CN113290682A - Cement quantitative output device for construction engineering - Google Patents

Abstract

The invention discloses a cement quantitative output device for constructional engineering, which comprises a spring snap ring, a transmission mechanism, a supporting device, a non-return mechanism, a guiding device, a limiting sliding groove, an installation clamping plate, a limiting side plate, a supporting top plate, a motor and a clamping groove, wherein the installation clamping plate for supporting is fixedly installed at the bottom of the rear end face of the supporting top plate, and the clamping groove for limiting is formed in the center of the outer end face of the installation clamping plate. According to the invention, by arranging the transmission mechanism, when the transmission mechanism rotates circumferentially at the bottom of the supporting top plate, the connecting cylinder can circularly move up and down at the bottom of the supporting top plate through the meshing fit of the connecting gear and the connecting fluted disc and the sliding fit of the limiting insertion shaft and the guiding chute, and further the cement in the connecting cylinder can be circularly and quantitatively output by matching with the sealing chuck, so that the efficiency of quantitatively outputting the cement by the device is improved, and meanwhile, the follow-up workers can conveniently and rapidly take the cement.

Description

Cement quantitative output device for construction engineering

Technical Field

The invention relates to the technical field of constructional engineering equipment, in particular to a cement quantitative output device for constructional engineering.

Background

The patent numbers are: CN201911316596.5 patent of the invention discloses a cement quantitative output device for construction engineering, which comprises a device main body, a cement stirring mechanism is arranged in the device main body, a cement quantitative output mechanism is also arranged at the lower end of the device main body, the stirring mechanism comprises a stirring motor, a rotating part of the stirring motor is fixedly connected with an inner rotating rod, an outer rotating rod is sleeved outside the inner rotating rod, a stirring blade is arranged on the outer rotating rod, the other end of the outer rotating rod is connected with an abutting block, the cement quantitative output mechanism comprises a power device, the power device is connected with a cement quantitative output cylinder through a gas pipe, the upper end of the cement quantitative output cylinder is connected with the abutting block, a first barrier plate and a second barrier plate are arranged on the abutting block, an annular clamping bulge is arranged on the cement quantitative output cylinder, a first cement is uniformly distributed on the cement quantitative output cylinder through a gas pipe, an annular clamping groove matched with the annular clamping bulge is arranged on the cement quantitative discharge cylinder, the main body of the device is provided with a pressurizing device,

although the above-mentioned equipment can realize the function of quantitative cement output to a certain extent, it is comparatively complicated when carrying out quantitative output to cement, and degree of automation is lower, and it can carry out the ration, but can not regulate and control according to the required concrete cement output volume of user, has reduced the adaptability of follow-up device.

Disclosure of Invention

The invention aims to provide a quantitative output device for construction engineering cement, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the cement quantitative output device for the building engineering comprises a spring snap ring, a transmission mechanism, a supporting device, a non-return mechanism, a guiding device, a limiting sliding groove, an installation clamping plate, a limiting side plate, a supporting top plate, a motor and a clamping groove,

the bottom of the rear end face of the supporting top plate is fixedly provided with an installation clamping plate for supporting, a clamping groove for limiting is formed in the center of the outer end face of the installation clamping plate, a motor for supporting is fixedly arranged in the center of the upper end face of the supporting top plate, a transmission mechanism is fixedly connected in the center of the lower end face of the motor, limiting side plates for limiting are symmetrically and fixedly connected to the lower end face of the supporting top plate, supporting devices for supporting are slidably clamped in the inner end faces of the two groups of limiting side plates, the lower end face of the supporting top plate is elastically and fixedly connected with the supporting devices through spring clamping rings, a limiting sliding groove for limiting is formed in the center of the inner end face of the installation clamping plate, a guiding device for supporting is fixedly arranged in the position, close to the bottom, of the inner end face of the installation clamping plate, and the guiding device is rotatably clamped with the transmission mechanism, the middle part of the side end surface and the bottom end surface of the supporting device are both fixedly provided with a non-return mechanism,

