surface and in cambered surface, powder is easy to walk around heating column.

As preferably, described heating column is obliquely installed, one end being connected with inwall of described heating column is higher than the other end.

In this preferred version, heating column is obliquely installed and is more conducive to powder to flow.

As preferably, the angle between described heating column and horizontal plane is 5��10 ��.

Along with dry mash constantly entered in cylinder from feed-pipe time, the air pressure in cylinder will be greater than outside air pressure, and the dust in cylinder easily overflows and polluted air.

As preferably, the top of described cylinder is provided with top cover, feed-pipe and vapor pipe, described top cover and cylinder removably connect or one-body molded, and described feed-pipe and vapor pipe all stretch in cylinder through top cover.

In this preferred version, vapor pipe also it is provided with at the top of cylinder, one end of vapor pipe is stretched in cylinder for collecting the gas containing a large amount of dust, the other end of vapor pipe connects after the equipment for the treatment of dusty gas purifies and is discharged in air, dust is avoided to be mixed in air, dust is mixed in air not only polluted air, causes staff's body damage, more it is a risk that when easily explosion caused after the height that dust concentration reaches certain.

As preferably, dust-filtering net it is provided with in described cylinder, the described edge of dust-filtering net is connected with the inwall of cylinder, the end that described feed-pipe is positioned at cylinder is through dust-filtering net and the lower section extending to dust-filtering net, and the end that described vapor pipe is positioned at cylinder is positioned at the top of dust-filtering net.

In this preferred version, in cylinder, it is provided with dust-filtering net further, it is possible to tentatively filter out due to the reinforced dust caused. Owing to the exit end of feed-pipe is lower than the position of dust-filtering net, powder can enter in cylinder through feed-pipe smoothly, and the inlet end of vapor pipe is higher than dust-filtering net, dust in cylinder is stopped by dust-filtering net, the air of dust-filtering side on the net is almost containing dust, and the unnecessary gas in cylinder is discharged from vapor pipe.

As preferably, described dust-filtering net comprises grid cloth and set collar, described grid cloth being provided with the hole excessively mated with feed-pipe, the edge of described grid cloth is fixedly connected with the interior edge of set collar, and the inwall of described set collar and cylinder removably connects.

The useful effect that the utility model realizes: in dry mash storage warehouse of the present utility model, the heating column serving as heat transmission medium it is provided with in the inside of cylinder, be conducive to the heat trnasfer of powder and cylinder, fast the heat of powder inside can be distributed by heating column and cylinder, also fast the powder in cylinder can be heated simultaneously, prevent powder from making moist caking; In addition, divide materials and parts, particle tooth and vibration motor synergy, jointly the powder of caking is carried out fragmentation, thus the powder in cylinder is discharged from discharge port smoothly, adopt dry mash storage warehouse of the present utility model to store dry mash, powder quality is secure, and need not manually enter storage warehouse cleaning caking powder, it may also be useful to convenient, structure is simple, cost of manufacture is low, is applicable to promoting the use of.

Accompanying drawing explanation

Fig. 1 shows the schematic diagram of the dry mash storage warehouse of the utility model embodiment 1;

Fig. 2 shows the sectional view of cylinder in Fig. 1;

Fig. 3 shows the schematic diagram of the dry mash storage warehouse of the utility model embodiment 2;

Fig. 4 shows the schematic diagram of the dry mash storage warehouse of the utility model embodiment 3.

Wherein, the Reference numeral of Fig. 1��Fig. 4 is:

Bracing frame 101; Cylinder 102; Cone cylinder 103; Flexibly connect cylinder 104; Support spring 105; Vibration motor 106; Heating column 107; Particle tooth 108; Divide materials and parts 109; Cross bar 110; Top cover 111; Feed-pipe 112; Heat exchange jacket 113; Liquid-inlet pipe 114; Drain pipe 115; Vapor pipe 116; Dust-filtering net 117.

Embodiment

Storage warehouse is the important equipment often used in the fields such as building concrete stirring station, it is a kind of enclosed tank body, can storing a large amount of dry mash, prior art, when sending into dry mash in storage warehouse, is all carried by a feed pipe extending into barrel top.

