CN207649411U - Reverse shovel grab cooler - Google Patents

Abstract

Reverse shovel grab cooler provided by the utility model, belong to cooler field, by the way that several cooling ontologies are set up in parallel, increase the length of high-temperature water fin channels, optimize the engagement sequence of cooling medium and different cooling ontologies, increase flowing time of the high-temperature water in cooler in limited volume, ensures being fully cooled for high-temperature water, improve cooling efficiency.

Description

Reverse shovel grab cooler

Technical field

The utility model is related to a kind of cooler more particularly to a kind of reverse shovel grab coolers.

Background technology

Reverse shovel grab is our most common shoveling equipment, is mainly used for work surface foundation pit below (slot) or pipe Ditch, the excavation of independent foundation pit and side slope, rectilinear curve excavation, the excavation of holding certain angle, super deep trench excavation and the excavation of ditch slope etc.. Reverse shovel grab needs to cool down the cooling water of high temperature using strip-fin oil cooler, so that reverse shovel grab can High-efficiency operation.Although existing strip-fin oil cooler cooling effect will be got well relative to the cooling effect of other kinds of cooler, But it is constrained to the volume of reverse shovel grab, the volume of strip-fin oil cooler can not be too big, exists so as to cause the water of high temperature The residence time is shorter in cooler, can not be fully cooled, and influences the normal use of reverse shovel grab.

Utility model content

In view of the above problems, a kind of reverse shovel grab cooler provided by the utility model, it is existing to solve There is the problem of reverse shovel grab cooling is not enough in technology, increases stream of the high-temperature water in cooler in limited volume The dynamic time, ensures being fully cooled for high-temperature water, improve cooling efficiency.

To achieve the above object, the technical solution that the utility model is taken is：

Reverse shovel grab cooler provided by the utility model, if including several water cooling ontologies, solid carbon dioxide connection envelope Head, water go out end socket into end socket and water；Several water cooling ontology front to backs are close to being set up in parallel；Several water cooling ontologies Condensation channel be interconnected, the flow direction of the cooling medium in the condensation channel is from front to back；The water cooling of forefront Ontology is preceding water cooling ontology, and the water cooling ontology of rearmost is rear water cooling ontology；The water goes out envelope into end socket and the water One end of the aquaporin of the salable water cooling ontology of head；The water connects the salable two adjacent water coolings of end socket The aquaporin of ontology homonymy；

Wherein, if the quantity of water cooling ontology is odd number, the water is sealed in a left side for the rear water cooling ontology into end socket Side, the water go out the right side that end socket is sealed in the preceding water cooling ontology, and adjacent water cooling ontology is close by water connection end socket Envelope connection；

If the quantity of water cooling ontology is even number, the water is sealed in the right side of the rear water cooling ontology, institute into end socket It states water and goes out the right side that end socket is sealed in the preceding water cooling ontology, adjacent water cooling ontology connects end socket sealing by water and connects It is logical.

Reverse shovel grab cooler provided by the utility model, it is preferable that the water is into being provided with into water on end socket Mouthful；The water, which goes out, is provided with water outlet on end socket.

Reverse shovel grab cooler provided by the utility model, it is preferable that the quantity of the water cooling ontology is four.

Reverse shovel grab cooler provided by the utility model, it is preferable that the upper end of several water cooling ontologies Face is welded in same upper sealing plate；The lower face of several water cooling ontologies is welded in sealing plate once.

Above-mentioned technical proposal has the following advantages that or advantageous effect：

When high-temperature water flows into from water into end socket, goes out end socket outflow from water, cooling medium cooling at first is preceding water cooling Water in ontology, then the water into each water cooling ontology of postcooling, the water after finally cooling down in water cooling ontology lead to successively Such structure setting is crossed, one is the increase in the length of thermal medium fin channels, substantially prolongs flowing of the water in cooler Time so that cooling medium can be sufficiently cooled high-temperature water, avoid the need to improve cooling effect by cooler just Do excessively huge of face area or in order to which the case where facing volume compromises and reduces cooler effect occurs；Second is that improving cooling effect Fruit, temperature gradually rises the water in several water cooling ontologies from front to back, and cooling medium enters after cooler when temperature is minimum Cooling is the minimum water of temperature, and what is cooled down in temperature highest is the highest water of temperature, and it is every can to ensure that cooling medium enters One water cooling ontology all plays best cooling effect.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, the utility model and its spy Sign, shape and advantage will become more apparent.Identical label indicates identical part in whole attached drawings.Do not press deliberately Attached drawing is drawn according to ratio, it is preferred that emphasis is the purport of the utility model is shown.