the supporting device comprises a connecting slide block, a connecting cylinder body, an installation clamping groove, a filter plate, a sliding groove, a guide sliding groove and a guide clamping ring, wherein the connecting slide block is fixedly connected with the center of the rear end of the upper end face of the connecting cylinder body and used for limiting, the installation clamping groove is formed in the upper end face and the front end face of the connecting cylinder body, the sliding groove is symmetrically formed in the outer end face of the connecting cylinder body and used for limiting, the inner end face of the connecting cylinder body is close to the fixedly connected filter plate at the front part, the inner end face of the connecting cylinder body is fixedly provided with the guide clamping ring at the position close to the rear part, and the guide sliding groove is formed in the center of the inner end face of the guide clamping ring.

Preferably, drive mechanism includes back shaft, joint shaft, connecting gear, spacing axle, threaded rod, spacing motor, location spout and connecting axle, the side end face of back shaft is close to bottom department fixed mounting and has the joint shaft, and is located the bottom end face center fixedly connected with of back shaft is used for spacing connecting axle, the joint is rotated to the outer terminal surface of joint shaft has the connecting gear that is used for supporting, the location spout that is used for the direction is seted up in the rear end face center department of connecting gear, the interior terminal surface fixed mounting of location spout has spacing motor, and is located the preceding terminal surface center fixedly connected with threaded rod of spacing motor, the outer terminal surface threaded connection of threaded rod has the spacing axle of inserting that is used for supporting.

Preferably, the non-return mechanism comprises an installation support plate, a limiting clamping seat, a conveying pipe, a support pipe, a sealing baffle plate, a limiting baffle plate and a spring rotating shaft, wherein the limiting clamping seat used for limiting is fixedly installed at the center of the upper end face of the support pipe, the installation support plate is fixedly installed at the rear end face of the support pipe, the conveying pipe used for connecting is fixedly connected at the center of the front end face of the support pipe, the spring rotating shaft used for supporting is fixedly connected at the inner end face of the limiting clamping seat, the limiting baffle plate is fixedly connected at the outer end face of the spring rotating shaft, and the sealing baffle plate is fixedly connected at the center of the rear end face of the limiting baffle plate.

Preferably, guider includes support frame, fixing clip axle, sealed chuck, fixing base and connection fluted disc, the fixing clip axle that fixedly connected with was used for the support is located at the up end center of support frame, and is located the sealed chuck of fixedly connected with is located at the up end center of fixing clip axle, fixedly connected with fixing base is located at the up end center of sealed chuck, and is located the up end fixed mounting of sealed chuck has the connection fluted disc that is used for the transmission.

Preferably, the upper end face of the supporting shaft is fixedly connected with the lower end face of the motor, the radius of the limiting insertion shaft is the same as the width of the guide sliding groove, and the limiting insertion shaft is in sliding clamping connection with the inner end face of the guide clamping ring through the guide sliding groove.

Preferably, when the limiting insertion shaft is located at the top of the positioning sliding groove, the supporting device is not in contact with the bottom of the supporting top plate, when the limiting insertion shaft is located at the bottom of the positioning sliding groove, the supporting device is not in contact with the supporting frame, two groups of filtering clamping plates are arranged on the inner end face of the filtering plate, and the radiuses of filtering holes in the two groups of filtering clamping plates are sequentially reduced from front to back.

Preferably, the connecting sliding block is matched with the limiting sliding groove, the limiting side plate is matched with the sliding groove, and the supporting device is in sliding clamping connection with the outer end face of the mounting clamping plate through the matching of the connecting sliding block and the limiting sliding groove and the matching of the limiting side plate and the sliding groove.

Preferably, the bottom end face of the connecting gear is meshed with the connecting fluted disc to be rotatably connected, the fixed seat is matched with the connecting shaft, and the transmission mechanism is matched with the connecting shaft through the fixed seat and then is rotatably clamped on the upper end face of the guide device.