There is following defect in prior art: (1) existing most of dry mash easily makes moist when storing, goes bad; (2) dry mash also easily lumps after making moist in storage warehouse, and powder is difficult in storage warehouse after luming to discharge; (3), after powder lumps, storage warehouse cleaning difficulty is manually entered big.

Those skilled in the art are seeking a kind of instrument or the method for improving this problem for a long time always.

Given this, planner of the present utility model is by long-term exploration and trial, and experiment repeatedly and effort, constantly reforms and innovates, have devised a kind of dry mash storage warehouse, it may also be useful to this kind of a kind of dry mash storage warehouse can improve the problems referred to above preferably.

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments. The assembly of the utility model embodiment usually describing in accompanying drawing herein and illustrating can be arranged with various different configuration and design.

Therefore, below to the detailed description of the embodiment of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but only represent selected embodiment of the present utility model. Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that: similar label and letter accompanying drawing below represents similar item, therefore, once a certain Xiang Yi accompanying drawing is defined, then do not need it carries out definition further and explains in accompanying drawing subsequently.

Embodiment 1, see Fig. 1��Fig. 2.

Present embodiments provide a kind of dry mash storage warehouse, comprise bracing frame 101, cylinder 102, cone cylinder 103, flexibly connect cylinder 104, support spring 105, vibration motor 106, heating column 107, particle tooth 108 and point materials and parts 109.

Cylinder 102 is vertically arranged, the outer wall of cylinder 102 is connected with bracing frame 101, heating column 107 is transversely arranged, one end of heating column 107 is connected with the inwall of cylinder 102, and the other end is cylindrical towards the axial line of cylinder 102, heating column 107, heating column 107 is made up of thermally conductive material, heating column 107 is obliquely installed, and one end being connected with inwall of heating column 107 is 5 �� higher than the other end, heating column 107 with the angle of horizontal plane.

Heating column 107 is arranged in cylinder 102 for transmitting heat, both the heat of powder in cylinder 102 can be passed to cylinder 102, it is also possible to the heat of cylinder 102 is passed to powder.

Sometimes temperature is higher just to have added the powder in cylinder 102, and is deposited in cylinder 102 heat and is difficult to distribute, and is particularly positioned at the powder in the middle part of cylinder 102. The powder that storage warehouse stores is sometimes pure substance, also may be sometimes mixture, and powder temperature is too high may cause powder go bad or between different powder, chemical reaction occur. When powder temperature is too high, powder transfers heat to cylinder 102 by heating column 107, is distributed by unnecessary heat by cylinder 102.

Powder long storage time, in storage warehouse, runs into rainy weather, and when air is moist, the powder in storage warehouse easily makes moist. , it is possible to heated to cylinder 102 by external heat source, in this case and transfer heat to powder by heating column 107. After heating column 107 transfers heat to powder, powder is heated and is gone out by moisture evaporation.

The top of cone cylinder 103 is wide mouth part and bottom is narrow mouth end, and narrow mouth end is discharge port and is provided with bleeder valve at narrow mouth end; Particle tooth 108 is arranged on the inwall of cone cylinder 103; Particle tooth 108 is triangular pyramid, and the bottom surface of particle tooth 108 is fixed with the inwall boring cylinder 103, and the top of support spring 105 is connected with cone cylinder 103 and bottom is connected with bracing frame 101, and vibration motor 106 is arranged on the outer wall of cone cylinder 103.

Flexibly connecting cylinder 104 vertically to arrange, the top flexibly connecting cylinder 104 is connected with cylinder 102 and cone cylinder 103 respectively with bottom. Storage warehouse is cylinder 102 from top to bottom successively, flexibly connect cylinder 104 and cone cylinder 103, adopts split-type structural, cylinder 102 and flexibly connect between cylinder 104, flexibly connect cylinder 104 and all adopt Flange joint between cone cylinder 103.

Cone cylinder 103 is connected with erecting frame by support spring 105, and vibration motor 106 is arranged on the outer wall of cone cylinder 103 and cone cylinder 103 is vibrated, and is conducive to powder to glide. Owing to cone cylinder 103 is connected by support spring 105 with erecting frame, and by flexibly connecting, cylinder 104 is connected with cylinder 102 to bore cylinder 103, and the vibration that cone cylinder 103 is subject to can not pass to erecting frame and cylinder 102, so the stability of whole storage warehouse is protected.

