Disclosure of Invention
The invention aims to solve the problems of the prior art and provides a concrete monitoring device for monitoring the concrete construction process, which can eliminate the factors of unqualified or unsatisfactory effect caused by water addition of workers in the concrete feeding stage.
In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a concrete supervisory equipment, includes the automobile body and installs jar body on the automobile body, jar body has the feed opening, be equipped with on the automobile body with feed opening and ejection of compact system corresponding to the feed opening, ejection of compact system includes discharging pipe, sleeve pipe, first slide bar, action bars, discharge hopper, first slider, first spring and second spring, the discharging pipe with the feed opening is corresponding and installs on the automobile body, the sleeve pipe cover is established on the discharging pipe and can be in slide about on the discharging pipe, be equipped with on the discharging pipe and work as the sleeve pipe slides the drain opening that the right-hand member can be unloaded, the drain opening is corresponding with the discharge hopper of below, first slide bar left end is connected the sleeve pipe, first slide bar right-hand member is connected first slider, first slider is connected first spring, be equipped with on the automobile body and can supply first slider gliding spout, the second spring left and right sides are connected respectively automobile body and cushion, the sleeve pipe cover is established and can be in on the side of a rectangle slide bar, first slider is equipped with one side of slope contact, one is equipped with one side is equipped with the control piece is equipped with to be equipped with on the slope.
Further, be equipped with the second slide bar on the automobile body, the cover is equipped with third spring and second slider on the second slide bar, the third spring is connected the second slider left side, the second slide bar passes when the third spring is in natural state and equipment is not unloaded the state, the second slider with the cushion is pressed close to but not contact simultaneously the action bars mentions the uppermost, be equipped with the third contact piece on the second slider, be equipped with on the cushion with the corresponding fourth contact piece of third contact piece, the third contact piece with connect the transmitter between the fourth contact piece contact, the receiver is connected to the transmitter, the buzzer is connected to the receiver.
Further, install first flexible cylinder on the automobile body, the telescopic link of first flexible cylinder is even has the limiting plate, the limiting plate is located the action bars below, first flexible cylinder is connected with the controller, the controller is connected the control, when the control is not opened simultaneously first contact piece with the contact of second contact piece time the controller control first flexible cylinder promotes the limiting plate moves upwards.
Further, a monitoring protective shell is arranged on the vehicle body, a second telescopic cylinder is arranged in the monitoring protective shell and connected with the I-shaped piece, and the monitoring is arranged on the I-shaped piece.
Compared with the prior art, the invention has the following beneficial effects: the vehicle body is a concrete tank truck, the monitoring is arranged on the vehicle body, the monitoring is carried out when the concrete tank truck is unloaded through the monitoring, the concrete enters the material inlet of the tank body through the material inlet when being fed from the stirring station, the vehicle body is arranged on the vehicle body and can rotate on the vehicle body, and the concrete is unloaded from the material inlet of the tank body along the material outlet system and then is used in butt joint with a pump truck when being unloaded; when the first sliding block moves rightwards, the sleeve is driven to slide rightwards on the discharging pipe to expose a material leakage opening, concrete falls into the discharging hopper from the material leakage opening, when the operating rod moves downwards, the first contact piece is contacted with the second contact piece to trigger the monitoring to be started, namely, when the operating rod is operated to push down to expose the material leakage opening when the operating rod is required to be discharged, the monitoring is started, so that the monitoring is prevented from being started, the electric quantity is saved, after the discharging is finished, the operating rod is lifted up to enable the first contact piece to be separated from the second contact piece to be closed, the monitoring is started, and the control module is arranged on the monitoring, so that the first contact piece can be started; the operation rod pushes the cushion block to push the operation rod to be tightly on the first sliding block all the time through the second spring; the right side surface of the operating rod is stuck to the left side surface of the first sliding block; when the operating rod is lifted upwards, the first sliding rod is in contact with the lower wall of the rectangular perforation, the first contact piece is separated from the second contact piece, the slope is tightly attached to the slope step, meanwhile, the second spring is tightly abutted to the operating rod through the cushion block by the slope step, the first sliding block slides onto the slope step from the right side of the operating rod, the first sliding block drives the sleeve to move left to block the material leakage opening, and the right surface of the operating rod is always pushed to be tightly attached to the vehicle body by the second spring.
Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the present invention more clear and easy to understand, the present invention is further described below with reference to the accompanying drawings and the detailed description:
the invention provides concrete monitoring equipment, which comprises a car body 1 and a pot body 2 arranged on the car body 1, wherein the pot body 2 is provided with a material opening, a material opening corresponding to the material opening and a material discharging system are arranged on the car body 1, the material discharging system comprises a material discharging pipe 3, a sleeve pipe 4, a first sliding rod 5, an operating rod 6, a material discharging funnel 7, a first sliding block 9, a first spring 10 and a second spring 11, the material discharging pipe 3 corresponds to the material opening and is arranged on the car body 1, the sleeve pipe 4 is sleeved on the material discharging pipe 3 and can slide left and right on the material discharging pipe 3, the material opening corresponds to the material discharging funnel 7 below, the left end of the first sliding rod 5 is connected with the sleeve pipe 4, the right end of the first sliding rod 5 is connected with the first sliding block 9, the first sliding block 9 is connected with the first spring 10, the car body 1 is provided with a step pad 5 which can be correspondingly provided with the first sliding block 5 and the first sliding block 9, the first sliding block 6 is arranged on the side of the car body 1, the step 16 is correspondingly provided with the first sliding block 5 and the first sliding block 9, the step 16 is respectively arranged on the side of the step 5, the step pad 1 is correspondingly provided with the first sliding block 16 and the step 5, the step 16 is correspondingly provided with the first sliding rod 6 and the step 16 is provided with the step 16, the step 16 is correspondingly provided with the step 16 on the side of the sliding block 5, the step 16 is provided with the step 5, the vehicle body 1 is provided with a second contact piece 14 which can open the monitor 8 when contacting the first contact piece 13.