Preferably, the spring rotating shaft comprises a positioning rod for supporting, a limiting fulcrum shaft symmetrically and rotatably clamped on the side end face of the positioning rod, and a connecting spring for connecting the limiting fulcrum shaft and the positioning rod, and the limiting fulcrum shaft is fixedly connected with the inner end face of the limiting clamping seat.

Preferably, sealing chuck and the inner wall of connecting the barrel carry out sealed sliding connection, just sealing chuck and the inner wall of connecting the barrel form the sealed compression chamber that is used for the ejection of compact jointly, just sealed compression chamber and two sets of non return mechanism link up mutually.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, by arranging the transmission mechanism, when the transmission mechanism rotates circumferentially at the bottom of the supporting top plate, the connecting cylinder can circularly move up and down at the bottom of the supporting top plate through the meshing fit of the connecting gear and the connecting fluted disc and the sliding fit of the limiting insertion shaft and the guiding chute, and further the cement in the connecting cylinder can be circularly and quantitatively output by matching with the sealing chuck, so that the efficiency of quantitatively outputting the cement by the device is improved, and meanwhile, the follow-up workers can conveniently and rapidly take the cement.

2. According to the invention, by arranging the connecting gear, the limiting insertion shaft, the threaded rod and the limiting motor, when cement with different volumes is quantitatively taken, a user can drive the threaded rod to rotate through the limiting motor, so that the threaded rod can drive the limiting insertion shaft to accurately displace in the positioning chute, and then the diameter of a path is rotated around the circle center of the connecting gear through the limiting insertion shaft and the cross sectional area inside the connecting cylinder, so that the specific volume of the cement pushed out by the connecting cylinder is accurately calculated, the subsequent taking accuracy of the cement is improved, and the adaptability of the device is also improved.

3. According to the invention, the non-return mechanism is arranged, has a one-way non-return function, and can provide enough limiting space for the connecting cylinder body during feeding and discharging, so that the stability of discharging and feeding is improved, the phenomenon of backflow at the subsequent discharging and feeding positions is prevented, and the accuracy of discharging and feeding is improved.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a front view of the body of the present invention;

FIG. 3 is a cross-sectional view of the present invention taken along the front view A-A of the body;

FIG. 4 is an exploded view of the drive mechanism of the present invention;

FIG. 5 is an assembly view of the transmission of the present invention;

FIG. 6 is a schematic structural view of the supporting device of the present invention;

FIG. 7 is a front view of the support device of the present invention;

FIG. 8 is a cross-sectional view of the present invention taken along the front view B-B of the support device;

FIG. 9 is a schematic view of the check mechanism of the present invention;

FIG. 10 is a front view of the check mechanism of the present invention;

FIG. 11 is a cross-sectional view of the present invention taken along elevation view C-C of the check mechanism;

fig. 12 is a schematic structural view of the guide device of the present invention.

In the figure: 1-spring snap ring, 2-transmission mechanism, 3-supporting device, 4-non-return mechanism, 5-guiding device, 6-limiting slide groove, 7-mounting snap plate, 8-limiting side plate, 9-supporting top plate, 10-motor, 11-snap groove, 21-supporting shaft, 22-snap shaft, 23-connecting gear, 24-limiting inserted shaft, 25-threaded rod, 26-limiting motor, 27-positioning slide groove, 28-connecting shaft, 31-connecting slide block, 32-connecting cylinder body, 33-mounting snap groove, 34-filter plate, 35-slide groove, 36-guiding slide groove, 37-guiding snap ring, 41-mounting support plate, 42-limiting snap seat, 43-conveying pipe, 44-supporting pipe, 44-non-return mechanism, etc, 45-sealing baffle, 46-limiting baffle, 47-spring rotating shaft, 51-supporting frame, 52-fixed clamping shaft, 53-sealing chuck, 54-fixed seat and 55-connecting fluted disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, an embodiment of the present invention is shown: the cement quantitative output device for the building engineering comprises a spring snap ring 1, a transmission mechanism 2, a supporting device 3, a non-return mechanism 4, a guiding device 5, a limiting sliding groove 6, an installation clamping plate 7, a limiting side plate 8, a supporting top plate 9, a motor 10 and a clamping groove 11,

