阅读说明：本技术 用于固定土木工程元件的固定器件和土木工程方法 (Fixing device for fixing civil engineering elements and civil engineering method ) 是由 J.哈斯 于 2020-03-13 设计创作，主要内容包括：本发明涉及一种固定器件和一种方法,所述固定器件和方法用于借助于柔性固定元件将土木工程元件固定到施工机械,其中,柔性固定元件的第一端部附接到施工机械且第二端部设置有连接链节,该连接链节能够穿过土木工程元件上的固定凸耳并且能够通过连接器件可释放地紧固到施工机械。根据本发明,检测单元被提供在连接器件上,该检测单元被设计成用于识别连接链节到连接器件的紧固。如果识别了连接链节的紧固,则检测单元能够产生并输出信号。(The invention relates to a fixing device and a method for fixing a civil engineering element to a construction machine by means of a flexible fixing element, wherein a first end of the flexible fixing element is attached to the construction machine and a second end is provided with a connecting link which can be passed through a fixing lug on the civil engineering element and can be releasably fastened to the construction machine by means of the connecting device. According to the invention, a detection unit is provided on the connecting means, which detection unit is designed for identifying the fastening of the connecting link to the connecting means. The detection unit can generate and output a signal if the fastening of the connecting link is recognized.)

1. Fixing device for fixing a civil engineering element to a construction machine, in particular a pile to a pile driver, by means of a flexible fixing element, in particular a fixing chain, wherein a first end of the flexible fixing element is attached to the construction machine and a second end is provided with a connecting link which can be passed through a fixing lug on the civil engineering element and can be releasably fastened to the construction machine by means of a connecting device,

wherein the content of the first and second substances,

a detection unit is provided on the connecting means, which detection unit is designed to identify the fastening of the connecting link to the connecting means, and

the detection unit can generate and output a signal if the fastening of the connecting link is recognized.

2. The securing device as claimed in claim 1,

wherein the content of the first and second substances,

at least one locking bolt is provided on the connecting means, by means of which bolt the connecting link can be locked in the connecting means.

3. The securing device as claimed in claim 2,

wherein the content of the first and second substances,

the locking bolt is adjustably mounted so as to be adjustable between a retracted position for receiving or releasing the connecting link into or from the connecting means and a latched position in which the connecting link is locked in the connecting means.

4. The securing device as claimed in claim 1,

wherein the content of the first and second substances,

the detection unit is able to identify the position of the connecting link in the locking position.

5. The securing device as claimed in claim 1,

wherein the content of the first and second substances,

the detection unit includes at least one proximity sensor.

6. The securing device as claimed in claim 5,

wherein the content of the first and second substances,

the proximity sensor is capable of identifying whether the connecting link is located in the connecting means.

7. The securing device as claimed in claim 1,

wherein the content of the first and second substances,

the flexible fixing element is electrically conductive, and

providing a source of electrical energy by means of which a test current can be conducted through the flexible fixation element between the fastening element to which the first end of the flexible fixation element is attached and the connection means, the current being identifiable by the detection unit.

8. The securing device as claimed in claim 7,

wherein the content of the first and second substances,

the fastening element and the connecting means are electrically insulated with respect to the construction machine.

9. A construction machine, in particular a pile driver,

wherein the content of the first and second substances,

there is provided a fixation device according to claim 1.

10. Civil engineering method, in particular using a fixing means according to claim 1,

wherein a civil engineering element is fixed to a construction machine, in particular a pile to a pile driver, by means of a flexible fixing element, in particular a fixing chain, wherein a first end of the flexible fixing element is attached to the construction machine and a second end is provided with a connecting link which passes through a fixing lug on the civil engineering element and is releasably fastened to the construction machine by means of a connecting device (30) in order to fix the position of the civil engineering element on the construction machine,

wherein the content of the first and second substances,

a detection unit is provided on the connecting means, which detection unit is designed to recognize the fastening of the connecting link to the connecting means, and

the detection unit is capable of generating and outputting a signal when the fastening and/or lack of fastening of the connecting link is identified.

11. Civil engineering method according to claim 10,

wherein the content of the first and second substances,

the construction machine is a pile driver by means of which the pile as the civil engineering element is driven into the ground or pulled out of the ground.

Technical Field

The invention relates to a fixing device according to the preamble of claim 1 for fixing a civil engineering element to a construction machine (in particular a pile to a pile driver) by means of a flexible fixing element (in particular a fixing chain), wherein the first end of the flexible fixing element is attached to the construction machine and the second end is provided with a connecting link which can be passed through a fixing lug on the civil engineering element and can be releasably fastened to the construction machine by means of the connecting device.

