CN111998533A

CN111998533A - Construction machine with heatable bearing structure

Info

Publication number: CN111998533A
Application number: CN202010803322.5A
Authority: CN
Inventors: 孙罗飞
Original assignee: Individual
Current assignee: Kochem Electric Appliance Co Ltd
Priority date: 2020-08-11
Filing date: 2020-08-11
Publication date: 2020-11-27
Anticipated expiration: 2040-08-11
Also published as: CN111998533B; CN113465176A

Abstract

The invention discloses a construction machine with a heatable bearing structure, relates to the technical field of construction machines, and solves the problems that the weight and the cost of equipment are increased, a driving motor is required to be arranged for the equipment due to the large volume of a rotating mechanism, and the driving energy consumption is high in the conventional construction heating machine, wherein the rotating mechanism is mostly provided with a rotating stirring structure for uniformly heating glue water. The utility model provides a construction machinery with heatable bearing structure, includes gluey case, the heat transfer case includes circulating pump and heating pipe, the whole rectangle structure that is of heat transfer case, the symmetry is locked and is worn to be equipped with two heating pipes about it on the lateral wall, and this two heating pipes are to violently inserting the inside that supports in gluey case, and the right side top position locking of heat transfer case installs a circulating pump. According to the invention, through the skillful and reasonable linkage structure, the water circulation power of the circulating pump is fully utilized, and the additional arrangement of a stirring power source for the two rows of transmission shafts is omitted, so that the manufacturing cost control is facilitated, and the device has a better application prospect.

Description

Construction machine with heatable bearing structure

Technical Field

The invention relates to the technical field of construction machinery, in particular to a construction machinery with a heatable bearing structure.

Background

Building glue is the essential material in building engineering, uses in the middle of each process of building engineering, consequently has very extensive application, and building glue needs to use special injection equipment, for example in the aspects such as bond at girder joint, the partition wall reinforcing bar of antidetonation frame construction bonds, the bonding of mating formation of interior outer wall insulation material, all kinds of pipe-line erection bonds, building maintenance, transformation, consolidate and mend application in the wall, for avoid in the use glue solidify can be equipped with heating equipment in the great majority.

For example, patent No. CN201821675994.7 discloses a heating device for building glue, which comprises: the heating device comprises a device main body, a base and a mechanical pressure relief opening, wherein a heating chamber is arranged inside the device main body, a heat conduction layer is arranged on the side wall and the bottom of the heating chamber, a feeding pipe is arranged on one side of the heating chamber and penetrates through the heat conduction layer and communicated with the heating chamber, a top layer is arranged on the top end of the heating chamber, a gas collection chamber is arranged on the top end of the top layer, the heating chamber is far away from one side of the feeding pipe and is provided with a pressure relief pipe, the device main body is close to one side of the pressure relief pipe in a clamped mode, the mechanical pressure relief opening is connected with the bottom end of the device main body, a heating motor is arranged inside the. The invention avoids the defect of heating of the traditional heating vessel, so that the building glue is heated more uniformly, and the heating efficiency is greatly improved by adopting the heat-conducting filler.

The existing building heating machine is mostly provided with a rotary stirring structure for uniformly heating glue, the rotary mechanism is large in size, the weight and the cost of equipment can be increased, a driving motor is required to be arranged for the rotary mechanism, the driving energy consumption is high, energy conservation and emission reduction are not facilitated, and a driving force source for uniformly stirring a heating medium is required to be arranged for the heating mechanism, so that the energy consumption is further increased.

Disclosure of Invention

The invention aims to provide a construction machine with a heatable bearing structure, and aims to solve the problems that a rotary stirring structure is mostly arranged to uniformly heat glue, the volume of a rotary mechanism is large, the weight and the cost of equipment are increased, and a driving motor is required to be arranged for the rotary mechanism, so that the driving energy consumption is high.