an installation clamping plate 7 for supporting is fixedly installed at the bottom of the rear end face of a supporting top plate 9, a clamping groove 11 for limiting is formed in the center of the outer end face of the installation clamping plate 7, a motor 10 for supporting is fixedly installed in the center of the upper end face of the supporting top plate 9, a transmission mechanism 2 is fixedly connected to the center of the lower end face of the motor 10, limiting side plates 8 for limiting are symmetrically and fixedly connected to the lower end face of the supporting top plate 9, supporting devices 3 for supporting are slidably clamped to the inner end faces of the two groups of limiting side plates 8, the lower end face of the supporting top plate 9 is elastically and fixedly connected with the supporting devices 3 through a spring clamping ring 1, a limiting sliding groove 6 for limiting is formed in the center of the inner end face of the installation clamping plate 7, a guiding device 5 for supporting is fixedly installed at the position, close to the bottom, of the inner end face of the installation clamping plate 7, and the guiding device 5 is rotatably clamped with the transmission mechanism 2, the middle part of the side end surface and the bottom end surface of the supporting device 3 are both fixedly provided with a non-return mechanism 4,

as shown in fig. 6-8, the supporting device 3 includes a connection slider 31, a connection cylinder 32, an installation clamping groove 33, a filter plate 34, a sliding groove 35, a guide sliding groove 36, and a guide snap ring 37, the connection slider 31 for limiting is fixedly connected to the center of the rear end of the upper end surface of the connection cylinder 32, the installation clamping groove 33 is respectively disposed on the upper end surface and the front end surface of the connection cylinder 32, the sliding groove 35 for limiting is symmetrically disposed on the outer end surface of the connection cylinder 32, the filter plate 34 is fixedly connected to the inner end surface of the connection cylinder 32 near the front portion, the guide snap ring 37 is fixedly mounted on the inner end surface of the connection cylinder 32 near the rear portion, and the guide sliding groove 36 is disposed on the center of the inner end surface of the guide snap ring 37.

As shown in fig. 4-5, the transmission mechanism 2 includes a support shaft 21, a clamping shaft 22, a connecting gear 23, a limiting insertion shaft 24, a threaded rod 25, a limiting motor 26, a positioning chute 27 and a connecting shaft 28, the clamping shaft 22 is fixedly mounted on a position, close to the bottom, of the side end surface of the support shaft 21, the connecting shaft 28 for limiting is fixedly connected to a center of the bottom end surface of the support shaft 21, the connecting gear 23 for supporting is rotatably clamped to an outer end surface of the clamping shaft 22, the positioning chute 27 for guiding is formed in a center of a rear end surface of the connecting gear 23, the limiting motor 26 is fixedly mounted on an inner end surface of the positioning chute 27, the threaded rod 25 is fixedly connected to a center of a front end surface of the limiting motor 26, and the limiting insertion shaft 24 for supporting is in threaded connection with an outer end surface of the threaded rod 25.

As shown in fig. 9-11, the non-return mechanism 4 includes an installation support plate 41, a limiting cassette 42, a material conveying pipe 43, a support pipe 44, a sealing baffle plate 45, a limiting baffle plate 46 and a spring rotating shaft 47, the limiting cassette 42 for limiting is fixedly installed at the center of the upper end face of the support pipe 44, the installation support plate 41 is fixedly installed at the rear end face of the support pipe 44, the material conveying pipe 43 for connection is fixedly connected at the center of the front end face of the support pipe 44, the spring rotating shaft 47 for supporting is fixedly connected at the inner end face of the limiting cassette 42, the limiting baffle plate 46 is fixedly connected at the outer end face of the spring rotating shaft 47, and the sealing baffle plate 45 is fixedly connected at the center of the rear end face of the limiting baffle plate 46.

