CN110344594A

CN110344594A - A kind of automatic cement pours device

Info

Publication number: CN110344594A
Application number: CN201910678419.5A
Authority: CN
Inventors: 张迪超
Original assignee: Lishui Shadow Machinery Technology Co Ltd
Current assignee: Lishui Shadow Machinery Technology Co Ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2019-10-18
Also published as: JP2021021312A; JP6784899B1

Abstract

A kind of automatic cement disclosed by the invention pours device, including the symmetrically arranged main frame body in front and back, the main frame body bottom end is equipped with rotatable idler wheel locating shaft, idler wheel locating shaft lower end is installed with turning rolls, the turning rolls is equipped with rotatable roller shaft, idler wheel is installed on the roller shaft, the configuration of the present invention is simple, maintenance convenience, it is easy to use, the present apparatus can pour automatically the construction area for needing joints cement, and the cement poured build flat, it is manually poured compared to common, it is more efficiently convenient, it is not influenced by traditional construction mode, pouring quality is reliable and stable, manpower is greatly saved simultaneously, and it can quickly construct.

Description

A kind of automatic cement pours device

Technical field

The present invention relates to cement to pour field, and specially a kind of automatic cement pours device.

Background technique

Cement pours a key link of always construction projects, and traditional pouring always manually has come At, working efficiency underground, and there are presetting periods and final setting time for cement itself, in setting time, if worker is also not Completion is poured, and cement is not handled in time, then needs to remake cement, therefore wastes a large amount of material, therefore is needed Develop a kind of device that progress cement that can be automatical and efficient pours.

Summary of the invention

Technical problem: tradition carries out cement manually and pours inefficiency and be easy waste raw material.

To solve the above problems, this example, which devises a kind of automatic cement, pours device, a kind of automatic cement of this example is poured Device, including the symmetrically arranged main frame body in front and back, the main frame body bottom end are equipped with rotatable idler wheel locating shaft, and the idler wheel is fixed Position axis lower end is installed with turning rolls, and the turning rolls is equipped with rotatable roller shaft, is installed with idler wheel on the roller shaft, into And when pushing hard the main frame body, the idler wheel rotation, and then whole device can be driven to be displaced, main frame body bottom end rectangle Array is equipped with baffle, and the baffle is used to limit the range that pours of device, and active force chamber is equipped in the main frame body roof, described Active force is intracavitary to be equipped with active force mechanism, is equipped with main transmission chamber at left and right sides of the active force chamber in wall, the main transmission is intracavitary Equipped with head pulley mechanism, the active force mechanism and the head pulley mechanism are rotatablely connected, and then the active force mechanism can drive The head pulley mechanism is moved, working chamber is equipped in the main frame body, the working chamber roof is equipped with main guide rail, the main guide rail It is equipped with the subframe body that can be horizontally slipped, the subframe body and the head pulley mechanism are connected, and then work as the head pulley mechanism The subframe body can be driven to horizontally slip when rotation, wall is installed with secondary guide rail at left and right sides of the subframe body, under the subframe body End is equipped with working box, and secondary power cavity is equipped in institute's working box, and secondary power mechanism is equipped in the pair power cavity, described Working box upper surface bilateral symmetry is installed with auxiliary pulley mechanism, and the auxiliary pulley mechanism and the secondary guide rail are rotatablely connected, institute It states secondary power mechanism and the auxiliary pulley mechanism is rotatablely connected, and then the secondary power mechanism can drive the auxiliary pulley mechanism, The auxiliary pulley mechanism can drive the working box to slide back and forth on the side rails, left and right in the pair power cavity lower wall Symmetrical be equipped with builds plate control chamber, is equipped with block plate control mechanism in the blocks plate control chamber, the block plate control mechanism with it is described Secondary power mechanism rotation connection, and then the secondary power mechanism can drive the block plate control mechanism, described working box or so Two sides outer wall, which is equipped with, builds trigger structure, and the block plate control mechanism engages connection, and then the block plate control with the block trigger structure Mechanism processed can control the block trigger structure to run, and the cement in casting area can be built flat, the work box by the block trigger structure It is installed with cement pump in vivo, cement pump upper end connection is equipped with input pipe, and the input pipe upper end can be with cement storage device Connection, cement pump lower end connection are equipped with efferent duct, and the efferent duct lower end connection is equipped with injection valve, sets in the injection valve There is slidable injection valve slider, the injection valve slider lower end is installed with injection valve spring, pumps when starting the cement, described Cement in cement storage device can be pumped into the injection valve by cement pump by the input pipe and the efferent duct, work as pressure When power reaches preset value, cement pushes the injection valve slider to overcome the elastic force slide downward for spraying valve spring, Jin Ershui Mud can be sprayed from the injection valve, be poured to target area.