In order to achieve the purpose, the invention provides the following technical scheme: a construction machine with a heatable bearing structure comprises a rubber box, wherein the heat exchange box comprises a circulating pump and heating pipes, the whole heat exchange box is of a rectangular structure, the left side wall and the right side wall of the heat exchange box are symmetrically locked and penetrated with two heating pipes, the two heating pipes are oppositely and transversely inserted and supported in the rubber box, and the top end of the right side of the heat exchange box is locked and provided with a circulating pump; two rows of vertical support transmission shafts with six positions are symmetrically and rotatably arranged on the rubber box in a penetrating manner, a main body supporting piece is welded at the vertical support in the middle position of the top end of the heat exchange box, a rectangular rubber box is rotatably arranged at the top end of the main body supporting piece, and two rectangular driving frames are arranged on the middle section of the main body supporting piece in a penetrating and sliding manner; the rubber box comprises a counterweight iron block, the bottom of the left end of the rubber box is fixedly welded with one counterweight iron block in a hanging mode, the right end of the rubber box is welded with a vertical counterweight water tank in a sealing mode, the counterweight water tank is in conduction connection with the circulating pump through a hose, and three heat exchange water pipes are arranged in the rubber box in a penetrating mode; the right ends of the three heat exchange water pipes are communicated with the counterweight water tank in a penetrating way, the left ends of the three heat exchange water pipes are extended outwards and welded with a T-shaped water distribution pipe, and the T-shaped water distribution pipe is communicated with the heat exchange tank through a hose.

Preferably, the glue box further comprises swing rods, the front end and the rear end of the rotating shaft at the bottom of the glue box are symmetrically welded with the two swing rods downwards, a feed chute is formed in the middle of the top end of the glue box, and a rectangular plug cover is rotatably covered on the feed chute.

Preferably, the counterweight water tank includes upset baffle and gravity ironbar, the whole rectangle structure that is of counterweight water tank, and eccentric commentaries on classics is inserted and is installed a upset baffle in its inner space of half section down, and this upset baffle tail end bottom welding has a gravity ironbar.

Preferably, the counterweight water tank further comprises a barrier strip; the lower half section of inner wall is upper and lower interval welding on around the counter weight water tank has two blend stops, when the upset baffle rotates and arranges horizontal shutoff state in, its head and the tail both ends correspond and lean on the contact with this two blend stops.

Preferably, the main body supporting piece comprises a supporting and blocking piece, two L-shaped supporting and blocking pieces are symmetrically supported and welded on the left side and the right side of the upper half section of the main body supporting piece, and the rubber box can alternately abut against the two L-shaped supporting and blocking pieces when deflecting left and right.

Preferably, the transmission shaft comprises stirring blades, two rows of the transmission shafts are sleeved with a driven pinion, and two rows of the transmission shafts are symmetrically welded with two rows of stirring blades with six positions.

Preferably, the two driving frames are both rectangular structures, a row of toothed sheets are arranged on the outer side supporting rods of the driving frames, and the two racks are correspondingly in meshed contact with the driven pinions at the top ends of the two rows of transmission shafts.

Preferably, the driving frame comprises short clamping rods, two short clamping rods are welded on the inner sides of the middle sections of the supporting rods on the outer sides of the driving frame at intervals, and the bottom sections of the two swing rods penetrate through and are inserted into the clamping grooves between the two groups of short clamping rods.

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

1. according to the invention, the water quantity and weight of the counterweight water tank are increased and decreased and the counterweight iron block is matched for use, so that the glue tank can be driven to swing and deflect in a left-right reciprocating manner, the glue in the glue tank is shaken and stirred uniformly, the glue is heated more uniformly and rapidly, the glue tank is subjected to gravity balancing and swing driving by adopting the circulating circulation of a heating medium, a driving force source additionally arranged for uniform stirring of the glue is saved, the environment-friendly effect of reducing emission and saving energy is achieved, the traditional rotary stirring part is omitted, and the equipment structure and weight are simplified;

2. according to the invention, along with the left-right swinging of the rubber box, the two swing rods can swing to push the two driving frames to reciprocate left and right to perform meshing driving on the two rows of transmission shafts, the two rows of transmission shafts are driven in a linkage manner by utilizing the swinging gravity of the rubber box, the linkage structure is skillful and reasonable in design, the water circulation power of the circulating pump is fully utilized, the additional arrangement of a stirring power source for the two rows of transmission shafts is omitted, the control of the manufacturing cost is facilitated, and the application prospect is better.

