CN203936332U - A kind of cold core or inorganic core making machine - Google Patents

Abstract

The utility model discloses a kind of cold core or inorganic core making machine, between the lower end of the plunger tip bar of air blowing/core ejection mechanism and the upper surface of lower core box, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of middle bit space is greater than the shell vertical dimension of core box, the vertical range of die sinking space is greater than the inner chamber vertical dimension of core box, while penetrating sand, described upper core box is positioned at penetrates sand position, during air blowing plunger tip, described upper core box is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, described upper core box is arranged in the bit space of the plunger tip bar below of described air blowing/core ejection mechanism, realize being synchronized with the movement of top travelling car and bottom travelling car, and step that as much as possible can be synchronous is carried out together, saved the idle loop time, reduced the waste of equipment, improved coremaking efficiency.

Description

A kind of cold core or inorganic core making machine

Technical field

The utility model relates to a kind of core making machine, is specifically related to a kind of cold core or inorganic core making machine.

Background technology

Cold core or inorganic core making machine (core shooter) mainly comprise: bottom travelling car, be fixed on the lower core box on the travelling car of bottom, top travelling car, be fixed on She Sha mechanism and air blowing/core ejection mechanism on the travelling car of top, hoisting mechanism and be fixed on the upper core box on hoisting mechanism, for different cold cores or inorganic core making machine type, the general self-powered platform that adopts, lifting action by this mechanism completes coremaking production process, we are referred to as workbench lifting type type, or adopt top to compress pressure head, lifting action by this mechanism completes coremaking production process, be referred to as pressure type type.

Above two kinds of conventional types, in whole coremaking production process, each mechanism action generally adopts the action of single step sequence type:

Work lifting type type motion flow comprises: lower core box enters → goes up fall → She Sha of core box mechanism and enters, go out → lower core box liter → compression of air blowing/core ejection mechanism penetrates sand → core box and synchronously fall → She Sha of upper core box mechanism goes out, and enter → core of air blowing/core ejection mechanism is blown, and curing (cold core inorganic process) → plunger tip → above core box keeps top fall → lower core box of position → lower core box to go out → complete coremaking;

Upper pressure type type motion flow comprises: lower core box enters → goes up fall → She Sha of core box mechanism and enters, go out → She Sha of core ejection mechanism mechanism falls → compresses and penetrates liter → She Sha mechanism of sand → She Sha mechanism and go out, air blowing/core ejection mechanism enters → blows/curing (cold core the inorganic process) → plunger tip of fall → core of core ejection mechanism air blowing, upper core box synchronously rises → blows/core ejection mechanism liter, and upper core box synchronously rises to top position → lower core box and goes out → complete coremaking.

Existing cold core or each mechanism action of inorganic core making machine are by single step sequence type motion flow, summation running time of each action becomes the total run time of equipment, wherein there is the more idle loop time, can not make full use of cold core or inorganic core making machine, reduced coremaking efficiency.

Summary of the invention

Goal of the invention of the present utility model is to provide a kind of minimizing idle loop time, makes full use of cold core or inorganic core making machine, improves cold core or the inorganic core making machine of coremaking efficiency.

To achieve the above object of the invention, the first technical scheme that the utility model adopts is: a kind of cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means, described lower core box device comprises lower core box, can along continuous straight runs the bottom travelling car of motion and the self-powered platform that can vertically move, described upper core box device comprises core box and the hoisting mechanism that can vertically move, the described sand blast pneumatic jack core apparatus of penetrating comprises She Sha mechanism, air blowing/core ejection mechanism and can along continuous straight runs the top travelling car of motion, described lower core box is connected on the travelling car of described bottom, described bottom travelling car is arranged on described self-powered platform, described hoisting mechanism is connected on described upper core box, described She Sha mechanism and air blowing/core ejection mechanism are connected on the travelling car of described top, described upper core box and described lower core box are oppositely arranged, between the lower end of plunger tip bar of described air blowing/core ejection mechanism and the upper surface of described lower core box, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of described middle bit space is greater than the shell vertical dimension of described upper core box, the vertical range of described die sinking space is greater than the inner chamber vertical dimension of described upper core box, while penetrating sand, described upper core box is positioned at penetrates sand position, during air blowing plunger tip, described upper core box is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, described upper core box is arranged in the bit space of the plunger tip bar below of described air blowing/core ejection mechanism.