Wherein, the active force mechanism includes being fixedly arranged on the intracavitary main motor of the active force, power on the main motor It is connected with main power shaft, the main power shaft left and right ends are symmetrically installed with the first power bevel gear, the first power cone Engagement is connected with the second power bevel gear on gear, and the second power bevel gear axle center is installed with the second line shaft, described Second line shaft is rotatably set on the inner wall of the active force chamber front and back, is installed with first pulley on second line shaft, The first belt is connected in the first pulley, first belt and the head pulley mechanism are rotatablely connected, when starting institute Main motor is stated, the main motor passes through the main power shaft, the first power bevel gear and the second power bevel gear band The second line shaft rotation is moved, second line shaft can drive institute by the first pulley and first belt State head pulley mechanism.

Wherein, the head pulley mechanism includes rotatably being set to intracavitary the first transmission shaft of the main transmission, and described the The second belt wheel is installed on one transmission shaft, second belt wheel is connect with first belt, fixed on first transmission shaft There is the first drive bevel gear, first drive bevel gear is located at second belt wheel rear end, under first drive bevel gear End engagement is connected with the second drive bevel gear, and second drive bevel gear axle center is installed with second driving shaft, and described second Transmission shaft is rotatably set in the main transmission chamber lower wall, and the second driving shaft lower end is installed with third drive bevel gear, The third drive bevel gear is located in the working chamber, and the engagement of third drive bevel gear lower end is connected with the 4th transmission Bevel gear, the 4th drive bevel gear axle center are installed with third transmission shaft, all around symmetrically set on the working chamber roof There is the first locating piece, third transmission shaft rear and front end is rotatably set in first locating piece, the third transmission It is installed with pulley on axis, conveyer belt is arranged on the pulley, the conveyer belt and the subframe body are connected, when first skin Band drives the first transmission shaft rotation by second belt wheel, and first transmission shaft passes through first drive bevel gear The second driving shaft rotation is driven with second drive bevel gear, the second driving shaft is driven cone tooth by the third Wheel and the 4th drive bevel gear drive third transmission shaft rotation, the third transmission shaft pass through in turn the pulley with The conveyer belt can drive the subframe body to horizontally slip.

Wherein, the secondary power mechanism includes the auxiliary-motor being fixedly arranged in the secondary power cavity, power on the auxiliary-motor It is connected with third line shaft, it is symmetrical on the third line shaft to be installed with third belt wheel, connect on the third belt wheel It is equipped with the second belt, second belt and the block plate control mechanism are rotatablely connected, and start the auxiliary-motor, the secondary electricity Machine drives second belt to rotate by the third line shaft and the third belt wheel, and second belt can drive in turn The block plate control mechanism, third line shaft both ends are installed with the 4th belt wheel, are connected with third on the 4th belt wheel Belt, the third belt and the auxiliary pulley mechanism are rotatablely connected, when the third line shaft drives the 4th band rotation Dynamic, the 4th belt wheel can pass through the third belt in turn and drive the auxiliary pulley mechanism.

Wherein, the auxiliary pulley mechanism includes symmetrical the second positioning for being fixedly arranged on the working box top end face Block, pulley locating shaft is rotatably equipped on second locating piece, and the pulley locating shaft is solid close to described subframe body one end Equipped with second pulley, the second pulley can slide back and forth on the side rails, be installed with the 5th on the pulley locating shaft Belt wheel, the 5th belt wheel are connect with third belt upper end, when the third belt drives institute by the 5th belt wheel The rotation of pulley locating shaft is stated, the pulley locating shaft drives the second pulley to rotate on the side rails in turn, and then band The working box is moved to slide back and forth on the side rails.