As shown in fig. 12, the guiding device 5 includes a supporting frame 51, a fixing shaft 52, a sealing chuck 53, a fixing seat 54 and a connecting fluted disc 55, the fixing shaft 52 for supporting is fixedly connected to the center of the upper end surface of the supporting frame 51, the sealing chuck 53 is fixedly connected to the center of the upper end surface of the fixing shaft 52, the fixing seat 54 is fixedly connected to the center of the upper end surface of the sealing chuck 53, and the connecting fluted disc 55 for transmission is fixedly mounted on the upper end surface of the sealing chuck 53.

The up end of back shaft 21 carries out fixed connection with the lower terminal surface of motor 10, and the radius of spacing axle 24 of inserting is the same with the width of direction spout 36, spacing axle 24 of inserting through direction spout 36 and then slide the joint with the interior terminal surface of direction snap ring 37, can make things convenient for follow-up spacing axle 24 of inserting to directly slide the joint inside direction spout 36, thereby make things convenient for follow-up spacing axle 24 of inserting to drive whole strutting arrangement 3 through direction snap ring 37 and circulate upper and lower displacement in the lower part of supporting roof 9, and then make things convenient for follow-up carry out ejection of compact operation to cement.

When spacing axle 24 is located location spout 27 top, and strutting arrangement 3 does not contact with the bottom of roof support 9, spacing axle 24 is located location spout 27 bottom, and strutting arrangement 3 does not contact with support frame 51, the interior terminal surface of filter 34 is provided with two sets of filtration cardboards, and the inside filtration pore radius of crossing of two sets of filtration cardboards reduces strutting arrangement 3 in proper order from the past backward no matter shift to top limit or bottom limit all do not take place spacingly with other mechanisms, the driven security performance has been improved, two sets of filtration cardboards simultaneously, can further refine cement, make the cement of the ejection of compact more exquisite, improve subsequent result of use.

Connecting block 31 and 6 looks adaptations of spacing spout, spacing curb plate 8 and sliding tray 35 looks adaptations, and strutting arrangement 3 carries out the stability of displacement in supporting roof 9 below through connecting block 31 and 6 looks adaptations of spacing spout and spacing curb plate 8 and sliding tray 35 looks adaptations and then sliding clamping at the outer terminal surface of installation cardboard 7, can effectively improve follow-up strutting arrangement 3, and then improve follow-up accurate nature that carries out the ration ejection of compact to cement.

The bottom end face of connecting gear 23 meshes with connecting fluted disc 55 and rotates the connection, and fixing base 54 and connecting axle 28 looks adaptation, and drive mechanism 2 passes through fixing base 54 and connecting axle 28 looks adaptation and then rotates the joint at guider 5's up end, connects fluted disc 55 motionless, when connecting gear 23 rotates round connecting fluted disc 55 upper portion, because the meshing relation makes connecting gear 23 can rotate, thereby convenient follow-up displacement provides power about connecting barrel 32 for driving.

Spring shaft 47 is including the locating lever that is used for supporting, the symmetry rotates the joint at the spacing counter roll of locating lever side end face and is used for connecting the coupling spring of spacing counter roll and locating lever, and spacing counter roll carries out fixed connection with the interior terminal surface of spacing cassette 42, the outside of locating lever is fixed with limit baffle 46's top and is cup jointed, spacing branch is fixed at the inner wall of spacing cassette 42 simultaneously, can make things convenient for follow-up relative elasticity rotation for spring shaft 47 to provide sufficient spacing space, and when coupling spring can make things convenient for follow-up reseing, it is spacing to drive limit baffle 46 and seal baffle 45 inside sealing up of stay tube 44.