The vehicle body is a concrete tank truck, the monitoring is arranged on the vehicle body, the monitoring is carried out when the concrete tank truck is unloaded through the monitoring, the concrete enters the material inlet of the tank body through the material inlet when being fed from the stirring station, the vehicle body is arranged on the vehicle body and can rotate on the vehicle body, and the concrete is unloaded from the material inlet of the tank body along the material outlet system and then is used in butt joint with a pump truck when being unloaded; when the first sliding block moves rightwards, the sleeve is driven to slide rightwards on the discharging pipe to expose a material leakage opening, concrete falls into the discharging hopper from the material leakage opening, when the operating rod moves downwards, the first contact piece is contacted with the second contact piece to trigger the monitoring to be started, namely, when the operating rod is operated to push down to expose the material leakage opening when the operating rod is required to be discharged, the monitoring is started, so that the monitoring is prevented from being started, the electric quantity is saved, after the discharging is finished, the operating rod is lifted up to enable the first contact piece to be separated from the second contact piece to be closed, the monitoring is started, and the control module is arranged on the monitoring, so that the first contact piece can be started; the operation rod pushes the cushion block to push the operation rod to be tightly on the first sliding block all the time through the second spring; the right side surface of the operating rod is stuck to the left side surface of the first sliding block; when the operating rod is lifted upwards, the first sliding rod is in contact with the lower wall of the rectangular perforation, the first contact piece is separated from the second contact piece, the slope is tightly attached to the slope step, meanwhile, the second spring is tightly abutted to the operating rod through the cushion block by the slope step, the first sliding block slides onto the slope step from the right side of the operating rod, the first sliding block drives the sleeve to move left to block the material leakage opening, and the right surface of the operating rod is always pushed to be tightly attached to the vehicle body by the second spring.
As a specific embodiment, considering that a certain time is required for the monitoring 8 to be started, a worker needs to prepare in advance, so that a second slide bar 18 is arranged on the vehicle body 1, a third spring 17 and a second slide bar 19 are sleeved on the second slide bar 18, the third spring 17 is connected with the left side of the second slide bar 19, the second slide bar 18 passes through the cushion block 16, when the third spring 17 is in a natural state and in a device non-unloading state, the second slide bar 19 is close to but not in contact with the cushion block 16, the operating rod 6 is at the uppermost end, a third contact piece is arranged on the second slide bar 19, a fourth contact piece corresponding to the third contact piece is arranged on the cushion block 16, a transmitter is connected between the third contact piece and the fourth contact piece, the transmitter is connected with a receiver, the receiver is connected with a buzzer, when the operating rod 6 starts to move downwards, the buzzer is slightly moved to a signal is sent to the monitoring station by the buzzer through the operating rod 6 even if the first spring coefficient 10 is smaller than the second spring coefficient, and the buzzer is always moved to the receiver by the receiver.
As a specific embodiment, a first telescopic cylinder 20 is installed on the vehicle body 1, a telescopic rod of the first telescopic cylinder 20 is connected with a limiting plate 21, the limiting plate 21 keeps the operating rod 6 from moving downwards to avoid bumping against the first contact piece 13, the limiting plate 21 is positioned below the operating rod 6, the first telescopic cylinder 20 is connected with a controller, the controller is connected with the monitoring 8, when the monitoring 8 is not started and the first contact piece 13 is contacted with the second contact piece 14, the controller controls the first telescopic cylinder 20 to push the limiting plate 21 to move upwards, when monitoring personnel receives a signal of a buzzer but detects that the monitoring is not started, the monitoring personnel can operate the controller to control the first telescopic cylinder 20 to push the limiting plate 21 to move upwards so as to close the material leakage opening, and when the monitoring 8 is not started, the monitoring personnel receives a signal from a signal transmitter, a signal receiver and a signal receiver, and a control system receives the signal from the monitoring cylinder 20 to operate the monitoring personnel; the lower end of the operating rod 6 is connected with a horizontal rod 12, the first contact piece 13 is installed on the horizontal rod 12, and the limiting plate 21 jacks up the horizontal rod 12 when ascending.
As a specific embodiment, the sliding grooves include a first horizontal sliding groove 22 and a second horizontal sliding groove communicated with the first horizontal sliding groove 22, the first sliding rod 5 slides on the first horizontal sliding groove 22, the first sliding block 9 slides on the second horizontal sliding groove, and the operating rod 6 is located between the first horizontal sliding groove 22 and the second horizontal sliding groove.
As a specific embodiment, the material leakage opening is a rectangular notch 23, and the rectangular notch 23 is located above the discharging funnel 7.
As a specific embodiment, in order to better protect the monitor 8, the vehicle body 1 is provided with a monitor protecting shell 26, a second telescopic cylinder 25 is installed in the monitor protecting shell 26, the second telescopic cylinder 25 is connected with the i-shaped piece 24, the monitor 8 is installed on the i-shaped piece 24, and the telescopic rod of the second telescopic cylinder 25 controls the i-shaped piece 24 to extend and retract the monitor 8 into the monitor protecting shell 26.
Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.