Wherein, the plate control mechanism of building includes the first control shaft being rotatably set in the block plate control chamber, institute It states and is installed with the 6th belt wheel in the first control shaft, the 6th belt wheel is connect with second belt lower end, first control Axis is installed with the first frictional disk far from symmetrical centre one end, and the block plate control chamber is equipped with rotatable far from symmetrical centre side Second control shaft, second control shaft can be rotated close to symmetrical centre side and slidably be equipped with hollow shaft, described hollow Axis upper end is equipped with non-rotatable magnetic slider, and the magnetic slider is installed with control spring far from symmetrical centre side, described It controls spring and is installed with electromagnet far from symmetrical centre one end, the hollow shaft is installed with the second friction close to symmetrical centre one end Disk, second frictional disk can be connect with first frictional disk by CONTACT WITH FRICTION, and second control shaft is far from symmetrical Heart side and the block trigger structure are connected, when second belt drives first control shaft to turn by the 6th belt wheel Dynamic, first control shaft drives the first frictional disk rotation, is powered at this time to the electromagnet, the electromagnet passes through institute Stating control spring drives the magnetic slider to close to one Slideslip of the first frictional disk, and the magnetic slider drives institute in turn Hollow shaft and second frictional disk are stated to close to one Slideslip of the first frictional disk, first frictional disk passes through friction band The second frictional disk rotation is moved, second frictional disk drives second control shaft to rotate by the hollow shaft, described Second control shaft can drive the block trigger structure in turn.

Wherein, the trigger structure of building includes the third that front and back is symmetrically fixedly arranged on the outer wall of the working box left and right sides Locating piece is rotatably equipped with the first locating shaft on the third locating piece, is installed with the first positioning on first locating shaft Bevel gear, close to second control shaft side, engagement is connected with the second positioning bevel gear, institute to the first positioning bevel gear It states the second positioning bevel gear to be fixedly arranged on separate one side end face of symmetrical centre of described second control shaft or so, first locating shaft On be installed with first connecting rod, the first connecting rod is located at first positioning bevel gear front end, and the first connecting rod lower end is equipped with Rotatable second connecting rod, the second connecting rod upper end is hinged by the first positioning pin and the first connecting rod, the work box The 4th locating piece is installed at left and right sides of body on outer wall, the 4th locating piece is equipped with the sliding block that can slide up and down, the cunning Block is hinged by the second positioning pin and the second connecting rod lower end, and the sliding block is installed with pressure far from second control shaft one end Plate, when second control shaft drives first positioning by the second positioning bevel gear and the first locating cone gear Axis rotation, first locating shaft drive the first connecting rod rotation, and the first connecting rod passes through first positioning pin, described Second connecting rod and second positioning pin drive the sliding block slide downward, and the sliding block drives the pressing plate slide downward in turn And then the cement poured can be flattened.

The beneficial effects of the present invention are: the configuration of the present invention is simple, maintenance convenience is easy to use, and the present apparatus can pour needs The construction area for building cement is poured automatically, and build to the cement poured and be put down, and is manually poured compared to common, more It is convenient to increase effect, is not influenced by traditional construction mode, pouring quality is reliable and stable, while manpower is greatly saved, and can Quickly construction, can effectively avoid cement because of the reason of traditional construction inefficiency caused by do not pour also just occur initial set The phenomenon that, the present apparatus is suitable for Large Construction place, can greatly promote construction efficiency.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is the overall structure diagram that a kind of automatic cement of the invention pours device；

Fig. 2 is the overlooking structure diagram of Fig. 1；

Fig. 3 is the enlarged diagram of " A " structure of Fig. 1；

Fig. 4 is the enlarged diagram of " B " structure of Fig. 1；

Fig. 5 is the enlarged diagram of " C " structure of Fig. 1；

Fig. 6 is the enlarged diagram of " D " structure of Fig. 1；

Fig. 7 is the enlarged diagram of " E " structure of Fig. 1；

Fig. 8 is the enlarged diagram of " F " structure of Fig. 2.