Drawings

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

FIG. 2 is a schematic bottom three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the rubber box of the present invention;

FIG. 4 is a schematic view of the rotatable mounting of the transmission shaft according to the present invention;

FIG. 5 is a schematic view of the through installation of the driving frame according to the present invention;

FIG. 6 is a schematic diagram of a driving frame according to the present invention;

FIG. 7 is a schematic view of a half-section internal structure of the counterweight water tank of the present invention;

FIG. 8 is a schematic view of the internal structure of the heat exchange box of the present invention;

in the figure: 1. a glue box; 101. a counterweight iron block; 102. a swing rod; 2. a heat exchange water pipe; 3. a counterweight water tank; 301. turning over the baffle; 302. a gravity iron bar; 303. blocking strips; 4. a body support; 401. a support member; 5. a heat exchange box; 501. a circulation pump; 502. heating a tube; 6. a drive shaft; 601. stirring the toothed sheet; 7. a drive frame; 701. short clamping bars.

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.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a construction machine with a heatable bearing structure comprises a rubber box 1, wherein a heat exchange box 5 comprises a circulating pump 501 and heating pipes 502, the whole heat exchange box 5 is of a rectangular structure, the left side wall and the right side wall of the heat exchange box are symmetrically locked and penetrated with two heating pipes 502, the two heating pipes 502 are oppositely and transversely inserted and supported in the rubber box 1, and the top end of the right side of the heat exchange box 5 is locked and provided with the circulating pump 501; two rows of vertical support transmission shafts 6 with six positions are symmetrically and rotatably arranged on the rubber box 1 in a penetrating manner, a main body supporting piece 4 is welded at the vertical support in the middle position of the top end of the heat exchange box 5, a rectangular rubber box 1 is rotatably arranged at the top end of the main body supporting piece 4, and two rectangular driving frames 7 are slidably arranged on the middle section of the main body supporting piece 4 in a penetrating manner; the glue box 1 comprises a counterweight iron block 101, the counterweight iron block 101 is fixedly welded at the bottom of the left end of the glue box 1 in a hanging mode, a vertical counterweight water tank 3 is welded at the right end of the glue box 1 in a sealing mode, the counterweight water tank 3 is in conduction connection with the circulating pump 501 through a hose, and three heat exchange water pipes 2 are arranged in the glue box 1 in a penetrating mode; the right ends of the three heat exchange water pipes 2 are communicated with the counterweight water tank 3 in a penetrating way, the left ends of the three heat exchange water pipes are extended outwards and welded with a T-shaped water distribution pipe, and the T-shaped water distribution pipe is communicated with the heat exchange tank 5 through a hose; the glue box 1 further comprises swing rods 102, the front end and the rear end of a rotating shaft at the bottom of the glue box 1 are symmetrically welded with the two swing rods 102 downwards, a feeding groove is formed in the middle of the top end of the glue box 1, and a rectangular plug cover is rotatably covered on the feeding groove; the two driving frames 7 are both rectangular structures, a row of toothed sheets are arranged on the supporting rods on the outer sides of the driving frames, the two toothed sheets are correspondingly in meshed contact with driven pinions at the top ends of the two rows of transmission shafts 6, and the two driving frames 7 can slide back and forth to carry out meshed driving on the two rows of transmission shafts 6.