The invention also relates to a civil engineering method according to the preamble of claim 10, in which the civil engineering element is fixed to the construction machine (in particular a pile to a pile driver) by means of a flexible fixing element (in particular a fixing chain), wherein the first end of the flexible fixing element is attached to the construction machine and the second end is provided with a connecting link which passes through a fixing lug on the civil engineering element and is releasably fastened to the construction machine by means of a connecting device in order to fix the position of the civil engineering element on the construction machine.

Background

A fastening device of the type in question is disclosed by DE 3602609 a 1. The sheet piles can be loosely fastened to the vibrating device using chain anchoring. In this case, the fixing chain is guided through a through-hole or a fixing lug at the upper end region of the pile. In this case, one end of the fixing chain is fastened to the vibration device. After being guided through, the loose end is fastened to the vibration device by means of a plug connection.

Subsequently, the vibration means can be moved upwards along the mast, wherein the sheet pile is held by chain anchoring and pulled upwards, wherein the upper end of the sheet pile enters between the two clamping jaws into the receiving groove of the vibration means. Subsequently, the sheet pile can be clamped on the vibration means between the two clamping jaws. It is then possible to drive or ram the clamped sheet pile vertically into the ground using a vibrating device.

After the civil engineering measures have been completed, it is often necessary or desirable to remove the sheet pile again from the ground. For this purpose, it is also possible to use a known pile driver, in which the fixing chain is to be passed again through the fixing lugs on the sheet pile before pulling the sheet pile, in order thereby additionally to fix the sheet pile on the pile driver or the vibrating element. Subsequently, the upper end of the pile is clamped again and pulled out of the ground in a vibrating manner by means of a vibrating device. In this case, the fixing chain serves as an additional mechanical position fixing means, so that the pile does not fall to the ground in an uncontrolled manner, for example in the event of a failure of the hydraulic clamping means. Furthermore, after releasing the clamping jaws, the pile is placed on the ground again using the securing chain.

A similar arrangement of drivers is known from US 5,332,047. In this known device, a rod-shaped pile is driven into the ground, wherein a fixed chain is likewise arranged between the pile and the pile driver.

The fixing chain serves as an additional mechanical position fixing means for the piles, which are generally steel parts up to 10 m in length or more and having a weight of several hundred kilograms. In the case of hydraulic clamping devices, failure, improper operation, or damage to the hydraulic system may result in an inadvertent release or reduction of the hydraulic clamping force. In the absence of additional mechanical position fixing means due to the fixing chain, there is a risk that the piles may fall from a vertical position to the ground and in the process may cause material damage or personal injury. Numerous fatal accidents have been recorded.

In practice, it may be the case that the job site personnel may forget to attach the fixing chain, or may not fasten the fixing chain correctly. This constitutes a significant risk for occupational safety.

Disclosure of Invention

The object of the invention is to specify a fixing device and a civil engineering method by means of which a particularly high degree of occupational safety is ensured.

This object is achieved according to the invention by a fixing device having the features of claim 1 and by a civil engineering method having the features of claim 10. Preferred embodiments of the invention are specified in the dependent claims.

The fixing device according to the invention is characterized in that: a detection unit is provided on the connecting means, the detection unit being designed to recognize the fastening of the connecting link to the connecting means; and the detection unit is capable of generating and outputting a signal when the fastening of the connecting link is recognized.

The core idea of the invention is to verify the correct closure of the flexible fixing element on the connecting link. For this purpose, a detection unit is arranged on the connecting means, which detection unit identifies the reception and fastening of the connecting link on the connecting means. In this case, the detector unit outputs a signal, in particular an electrical signal, if a correct fastening of the connecting link has been achieved. Additionally or alternatively, the detection unit can also output a signal if no or incorrect fastening of the connecting links occurs.

The signal can be displayed directly to the machine operator, for example in an operating state. The signal can also actuate a corresponding alarm, which is in particular optically and/or acoustically operated. However, the signal can also be fed to a corresponding control unit of the construction machine, wherein the control unit then intervenes correspondingly in the further operating process. In particular, further operation of the construction machine can be stopped or at least limited, for example because the grip of the pile on the pile driver cannot be released or the movement of the pile driving unit cannot be started until the correct tightening of the connecting links has been reached.

A preferred development of the invention consists in that at least one locking bolt is provided on the connecting means, by means of which locking bolt the connecting link can be locked in the connecting means. The at least one locking bolt forms a mechanical locking of the connecting link in the connecting means. Alternatively or additionally, the detection unit can identify the position of the locking bolt.