Further the first technical scheme, described hoisting mechanism comprises at least two lifting means, described in each, lifting means comprises overhead power source, is connected in arm-tie under described overhead power source, is connected at least two guide-bar mechanisms under described arm-tie, described in each, guide-bar mechanism is connected in the marginal position of described upper core box, forms the movable passageway of described She Sha mechanism and air blowing/core ejection mechanism between adjacent guide mechanism.

Further the first technical scheme, described self-powered platform comprises that bottom power source and driving are connected in the workbench on the power source of described bottom, described bottom travelling car is arranged on described workbench.

To achieve the above object of the invention, the second technical scheme that the utility model adopts is: a kind of cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means, described lower core box device comprise lower core box and can along continuous straight runs the bottom travelling car of motion, described upper core box device comprises core box and the hoisting mechanism that can vertically move, the described sand blast pneumatic jack core apparatus of penetrating comprises She Sha mechanism, air blowing/core ejection mechanism, can along continuous straight runs the top travelling car of motion and the compression pressure head that can vertically move, described lower core box is connected on the travelling car of described bottom, described hoisting mechanism is connected on described upper core box, described She Sha mechanism, air blowing/core ejection mechanism is connected on the travelling car of described top, described compression pressure head drives and connects described She Sha mechanism or air blowing/core ejection mechanism, described upper core box and described lower core box are oppositely arranged, between the lower end of plunger tip bar of the air blowing/core ejection mechanism when stroke upper extreme point and the upper surface of described lower core box, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of described middle bit space is greater than the shell vertical dimension of described upper core box, the vertical range of described die sinking space is greater than the inner chamber vertical dimension of described upper core box, while penetrating sand, described upper core box is positioned at penetrates sand position, during air blowing plunger tip, described upper core box is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, described upper core box is arranged in the bit space of the plunger tip bar below of described air blowing/core ejection mechanism.

Further the second technical scheme, described air blowing/core ejection mechanism He She sand mechanism is respectively arranged with independently lifting body or described air blowing/core ejection mechanism He She sand mechanism and described compression pressure head and removably connects.

Further the second technical scheme, described hoisting mechanism comprises at least two lifting means, described in each, lifting means comprises overhead power source, is connected in arm-tie under described overhead power source, is connected at least two guide-bar mechanisms under described arm-tie, described in each, guide-bar mechanism is connected in the marginal position of described upper core box, forms the movable passageway of described She Sha mechanism and air blowing/core ejection mechanism between adjacent guide mechanism.

Because technique scheme is used, the utility model compared with prior art has following advantages:

1, the cold core that the utility model provides or inorganic core making machine, between the lower end of the plunger tip bar of air blowing/core ejection mechanism and the upper surface of lower core box, be provided with middle bit space and die sinking space, the lower end of plunger tip bar is compared traditional type with the distance of the upper surface of lower core box and has been strengthened, upper core box is in the past enclosed within on plunger tip bar, as long as can make lower core box with the die sinking space of core side-to-side movement so the upper surface of the lower end of plunger tip bar and lower core box is reserved with, that upper core box is synchronizeed with lower core box now, and when lower core box is down to extreme lower position, upper core box also drops to the below of plunger tip bar, so not only will have die sinking position between the upper surface of plunger tip bar and lower end and lower core box, also to have in the middle of the meta of upper core box stop,