Specific embodiment

Below with reference to Fig. 1-Fig. 8, the present invention is described in detail, for sake of convenience, now provides to hereafter described orientation As follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

The present invention relates to a kind of automatic cements to pour device, is mainly used in cement and pours field, below in conjunction with this hair The present invention will be further described for bright attached drawing:

A kind of automatic cement of the present invention pours device, including the symmetrically arranged main frame body 19 in front and back, the main frame body 19 Bottom end is equipped with rotatable idler wheel locating shaft 22, and 22 lower end of idler wheel locating shaft is installed with turning rolls 23, the turning rolls 23 It is equipped with rotatable roller shaft 24, is installed with idler wheel 25 on the roller shaft 24, and then when pushing hard the main frame body 19, The idler wheel 25 rotates, and then whole device can be driven to be displaced, and the 19 bottom end rectangular array of main frame body is equipped with baffle 26, described Baffle 26 is used to limit the range that pours of device, is equipped with active force chamber 100, the active force chamber in 19 roof of main frame body It is equipped with active force mechanism 101 in 100, is equipped with main transmission chamber 200, the main transmission in 100 left and right sides wall of active force chamber Head pulley mechanism 201 is equipped in chamber 200, the active force mechanism 101 and the head pulley mechanism 201 are rotatablely connected, Jin Ersuo The head pulley mechanism 201 can be driven by stating active force mechanism 101, be equipped with working chamber 900, the working chamber in the main frame body 19 900 roofs are equipped with main guide rail 18, and the main guide rail 18 is equipped with the subframe body 32 that can be horizontally slipped, the subframe body 32 and institute It states head pulley mechanism 201 to be connected, and then the subframe body 32 can be driven to horizontally slip when the head pulley mechanism 201 rotation, 32 left and right sides wall of subframe body is installed with secondary guide rail 45, and 32 lower end of subframe body is equipped with working box 31, institute's work Make to be equipped with secondary power cavity 300 in cabinet 31, be equipped with secondary power mechanism 301 in the pair power cavity 300, on the working box 31 End face bilateral symmetry is installed with auxiliary pulley mechanism 401, and the auxiliary pulley mechanism 401 is rotatablely connected with the secondary guide rail 45, described Secondary power mechanism 301 is rotatablely connected with the auxiliary pulley mechanism 401, and then the secondary power mechanism 301 can drive the pair sliding Mechanism 401 is taken turns, the auxiliary pulley mechanism 401 can drive the working box 31 to slide back and forth on the secondary guide rail 45, described Symmetrical be equipped with builds plate control chamber 500 in secondary 300 lower wall of power cavity, is equipped in the block plate control chamber 500 and builds plate control Mechanism 501, the block plate control mechanism 501 are rotatablely connected with the secondary power mechanism 301, and then the secondary power mechanism 301 The block plate control mechanism 501 can be driven, 31 left and right sides outer wall of working box, which is equipped with, builds trigger structure 601, the block Plate control mechanism 501 engages connection with the block trigger structure 601, and then the block plate control mechanism 501 can control the block plate Mechanism 601 is run, and the cement in casting area can be built and be put down by the block trigger structure 601, is installed with water in the working box 31 Dredge pump 28, the cement pump the connection of 28 upper ends and are equipped with input pipe 27, and 27 upper end of input pipe can be connect with cement storage device, The cement pumps the connection of 28 lower ends and is equipped with efferent duct 29, and 29 lower end of the efferent duct connection is equipped with injection valve 81, the injection valve Slidable injection valve slider 82 is equipped in 81,82 lower end of injection valve slider is installed with injection valve spring 83, when starting institute Cement pump 28 is stated, the cement pump 28 can be by the cement in cement storage device by the input pipe 27 and the efferent duct 29 It is pumped into the injection valve 81, when pressure reaches preset value, cement pushes the injection valve slider 82 to overcome the injection valve The elastic force slide downward of spring 83, and then cement can be sprayed from the injection valve 81, be poured to target area.

According to embodiment, the active force mechanism 101 is described in detail below, the active force mechanism 101 includes The main motor 11 being fixedly arranged in the active force chamber 100 is connected by power equipped with main power shaft 12, the master on the main motor 11 12 left and right ends of line shaft are symmetrically installed with the first power bevel gear 13, engage and are connected on the first power bevel gear 13 Second power bevel gear 14,14 axle center of the second power bevel gear are installed with the second line shaft 16, second line shaft 16 It is rotatably set on the 100 front and back inner wall of active force chamber, first pulley 15 is installed on second line shaft 16, it is described It is connected with the first belt 17 in first pulley 15, first belt 17 is rotatablely connected with the head pulley mechanism 201, when opening The main motor 11 is moved, the main motor 11 passes through the main power shaft 12, the first power bevel gear 13 and described second Power bevel gear 14 drives second line shaft 16 to rotate, and second line shaft 16 passes through the first pulley 15 and described First belt 17 can drive the head pulley mechanism 201 in turn.