Point materials and parts 109 are tapered and tip upward, materials and parts 109 are divided to be fixed in cylinder 102 by cross bar 110, the two ends of cross bar 110 are fixedly connected with the inwall of cylinder 102, divide materials and parts 109 near the bottom of cylinder 102, divide and there is between materials and parts 109 and the inwall of cylinder 102 punishment in advance gap, dividing the bottom width of materials and parts 109 to be greater than the discharge port of cone cylinder 103, particle tooth 108 has thorn tip, and thorn tip is arranged upward.

The top of cylinder 102 is provided with top cover 111 and feed-pipe 112, and top cover 111 and cylinder 102 removably connect or one-body molded, and feed-pipe 112 stretches in cylinder 102 through top cover 111.

Introduce the working process of the dry mash storage warehouse of the present embodiment below:

After opening the discharge port bottom cone cylinder 103, powder can move downward under gravity, and through cylinder 102, cylinder 104 moves in cone cylinder 103 with flexibly connecting successively from top to bottom. near the usual prevented from caking of powder of the inwall of cylinder 102 in cylinder 102, it is possible to discharge from discharge port smoothly, in cylinder 102, when the powder of cylinder 102 axial line moves downward, inwall towards cylinder 102 moves, fall the inwall of cone cylinder 103 from the punishment in advance gap point between materials and parts 109 and the inwall of cylinder 102 in last cylinder 102, and the inwall boring cylinder 103 is provided with particle tooth 108, the powder fallen in cylinder 102 drops to particle tooth 108, if powder lumps, the powder then lumpd directly is hit broken by particle, certainly the powder of caking is it is also possible to occur being stuck between particle tooth 108 and be difficult to situation about moving downward, by vibrating the high-frequency vibration of motor 106, the powder in cone cylinder 103 is moved smoothly towards discharge port.

Embodiment 2, see Fig. 3.

Present embodiments providing a kind of dry mash storage warehouse, the difference of the present embodiment and embodiment 1 is only that the outer wall of cylinder 102 is provided with heat exchange jacket 113, and the structure do not mentioned in the present embodiment refers to the description of embodiment 1.

The outer wall of cylinder 102 is provided with heat exchange jacket 113, and the bottom of heat exchange jacket 113 and top are connected to liquid-inlet pipe 114 and drain pipe 115. Outer wall at cylinder 102 arranges heat exchange jacket 113 two big benefits, on the one hand, the temperature of the heat exchange medium in heat exchange jacket 113 only need to be controlled when adopting heat exchange jacket 113 to heat, temperature-controllable, such as adopt hot water as heat exchange medium, top temperature can not more than 200 ��, it does not have dangerous; On the other hand, sometimes need by the heat conduction of powder in cylinder 102 out, adopt cold water as heat exchange medium, the heat of powder can be absorbed, prevent the powder temperature in tank body too high.

Embodiment 3, see Fig. 4.

Present embodiments providing a kind of dry mash storage warehouse, the difference of the present embodiment and embodiment 2 is only also to be provided with vapor pipe 116 and dust-filtering net 117, and the structure do not mentioned in the present embodiment refers to the description of embodiment 2.

The top of cylinder 102 is provided with top cover 111, feed-pipe 112 and vapor pipe 116, and top cover 111 is one-body molded with cylinder 102, and feed-pipe 112 and vapor pipe 116 all stretch in cylinder 102 through top cover 111.

Dust-filtering net 117 it is provided with in cylinder 102, the edge of dust-filtering net 117 is connected with the inwall of cylinder 102, feed-pipe 112 is positioned at the end of cylinder 102 through dust-filtering net 117 and the lower section extending to dust-filtering net 117, and vapor pipe 116 is positioned at the position of end higher than dust-filtering net 117 of cylinder 102.

Dust-filtering net 117 comprises grid cloth and set collar, and grid cloth is provided with the hole excessively mated with feed-pipe 112, and the edge of grid cloth is fixedly connected with the interior edge of set collar, and the inwall of set collar and cylinder 102 removably connects.