2, the cold core that the utility model provides or inorganic core-making method are by being arranged at the initial position of upper core box and final position the below of the plunger tip bar of air blowing/core ejection mechanism, when starting coremaking, before Dang She sand mechanism and air blowing/core ejection mechanism move left and right, upper core box does not need to decline and dodge in advance, therefore the beginning that starts coremaking, She Sha mechanism and air blowing/core ejection mechanism can move left and right, therefore can realize being synchronized with the movement of top travelling car and bottom travelling car, and step that as much as possible can be synchronous is carried out together, saved the idle loop time, reduced the waste of equipment, improved coremaking efficiency, in the coremaking type of lifting type, after plunger tip completes, upper core box is synchronizeed and is declined with lower core box, upper core box does not need the independent time to drop to meta position, in pressure head type type, after plunger tip completes, upper core box is synchronizeed and is risen with lifting body, upper core box does not need the independent time to rise to meta.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment mono-of the disclosed cold core of the utility model or inorganic core making machine;

Fig. 2 is the position view of the embodiment mono-of the disclosed cold core of the utility model or inorganic core-making method;

Fig. 3 is the structural representation of the embodiment bis-of the disclosed cold core of the utility model or inorganic core making machine;

Fig. 4 is the position view of the embodiment bis-of the disclosed cold core of the utility model or inorganic core-making method.

Wherein, 11,51, lower core box; 12,52, bottom travelling car; 13, self-powered platform; 21,61, upper core box; 22,62, hoisting mechanism; 31,71, She Sha mechanism; 32,72, air blowing/core ejection mechanism; 33,73, top travelling car; 74, compress pressure head; 401, bottom die sinking position; 402, penetrate sand position; 403, air blowing/plunger tip position; 404, the first matched moulds position, top; 405, middle matched moulds position; 406, air blowing/plunger tip position; 407, add sand position; 408, the second matched moulds position, top; 409, meta position; 410, get core position; 801, bottom matched moulds position; 802, first penetrate sand crossover position; 803, the first air blowing/plunger tip crossover position; 804, penetrate sand position; 805, second penetrate sand crossover position; 806, add sand position; 807, the second air blowing/plunger tip crossover position; 808, air blowing/plunger tip position; 809, air blowing/plunger tip initial position; 810, meta position; 811, get core position.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is further described.

Embodiment mono-:

Referring to Fig. 1 and Fig. 2, as shown in legend wherein, a kind of cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means (in figure depending on not going out), above-mentioned lower core box device comprises core box 11, can along continuous straight runs one bottom travelling car 12 of motion and a self-powered platform 13 that can vertically move, above-mentioned upper core box device comprises core box 21 and a hoisting mechanism 22 that can vertically move on one, the above-mentioned sand blast pneumatic jack core apparatus of penetrating comprises Yi She sand mechanism 31, one air blowing/core ejection mechanism 32 and a top travelling car 33 that can along continuous straight runs motion, lower core box 11 is connected on bottom travelling car 12, bottom travelling car 12 is arranged on self-powered platform 13, hoisting mechanism 22 is connected on core box 21, She Sha mechanism 31 and air blowing/core ejection mechanism 32 are connected on top travelling car 33, upper core box 21 is oppositely arranged with lower core box 11, between the lower end of the plunger tip bar of air blowing/core ejection mechanism 32 and the upper surface of lower core box 11, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of above-mentioned middle bit space is greater than the shell vertical dimension of core box 21, the vertical range of above-mentioned die sinking space is greater than the inner chamber vertical dimension of core box 21, while penetrating sand, upper core box 21 is positioned at penetrates sand position, during air blowing plunger tip, upper core box 21 is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, upper core box 21 is arranged in the bit space of the plunger tip bar below of air blowing/core ejection mechanism 32.

Hoisting mechanism 22 comprises at least two lifting means, at least two guide-bar mechanisms 221 under each lifting means comprises overhead power source (in figure depending on not going out), be connected in arm-tie under overhead power source (in figure depending on not going out), be connected in arm-tie (in figure depending on not going out), each guide-bar mechanism 221 is connected in the marginal position of core box 21, forms the movable passageway of She Sha mechanism 31 and air blowing/core ejection mechanism 32 between adjacent guide mechanism 221.