According to embodiment, the head pulley mechanism 201 is described in detail below, the head pulley mechanism 201 includes The first transmission shaft 36 being rotatably set in the main transmission chamber 200, is installed with the second belt wheel on first transmission shaft 36 35, second belt wheel 35 is connect with first belt 17, is installed with the first drive bevel gear on first transmission shaft 36 34, first drive bevel gear 34 is located at 35 rear end of the second belt wheel, and 34 lower end of the first drive bevel gear engagement connects It is equipped with the second drive bevel gear 37,37 axle center of the second drive bevel gear is installed with second driving shaft 38, and described second passes Moving axis 38 is rotatably set in 200 lower wall of main transmission chamber, and 38 lower end of second driving shaft is installed with third transmission cone Gear 39, the third drive bevel gear 39 are located in the working chamber 900, and 39 lower end of the third drive bevel gear engagement connects It is equipped with the 4th drive bevel gear 44,44 axle center of the 4th drive bevel gear is installed with third transmission shaft 42, the working chamber The first locating piece 41 is all around symmetrically arranged on 900 roofs, 42 rear and front end of third transmission shaft is rotatably set to institute It states in the first locating piece 41, pulley 43 is installed on the third transmission shaft 42, conveyer belt 21, institute are arranged on the pulley 43 It states conveyer belt 21 and the subframe body 32 is connected, when first belt 17 drives described first to pass by second belt wheel 35 Moving axis 36 rotates, and first transmission shaft 36 is driven by first drive bevel gear 34 and second drive bevel gear 37 The second driving shaft 38 rotates, and the second driving shaft 38 is bored by the third drive bevel gear 39 and the 4th transmission Gear 44 drives the third transmission shaft 42 to rotate, and the third transmission shaft 42 passes through the pulley 43 and the conveyer belt in turn 21 can drive the subframe body 32 to horizontally slip.

According to embodiment, the secondary power mechanism 301 is described in detail below, the pair power mechanism 301 includes The auxiliary-motor 56 being fixedly arranged in the secondary power cavity 300 is connected by power equipped with third line shaft 53 on the auxiliary-motor 56, described It is symmetrical on third line shaft 53 to be installed with third belt wheel 55, the second belt 54 is connected on the third belt wheel 55, Second belt 54 is rotatablely connected with the block plate control mechanism 501, starts the auxiliary-motor 56, the auxiliary-motor 56 passes through The third line shaft 53 and the third belt wheel 55 drive second belt 54 to rotate, and second belt 54 can drive in turn The block plate control mechanism 501 is moved, 53 both ends of third line shaft are installed with the 4th belt wheel 52, connect on the 4th belt wheel 52 It is equipped with third belt 51, the third belt 51 is rotatablely connected with the auxiliary pulley mechanism 401, when the third line shaft 53 The 4th belt wheel 52 is driven to rotate, the 4th belt wheel 52 can drive the auxiliary pulley machine by the third belt 51 in turn Structure 401.

According to embodiment, the auxiliary pulley mechanism 401 is described in detail below, the auxiliary pulley mechanism 401 includes Symmetrical the second locating piece 49 for being fixedly arranged on 31 top end face of working box, it is rotatable on second locating piece 49 Equipped with pulley locating shaft 47, the pulley locating shaft 47 is installed with second pulley 46 close to described 32 one end of subframe body, and described Two pulleys 46 can slide back and forth on the secondary guide rail 45, be installed with the 5th belt wheel 48 on the pulley locating shaft 47, and described the Five belt wheels 48 are connect with 51 upper end of third belt, when the third belt 51 drives the cunning by the 5th belt wheel 48 Locating shaft 47 to be taken turns to rotate, the pulley locating shaft 47 drives the second pulley 46 to rotate on the secondary guide rail 45 in turn, into And the working box 31 is driven to slide back and forth on the secondary guide rail 45.