Further, counter weight water tank 3 is including upset baffle 301 and

gravity ironbar

302, 3 whole rectangle structures that are of counter weight water tank, eccentric commentaries on classics is inserted and is installed a upset baffle 301 in the inner space of its lower half section, this upset baffle 301 tail end bottom welding has a gravity ironbar 302, increase and decrease and cooperation counter weight ironbar 101 through 3 water yields of counter weight water tank and weight use together, can order about gluey case 1 reciprocating swing deflection by gravity, will glue 1 inside glue of case and rock and homogenize, it is even more even quick to make glue be heated, and adopt heating medium circulation to carry out gravity balancing and swing drive and glue case 1, save and additionally set up driving power source for the even stirring of glue, have the environmental protection efficiency that reduces row energy-saving, save and set up traditional rotatory stirring part, equipment structure and weight have been simplified.

Further, the counterweight water tank 3 further comprises a barrier strip 303; two barrier strips 303 are welded on the lower half section of the front inner wall and the rear inner wall of the counterweight water tank 3 at intervals from top to bottom, when the turnover baffle plate 301 rotates and is arranged in a horizontal plugging state, the head end and the tail end of the turnover baffle plate correspond to the two barrier strips 303 and are abutted and contacted, and the two barrier strips 303 can abut and limit the turnover baffle plate 301 to be kept in the horizontal plugging state.

Further, the main body supporting part 4 comprises a supporting and blocking part 401, the left side and the right side of the upper half section of the main body supporting part 4 are symmetrically supported and welded with two L-shaped supporting and blocking parts 401, when the rubber box 1 deflects left and right, the rubber box can be alternately abutted against the two L-shaped supporting and blocking parts 401, the two L-shaped supporting and blocking parts 401 can limit and block the rubber box 1, and the interference downward swinging rotation of the rubber box 1 is avoided.

Further, the transmission shaft 6 comprises stirring teeth 601, two rows of driven pinions are sleeved on the top ends of the transmission shafts 6, the two rows of stirring teeth 601 are symmetrically welded on the bottom section of the transmission shaft 6, the two rows of transmission shafts 6 can stir the medium in the heat exchange box 5, and the heat exchange medium and the two heating pipes 502 are fully contacted and heated.

Further, the driving frame 7 comprises short clamping rods 701, two short clamping rods 701 are welded on the inner sides of the middle sections of the supporting rods on the outer sides of the driving frame 7 at intervals, the bottom sections of the two swing rods 102 penetrate through a clamping groove inserted between the two groups of short clamping rods 701 in a top insertion mode, left-right swinging of the rubber box 1 is followed, the two swing rods 102 can swing to push the two driving frames 7 to perform meshing driving on the two rows of transmission shafts 6 in a left-right reciprocating sliding mode, the two rows of transmission shafts 6 are driven in a linkage mode by utilizing the swinging gravity of the rubber box 1, the linkage structure design is ingenious and reasonable in second, water flow power of the circulating pump 501 is fully utilized, an additional stirring power source for the two rows of transmission shafts 6 is omitted, manufacturing cost control is facilitated, and the application prospect is good.