Self-powered platform 13 comprises bottom power source (in figure depending on not going out) and drives and be connected in the workbench 131 on the power source of bottom, and bottom travelling car 12 is arranged on described workbench 131.

Introduce cold core or the inorganic core-making method of the above-mentioned cold core of application or inorganic core making machine below, the initial position of upper core box 21 and the final position middle bit positions below the plunger tip bar of air blowing/core ejection mechanism 32, comprises the steps:

First step, bottom travelling car 12 drive lower core box 11 to move to bottom die sinking position 401, and top travelling car 33 synchronously drives together She Sha mechanism 31 to move to and penetrates sand position 402 and drive air blowing/core ejection mechanism 32 to move to air blowing/plunger tip crossover position 403;

Second step, self-powered platform 13 drive lower core box 11 to go upward to the first matched moulds position, top 404, and hoisting mechanism 22 is synchronous drives upper core box 21 to go upward to the first matched moulds position, top 404;

Third step, She Sha mechanism 31 compress upper core box 21 and penetrate sand;

The 4th step, self-powered platform 13 drive lower core box 11 to come downwards to middle matched moulds position 405, matched moulds position 405 in the middle of the upper core box 21 of the synchronous drive of hoisting mechanism comes downwards to;

The 5th step, top travelling car 22 drive respectively air blowing/core ejection mechanism 32 to move to air blowing/plunger tip position 406 and drive She Sha mechanism 31 to move to and add sand position 407;

The 6th step, self-powered platform 13 drive lower core box 11 to go upward to the second matched moulds position, top 408, and hoisting mechanism is synchronous drives upper core box 21 to go upward to the second matched moulds position, top 408;

The 7th step, air blowing/core ejection mechanism 32 compresses the upper core box 21 curing cold core of blowing;

The 8th step, air blowing/core ejection mechanism 32 carry out plunger tip, and self-powered platform 13 is synchronous drives lower core box 11 to come downwards to bottom die sinking position 401, and hoisting mechanism 22 time delays are synchronous drives upper core box 21 to come downwards to meta position 409;

The 9th step, bottom travelling car 13 drive lower core box 11 to move to and get core position 410.

The lower surface of She Sha mechanism 31 and air blowing/core ejection mechanism 32 flushes.

The first matched moulds position, top 404 and the second matched moulds position, top 408 are same position.

Middle matched moulds position 405 and meta position 409 are same position.

Embodiment bis-

Referring to Fig. 3 and Fig. 4, as shown in legend wherein, a kind of cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means (in figure depending on not going out), above-mentioned lower core box device comprises core box 51 and a bottom travelling car 52 that can along continuous straight runs motion, above-mentioned upper core box device comprises core box 61 and a hoisting mechanism 62 that can vertically move on one, the above-mentioned sand blast pneumatic jack core apparatus of penetrating comprises Yi She sand mechanism 71, one air blowing/core ejection mechanism 72, can along continuous straight runs motion a top travelling car 73 and can vertically move one compress pressure head 74, , She Sha mechanism 71 and air blowing/core ejection mechanism 72 are arranged on top travelling car 73, compress pressure head 74 and be arranged at She Sha mechanism 71 and the dismountable She Sha of connection mechanism 71 and air blowing/core ejection mechanism 72 on air blowing/core ejection mechanism 72, compress pressure head 74 be positioned at core box 61 directly over, between the lower end of the plunger tip bar of air blowing/core ejection mechanism 72 and the upper surface of lower core box 51, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of above-mentioned middle bit space is greater than the shell vertical dimension of core box 61, the vertical range of above-mentioned die sinking space is greater than the inner chamber vertical dimension of core box 61, while penetrating sand, upper core box 61 is positioned at penetrates sand position, during air blowing plunger tip, upper core box 61 is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, upper core box 61 is arranged in the bit space of the plunger tip bar below of air blowing/core ejection mechanism 72.

Compress pressure head 74Yu She sand mechanism 71 or the dismountable connection of air blowing/core ejection mechanism 72.