Sealed chuck 53 carries out sealed sliding connection with the inner wall of connecting barrel 32, and sealed chuck 53 forms the sealed compression chamber that is used for the ejection of compact with the inner wall of connecting barrel 32 jointly, and sealed compression chamber link up with two sets of non return mechanism 4 mutually, and sealed compression chamber is dynamic structure, can expand or contract under sealed chuck 53 and the relative displacement of connecting barrel 32 to convenient follow-up carry out quantitative output operation to cement.

The working principle is as follows: as shown in fig. 1-3, before use, the user can install the external discharging pipe at the lower end of the check mechanism 4 at the bottom of the supporting device 3, and then install the cement feeding pipe at the side end of the check mechanism 4 at the side of the supporting device 3, so as to facilitate the subsequent rapid feeding and discharging operation of the inside of the supporting device 3,

as shown in fig. 3, 4, 8, 11 and 12, when quantitatively discharging cement, a user can start the motor 10 through the external control mechanism, at this time, the motor 10 can drive the supporting shaft 21 to rotate, when the supporting shaft 21 rotates, the fastening shaft 22 can be driven to rotate, and simultaneously, since the bottom of the connecting gear 23 is in meshed rotational connection with the connecting toothed disc 55, when the fastening shaft 22 performs circumferential rotation on the upper portion of the connecting toothed disc 55, the connecting gear 23 can perform meshed rotation around the connecting toothed disc 55 on the outside of the fastening shaft 22, so that the limit inserting shaft 24 outside the connecting toothed disc 55 can perform circumferential rotation around the outside of the connecting gear 23, and simultaneously, since the outside of the limit inserting shaft 24 is in sliding and fastening connection with the guide chute 36, when the limit inserting shaft 24 performs circumferential rotation around the connecting gear 23, the limit inserting shaft 24 can simultaneously drive the guide snap ring 37 to perform cyclic back and forth displacement on the outside of the connecting gear 23, and the sealing chuck 53 is connected with the connecting cylinder 32 in a sealing sliding manner, the sealing chuck 53 and the connecting cylinder 32 can form a sealing compression chamber, thereby facilitating the subsequent sealed compression output of cement, when cement is conveyed, as shown in fig. 3, when the limiting insertion shaft 24 drives the guide clamping ring 37 to move upwards, as the sealing chuck 53 is kept still, the space between the sealing chuck 53 and the connecting cylinder 32 is reduced, at the moment, cement is firstly refined and filtered from the inside of the filter plate 34, and then is conveyed to the inside of the non-return mechanism 4 through the bottom of the connecting cylinder 32 under the action of internal pressure, as the sealing baffle 45 and the limiting baffle 46 are arranged inside the non-return mechanism 4, when the pressure inside the non-return mechanism 4 is increased, the sealing baffle 45 and the limiting baffle 46 can be opened outwards along the spring rotating shaft 47 under the action of pressure, and further compressed cement can have enough space to flow out from the material conveying pipe 43, thereby flowing into the external discharging pipe, facilitating the quantitative use of the workers, when the limiting insertion shaft 24 drives the guide clamping ring 37 to move towards the lower part, at the moment, the inside of the connecting cylinder body 32 is in a negative pressure state, the non-return mechanism 4 at the bottom of the supporting device 3 automatically closes the supporting pipe 44 under the reset of the suction force and the elastic force of the spring rotating shaft 47, when the supporting pipe 44 is closed, the opening of the non-return mechanism 4 at the side part of the supporting device 3 is inward, further, the non-return mechanism is automatically opened under the action of the negative pressure suction force inside the connecting cylinder body 32, so that the external feeding pipe can convey cement for the inside of the connecting cylinder body 32 through the non-return mechanism 4, and simultaneously, enough limiting space is provided for the limiting insertion shaft 24 to drive the connecting cylinder body 32 to move downwards, thereby completing the supply operation of cement, and the device can effectively improve the requirement of taking the cement quantitatively for the workers,