Fig. 1 is the top view cross section structural schematic diagram for the reverse shovel grab cooler that the utility model embodiment 1 provides；

Fig. 2 is the top view cross section structural schematic diagram for the reverse shovel grab cooler that the utility model embodiment 2 provides.

Specific implementation mode

The utility model is further described with specific embodiment below in conjunction with the accompanying drawings, but not as this practicality Novel restriction.

Embodiment 1：

As shown in Figure 1, the reverse shovel grab cooler that the utility model embodiment 1 provides, including several water coolings If ontology 1, solid carbon dioxide connection end socket 2, water go out end socket 4 into end socket 3 and water；Several 1 front to backs of water cooling ontology are close to being set up in parallel； The condensation channel of several water cooling ontologies 1 is interconnected, and the flow direction of the cooling medium in condensation channel is from front to back；Before most The water cooling ontology of side is preceding water cooling ontology 11, and the water cooling ontology of rearmost is rear water cooling ontology 12；Water into end socket 3 with Water goes out one end of the aquaporin of the salable water cooling ontology 1 of end socket 4；Water connects 2 salable two water cooling sheets of end socket The aquaporin of 1 homonymy of body；

Water is sealed in the right side of rear water cooling ontology 12 into end socket 3, and water goes out the right side of water cooling ontology 11 before end socket 4 is sealed in Side, adjacent water cooling ontology 1 connect the sealing connection of end socket 2 by water；

Water is into being provided with water inlet 31 on end socket 3；Water goes out on end socket 4 to be provided with water outlet 41；

The quantity of water cooling ontology 1 is four；

The upper surface of several water cooling ontologies 1 is welded in same upper sealing plate；It welds the lower face of several water cooling ontologies 1 It is connected to sealing plate once.

When high-temperature water flows into from water into end socket 3, goes out the outflow of end socket 4 from water, cooling medium cooling at first is preceding water cooling But the water in ontology 11, the then water into each water cooling ontology of postcooling 1 successively, after finally cooling down in water cooling ontology 12 Water, be arranged through this structure, one is the increase in the length of thermal medium fin channels, substantially prolongs water in cooler Flowing time so that cooling medium can be sufficiently cooled high-temperature water, avoid the need to improve cooling effect will be cold But do excessively huge of device front face area or in order to which the case where facing volume compromises and reduces cooler effect occurs；Second is that improving Cooling effect, temperature gradually rises the water in several water cooling ontologies 1 from front to back, and cooling medium enters after cooler in temperature What is cooled down when minimum is the minimum water of temperature, and what is cooled down in temperature highest is the highest water of temperature, can ensure cooling medium Best cooling effect is all played into each water cooling ontology.

Embodiment 2：

As shown in Fig. 2, the reverse shovel grab cooler that the utility model embodiment 2 provides, including several water coolings If ontology 1, solid carbon dioxide connection end socket 2, water go out end socket 4 into end socket 3 and water；Several 1 front to backs of water cooling ontology are close to being set up in parallel； The condensation channel of several water cooling ontologies 1 is interconnected, and the flow direction of the cooling medium in condensation channel is from front to back；Before most The water cooling ontology of side is preceding water cooling ontology 11, and the water cooling ontology of rearmost is rear water cooling ontology 12；Water into end socket 3 with Water goes out one end of the aquaporin of the salable water cooling ontology 1 of end socket 4；Water connects 2 salable two water cooling sheets of end socket The aquaporin of 1 homonymy of body；

Water is sealed in the left side of rear water cooling ontology 12 into end socket 3, and water goes out the right side of water cooling ontology 11 before end socket 4 is sealed in Side, adjacent water cooling ontology 1 connect the sealing connection of end socket 2 by water；

Water is into being provided with water inlet 31 on end socket 3；Water goes out on end socket 4 to be provided with water outlet 41；

The quantity of water cooling ontology 1 is five；

The upper surface of several water cooling ontologies 1 is welded in same upper sealing plate 5；The lower face of several water cooling ontologies 1 is equal It is welded in sealing plate 6 once.