Hoisting mechanism 62 comprises at least two lifting means, each lifting means comprises overhead power source (in figure depending on not going out), be connected in arm-tie under overhead power source (in figure depending on not going out), be connected at least two guide-bar mechanisms 621 under arm-tie, each guide-bar mechanism 621 is connected in the marginal position of core box 61, forms the movable passageway of She Sha mechanism 71 and air blowing/core ejection mechanism 72 between adjacent guide mechanism.

Introduce a kind of cold core or the inorganic core-making method that uses above-mentioned cold core or inorganic core making machine below, the initial position of upper core box 61 and the final position middle bit positions below the plunger tip bar of air blowing/core ejection mechanism 72, comprises the steps:

First step, bottom travelling car 52 drive lower core box 51 to move to matched moulds position, bottom 801, and top travelling car 73 synchronously drives together She Sha mechanism 71 to move to first and penetrates sand crossover position 802 and drive air blowing/core ejection mechanism 72 to move to the first air blowing/plunger tip crossover position 803;

Second step, hoisting mechanism 52 drive upper core box 51 to come downwards to matched moulds position, bottom 801, and the synchronous drive of compression pressure head 74 She Sha mechanism 71 comes downwards to penetrates sand position 804;

Third step, She Sha mechanism 71 compress upper core box 61 and penetrate sand;

The 4th step, compression pressure head 74 drive She Sha mechanisms 71 to go upward to second and penetrate sand crossover position 805;

The 5th step, top travelling car 73 drive She Sha mechanism to move to add sand position 806 and the second air blowing/plunger tip crossover position 807 together;

The 6th step, compress into pressure head 74 and drive air blowing/core ejection mechanisms 72 to come downwards to air blowing/plunger tip position 808;

The 7th step, air blowing/core ejection mechanism 72 compresses the upper core box 61 curing cold core of blowing;

The 8th step, air blowing/core ejection mechanism 72 carry out plunger tip, moving air blowing/the core ejection mechanism 72 of the synchronous drive of compression pressure head 74 goes upward to air blowing plunger tip initial position 809, and the upper core box 51 of the synchronous drive of hoisting mechanism 52 goes upward to meta position 810 hoisting mechanisms 52 and synchronously drives upper core box 61 up;

The 9th step, bottom travelling car 52 drive lower core box 51 to move to and get core position 811.

First penetrates sand crossover position 802 and second, and to penetrate sand crossover position 805 identical, and above-mentioned the second air blowing/plunger tip crossover position 807 is identical with air blowing/plunger tip initial position 809.

Embodiment tri-

All the other are identical with described embodiment mono-, difference is, the lower surface of above-mentioned She Sha mechanism is higher than the lower surface of blow/core ejection mechanism of above-mentioned air blowing, between above-mentioned the 4th step and the 5th step, be also provided with step S1, above-mentioned steps S1 is: self-powered platform drives lower core box to go upward to the second matched moulds position, top, and hoisting mechanism is synchronous drives upper core box to go upward to described the second matched moulds position, top.

Embodiment tetra-

All the other are identical with described embodiment mono-, difference is, the lower surface of She Sha described above mechanism is lower than the lower surface of blow/core ejection mechanism of described air blowing, between described third step and the 4th step, be also provided with step S2, described step S2 is: self-powered platform drives lower core box to come downwards to the second matched moulds position, top, and hoisting mechanism is synchronous drives upper core box to come downwards to described the second matched moulds position, top.

Embodiment five

All the other are identical with described embodiment bis-, and difference is, above-mentioned first penetrates sand crossover position and second, and to penetrate sand crossover position not identical, and above-mentioned the second air blowing/plunger tip crossover position is not identical with air blowing/plunger tip initial position.

Embodiment six

All the other are identical with described embodiment bis-, and difference is, above-mentioned She Sha mechanism and air blowing/core ejection mechanism are provided with independently lifting body and are not connected with above-mentioned compression pressure head.