if cement is taken in a quantitative mode, cement with different volumes is needed, the limiting motor 26 can be started by an external control mechanism by a user, the limiting motor 26 can drive the threaded rod 25 to rotate, the threaded rod 25 can drive the limiting insertion shaft 24 to perform accurate displacement in the positioning sliding groove 27, when the limiting insertion shaft 24 is closer to the circle center of the connecting gear 23, the cement discharging amount of the device is smaller, otherwise, when the limiting insertion shaft 24 is farther from the circle center of the connecting gear 23, the cement discharging amount of the device is larger, the user can accurately calculate the specific volume of cement pushed out by the connecting cylinder 32 according to the radius of the circle center circumferential path of the connecting gear 23 and the cross-sectional area inside the connecting cylinder 32, and the subsequent accuracy of taking cement is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Building engineering cement ration output device, its characterized in that: comprises a spring snap ring (1), a transmission mechanism (2), a supporting device (3), a non-return mechanism (4), a guiding device (5), a limiting sliding groove (6), an installation clamping plate (7), a limiting side plate (8), a supporting top plate (9), a motor (10) and a clamping groove (11),

an installation clamping plate (7) used for supporting is fixedly installed at the bottom of the rear end face of the supporting top plate (9), a clamping groove (11) used for limiting is formed in the center of the outer end face of the installation clamping plate (7), a motor (10) used for supporting is fixedly installed at the center of the upper end face of the supporting top plate (9), a transmission mechanism (2) is fixedly connected to the center of the lower end face of the motor (10), limiting side plates (8) used for limiting are symmetrically and fixedly connected to the lower end face of the supporting top plate (9), supporting devices (3) used for supporting are slidably clamped and connected to the inner end faces of the two groups of limiting side plates (8), the lower end face of the supporting top plate (9) is elastically and fixedly connected with the supporting devices (3) through a spring clamping ring (1), and a limiting sliding groove (6) used for limiting is formed in the center of the inner end face of the installation clamping plate (7), a guide device (5) for supporting is fixedly arranged at the position, close to the bottom, of the inner end surface of the mounting clamping plate (7), the guide device (5) is rotationally clamped with the transmission mechanism (2), the middle part of the side end surface and the bottom end surface of the supporting device (3) are fixedly provided with check mechanisms (4),

the supporting device (3) comprises a connecting slide block (31), a connecting cylinder body (32), a mounting clamping groove (33), a filter plate (34), a sliding groove (35), a guide sliding groove (36) and a guide clamping ring (37), a connecting slide block (31) for limiting is fixedly connected at the center of the end head at the rear part of the upper end surface of the connecting cylinder body (32), and the upper end surface and the front end surface of the connecting cylinder body (32) are both provided with an installation clamping groove (33), and the outer end surface of the connecting cylinder body (32) is symmetrically provided with sliding grooves (35) for limiting, the inner end surface of the connecting cylinder body (32) is fixedly connected with a filter plate (34) near the front part, a guide snap ring (37) is fixedly arranged on the inner end surface of the connecting cylinder body (32) close to the rear part, and a guide sliding groove (36) is formed in the center of the inner end face of the guide clamping ring (37).

2. The construction engineering cement quantitative output device of claim 1, wherein: the transmission mechanism (2) comprises a support shaft (21), a clamping shaft (22), a connecting gear (23), a limiting insertion shaft (24), a threaded rod (25), a limiting motor (26), a positioning chute (27) and a connecting shaft (28), a clamping shaft (22) is fixedly arranged on the side end surface of the supporting shaft (21) close to the bottom, and a connecting shaft (28) for limiting is fixedly connected at the center of the bottom end surface of the supporting shaft (21), the outer end surface of the clamping shaft (22) is rotationally clamped with a connecting gear (23) for supporting, a positioning chute (27) for guiding is arranged at the center of the rear end face of the connecting gear (23), a limiting motor (26) is fixedly arranged on the inner end surface of the positioning chute (27), and a threaded rod (25) is fixedly connected at the center of the front end surface of the limit motor (26), the outer end face of the threaded rod (25) is in threaded connection with a limiting inserting shaft (24) used for supporting.