According to embodiment, the block plate control mechanism 501 is described in detail below, the block plate control mechanism 501 Including the first control shaft 57 being rotatably set in the block plate control chamber 500, the is installed in first control shaft 57 Six belt wheels 58, the 6th belt wheel 58 are connect with 54 lower end of the second belt, and first control shaft 57 is far from symmetrical centre One end is installed with the first frictional disk 59, and the block plate control chamber 500 is equipped with rotatable second control far from symmetrical centre side Axis 79, second control shaft 79 can be rotated close to symmetrical centre side and be slidably equipped with hollow shaft 62, the hollow shaft 62 upper ends are equipped with non-rotatable magnetic slider 63, and the magnetic slider 63 is installed with control spring far from symmetrical centre side 64, the control spring 64 is installed with electromagnet 65 far from symmetrical centre one end, and the hollow shaft 62 is close to symmetrical centre one end It is installed with the second frictional disk 61, second frictional disk 61 can be connect with first frictional disk 59 by CONTACT WITH FRICTION, described Second control shaft 79 is connected far from symmetrical centre side and the blocks trigger structure 601, when second belt 54 passes through described the Six belt wheels 58 drive first control shaft 57 to rotate, and first control shaft 57 drives first frictional disk 59 to rotate, this When be powered to the electromagnet 65, the electromagnet 65 drives the magnetic slider 63 to close institute by the control spring 64 State 59 1 Slideslip of the first frictional disk, the magnetic slider 63 so that drive the hollow shaft 62 and second frictional disk 61 to Close to 59 1 Slideslip of the first frictional disk, first frictional disk 59 drives described 61 turns of second frictional disk by friction Dynamic, second frictional disk 61 drives second control shaft 79 to rotate by the hollow shaft 62, second control shaft 79 And then the block trigger structure 601 can be driven.

According to embodiment, the block trigger structure 601 is described in detail below, the block trigger structure 601 includes front and back The third locating piece 66 being symmetrically fixedly arranged on 31 left and right sides outer wall of working box can turn on the third locating piece 66 Dynamic is equipped with the first locating shaft 68, is installed with the first positioning bevel gear 67, first locating cone on first locating shaft 68 Gear 67 is connected with the second positioning bevel gear 78, the second positioning bevel gear close to 79 side of the second control shaft engagement 78 are fixedly arranged on second control shaft 79 or so far from one side end face of symmetrical centre, being installed with the on first locating shaft 68 One connecting rod 69, the first connecting rod 69 are located at first positioning, 67 front end of bevel gear, and 69 lower end of first connecting rod is equipped with can The second connecting rod 73 of rotation, 73 upper end of second connecting rod is hinged by the first positioning pin 71 and the first connecting rod 69, described The 4th locating piece 72 is installed on 31 left and right sides outer wall of working box, the 4th locating piece 72 is equipped with and can slide up and down Sliding block 75, the sliding block 75 is hinged by the second positioning pin 74 and 73 lower end of second connecting rod, and the sliding block 75 is far from described Second control shaft, 79 one end is installed with pressing plate 76, when second control shaft 79 passes through the second positioning bevel gear 78 and described First positioning bevel gear 67 drives first locating shaft 68 to rotate, and first locating shaft 68 drives 69 turns of the first connecting rod Dynamic, the first connecting rod 69 drives institute by first positioning pin 71, the second connecting rod 73 and second positioning pin 74 75 slide downward of sliding block is stated, the sliding block 75 drives 76 slide downward of pressing plate in turn and then can flatten the cement poured.

It is described in detail below in conjunction with Fig. 1 to Fig. 8 use step for pouring device to one of this paper automatic cement:

When needing to carry out joints cement to target area, main frame body 19 is pushed hard, so that idler wheel 25 rotates, and then is driven entire Device is displaced to target area, starting cement pump 28, and cement can be stored by input pipe 27 and efferent duct 29 and be filled by cement pump 28 Cement in setting is pumped into injection valve 81, and when pressure reaches preset value, cement pushes injection valve slider 82 to overcome injection valve bullet The elastic force slide downward of spring 83, and then cement can be sprayed from injection valve 81, be poured to target area, while start main electricity Machine 11, main motor 11 drive the second line shaft by main power shaft 12, the first power bevel gear 13 and the second power bevel gear 14 16 rotations, the second line shaft 16 drive the rotation of the second belt wheel 35,35 band of the second belt wheel by first pulley 15 and the first belt 17 Dynamic first transmission shaft 36 rotation, the first transmission shaft 36 drive second by the first drive bevel gear 34 and the second drive bevel gear 37 Transmission shaft 38 rotates, and second driving shaft 38 drives third transmission shaft by third drive bevel gear 39 and the 4th drive bevel gear 44 42 rotations, third transmission shaft 42 can drive subframe body 32 to horizontally slip by pulley 43 and conveyer belt 21 in turn, and then subframe body 32 drive working box 31 horizontally slip, so that 31 quick sliding of working box is poured to target area, while starting pair Motor 56, auxiliary-motor 56 drive third line shaft 53 to rotate, and third line shaft 53 drives the rotation of the 4th belt wheel 52, the 4th belt wheel 52 And then rotated by third belt 51 and the 5th belt wheel 48 with movable pulley locating shaft 47, drive second is sliding in turn for pulley locating shaft 47 Wheel 46 rotates on secondary guide rail 45, and then working box 31 is driven to slide back and forth on secondary guide rail 45, so that working box 31 is fast Speed slides into target area and is poured, and after pouring, closes cement pump 28, auxiliary-motor 56 passes through third line shaft 53 and the Three belt wheels 55 drive the rotation of the second belt 54, and the second belt 54 drives the first control shaft 57 to rotate by the 6th belt wheel 58, and first Control shaft 57 drives the rotation of the first frictional disk 59, is powered at this time to electromagnet 65, and electromagnet 65 drives magnetic by control spring 64 Property sliding block 63 to close to 59 1 Slideslip of the first frictional disk, magnetic slider 63 so drive hollow shaft 62 and the second frictional disk 61 to Close to 59 1 Slideslip of the first frictional disk, the first frictional disk 59 drives the rotation of the second frictional disk 61, the second frictional disk by friction 61 drive the rotation of the second control shaft 79 by hollow shaft 62, and the second control shaft 79 passes through the second positioning bevel gear 78 and the first positioning Bevel gear 67 drives the rotation of the first locating shaft 68, and the first locating shaft 68 drives first connecting rod 69 to rotate, and first connecting rod 69 passes through the One positioning pin 71, second connecting rod 73 and the second positioning pin 74 with 75 slide downward of movable slider, sliding block 75 so with dynamic pressure plate 76 to Lower slider, and then the cement poured can be flattened, it works at the same time cabinet 31 and is all around slided with dynamic pressure plate 76, and then flat pour can be built The cement built.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims

1. a kind of automatic cement of the invention pours device, including the symmetrically arranged main frame body in front and back, the main frame body bottom end is set There is rotatable idler wheel locating shaft, idler wheel locating shaft lower end is installed with turning rolls, and the turning rolls is equipped with rotatable Roller shaft is installed with idler wheel on the roller shaft；

Main frame body bottom end rectangular array is equipped with baffle, and the baffle is used to limit the range that pours of device, the main frame body Active force chamber is equipped in roof, the active force is intracavitary to be equipped with active force mechanism, is equipped in wall at left and right sides of the active force chamber Main transmission chamber, the main transmission is intracavitary to be equipped with head pulley mechanism, and the active force mechanism and the head pulley mechanism are rotatablely connected；

Working chamber is equipped in the main frame body, the working chamber roof is equipped with main guide rail, and the main guide rail is equipped with and can control The subframe body of sliding, the subframe body and the head pulley mechanism are connected；

Wall is installed with secondary guide rail at left and right sides of the subframe body, and the subframe body lower end is equipped with working box, institute's work box It is equipped with secondary power cavity in vivo, secondary power mechanism is equipped in the pair power cavity, the working box upper surface bilateral symmetry is fixed There is auxiliary pulley mechanism, the auxiliary pulley mechanism and the secondary guide rail are rotatablely connected, the pair power mechanism and the auxiliary pulley machine Structure rotation connection；

It is symmetrical equipped with plate control chamber is built in the pair power cavity lower wall, it is equipped in the block plate control chamber and builds plate control machine Structure, the block plate control mechanism and the secondary power mechanism are rotatablely connected；

Outer wall, which is equipped with, at left and right sides of the working box builds trigger structure, and the block plate control mechanism is engaged with the block trigger structure Connection；

Cement pump is installed in the working box, cement pump upper end connection is equipped with input pipe, and the input pipe upper end can It being connect with cement storage device, cement pump lower end connection is equipped with efferent duct, and the efferent duct lower end connection is equipped with injection valve, Slidable injection valve slider is equipped in the injection valve, the injection valve slider lower end is installed with injection valve spring.

2. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: the active force mechanism includes fixed It is connected by power on the intracavitary main motor of the active force, the main motor equipped with main power shaft, described main power shaft or so two End is symmetrically installed with the first power bevel gear, and engagement is connected with the second power bevel gear, institute on the first power bevel gear It states the second power bevel gear axle center and is installed with the second line shaft, before second line shaft is rotatably set to the active force chamber Afterwards on inner wall, it is installed with first pulley on second line shaft, is connected with the first belt in the first pulley, described One belt and the head pulley mechanism are rotatablely connected.

3. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: the head pulley mechanism includes that can turn Dynamic is set to the first intracavitary transmission shaft of the main transmission, is installed with the second belt wheel, second band on first transmission shaft Wheel is connect with first belt, and the first drive bevel gear, first drive bevel gear are installed on first transmission shaft Positioned at second belt wheel rear end；

The engagement of first drive bevel gear lower end is connected with the second drive bevel gear, and second drive bevel gear axle center is solid Equipped with second driving shaft, the second driving shaft is rotatably set in the main transmission chamber lower wall, under the second driving shaft End is installed with third drive bevel gear, and the third drive bevel gear is located in the working chamber, the third drive bevel gear Lower end engagement is connected with the 4th drive bevel gear, and the 4th drive bevel gear axle center is installed with third transmission shaft；

The first locating piece is all around symmetrically arranged on the working chamber roof, third transmission shaft rear and front end is rotatable In first locating piece, it is installed with pulley on the third transmission shaft, conveyer belt, the biography are arranged on the pulley Band is sent to be connected with the subframe body.

4. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: the pair power mechanism includes fixed Auxiliary-motor in the secondary power cavity is connected by power on the auxiliary-motor equipped with third line shaft, on the third line shaft It is symmetrical to be installed with third belt wheel, the second belt, second belt and the block are connected on the third belt wheel The rotation connection of plate control mechanism；

Third line shaft both ends are installed with the 4th belt wheel, and third belt, the third are connected on the 4th belt wheel Belt and the auxiliary pulley mechanism are rotatablely connected.

5. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: the auxiliary pulley mechanism includes left and right It is symmetrically fixedly arranged on the second locating piece of the working box top end face, is rotatably determined equipped with pulley on second locating piece Position axis, the pulley locating shaft are installed with second pulley close to described subframe body one end, and the second pulley can be led in the pair It is slid back and forth on rail, the 5th belt wheel is installed on the pulley locating shaft, the 5th belt wheel and third belt upper end connect It connects.

6. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: the block plate control mechanism includes can The first control shaft of rotation being set in the block plate control chamber, is installed with the 6th belt wheel in first control shaft, and described the Six belt wheels are connect with second belt lower end, and first control shaft is installed with the first frictional disk far from symmetrical centre one end, The block plate control chamber is equipped with rotatable second control shaft far from symmetrical centre side, and second control shaft is in symmetrically Heart side can be rotated and slidably be equipped with hollow shaft；

The hollow shaft upper end is equipped with non-rotatable magnetic slider, and the magnetic slider is installed with control far from symmetrical centre side Spring processed, the control spring are installed with electromagnet far from symmetrical centre one end, and the hollow shaft is solid close to symmetrical centre one end Equipped with the second frictional disk, second frictional disk can be connect with first frictional disk by CONTACT WITH FRICTION, second control Axis is connected far from symmetrical centre side and the block trigger structure.

7. a kind of automatic cement as described in claim 1 pours device, it is characterised in that: building trigger structure includes that front and back is symmetrical It is fixedly arranged on the third locating piece at left and right sides of the working box on outer wall, is rotatably equipped with first on the third locating piece Locating shaft is installed with the first positioning bevel gear on first locating shaft, and the first positioning bevel gear is close to second control Axis side engagement processed is connected with the second positioning bevel gear, and the second positioning bevel gear is fixedly arranged on described second control shaft or so Far from one side end face of symmetrical centre；

First connecting rod is installed on first locating shaft, the first connecting rod is located at first positioning bevel gear front end, institute First connecting rod lower end is stated equipped with rotatable second connecting rod, the second connecting rod upper end is connected by the first positioning pin and described first Bar is hinged, is installed with the 4th locating piece at left and right sides of the working box on outer wall, the 4th locating piece is equipped with can be upper and lower The sliding block of sliding, the sliding block is hinged by the second positioning pin and the second connecting rod lower end, and the sliding block is far from described second Control shaft one end is installed with pressing plate.