In this case, it is particularly preferred according to a development of the invention that the locking bolt is adjustable between a retracted position for receiving or releasing the connecting link into or from the connecting means and a locking position in which the connecting link is locked in the connecting means. In the retracted position, the locking bolt can be held by means of a catch (catching) in a manner requiring low forces. This allows the connecting link to be simply inserted into the connecting means and then locked by means of moving the locking bolt into the locking position. Alternatively, the locking bolt can also be held in the locking position in a spring-loaded manner. For inserting the connecting link, the locking bolt is pulled back briefly against the spring force, wherein after the connecting link has been inserted into the corresponding locking portion of the connecting means, it is then pushed back into the locking position by the spring force. The locking can be actuated manually or preferably by means of an activatable actuating member (e.g. a hydraulically actuated cylinder).

A particularly advantageous variant of the invention can be considered as being able to identify the position of the connecting link in the locking position by the detection unit. This can be done in isolation or in addition to identifying the position of the locking bolt. A particularly high degree of recognition reliability is thereby achieved.

A particularly effective variant of the invention results from the detection unit comprising at least one proximity sensor. The proximity sensor is a robust and overall cost-effective sensor element. As a result, the detection unit can be designed in a particularly economical and reliable manner.

In this case, it is particularly advantageous if the proximity sensor is able to recognize when the connecting link is in the connecting means. At the same time, the same or another proximity sensor can also recognize the position of the locking bolt, so that the reliability of the recognition is improved.

According to a further embodiment of the invention, it is preferred that the flexible fixing element is electrically conductive and that an electrical energy source is provided, by means of which a test current can be conducted through the flexible fixing element between the fastening element to which the first end of the flexible fixing element is attached and the connection means, which current can be recognized by the detection unit. In particular, the electrical energy source can be a current or voltage source, by means of which the test current is generated continuously or at a specific time. If the flexible fixing element is correctly connected to the connection device, the test current is conducted from the fastening element at one end of the flexible fixing element to its other end at the connection device. The security component may be provided in addition to or in place of the detection component described above. The flexible fixing element can be, for example, a steel cable or a chain made of metal or an electrically conductive chain link. When a cable is used, it can be provided with or formed of a correspondingly electrically conductive material only on its outer or inner surface.

In this case, it is particularly advantageous if the fastening element and the connecting means are electrically insulated with respect to the construction machine. As a result, leakage current is prevented. The electrical insulation can be achieved by means of a corresponding electrically insulating material. It is particularly advantageous if the fastening element and the connecting means are fastened to the construction machine by means of a rubber bumper. This achieves not only electrical insulation but also acoustic insulation and thus reduces acoustic radiation.

The invention also relates to a construction machine, in particular a pile driver, for driving a pile into the ground, wherein the above-described fixing device is provided.

In this case, the pile driver comprises a pile driving unit for driving the pile (in particular the column, girder or sheet pile) into the ground by means of vibration or impulse. In this case, the pile driving unit can be a vibrator comprising a rotatable unbalancing element, or a pile driver comprising a pulsing element that can be driven in a linear reverse manner. In this case, the vibrator can comprise one or more pairs of rotatable unbalancing elements mounted so as to be adjustable relative to each other in a known manner for producing a directional unbalancing. Alternatively, the pile driving unit may be a pile hammer. In this case, the tamping movement can trigger a striking pulse, in which case the impulse element driven in a reverse manner strikes the striking surface. Alternatively, the impulse element can also be driven in a reverse manner without striking the contact, so that a targeted vibration movement is generated and transmitted to the pile.

The construction machine may comprise a mobile carrier device on which the mast is arranged. The pile driving unit can be mounted so as to be vertically adjustable along the mast. In particular, the carrier device can comprise a crawler chassis on which are: a rotatable superstructure comprising a boom for cable suspension; or a vertical mast comprising a slotted guide, in particular a telescopic leading mast (leader main).

The civil engineering method is characterized in that: providing a connection device of a detection unit capable of recognizing the fastening of the connection link to the connection device; and a detection unit generating and outputting a signal when the fastening and/or lack of fastening of the connecting link is recognized.

In particular, the civil engineering method can be implemented using the safety device described above. The described advantages can be achieved in this case.