Claims (6)

1. a cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means, described lower core box device comprises lower core box, can along continuous straight runs the bottom travelling car of motion and the self-powered platform that can vertically move, described upper core box device comprises core box and the hoisting mechanism that can vertically move, the described sand blast pneumatic jack core apparatus of penetrating comprises She Sha mechanism, air blowing/core ejection mechanism and can along continuous straight runs the top travelling car of motion, described lower core box is connected on the travelling car of described bottom, described bottom travelling car is arranged on described self-powered platform, described hoisting mechanism is connected on described upper core box, described She Sha mechanism and air blowing/core ejection mechanism are connected on the travelling car of described top, described upper core box and described lower core box are oppositely arranged, it is characterized in that, between the lower end of plunger tip bar of described air blowing/core ejection mechanism and the upper surface of described lower core box, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of described middle bit space is greater than the shell vertical dimension of described upper core box, the vertical range of described die sinking space is greater than the inner chamber vertical dimension of described upper core box, while penetrating sand, described upper core box is positioned at penetrates sand position, during air blowing plunger tip, described upper core box is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, described upper core box is arranged in the bit space of the plunger tip bar below of described air blowing/core ejection mechanism.

2. cold core according to claim 1 or inorganic core making machine, it is characterized in that, described hoisting mechanism comprises at least two lifting means, described in each, lifting means comprises overhead power source, is connected in arm-tie under described overhead power source, is connected at least two guide-bar mechanisms under described arm-tie, described in each, guide-bar mechanism is connected in the marginal position of described upper core box, forms the movable passageway of described She Sha mechanism and air blowing/core ejection mechanism between adjacent guide mechanism.

3. cold core according to claim 1 or inorganic core making machine, is characterized in that, described self-powered platform comprises that bottom power source and driving are connected in the workbench on the power source of described bottom, and described bottom travelling car is arranged on described workbench.

4. a cold core or inorganic core making machine, comprise lower core box device, upper core box device, penetrate sand blast pneumatic jack core apparatus and cold core inorganic gas generating means, described lower core box device comprise lower core box and can along continuous straight runs the bottom travelling car of motion, described upper core box device comprises core box and the hoisting mechanism that can vertically move, the described sand blast pneumatic jack core apparatus of penetrating comprises She Sha mechanism, air blowing/core ejection mechanism, can along continuous straight runs the top travelling car of motion and the compression pressure head that can vertically move, described lower core box is connected on the travelling car of described bottom, described hoisting mechanism is connected on described upper core box, described She Sha mechanism, air blowing/core ejection mechanism is connected on the travelling car of described top, described compression pressure head drives and connects described She Sha mechanism or air blowing/core ejection mechanism, described upper core box and described lower core box are oppositely arranged, it is characterized in that, between the lower end of plunger tip bar of the air blowing/core ejection mechanism when stroke upper extreme point and the upper surface of described lower core box, be disposed with middle bit space and die sinking space from top to bottom, the vertical range of described middle bit space is greater than the shell vertical dimension of described upper core box, the vertical range of described die sinking space is greater than the inner chamber vertical dimension of described upper core box, while penetrating sand, described upper core box is positioned at penetrates sand position, during air blowing plunger tip, described upper core box is positioned at air blowing/plunger tip position, after penetrating sand and completing or after air blowing plunger tip completes, described upper core box is arranged in the bit space of the plunger tip bar below of described air blowing/core ejection mechanism.

5. cold core according to claim 4 or inorganic core making machine, is characterized in that, described air blowing/core ejection mechanism He She sand mechanism is respectively arranged with independently lifting body or described air blowing/core ejection mechanism He She sand mechanism and described compression pressure head and removably connects.

6. hot core core making machine according to claim 4, it is characterized in that, described hoisting mechanism comprises at least two lifting means, described in each, lifting means comprises overhead power source, is connected in arm-tie under described overhead power source, is connected at least two guide-bar mechanisms under described arm-tie, described in each, guide-bar mechanism is connected in the marginal position of described upper core box, forms the movable passageway of described She Sha mechanism and air blowing/core ejection mechanism between adjacent guide mechanism.