Vapor pipe 116 also it is provided with at the top of cylinder 102, one end of vapor pipe 116 is stretched in cylinder 102 for collecting the gas containing a large amount of dust, the other end of vapor pipe 116 connects after the equipment for the treatment of dusty gas purifies and is discharged in air, dust is avoided to be mixed in air, dust is mixed in air not only polluted air, cause staff's body damage, more it is a risk that easily explosion caused after dust concentration reaches the upper limit.

Dust-filtering net 117 it is provided with, it is possible to tentatively filter out due to the reinforced dust caused in cylinder 102. Owing to the exit end of feed-pipe 112 is lower than the position of dust-filtering net 117, powder can enter in cylinder 102 through feed-pipe 112 smoothly, and the inlet end of vapor pipe 116 is higher than dust-filtering net 117, dust in cylinder 102 is stopped by dust-filtering net 117, air above dust-filtering net 117 is not almost containing dust, and the unnecessary gas in cylinder 102 is discharged from vapor pipe 116.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations. All within spirit of the present utility model and principle, any amendment of doing, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a dry mash storage warehouse, it is characterised in that, comprising:

Bracing frame;

Cylinder, described cylinder is vertically arranged, and the outer wall of described cylinder is connected with bracing frame;

Cone cylinder, the top of described cone cylinder is wide mouth part and bottom is narrow mouth end, and described narrow mouth end is discharge port, is provided with bleeder valve at narrow mouth end;

Flexibly connect cylinder, described in flexibly connect cylinder and vertically arrange, described in flexibly connect cylinder top be connected with cylinder and cone cylinder respectively with bottom;

Support spring, the top of described support spring is connected with cone cylinder and bottom is connected with bracing frame;

Vibration motor, described vibration motor is arranged on the outer wall of cone cylinder;

Heating column, described heating column radial direction arranged transversely circumferentially, one end of described heating column is connected with the inwall of cylinder;

Particle tooth, described particle tooth have upward arrange and for disperse lump powder sharp portion, described particle tooth be arranged on cone cylinder inwall;

Point materials and parts, described point of materials and parts are tapered and tip upward, described point of materials and parts are fixed in cylinder by cross bar, and described point of materials and parts are near the bottom of cylinder, and described point has punishment in advance gap between materials and parts and the inwall of cylinder.

2. dry mash storage warehouse according to claim 1, it is characterised in that, the outer wall of described cylinder is provided with heat exchange jacket, and the bottom of described heat exchange jacket is connected with liquid-inlet pipe, and the top of described heat exchange jacket is connected with drain pipe.

3. dry mash storage warehouse according to claim 1, it is characterised in that, the projection in the horizontal plane of described discharge port is positioned at the projection in the horizontal plane of point materials and parts.

4. dry mash storage warehouse according to claim 3, it is characterised in that, described particle tooth is triangular pyramid, and the bottom surface of described particle tooth is fixed with the inwall boring cylinder.

5. dry mash storage warehouse according to claim 1, it is characterised in that, described heating column is cylindrical, and described heating column is made up of thermally conductive material.

6. dry mash storage warehouse according to claim 5, it is characterised in that, described heating column is obliquely installed, and one end being connected with inwall of described heating column is higher than the other end.

7. dry mash storage warehouse according to claim 6, it is characterised in that, the angle between described heating column and horizontal plane is 5��10 ��.

8. dry mash storage warehouse according to claim 1, it is characterized in that, the top of described cylinder is provided with top cover, feed-pipe and vapor pipe, and described top cover and cylinder removably connect or one-body molded, and described feed-pipe and vapor pipe all stretch in cylinder through top cover.

9. dry mash storage warehouse according to claim 8, it is characterized in that, dust-filtering net it is provided with in described cylinder, the described edge of dust-filtering net is connected with the inwall of cylinder, the end that described feed-pipe is positioned at cylinder is through dust-filtering net and the lower section extending to dust-filtering net, and the end that described vapor pipe is positioned at cylinder is positioned at the top of dust-filtering net.

10. dry mash storage warehouse according to claim 9, it is characterized in that, described dust-filtering net comprises grid cloth and set collar, described grid cloth is provided with the hole excessively mated with feed-pipe, the edge of described grid cloth is fixedly connected with the interior edge of set collar, and the inwall of described set collar and cylinder removably connects.