3. The construction engineering cement quantitative output device of claim 2, wherein: non return mechanism (4) are including installation extension board (41), spacing cassette (42), conveying pipeline (43), stay tube (44), sealing baffle (45), limiting baffle (46) and spring pivot (47), the up end center department fixed mounting of stay tube (44) has spacing cassette (42) that are used for spacingly, and is located the rear end face fixed mounting of stay tube (44) has installation extension board (41), the preceding terminal surface center department fixed connection of stay tube (44) has conveying pipeline (43) that are used for connecting, the interior terminal surface fixedly connected with of spacing cassette (42) is used for spring pivot (47) that support, and is located the outer terminal surface fixedly connected with limiting baffle (46) of spring pivot (47), the rear end face center department fixed connection of limiting baffle (46) has sealing baffle (45).

4. The construction engineering cement quantitative output device of claim 3, wherein: guider (5) are including support frame (51), fixing clip axle (52), sealed chuck (53), fixing base (54) and connection fluted disc (55), the fixing clip axle (52) that the up end center department fixedly connected with of support frame (51) was used for supporting, and is located the fixedly connected with sealed chuck (53) are located to the up end center of fixing clip axle (52), fixedly connected with fixing base (54) are located at the up end center of sealed chuck (53), and are located the up end fixed mounting of sealed chuck (53) has and is used for driven connection fluted disc (55).

5. The construction engineering cement quantitative output device of claim 4, wherein: the up end of back shaft (21) carries out fixed connection with the lower terminal surface of motor (10), just the radius of spacing axle (24) of inserting is the same with the width of direction spout (36), spacing axle (24) of inserting through direction spout (36) and then with the interior terminal surface of direction snap ring (37) joint that slides.

6. The construction engineering cement quantitative output device of claim 5, wherein: when spacing axle (24) is located location spout (27) top, just strutting arrangement (3) do not contact with the bottom of roof support (9), when spacing axle (24) is located location spout (27) bottom, just strutting arrangement (3) do not contact with support frame (51), the interior terminal surface of filter (34) is provided with two sets of filtration cardboards, and two sets of filter the inside filtration pore radius of crossing of filtration cardboard reduces in proper order from the past backward.

7. The construction engineering cement quantitative output device of claim 4, wherein: the connecting sliding block (31) is matched with the limiting sliding groove (6), the limiting side plate (8) is matched with the sliding groove (35), and the supporting device (3) is matched with the limiting sliding groove (6) through the connecting sliding block (31) and the limiting sliding groove (8) and the sliding groove (35) so as to be clamped on the outer end face of the mounting clamping plate (7) in a sliding mode.

8. The construction engineering cement quantitative output device of claim 4, wherein: the bottom end face of connecting gear (23) meshes with connecting fluted disc (55) and rotates the connection, just fixing base (54) and connecting axle (28) looks adaptation, drive mechanism (2) are through fixing base (54) and connecting axle (28) looks adaptation and then rotate the upper end face of joint at guider (5).

9. The construction engineering cement quantitative output device of claim 4, wherein: the spring rotating shaft (47) comprises a positioning rod for supporting, a limiting fulcrum shaft symmetrically and rotatably clamped on the side end face of the positioning rod, and a connecting spring for connecting the limiting fulcrum shaft and the positioning rod, and the limiting fulcrum shaft is fixedly connected with the inner end face of the limiting clamping seat (42).

10. The construction engineering cement quantitative output device of claim 4, wherein: sealing sliding connection is carried out with the inner wall of connecting cylinder body (32) in sealing chuck (53), just sealing chuck (53) forms the sealed compression chamber that is used for the ejection of compact jointly with the inner wall of connecting cylinder body (32), just sealed compression chamber and two sets of non return mechanism (4) link up mutually.

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