The working principle is as follows: when the water tank is used, firstly, glue is filled into the glue tank 1, then the circulating pump 501 and the two heating pipes 502 are started, the circulating pump 501 can circularly suck a heating medium in the heat exchange tank 5 and heat the glue in the glue tank 1 through the three heat exchange water pipes 2, when the weight of continuously stored water in the counterweight water tank 3 is increased, the weight of the right half section of the glue tank 1 is larger than that of the left half section, the glue tank 1 deflects towards the lower right, when the water level in the counterweight water tank 3 continuously rises to reach a critical value, the water pressure gravity borne by the longer section of the turnover baffle 301 is larger than that of the shorter section and the balancing gravity of the gravity iron bar 302, at the moment, the turnover baffle 301 swings downwards to dump and reduce the weight of the stored water in the counterweight water tank 3, so that the weight of the right half section of the glue tank 1 is smaller than that of the left half section to perform turnover left swing reset, the process is circularly performed, the back-and forth swing driving of the glue, and following the left-right swing of the rubber box 1, the two swing rods 102 can swing to push the two driving frames 7 to reciprocate left and right to perform meshing driving on the two rows of transmission shafts 6, and the two rows of transmission shafts 6 can stir the medium in the heat exchange box 5, so that the heat exchange medium is fully contacted with the two heating pipes 502 for heating.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A construction machine having a heatable bearing structure, characterized in that: the heat exchange box comprises a rubber box (1), wherein the heat exchange box (5) comprises a circulating pump (501) and heating pipes (502), the heat exchange box (5) is integrally of a rectangular structure, the left side wall and the right side wall of the heat exchange box are symmetrically locked and penetrated with the two heating pipes (502), the two heating pipes (502) are oppositely and transversely inserted and supported in the rubber box (1), and the top end of the right side of the heat exchange box (5) is locked and provided with the circulating pump (501); two rows of vertical support transmission shafts (6) with six positions are symmetrically and rotatably arranged on the rubber box (1) in a penetrating manner, a main body supporting piece (4) is welded at the middle position of the top end of the heat exchange box (5) in a vertical support manner, a rectangular rubber box (1) is rotatably arranged at the top end of the main body supporting piece (4), and two rectangular driving frames (7) are slidably arranged on the middle section of the main body supporting piece (4) in a penetrating manner; the glue box (1) comprises a counterweight iron block (101), the counterweight iron block (101) is fixedly welded at the bottom of the left end of the glue box (1) in a hanging mode, a vertical counterweight water tank (3) is welded at the right end of the glue box (1) in a sealing mode, the counterweight water tank (3) is in conduction connection with a circulating pump (501) through a hose, and three heat exchange water pipes (2) are arranged in the glue box (1) in a penetrating mode; the right ends of the three heat exchange water pipes (2) are communicated with the counterweight water tank (3), the left ends of the three heat exchange water pipes are convexly extended and welded to be communicated with a T-shaped water distribution pipe, and the T-shaped water distribution pipe is communicated with the heat exchange box (5) through a hose.

2. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the glue box (1) further comprises swing rods (102), the swing rods (102) are symmetrically welded downwards at the front end and the rear end of a rotating shaft at the bottom of the glue box (1), a feed chute is formed in the middle of the top end of the glue box (1), and a rectangular blocking cover is rotatably covered on the feed chute.

3. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the counterweight water tank (3) comprises a turnover baffle (301) and a gravity iron bar (302), the counterweight water tank (3) is integrally of a rectangular structure, the turnover baffle (301) is eccentrically inserted into the inner space of the lower half section of the counterweight water tank, and the gravity iron bar (302) is welded at the bottom of the tail end of the turnover baffle (301).

4. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the counterweight water tank (3) also comprises a barrier strip (303); the lower half section of inner wall is around counter weight water tank (3) and is the interval welding from top to bottom has two blend stops (303), when upset baffle (301) rotate and arrange horizontal shutoff state in, its head and the tail both ends correspond and lean on the contact with this two blend stops (303).

5. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the main body supporting piece (4) comprises supporting and blocking pieces (401), the left side and the right side of the upper half section of the main body supporting piece (4) are symmetrically supported and welded with two L-shaped supporting and blocking pieces (401), and the rubber box (1) can be alternatively abutted against the two L-shaped supporting and blocking pieces (401) when deflecting left and right.

6. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the transmission shaft (6) comprises stirring blades (601), the top ends of the two rows of transmission shafts (6) are respectively sleeved with a driven pinion, and the bottom sections of the two rows of transmission shafts (6) are symmetrically welded with two rows of stirring blades (601) with six positions.

7. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the two driving frames (7) are both rectangular structures, a row of tooth sheets are arranged on the outer side supporting rods, and the two tooth sheets are correspondingly in meshed contact with driven pinions at the top ends of the two rows of transmission shafts (6).

8. A construction machine having a heatable bearing structure according to claim 1, characterized in that: the driving frame (7) comprises short clamping rods (701), the inner sides of the middle sections of the supporting rods at the outer sides of the two driving frames (7) are respectively welded with the two short clamping rods (701) at intervals, and the bottom sections of the two swing rods (102) penetrate through a clamping groove between the two groups of short clamping rods (701) in a top-inserted mode.