When high-temperature water flows into from water into end socket 3, goes out the outflow of end socket 4 from water, cooling medium cooling at first is preceding water cooling But the water in ontology 11, the then water into each water cooling ontology of postcooling 1 successively, after finally cooling down in water cooling ontology 12 Water, be arranged through this structure, one is the increase in the length of thermal medium fin channels, substantially prolongs water in cooler Flowing time so that cooling medium can be sufficiently cooled high-temperature water, avoid the need to improve cooling effect will be cold But do excessively huge of device front face area or in order to which the case where facing volume compromises and reduces cooler effect occurs；Second is that improving Cooling effect, temperature gradually rises the water in several water cooling ontologies 1 from front to back, and cooling medium enters after cooler in temperature What is cooled down when minimum is the minimum water of temperature, and what is cooled down in temperature highest is the highest water of temperature, can ensure cooling medium Best cooling effect is all played into each water cooling ontology.

In conclusion reverse shovel grab cooler provided by the utility model, efficiently solves skill in the prior art The problem of reverse shovel grab cooling is not enough in art, when increasing flowing of the high-temperature water in cooler in limited volume Between, ensure being fully cooled for high-temperature water, improves cooling efficiency.

It should be appreciated by those skilled in the art that those skilled in the art combine the prior art and above-described embodiment can be real The existing change case, it will not be described here.Such change case has no effect on the substantive content of the utility model, not superfluous herein It states.

The preferred embodiment of the utility model is described above.It is to be appreciated that the utility model not office It is limited to above-mentioned particular implementation, wherein the equipment and structure be not described in detail to the greatest extent are construed as with the common side in this field Formula is practiced；Any technical person familiar with the field, do not depart from technical solutions of the utility model make it is many possible Changes and modifications, or it is revised as the equivalent embodiment of equivalent variations, this has no effect on the substantive content of the utility model.Therefore, Every content without departing from technical solutions of the utility model, it is made to the above embodiment according to the technical essence of the utility model Any simple modifications, equivalents, and modifications, still fall within technical solutions of the utility model protection in the range of.

Claims (4)

1. a kind of reverse shovel grab cooler, which is characterized in that if including several water cooling ontologies, solid carbon dioxide connection end socket, Water goes out end socket into end socket and water；Several water cooling ontology front to backs are close to being set up in parallel；Several water cooling ontologies Condensation channel is interconnected, and the flow direction of the cooling medium in the condensation channel is from front to back；The water cooling sheet of forefront Body is preceding water cooling ontology, and the water cooling ontology of rearmost is rear water cooling ontology；The water goes out end socket into end socket and the water One end of the aquaporin of salable water cooling ontology；The water connects salable two adjacent water cooling sheets of end socket The aquaporin of body homonymy；

Wherein, if the quantity of water cooling ontology is odd number, the water is sealed in the left side of the rear water cooling ontology, institute into end socket It states water and goes out the right side that end socket is sealed in the preceding water cooling ontology, adjacent water cooling ontology connects end socket sealing by water and connects It is logical；

If the quantity of water cooling ontology is even number, the water is sealed in the right side of the rear water cooling ontology, the water into end socket Go out the right side that end socket is sealed in the preceding water cooling ontology, adjacent water cooling ontology connects end socket sealing connection by water.

2. reverse shovel grab cooler as described in claim 1, which is characterized in that the water into be provided on end socket into The mouth of a river；The water, which goes out, is provided with water outlet on end socket.

3. reverse shovel grab cooler as claimed in claim 2, which is characterized in that the quantity of the water cooling ontology is Four.

4. the reverse shovel grab cooler as described in any one of claims 1 to 3, which is characterized in that several described The upper surface of water cooling ontology is welded in same upper sealing plate；The lower face of several water cooling ontologies is welded in once Sealing plate.