A preferred method variant of the invention is that the construction machine is a pile driver, by means of which the pile as a civil engineering element is driven into the ground or pulled out of the ground. The piles may be columns, girders, tubes, sheet piles, etc. In particular, when driving in sheet piles, it is possible to drive in a plurality of such civil engineering elements, so that so-called sheet pile walls are formed.

Drawings

The invention will be described in more detail hereinafter with reference to preferred embodiments that are schematically illustrated in the accompanying drawings, in which:

FIG. 1 is a cross-sectional view through a portion of a work machine including a securing device according to the present disclosure, the securing device being in an open state;

FIG. 2 is a front view of the fixation device of FIG. 1, the fixation device being in a closed state;

FIG. 3 is a cross-sectional view of the fixation device of FIG. 2 along line A-A;

fig. 4 is an enlarged perspective detail of the connecting means of the fixing means according to fig. 3;

fig. 5 is a front view of the connection device according to fig. 4, an

Fig. 6 is a front view of the connector piece of fig. 5 including the connector link received.

Detailed Description

Fig. 1 to 3 show the basic design of a fastening device 20 according to the invention on a construction machine 10. The construction machine 10 (only partially shown) comprises a pile driving unit 12, which can comprise an unbalancing element that can be rotatably driven in a manner known in principle. A hydraulic clamping device 13 is arranged on a lower region of the pile driving unit 12, by means of which the civil engineering element 5 (which in the embodiment shown is a sheet pile) can be clamped firmly between the two clamping jaws.

In order to insert the pile-shaped civil engineering element 5 into the clamping device 13, a first insertion wing 14 and a second insertion wing 15 are arranged on the lower end of the pile driving unit 12, which insertion wings together form an approximately V-shaped receiving groove. In order to additionally fix the position of civil engineering element 5, a fixing device 20 according to the invention is provided.

The fixing means 20 comprise a flexible fixing element 22, which in the embodiment shown is designed as a chain. The first end of the chain is fastened to the first insertion wing 14, and thus to the construction machine 10, by means of the plate-like fastening element 28. An insulating layer 29 can be arranged between fastening element 28 and first insertion wing 14, by means of which insulating layer fastening element 28 and thus flexible fastening element 22 are electrically insulated with respect to work machine 10.

Attached to the second end of the flexible fixation element 22 is a connecting link 24, which is formed as an approximately T-shaped handle. As shown clearly in fig. 2 and 3, fixing link 24 can be pushed through the through hole or fixing lug 7 on pile-shaped civil engineering element 5 and guided towards connecting means 30 on second insertion wing 15. The connecting link 24 can be inserted or pushed into a matching receptacle 32 on the box-shaped connecting means 30, wherein the connecting link 24 can be latched in the connecting means 30. Fig. 4 and 5 show the box-shaped connection device 30 in a ready-to-receive state. In this case, the block housing 31 comprises a trough-like receptacle 32 for receiving the connecting link 24. Receptacle 32 is open on the side remote from the civil engineering element 5 to be clamped.

Furthermore, a groove 33 is cut into the underside of the housing 31, the groove width of which is designed so as to be smaller than the receiving area of the receptacle 32 located above it. In this case, two lateral rail-like resting portions 35 are formed, on which the handle-like connecting links 24 can rest. The rest 35 can be designed with an upwardly projecting shoulder 37 towards the open side.

A proximity sensor 42 as the detection unit 40 is inserted into a corresponding positioning hole on the upper surface of the housing 31. The proximity sensor 42 is designed to recognize the presence of the connecting link 24 in the receptacle 32 of the connecting means 30. Furthermore, a vertically displaceable locking bolt 34 comprising an upper actuation plate 36 protrudes from a positioning hole on the upper surface of the housing 31. The locking bolt 34, including the actuation plate 36, is designed for mechanical operation by hand or by means of an actuation tool. However, it is also possible to provide active means (not shown), in particular actuating members such as pneumatic or hydraulic actuating cylinders, for the purpose of actuation.

Fig. 6 shows the state of the fixing means 20, in which the T-shaped connecting links 24 of the chain-like flexible fixing elements 22 are inserted into the receptacles 32 of the connecting means 30. To secure the connecting link 24 in place in the receptacle 32, the locking bolt 34 is adjusted downwardly from the retracted position into the locked position. In this position, the detection unit 40 can detect both the presence of the connecting link 24 in the connecting means 30 and the adjustment of the locking bolt 34 in the locked position by means of the proximity sensor 42.

In this state, detection unit 40 is able to output a signal to the control unit, which signals that connecting link 24 is correctly attached in connecting device 30 and, therefore, that civil engineering element 5 is correctly fixed by flexible fixing element 22.